Author: "Lester, Mark" / Publication Type: Electronic Resources - Searchworks@Jio Institute Digital Library Search Results

Your search keyword '"Lester, Mark"' showing total 121 results

Start Over Author "Lester, Mark" Publication Type Electronic Resources

121 results on '"Lester, Mark"'

1. Future opportunities in solar system plasma science through ESA's exploration programme

Author: Holmström, Mats, Lester, Mark, Sanchez-Cano, Beatriz, Holmström, Mats, Lester, Mark, and Sanchez-Cano, Beatriz
Abstract: The solar wind interacts with all solar system bodies, inducing different types of dynamics depending on their atmospheric and magnetic environments. We here outline some key open scientific questions related to this interaction, with a focus on the Moon and Mars, that may be addressed by future Mars and Moon missions by the European Space Agency's Human and Robotic Exploration programme. We describe possible studies of plasma interactions with bodies with and without an atmosphere, using multi-point and remote measurements, and energetic particle observations, as well as recommend some actions to take.
Published: 2024
Full Text: View/download PDF

2. Gravity waves generated by the Hunga Tonga–Hunga Ha′apai volcanic eruption and their global propagation in the mesosphere/lower thermosphere observed by meteor radars and modeled with the High-Altitude general Mechanistic Circulation Model

Author: Stober, Gunter, Vadas, Sharon L., Becker, Erich, Liu, Alan, Kozlovsky, Alexander, Janches, Diego, Qiao, Zishun, Krochin, Witali, Shi, Guochun, Yi, Wen, Zeng, Jie, Brown, Peter, Vida, Denis, Hindley, Neil, Jacobi, Christoph, Murphy, Damian, Buriti, Ricardo, Andrioli, Vania, Batista, Paulo, Marino, John, Palo, Scott, Thorsen, Denise, Tsutsumi, Masaki, Gulbrandsen, Njål, Nozawa, Satonori, Lester, Mark, Baumgarten, Kathrin, Kero, Johan, Belova, Evgenia, Mitchell, Nicholas, Moffat-Griffin, Tracy, Li, Na, Stober, Gunter, Vadas, Sharon L., Becker, Erich, Liu, Alan, Kozlovsky, Alexander, Janches, Diego, Qiao, Zishun, Krochin, Witali, Shi, Guochun, Yi, Wen, Zeng, Jie, Brown, Peter, Vida, Denis, Hindley, Neil, Jacobi, Christoph, Murphy, Damian, Buriti, Ricardo, Andrioli, Vania, Batista, Paulo, Marino, John, Palo, Scott, Thorsen, Denise, Tsutsumi, Masaki, Gulbrandsen, Njål, Nozawa, Satonori, Lester, Mark, Baumgarten, Kathrin, Kero, Johan, Belova, Evgenia, Mitchell, Nicholas, Moffat-Griffin, Tracy, and Li, Na
Abstract: The Hunga Tonga–Hunga Ha′apai volcano erupted on 15 January 2022, launching Lamb waves and gravity waves into the atmosphere. In this study, we present results using 13 globally distributed meteor radars and identify the volcanogenic gravity waves in the mesospheric/lower thermospheric winds. Leveraging the High-Altitude Mechanistic general Circulation Model (HIAMCM), we compare the global propagation of these gravity waves. We observed an eastward-propagating gravity wave packet with an observed phase speed of 240 ± 5.7 m s−1 and a westward-propagating gravity wave with an observed phase speed of 166.5 ± 6.4 m s−1. We identified these waves in HIAMCM and obtained very good agreement of the observed phase speeds of 239.5 ± 4.3 and 162.2 ± 6.1 m s−1 for the eastward the westward waves, respectively. Considering that HIAMCM perturbations in the mesosphere/lower thermosphere were the result of the secondary waves generated by the dissipation of the primary gravity waves from the volcanic eruption, this affirms the importance of higher-order wave generation. Furthermore, based on meteor radar observations of the gravity wave propagation around the globe, we estimate the eruption time to be within 6 min of the nominal value of 15 January 2022 04:15 UTC, and we localized the volcanic eruption to be within 78 km relative to the World Geodetic System 84 coordinates of the volcano, confirming our estimates to be realistic.
Published: 2024

3. Solar Energetic Particle Events Detected in the Housekeeping Data of the European Space Agency's Spacecraft Flotilla in the Solar System

Author: Sánchez-Cano, Beatriz, Witasse, Olivier, Knutsen, Elise W., Meggi, Dikshita, Viet, Shayla, Lester, Mark, Wimmer-Schweingruber, Robert F., Pinto, Marco, Moissl, Richard, Benkhoff, Johannes, Opgenoorth, Hermann J., Auster, Uli, de Brujine, Jos, Collins, Peter, De Marchi, Guido, Fischer, David, Futaana, Yoshifumi, Godfrey, James, Heyner, Daniel, Holmstrom, Mats, Johnstone, Andrew, Joyce, Simon, Lakey, Daniel, Martinez, Santa, Milligan, David, Montagnon, Elsa, Müller, Daniel, Livi, Stefano A., Prusti, Timo, Raines, Jim, Richter, Ingo, Schmid, Daniel, Schmitz, Peter, Svedhem, Håkan, Taylor, Matt G. G. T., Tremolizzo, Elena, Titov, Dimitri, Wilson, Colin, Wood, Simon, Zender, Joe, Sánchez-Cano, Beatriz, Witasse, Olivier, Knutsen, Elise W., Meggi, Dikshita, Viet, Shayla, Lester, Mark, Wimmer-Schweingruber, Robert F., Pinto, Marco, Moissl, Richard, Benkhoff, Johannes, Opgenoorth, Hermann J., Auster, Uli, de Brujine, Jos, Collins, Peter, De Marchi, Guido, Fischer, David, Futaana, Yoshifumi, Godfrey, James, Heyner, Daniel, Holmstrom, Mats, Johnstone, Andrew, Joyce, Simon, Lakey, Daniel, Martinez, Santa, Milligan, David, Montagnon, Elsa, Müller, Daniel, Livi, Stefano A., Prusti, Timo, Raines, Jim, Richter, Ingo, Schmid, Daniel, Schmitz, Peter, Svedhem, Håkan, Taylor, Matt G. G. T., Tremolizzo, Elena, Titov, Dimitri, Wilson, Colin, Wood, Simon, and Zender, Joe
Abstract: Despite the growing importance of planetary Space Weather forecasting and radiation protection for science and robotic exploration and the need for accurate Space Weather monitoring and predictions, only a limited number of spacecraft have dedicated instrumentation for this purpose. However, every spacecraft (planetary or astronomical) has hundreds of housekeeping sensors distributed across the spacecraft, some of which can be useful to detect radiation hazards produced by solar particle events. In particular, energetic particles that impact detectors and subsystems on a spacecraft can be identified by certain housekeeping sensors, such as the Error Detection and Correction (EDAC) memory counters, and their effects can be assessed. These counters typically have a sudden large increase in a short time in their error counts that generally match the arrival of energetic particles to the spacecraft. We investigate these engineering datasets for scientific purposes and perform a feasibility study of solar energetic particle event detections using EDAC counters from seven European Space Agency Solar System missions: Venus Express, Mars Express, ExoMars-Trace Gas Orbiter, Rosetta, BepiColombo, Solar Orbiter, and Gaia. Six cases studies, in which the same event was observed by different missions at different locations in the inner Solar System are analyzed. The results of this study show how engineering sensors, for example, EDAC counters, can be used to infer information about the solar particle environment at each spacecraft location. Therefore, we demonstrate the potential of the various EDAC to provide a network of solar particle detections at locations where no scientific observations of this kind are available.
Published: 2023
Full Text: View/download PDF

4. Signatures of wedgelets over Fennoscandia during the St Patrick s Day Storm 2015

Author: Schillings, Audrey, Palin, Laurianne, Bower, Gemma E., Opgenoorth, Hermann J., Milan, Steve E., Kauristie, Kirsti, Juusola, Liisa, Reeves, Geoff D., Henderson, Mike G., Paxton, Larry J., Lester, Mark, Hamrin, Maria, Van De Kamp, Max, Schillings, Audrey, Palin, Laurianne, Bower, Gemma E., Opgenoorth, Hermann J., Milan, Steve E., Kauristie, Kirsti, Juusola, Liisa, Reeves, Geoff D., Henderson, Mike G., Paxton, Larry J., Lester, Mark, Hamrin, Maria, and Van De Kamp, Max
Abstract: During the long main phase of the St Patrick's Day storm on March 17, 2015, we found three separate enhancements of the westward electrojet. These enhancements are observed in the ionospheric equivalent currents computed using geomagnetic data over Fennoscandia. Using data from the IMAGE magnetometer network, we identified localised field-aligned current (FAC) systems superimposed on the pre-existing ionospheric current system. We suggest that these localised current systems are wedgelets and that they can potentially contribute to a larger-scale structure of a substorm current wedge (SCW). Each wedgelet is associated with a negative BX spike. Each spike is recorded at a higher latitude than the former one and all three are very localised over Fennoscandia. The first spike occurred at 17:34 UT and was observed at Lycksele, R rvik and Nurmij rvi, the second spike was recorded at 17:41 UT and located at Lycksele and R rvik, whereas the last spike occurred at 17:47 UT and was observed at Kevo and Abisko. Simultaneous optical auroral data and electron injections at the geosynchronous orbit indicate that one or more substorms took place in the polar ionosphere at the time of the wedgelets. This study demonstrates the occurrence of small and short-lived structures such as wedgelets at different locations over a short time scale, 15 min in this case.
Published: 2023
Full Text: View/download PDF

5. Observation of solar radio burst events from Mars orbit with the Shallow Radar instrument

Author: Gerekos, Christopher, Steinbrügge, Gregor, Jebaraj, Immanuel, Casillas, Andreas, Donini, Elena, Sánchez-Cano, Beatriz, Lester, Mark, Magdalenić, Jasmina, Peters, Sean, Romero-Wolf, Andrew, Blankenship, Donald, Gerekos, Christopher, Steinbrügge, Gregor, Jebaraj, Immanuel, Casillas, Andreas, Donini, Elena, Sánchez-Cano, Beatriz, Lester, Mark, Magdalenić, Jasmina, Peters, Sean, Romero-Wolf, Andrew, and Blankenship, Donald
Abstract: Multispacecraft and multiwavelength observations of solar eruptions such as flares and coronal mass ejections are essential to understand the complex processes behind these events. The study of solar burst events in the radio-frequency spectrum has relied almost exclusively on data from ground-based observations and a few dedicated heliophysics missions such as STEREO or Wind. Reanalysing existing data from the Mars Reconnaissance Orbiter (MRO) Shallow Radar (SHARAD) instrument, a Martian planetary radar sounder, we have discovered the instrument was also capable of detecting solar radio bursts, and was able to do so with unprecedented resolution for a space-based solar instrument. In this study we aim at demonstrating the reliability and value of SHARAD as a new solar radio-observatory. We characterised the sensitivity of the instrument to type-III solar radio bursts through a statistical analysis of correlated observations, using STEREO and Wind as references. Using 38 correlated detections, we establish the conditions under which SHARAD can observe solar bursts in terms of acquisition geometry. As an example of scientific application, we also present the first analysis of type-III characteristic times at high resolution beyond 1 AU. A simple logistic model based purely on geometrical acquisition parameters can predict burst show vs. no-show in SHARAD data with an accuracy of 79.2%, demonstrating the reliability of the instrument for detecting solar bursts and laying the foundation for using SHARAD as a solar radio-observatory. The extremely high resolution of the instrument, both in temporal and frequency directions, its bandwidth, and its position in the solar system enable SHARAD to make significant contributions to heliophysics; it could inform on plasma processes on the site of the burst generation and along the propagation path of associated fast electron beams., Comment: 14 pages, 9 figures, 2 tables
Published: 2023
Full Text: View/download PDF

6. Identifying gravity waves launched by the Hunga Tonga–Hunga Ha′apai volcanic eruption in mesosphere/lower-thermosphere winds derived from CONDOR and the Nordic Meteor Radar Cluster

Author: Stober, Gunter, Liu, Alan, Kozlovsky, Alexander, Qiao, Zishun, Krochin, Witali, Shi, Guochun, Kero, Johan, Tsutsumi, Masaki, Gulbrandsen, Njål, Nozawa, Satonori, Lester, Mark, Baumgarten, Kathrin, Belova, Evgenia, Mitchell, Nicholas, Stober, Gunter, Liu, Alan, Kozlovsky, Alexander, Qiao, Zishun, Krochin, Witali, Shi, Guochun, Kero, Johan, Tsutsumi, Masaki, Gulbrandsen, Njål, Nozawa, Satonori, Lester, Mark, Baumgarten, Kathrin, Belova, Evgenia, and Mitchell, Nicholas
Abstract: The Hunga Tonga–Hunga Ha′apai volcano eruption was a unique event that caused many atmospheric phenomena around the globe. In this study, we investigate the atmospheric gravity waves in the mesosphere/lower-thermosphere (MLT) launched by the volcanic explosion in the Pacific, leveraging multistatic meteor radar observations from the Chilean Observation Network De Meteor Radars (CONDOR) and the Nordic Meteor Radar Cluster in Fennoscandia. MLT winds are computed using a recently developed 3DVAR+DIV algorithm. We found eastward- and westward-traveling gravity waves in the CONDOR zonal and meridional wind measurements, which arrived 12 and 48 h after the eruption, and we found one in the Nordic Meteor Radar Cluster that arrived 27.5 h after the volcanic detonation. We obtained observed phase speeds for the eastward great circle path at both locations of about 250 m s−1, and they were 170–150 m s−1 for the opposite propagation direction. The intrinsic phase speed was estimated to be 200–212 m s−1. Furthermore, we identified a potential lamb wave signature in the MLT winds using 5 min resolved 3DVAR+DIV retrievals.
Published: 2023

7. Mars' plasma system. Scientific potential of coordinated multipoint missions : 'The next generation'

Author: Sanchez-Cano, Beatriz, Lester, Mark, Andrews, David J., Opgenoorth, Hermann, Lillis, Robert, Leblanc, Francois, Fowler, Christopher M., Fang, Xiaohua, Vaisberg, Oleg, Mayyasi, Majd, Holmberg, Mika, Guo, Jingnan, Hamrin, Maria, Mazelle, Christian, Peter, Kerstin, Patzold, Martin, Stergiopoulou, Katerina, Goetz, Charlotte, Ermakov, Vladimir Nikolaevich, Shuvalov, Sergei, Wild, James A., Blelly, Pierre-Louis, Mendillo, Michael, Bertucci, Cesar, Cartacci, Marco, Orosei, Roberto, Chu, Feng, Kopf, Andrew J., Girazian, Zachary, Roman, Michael T., Sanchez-Cano, Beatriz, Lester, Mark, Andrews, David J., Opgenoorth, Hermann, Lillis, Robert, Leblanc, Francois, Fowler, Christopher M., Fang, Xiaohua, Vaisberg, Oleg, Mayyasi, Majd, Holmberg, Mika, Guo, Jingnan, Hamrin, Maria, Mazelle, Christian, Peter, Kerstin, Patzold, Martin, Stergiopoulou, Katerina, Goetz, Charlotte, Ermakov, Vladimir Nikolaevich, Shuvalov, Sergei, Wild, James A., Blelly, Pierre-Louis, Mendillo, Michael, Bertucci, Cesar, Cartacci, Marco, Orosei, Roberto, Chu, Feng, Kopf, Andrew J., Girazian, Zachary, and Roman, Michael T.
Abstract: The objective of this White Paper, submitted to ESA's Voyage 2050 call, is to get a more holistic knowledge of the dynamics of the Martian plasma system, from its surface up to the undisturbed solar wind outside of the induced magnetosphere. This can only be achieved with coordinated multi-point observations with high temporal resolution as they have the scientific potential to track the whole dynamics of the system (from small to large scales), and they constitute the next generation of the exploration of Mars analogous to what happened at Earth a few decades ago. This White Paper discusses the key science questions that are still open at Mars and how they could be addressed with coordinated multipoint missions. The main science questions are: (i) How does solar wind driving impact the dynamics of the magnetosphere and ionosphere? (ii) What is the structure and nature of the tail of Mars' magnetosphere at all scales? (iii) How does the lower atmosphere couple to the upper atmosphere? (iv) Why should we have a permanent in-situ Space Weather monitor at Mars? Each science question is devoted to a specific plasma region, and includes several specific scientific objectives to study in the coming decades. In addition, two mission concepts are also proposed based on coordinated multi-point science from a constellation of orbiting and ground-based platforms, which focus on understanding and solving the current science gaps.
Published: 2022
Full Text: View/download PDF

8. The Endurance Rocket Mission: Gauging Earth’s Ambipolar Electric Potential

Author: Collinson, Glyn, Glocer, Alex, Pfaff, Rob, Barjatya, Aroh, Bissett, Scott, Blix, Kolbjørn, Breneman, Aaron, Clemmons, Jim, Eparvier, Francis, Gass, Ted, Michell, Robert, Mitchell, David, Imber, Suzie, Ghalib, Ahmed, Akbari, Hassanali, Ansted, Glen, Baddeley, Lisa, Bahr, Håvard, Bain, Gary, Bonsteel, Brian, Borgen, Henry, Bowden, Daniel, Bowker, Dave, Cameron, Tim, Campbell, Meredith, Cathell, Philip, Chornay, Dennis, Clayton, Robert, Conser, Larry, Davis, Lance, Donohue, Sean, Eilertsen, Leif Jonny, Etheridge, Charles, Graves, Nathan, Häggstrøm, Ingemar, Hanssen, Preben, Haugh, Herbert, Helgesen, Espen, Henderson, Jordan, Herseth, Kim Roar, Hickman, John, Jensen, Kent-Gøran, Jester, Travis, Johnson, Eric, Johnson, Hunter, Kavanagh, Andrew, King, Max, Knight, David, Laman, Russell, Lankford, Trevor, Lien, Rolf, Lester, Mark, Marsh, Gordon, Martin, Steve, Morris, Norman, Nguyen, Long, Nelson, Richard, Ogundere, Wale, Osbakk, Karl Henning, Page, Dave, Polidan, Joe, Raley, Devon, Raymond, Richard, Robertson, Ellen, Rosanova, Giovanni, Rosnack, Traci, Serabian, Belinda, Simonsen, Roger, Søreng, Jan Arne, Sveen, Jostein, Swanson, Diana, Swift, Robert, Uribe, Paulo, Valentine, Henry, Waters, Frank, West, Libby, Wilson, Tim, Collinson, Glyn, Glocer, Alex, Pfaff, Rob, Barjatya, Aroh, Bissett, Scott, Blix, Kolbjørn, Breneman, Aaron, Clemmons, Jim, Eparvier, Francis, Gass, Ted, Michell, Robert, Mitchell, David, Imber, Suzie, Ghalib, Ahmed, Akbari, Hassanali, Ansted, Glen, Baddeley, Lisa, Bahr, Håvard, Bain, Gary, Bonsteel, Brian, Borgen, Henry, Bowden, Daniel, Bowker, Dave, Cameron, Tim, Campbell, Meredith, Cathell, Philip, Chornay, Dennis, Clayton, Robert, Conser, Larry, Davis, Lance, Donohue, Sean, Eilertsen, Leif Jonny, Etheridge, Charles, Graves, Nathan, Häggstrøm, Ingemar, Hanssen, Preben, Haugh, Herbert, Helgesen, Espen, Henderson, Jordan, Herseth, Kim Roar, Hickman, John, Jensen, Kent-Gøran, Jester, Travis, Johnson, Eric, Johnson, Hunter, Kavanagh, Andrew, King, Max, Knight, David, Laman, Russell, Lankford, Trevor, Lien, Rolf, Lester, Mark, Marsh, Gordon, Martin, Steve, Morris, Norman, Nguyen, Long, Nelson, Richard, Ogundere, Wale, Osbakk, Karl Henning, Page, Dave, Polidan, Joe, Raley, Devon, Raymond, Richard, Robertson, Ellen, Rosanova, Giovanni, Rosnack, Traci, Serabian, Belinda, Simonsen, Roger, Søreng, Jan Arne, Sveen, Jostein, Swanson, Diana, Swift, Robert, Uribe, Paulo, Valentine, Henry, Waters, Frank, West, Libby, and Wilson, Tim
Abstract: NASA’s Endurance sounding rocket (yard No. 47.001) will launch from Ny Ålesund, Svalbard in May 2022 on a solid fueled Oriole III-A launch vehicle. Its ∼19 minute flight will carry it to an altitude of ∼780 km above Earth’s sunlit polar cap. Its objective is to make the first measurement of the weak “ambipolar” electric field generated by Earth’s ionosphere. This field is thought to play a critical role in the upwelling and escape of ionospheric ions, and thus potentially in the evolution of Earth’s atmosphere. The results will enable us to determine the importance to ion escape of this previously unmeasured fundamental property of our planet, which will aid in a better understanding of what makes Earth habitable. Endurance will carry six science instruments (with 16 sensors) that will measure the total electrical potential drop below the spacecraft, and the physical parameters required to understand the physics of what generates the ambipolar field. The mission will be supported by simultaneous observations of solar and geomagnetic activity.
Published: 2022

9. A Two-Spacecraft Study of Mars' Induced Magnetosphere's Response to Upstream Conditions

Author: Stergiopoulou, Katerina, Andrews, David J., Edberg, Niklas J. T., Halekas, Jasper, Lester, Mark, Sanchez-Cano, Beatriz, Dimmock, Andrew P., Gruesbeck, Jacob R., Stergiopoulou, Katerina, Andrews, David J., Edberg, Niklas J. T., Halekas, Jasper, Lester, Mark, Sanchez-Cano, Beatriz, Dimmock, Andrew P., and Gruesbeck, Jacob R.
Abstract: This is a two-spacecraft study, in which we investigate the effects of the upstream solar wind conditions on the Martian induced magnetosphere and upper ionosphere. We use Mars Express (MEX) magnetic field magnitude data together with interplanetary magnetic field (IMF), solar wind density, and velocity measurements from the Mars Atmosphere and Volatile EvolutioN (MAVEN) mission, from November 2014 to November 2018. We compare simultaneous observations of the magnetic field magnitude in the induced magnetosphere of Mars (|B|(IM)) with the IMF magnitude (|B|(IMF)), and we examine variations in the ratio |B|(IM)/|B|(IMF) with solar wind dynamic pressure, speed and density. We find that the |B|(IM)/|B|(IMF) ratio in the induced magnetosphere generally decreases with increased dynamic pressure and that a more structured interaction is seen when comparing induced fields to the instantaneous IMF, where reductions in the relative fields at the magnetic pile up boundary (MPB) are more evident than in the field strength itself, along with enhancements in the immediate vicinity of the optical shadow of Mars. We interpret these results as evidence that while the induced magnetosphere is indeed compressed and induced field strengths are higher during periods of high dynamic pressure, a relatively larger amount of magnetic flux threads the region compared to that available from the unperturbed IMF during low dynamic pressure intervals.
Published: 2022
Full Text: View/download PDF

10. The Impact of Energetic Particles on the Martian Ionosphere During a Full Solar Cycle of Radar Observations: Radar Blackouts

Author: Lester, Mark, Sanchez-Cano, Beatriz, Potts, Daniel, Lillis, Rob, Cartacci, Marco, Bernardini, Fabrizio, Orosei, Roberto, Perry, Matthew, Putzig, Nathaniel, Campbell, Bruce, Blelly, Pierre-Louis, Milan, Steve, Opgenoorth, Hermann J., Witasse, Olivier, Redrojo, Elena M. M., Russell, Aaron, Lester, Mark, Sanchez-Cano, Beatriz, Potts, Daniel, Lillis, Rob, Cartacci, Marco, Bernardini, Fabrizio, Orosei, Roberto, Perry, Matthew, Putzig, Nathaniel, Campbell, Bruce, Blelly, Pierre-Louis, Milan, Steve, Opgenoorth, Hermann J., Witasse, Olivier, Redrojo, Elena M. M., and Russell, Aaron
Abstract: We present the first long-term characterization of ionization layers in the lower ionosphere of Mars (below ∼90 km), a region inaccessible to orbital in-situ observations, based on an analysis of radar echo blackouts observed on Mars Express and the Mars Reconnaissance Orbiter from 2006 to 2017. A blackout occurs when the expected surface reflection is partly or totally attenuated for portions of an observation. Enhanced ionization at altitudes of 60–90 km, below the main ionospheric electron density peak, leads to increased absorption of the radar signal, resulting in the blackouts. We find that (a) MARSIS, operating at frequencies between 1.8 and 5 MHz, suffered more blackouts than SHARAD, which has a higher carrier frequency (20 MHz), (b) there is a clear correlation of blackout occurrence with solar cycle, (c) there is no apparent relationship between blackout occurrence and crustal magnetic fields, and (d) blackouts occur during both nightside and dayside observations, although the peak occurrence is deep on the nightside. Analysis of Mars Atmosphere and Volatile EvolutioN Solar Energetic Particle electron counts between 20 and 200 keV demonstrates that these electrons are likely responsible for attenuating the radar signals. We investigate the minimum SEP electron fluxes required to ionize the lower atmosphere and produce measurable attenuation. When both radars experience a blackout, the SEP electron fluxes are at their highest. Based on several case studies, we find that the average SEP spectrum responsible for a blackout is particularly enhanced at its higher energy end, that is, above 70 keV.
Published: 2022
Full Text: View/download PDF

11. Meteor Radar Vertical Wind Observation Biases and Mathematical Debiasing Strategies Including the 3DVAR+Div Algorithm

Author: 2372595, 2482071, Liu, Alan Z., Qiao, Zishun, Stober, Gunter, Kozlovsky, Alexander, Kuchar, Ales, Jacobi, Christoph, Meek, Chris, Janches, Diego, Liu, Guiping, Tsutsumi, Masaki, Gulbrandsen, Njål, Nozawa, Satonori, Lester, Mark, Belova, Evgenia, Kero, Johan, Mitchell, Nicholas, 2372595, 2482071, Liu, Alan Z., Qiao, Zishun, Stober, Gunter, Kozlovsky, Alexander, Kuchar, Ales, Jacobi, Christoph, Meek, Chris, Janches, Diego, Liu, Guiping, Tsutsumi, Masaki, Gulbrandsen, Njål, Nozawa, Satonori, Lester, Mark, Belova, Evgenia, Kero, Johan, and Mitchell, Nicholas
Abstract: Meteor radars have become widely used instruments to study atmospheric dynamics, particularly in the 70 to 110 km altitude region. These systems have been proven to provide reliable and continuous measurements of horizontal winds in the mesosphere and lower thermosphere. Recently, there have been many attempts to utilize specular and/or transverse scatter meteor measurements to estimate vertical winds and vertical wind variability. In this study we investigate potential biases in vertical wind estimation that are intrinsic to the meteor radar observation geometry and scattering mechanism, and we introduce a mathematical debiasing process to mitigate them. This process makes use of a spatiotemporal Laplace filter, which is based on a generalized Tikhonov regularization. Vertical winds obtained from this retrieval algorithm are compared to UA-ICON model data. This comparison reveals good agreement in the statistical moments of the vertical velocity distributions. Furthermore, we present the first observational indications of a forward scatter wind bias. It appears to be caused by the scattering center’s apparent motion along the meteor trajectory when the meteoric plasma column is drifted by the wind. The hypothesis is tested by a radiant mapping of two meteor showers. Finally, we introduce a new retrieval algorithm providing a physically and mathematically sound solution to derive vertical winds and wind variability from multistatic meteor radar networks such as the Nordic Meteor Radar Cluster (NORDIC) and the Chilean Observation Network De meteOr Radars (CONDOR). The new retrieval is called 3DVAR+DIV and includes additional diagnostics such as the horizontal divergence and relative vorticity to ensure a physically consistent solution for all 3D winds in spatially resolved domains. Based on this new algorithm we obtained vertical velocities in the range of w = ± 1–2 m s−1 for most of the analyzed data during 2 years of collection, which is consistent with the values
Published: 2022

12. Scientific challenges and instrumentation for the International Meridian Circle Program

Author: Liu, William, Blanc, Michel, Wang, Chi, Donavan, Eric, Foster, John, Lester, Mark, Opgenoorth, Hermann J., Ren, Liwen, Liu, William, Blanc, Michel, Wang, Chi, Donavan, Eric, Foster, John, Lester, Mark, Opgenoorth, Hermann J., and Ren, Liwen
Abstract: Earth’s ecosystems and human activities are threatened by a broad spectrum of hazards of major importance for the safety of ground infrastructures, space systems and space flight: solar activity, earthquakes, atmospheric and climatic disturbances, changes in the geomagnetic field, fluctuations of the global electric circuit. Monitoring and understanding these major hazards to better predict and mitigate their effects is one of the greatest scientific and operational challenges of the 21st century. Though diverse, these hazards share one feature in common: they all leave their characteristic imprints on a critical layer of the Earth’s environment: its ionosphere, middle and upper atmosphere (IMUA). The objective of the International Meridian Circle Program (IMCP), a major international program led by the Chines Academy of Sciences (CAS), is to deploy, integrate and operate a global network of research and monitoring instruments to use the IMUA as a screen on which to detect these imprints. In this article, we first show that the geometry required for the IMCP global observation system leads to a deployment of instruments in priority along the 120°E–60°W great meridian circle, which will cover in an optimal way both the dominant geographic and geomagnetic latitude variations, possibly complemented by a second Great Circle along the 30°E–150°W meridians to capture longitude variations. Then, starting from the Chinese Meridian Project (CMP) network and using it as a template, we give a preliminary and promising description of the instruments to be integrated and deployed along the 120°E–60° W great circle running across China, Australia and the Americas.
Published: 2021
Full Text: View/download PDF

13. MOSAIC: A satellite constellation to enable groundbreaking mars climate system science and prepare for human exploration

Author: Lillis, Robert J., Mitchell, David, Montabone, Luca, Heavens, Nicholas, Harrison, Tanya, Stuurman, Cassie, Guzewich, Scott, England, Scott, Withers, Paul, Chaffin, Mike, Curry, Shannon, Ao, Chi, Matousek, Steven, Barba, Nathan, Woolley, Ryan, Smith, Isaac, Osinski, Gordon R., Kleinböhl, Armin, Tamppari, Leslie, Mischna, Michael, Kass, David, Smith, Michael, Wolff, Michael, Kahre, Melinda, Spiga, Aymeric, Forget, François, Cantor, Bruce, Deighan, Justin, Brecht, Amanda, Bougher, Stephen, Fowler, Christopher M., Andrews, David, Patzold, Martin, Peter, Kerstin, Tellmann, Silvia, Lester, Mark, Sánchez-Cano, Beatriz, Luhmann, Janet, Leblanc, François, Halekas, Jasper, Brain, David, Fang, Xiaohua, Espley, Jared, Opgenoorth, Hermann J., Vaisberg, Oleg, Hinson, David, Asmar, Sami, Vander Hook, Joshua, Karatekin, Ozgur, Barjatya, Aroh, Tripathi, Abhishek, Lillis, Robert J., Mitchell, David, Montabone, Luca, Heavens, Nicholas, Harrison, Tanya, Stuurman, Cassie, Guzewich, Scott, England, Scott, Withers, Paul, Chaffin, Mike, Curry, Shannon, Ao, Chi, Matousek, Steven, Barba, Nathan, Woolley, Ryan, Smith, Isaac, Osinski, Gordon R., Kleinböhl, Armin, Tamppari, Leslie, Mischna, Michael, Kass, David, Smith, Michael, Wolff, Michael, Kahre, Melinda, Spiga, Aymeric, Forget, François, Cantor, Bruce, Deighan, Justin, Brecht, Amanda, Bougher, Stephen, Fowler, Christopher M., Andrews, David, Patzold, Martin, Peter, Kerstin, Tellmann, Silvia, Lester, Mark, Sánchez-Cano, Beatriz, Luhmann, Janet, Leblanc, François, Halekas, Jasper, Brain, David, Fang, Xiaohua, Espley, Jared, Opgenoorth, Hermann J., Vaisberg, Oleg, Hinson, David, Asmar, Sami, Vander Hook, Joshua, Karatekin, Ozgur, Barjatya, Aroh, and Tripathi, Abhishek
Abstract: The Martian climate system has been revealed to rival the complexity of Earth's. Over the last 20 yr, a fragmented and incomplete picture has emerged of its structure and variability; we remain largely ignorant of many of the physical processes driving matter and energy flow between and within Mars' diverse climate domains. Mars Orbiters for Surface, Atmosphere, and Ionosphere Connections (MOSAIC) is a constellation of ten platforms focused on understanding these climate connections, with orbits and instruments tailored to observe the Martian climate system from three complementary perspectives. First, low-circular near-polar Sun-synchronous orbits (a large mothership and three smallsats spaced in local time) enable vertical profiling of wind, aerosols, water, and temperature, as well as mapping of surface and subsurface ice. Second, elliptical orbits sampling all of Mars' plasma regions enable multipoint measurements necessary to understand mass/energy transport and ion-driven escape, also enabling, with the polar orbiters, dense radio occultation coverage. Last, longitudinally spaced areostationary orbits enable synoptic views of the lower atmosphere necessary to understand global and mesoscale dynamics, global views of the hydrogen and oxygen exospheres, and upstream measurements of space weather conditions. MOSAIC will characterize climate system variability diurnally and seasonally, on meso-, regional, and global scales, targeting the shallow subsurface all the way out to the solar wind, making many first-of-their-kind measurements. Importantly, these measurements will also prepare for human exploration and habitation of Mars by providing water resource prospecting, operational forecasting of dust and radiation hazards, and ionospheric communication/positioning disruptions.
Published: 2021
Full Text: View/download PDF

14. Mars’ plasma system. Scientific potential of coordinated multipoint missions : “The next generation”

Author: Sánchez-Cano, Beatriz, Lester, Mark, Andrews, David J., Opgenoorth, Hermann, Lillis, Robert, Leblanc, François, Fowler, Christopher M., Fang, Xiaohua, Vaisberg, Oleg, Mayyasi, Majd, Holmberg, Mika, Guo, Jingnan, Hamrin, Maria, Mazelle, Christian, Peter, Kerstin, Pätzold, Martin, Stergiopoulou, Katerina, Goetz, Charlotte, Ermakov, Vladimir Nikolaevich, Shuvalov, Sergei, Wild, James A., Blelly, Pierre-Louis, Mendillo, Michael, Bertucci, Cesar, Cartacci, Marco, Orosei, Roberto, Chu, Feng, Kopf, Andrew J., Girazian, Zachary, Roman, Michael T., Sánchez-Cano, Beatriz, Lester, Mark, Andrews, David J., Opgenoorth, Hermann, Lillis, Robert, Leblanc, François, Fowler, Christopher M., Fang, Xiaohua, Vaisberg, Oleg, Mayyasi, Majd, Holmberg, Mika, Guo, Jingnan, Hamrin, Maria, Mazelle, Christian, Peter, Kerstin, Pätzold, Martin, Stergiopoulou, Katerina, Goetz, Charlotte, Ermakov, Vladimir Nikolaevich, Shuvalov, Sergei, Wild, James A., Blelly, Pierre-Louis, Mendillo, Michael, Bertucci, Cesar, Cartacci, Marco, Orosei, Roberto, Chu, Feng, Kopf, Andrew J., Girazian, Zachary, and Roman, Michael T.
Abstract: The objective of this White Paper, submitted to ESA’s Voyage 2050 call, is to get a more holistic knowledge of the dynamics of the Martian plasma system, from its surface up to the undisturbed solar wind outside of the induced magnetosphere. This can only be achieved with coordinated multi-point observations with high temporal resolution as they have the scientific potential to track the whole dynamics of the system (from small to large scales), and they constitute the next generation of the exploration of Mars analogous to what happened at Earth a few decades ago. This White Paper discusses the key science questions that are still open at Mars and how they could be addressed with coordinated multipoint missions. The main science questions are: (i) How does solar wind driving impact the dynamics of the magnetosphere and ionosphere? (ii) What is the structure and nature of the tail of Mars’ magnetosphere at all scales? (iii) How does the lower atmosphere couple to the upper atmosphere? (iv) Why should we have a permanent in-situ Space Weather monitor at Mars? Each science question is devoted to a specific plasma region, and includes several specific scientific objectives to study in the coming decades. In addition, two mission concepts are also proposed based on coordinated multi-point science from a constellation of orbiting and ground-based platforms, which focus on understanding and solving the current science gaps., Part of a collection: Voyage 2050 – science themes for ESA’s long-term plan for the science programme: Solar Systems, ours and others (Part 2).
Published: 2021
Full Text: View/download PDF

15. Resolving the ambiguous direction of arrival of weak meteor radar trail echoes

Author: Kastinen, Daniel, Kero, Johan, Kozlovsky, Alexander, Lester, Mark, Kastinen, Daniel, Kero, Johan, Kozlovsky, Alexander, and Lester, Mark
Abstract: Meteor phenomena cause ionized plasmas that can be roughly divided into two distinctly different regimes: a dense and transient plasma region co-moving with the ablating meteoroid and a trail of diffusing plasma left in the atmosphere and moving with the neutral wind. Interferometric radar systems are used to observe the meteor trails and determine their positions and drift velocities. Depending on the spatial configuration of the receiving antennas and their individual gain patterns, the voltage response can be the same for several different plane wave directions of arrival (DOAs), thereby making it impossible to determine the correct direction. A low signal-to-noise ratio (SNR) can create the same effect probabilistically even if the system contains no theoretical ambiguities. Such is the case for the standard meteor trail echo data products of the Sodankyl Geophysical Observatory SKiYMET all-sky interferometric meteor radar. Meteor trails drift slowly enough in the atmosphere and allow for temporal integration, while meteor head echo targets move too fast. Temporal integration is a common method to increase the SNR of radar signals. For meteor head echoes, we instead propose to use direct Monte Carlo (DMC) simulations to validate DOA measurements. We have implemented two separate temporal integration methods and applied them to 2222 events measured by the Sodankyl meteor radar to simultaneously test the usefulness of such DMC simulations on cases where temporal integration is possible, validate the temporal integration methods, and resolve the ambiguous SKiYMET data products. The two methods are the temporal integration of the signal spatial correlations and matchedfilter integration of the individual radar channel signals. The results are compared to Bayesian inference using the DMC simulations and the standard SkiYMET data products. In the examined data set, 13% of the events were indicated as ambiguous. Out of these, 13% contained anomalous signals. In 95% of
Published: 2021
Full Text: View/download PDF

16. Atmospheric Tomography Using the Nordic Meteor Radar Cluster And Chilean Observation Network de Meteor Radars: Network Details and 3D-Var Retrieval

Author: 2372595, 2482071, Stober, Gunter, Liu, Alan Z., Qiao, Zishun, Kozlovsky, Alexander, Tsutsumi, Masaki, Hall, Chris, Nozawa, Satonori, Lester, Mark, Belova, Evgenia, Kero, Johan, Espy, Patrick J, Hibbins, Robert E, Mitchell, Nicholas, 2372595, 2482071, Stober, Gunter, Liu, Alan Z., Qiao, Zishun, Kozlovsky, Alexander, Tsutsumi, Masaki, Hall, Chris, Nozawa, Satonori, Lester, Mark, Belova, Evgenia, Kero, Johan, Espy, Patrick J, Hibbins, Robert E, and Mitchell, Nicholas
Abstract: Ground-based remote sensing of atmospheric parameters is often limited to single station observations by vertical profiles at a certain geographic location. This is a limiting factor for investigating gravity wave dynamics as the spatial information is often missing, e.g., horizontal wavelength, propagation direction or intrinsic frequency. In this study, we present a new retrieval algorithm for multistatic meteor radar networks to obtain tomographic 3-D wind fields within a pre-defined domain area. The algorithm is part of the Agile Software for Gravity wAve Regional Dynamics (ASGARD) and called 3D-Var, and based on the optimal estimation technique and Bayesian statistics. The performance of the 3D-Var retrieval is demonstrated using two meteor radar networks: the Nordic Meteor Radar Cluster and the Chilean Observation Network De Meteor Radars (CONDOR). The optimal estimation implementation provide statistically sound solutions and diagnostics from the averaging kernels and measurement response. We present initial scientific results such as body forces of breaking gravity waves leading to two counter-rotating vortices and horizontal wavelength spectra indicating a transition between the rotational k-3 and divergent k-5/3 mode at scales of 80–120 km. In addition, we performed a keogram analysis over extended periods to reflect the latitudinal and temporal impact of a minor sudden stratospheric warming in December 2019. Finally, we demonstrate the applicability of the 3D-Var algorithm to perform large-scale retrievals to derive meteorological wind maps covering a latitude region from Svalbard, north of the European Arctic mainland, to central Norway.
Published: 2021

17. Atmospheric Tomography Using the Nordic Meteor Radar Cluster and Chilean Observation Network De Meteor Radars: Network Details and 3DVAR Retrieval

Author: 2372595, 2482071, Stober, Gunter, Liu, Alan, Qiao, Zishun, Kozlovsky, Alexander, Tsutsumi, Masaki, Hall, Chris, Nozawa, Satonori, Lester, Mark, Belova, Evgenia, Kero, Johan, Espy, Patrick J., Hibbins, Robert E., Mitchell, Nicholas, 2372595, 2482071, Stober, Gunter, Liu, Alan, Qiao, Zishun, Kozlovsky, Alexander, Tsutsumi, Masaki, Hall, Chris, Nozawa, Satonori, Lester, Mark, Belova, Evgenia, Kero, Johan, Espy, Patrick J., Hibbins, Robert E., and Mitchell, Nicholas
Abstract: Ground-based remote sensing of atmospheric parameters is often limited to single station observations of vertical profiles at a certain geographic location. This can be a limiting factor to investigating gravity wave dynamics. In this study we present a new retrieval algorithm for multi-static meteor radar networks to obtain tomographic 3D wind fields within a pre-defined domain area. The algorithm is part of the Agile Software for Gravity wAve Regional Dynamics (ASGARD) called 5 3DVAR, and based on the optimal estimation technique and Bayesian statistics. The performance of the 3DVAR retrieval is demonstrated using two meteor radar networks, the Nordic Meteor Radar Cluster and the Chilean Observation Network De MeteOr Radars (CONDOR). The optimal estimation implementation provides a statistically sound solution and additional diagnostics from the averaging kernels and measurement response. We present initial scientific results such as body forces of breaking gravity waves leading to two counter-rotating vortices and horizontal wavelength spectra indicating a transition between the vortical k −3 and divergent k 10 −5/3 mode at scales of 80-120 km. In addition, we have performed a keogram analysis over extended periods to reflect the latitudinal and temporal impact of a minor sudden stratospheric warming in December 2019. Finally, we demonstrate the applicability of the 3DVAR algorithm to perform large-scale retrievals to derive meteorological wind maps covering a latitude region from Svalbard, north of the European Arctic mainland, to mid-Norway.
Published: 2021

18. Mars' Ionospheric Interaction With Comet C/2013 A1 Siding Spring's Coma at Their Closest Approach as Seen by Mars Express

Author: Sanchez-Cano, Beatriz, Lester, Mark, Witasse, Olivier, Morgan, David D., Opgenoorth, Hermann, Andrews, David J., Blelly, Pierre-Louis, Cowley, Stanley W. H., Kopf, Andrew J., Leblanc, Francois, Espley, Jared R., Cardesin-Moinelo, Alejandro, Sanchez-Cano, Beatriz, Lester, Mark, Witasse, Olivier, Morgan, David D., Opgenoorth, Hermann, Andrews, David J., Blelly, Pierre-Louis, Cowley, Stanley W. H., Kopf, Andrew J., Leblanc, Francois, Espley, Jared R., and Cardesin-Moinelo, Alejandro
Abstract: On 19 October 2014, Mars experienced a close encounter with Comet C/2013 A1 Siding Spring. Using data from the Mars Advanced Radar for Subsurface and Ionosphere Sounding (MARSIS) on board Mars Express (MEX), we assess the interaction of the Martian ionosphere with the comet's coma and possibly magnetic tail during the orbit of their closest approach. The topside ionospheric electron density profile is evaluated from the altitude of the peak density of the ionosphere up to the MEX altitude. We find complex and rapid variability in the ionospheric profile along the MEX orbit, not seen even after the impact of a large coronal mass ejection. Before closest approach, large electron density reductions predominate, which could be caused either by comet water damping or comet magnetic field interactions. After closest approach, a substantial electron density rise predominates. Moreover, several extra topside layers are visible along the whole orbit at different altitudes, which could be related to different processes as we discuss. Plain Language Summary The comet Siding Spring made a single flyby through the solar system in October 2014, passing close to Mars on 19 October 2014, at only one third of the Earth-Moon distance. For about 10 hr, the Martian ionosphere (upper atmosphere) was in touch with the cometary coma (also called cometary atmosphere). In this work, we use data from the Mars Express mission to evaluate the behavior of the ionosphere of Mars at the comet closest approach. We find that the Martian ionosphere suffered a quick and complex variability with large density increases and decreases every few kilometers. This variability was caused by the presence of the comet, and we discuss different processes that could have occurred.
Published: 2020
Full Text: View/download PDF

19. Horizontal electric fields from flow of auroral O+(P-2) ions at sub-second temporal resolution

Author: Tuttle, Sam, Lanchester, Betty, Gustavsson, Bjorn, Whiter, Daniel, Ivchenko, Nickolay, Fear, Robert, Lester, Mark, Tuttle, Sam, Lanchester, Betty, Gustavsson, Bjorn, Whiter, Daniel, Ivchenko, Nickolay, Fear, Robert, and Lester, Mark
Abstract: Electric fields are a ubiquitous feature of the ionosphere and are intimately linked with aurora through particle precipitation and field-aligned currents. They exhibit order-of-magnitude changes on temporal and spatial scales of seconds and kilometres respectively which are not easy to measure; knowing their true magnitude and temporal variability is important for a theoretical understanding of auroral processes. We present a unique method to estimate ionospheric electric fields in the region close to (kilometre scale) a dynamic auroral arc by solving the continuity equation for the metastable O+(P-2) ions, which emit as they move under the influence of electric fields during their 5 s lifetime. The main advantage of this optical method is the increase in temporal resolution over other methods such as ground-based radars. Simultaneous measurements of emission at 732.0 nm (from the O+(P-2) ions) and prompt emissions at 673.0 nm (N-2) and 777.4 nm (O), all at high spatial (100 m) and temporal (0.05 s) resolution, are used in the solution of the continuity equation, which gives the dynamic changes of the O+ ion population at all heights in a 3D volume close to the magnetic zenith. Perspective effects are taken into account by a new geometric method, which is based on an accurate estimate of the magnetic zenith position. The emissions resulting from the metastable ions are converted to brightness images by projecting them onto the plane of the ground, and the projected images are then compared with the measured images. The flow velocity of the ions is a free parameter in the solution of the continuity equation; the value that minimises the difference between the modelled and observed images is the extracted flow velocity at each time step. We demonstrate the method with an example event during the passage of a brightening arc feature, lasting about 10 s, in which the inferred electric fields vary between 20 and 120 mV m(-1). These inferred electric fields are compared, QC 20200826
Published: 2020
Full Text: View/download PDF

20. Assessment and recommendations for a consolidated European approach to space weather - as part of a global space weather effort

Author: Opgenoorth, Hermann J., Wimmer-Schweingruber, Robert F., Belehaki, Anna, Berghmans, David, Hapgood, Mike, Hesse, Michael, Kauristie, Kirsti, Lester, Mark, Lilensten, Jean, Messerotti, Mauro, Temmer, Manuela, Opgenoorth, Hermann J., Wimmer-Schweingruber, Robert F., Belehaki, Anna, Berghmans, David, Hapgood, Mike, Hesse, Michael, Kauristie, Kirsti, Lester, Mark, Lilensten, Jean, Messerotti, Mauro, and Temmer, Manuela
Abstract: Over the last 10-20 years there has been an ever-increasing international awareness of risks to modern society from adverse and potentially harmful - and in extreme cases even disastrous - space weather events. Many individual countries and even international organisations like the United Nations (UN) have begun to increase their activities in preparing for and mitigating effects of adverse space weather. As in the rest of the world there is also in Europe an urgent need for coordination of Space Weather efforts in individual countries as well as in and among European organisations such as the European Space Agency (ESA) and the European Union (EU). This coordination should not only improve our ability to meet space weather risks, but also enable Europe to contribute to on-going global space weather efforts. While space weather is a global threat, which needs a global response, it also requires tailored regional and trans-regional responses that require coordination at all levels. Commissioned by the European Space Science Committee (ESSC) of the European Science Foundation, the authors - together with ex-officio advice from ESA and the EU - have over two years assessed European activities in the realm of space weather and formulated a set of recommendations to ESA, the EU and their respective member states, about how to prepare Europe for the increasing impact of adverse space weather effects on man-made infrastructure and our society as a whole. We have also analysed parallel international activities worldwide, and we give advice how Europe could incorporate its future activities into a global scheme.
Published: 2019
Full Text: View/download PDF

21. Origin of the Extended Mars Radar Blackout of September 2017

Author: Sanchez-Cano, Beatriz, Blelly, Pierre-Louis, Lester, Mark, Witasse, Olivier, Cartacci, Marco, Orosei, Roberto, Opgenoorth, Hermann, Lillis, Robert, Leblanc, Francois, Milan, Stephen E., Conroy, Philip, Floury, Nicolas, Plane, John M. C., Cicchetti, Andrea, Noschese, Raffaella, Kopf, Andrew J., Sanchez-Cano, Beatriz, Blelly, Pierre-Louis, Lester, Mark, Witasse, Olivier, Cartacci, Marco, Orosei, Roberto, Opgenoorth, Hermann, Lillis, Robert, Leblanc, Francois, Milan, Stephen E., Conroy, Philip, Floury, Nicolas, Plane, John M. C., Cicchetti, Andrea, Noschese, Raffaella, and Kopf, Andrew J.
Abstract: The Mars Advanced Radar for Subsurface and Ionosphere Sounding (MARSIS) onboard Mars Express, which operates between 0.1 and 5.5 MHz, suffered from a complete blackout for 10 days in September 2017 when observing on the nightside (a rare occurrence). Moreover, the Shallow Radar (SHARAD) onboard the Mars Reconnaissance Orbiter, which operates at 20 MHz, also suffered a blackout for three days when operating on both dayside and nightside. We propose that these blackouts are caused by solar energetic particles of few tens of keV and above associated with an extreme space weather event between 10 and 22 September 2017, as recorded by the Mars Atmosphere and Volatile EvolutioN (MAVEN) mission. Numerical simulations of energetic electron precipitation predict that a lower O-2(+) nighttime ionospheric layer of magnitude similar to 10(10) m(-3) peaking at similar to 90-km altitude is produced. Consequently, such a layer would absorb radar signals at high frequencies and explain the blackouts. The peak absorption level is found to be at 70-km altitude. Plain Language Summary Several instrument operations, as well as communication systems with rovers at the surface, depend on radio signals that propagate throughout the atmosphere of Mars. This is the case also for two radars that are currently working in Mars' orbit, sounding the ionosphere, surface, and subsurface of the planet. In mid-September 2017, a powerful solar storm hit Mars, producing a large amount of energetic particle precipitation over a 10-day period. We have found that high-energy electrons ionized the atmosphere of Mars, creating a dense layer of ions and electrons at similar to 90 km on the Martian nightside. This layer attenuated radar signals continuously for 10 days, stopping the radars to receive any signal from the planetary surface. In this work, we assess the properties of this layer in order to understand the implications of this kind of phenomenon for radar performance and communications.
Published: 2019
Full Text: View/download PDF

22. Review of the accomplishments of midlatitude Super Dual Auroral Radar Network (SuperDARN) HF radars

Author: Nishitani, Nozomu, Ruohoniemi, John Michael, Lester, Mark, Baker, Joseph Benjamin Harold, Koustov, Alexandre Vasilyevich, Shepherd, Simon G., Chisham, Gareth, Hori, Tomoaki, Thomas, Evan G., Makarevich, Roman A., Marchaudon, Aurélie, Ponomarenko, Pavlo, Wild, James A., Milan, Stephen E., Bristow, William A., Devlin, John, Miller, Ethan, Greenwald, Raymond A., Ogawa, Tadahiko, Kikuchi, Takashi, Nishitani, Nozomu, Ruohoniemi, John Michael, Lester, Mark, Baker, Joseph Benjamin Harold, Koustov, Alexandre Vasilyevich, Shepherd, Simon G., Chisham, Gareth, Hori, Tomoaki, Thomas, Evan G., Makarevich, Roman A., Marchaudon, Aurélie, Ponomarenko, Pavlo, Wild, James A., Milan, Stephen E., Bristow, William A., Devlin, John, Miller, Ethan, Greenwald, Raymond A., Ogawa, Tadahiko, and Kikuchi, Takashi
Abstract: The Super Dual Auroral Radar Network (SuperDARN) is a network of high-frequency (HF) radars located in the high- and mid-latitude regions of both hemispheres that is operated under international cooperation. The network was originally designed for monitoring the dynamics of the ionosphere and upper atmosphere in the high-latitude regions. However, over the last approximately 15 years, SuperDARN has expanded into the mid-latitude regions. With radar coverage that now extends continuously from auroral to sub-auroral and mid-latitudes, a wide variety of new scientific findings have been obtained. In this paper, the background of mid-latitude SuperDARN is presented at first. Then, the accomplishments made with mid-latitude SuperDARN radars are reviewed in five specified scientific and technical areas: convection, ionospheric irregularities, HF propagation analysis, ion-neutral interactions, and magnetohydrodynamic (MHD) waves. Finally, the present status of mid-latitude SuperDARN is updated and directions for future research are discussed.
Published: 2019

23. The Martian bow shock over solar cycle 23-24 as observed by the Mars Express mission

Author: Hall, Benjamin Edward Stanley, Sánchez-Cano, Beatriz, Wild, James Anderson, Lester, Mark, Holmstrom, Mats, Hall, Benjamin Edward Stanley, Sánchez-Cano, Beatriz, Wild, James Anderson, Lester, Mark, and Holmstrom, Mats
Abstract: The Martian bow shock position is known to be correlated with solar extreme ultraviolet irradiance. Since this parameter is also correlated with the evolution of the solar cycle, it is expected that the Martian bow shock position should also vary over such a period. However, previous reports on this topic have often proved contradictory. Using 13 years of observations of the Martian bow shock by the Mars Express mission over the period 2004 to 2017, we report that the Martian bow shock position does vary over the solar cycle. Over this period, our analysis shows the bow shock position to increase on average by 7% between the solar minimum and maximum phases of solar cycle 23–24, which could be even larger for more extreme previous solar cycles. We show that both annual and solar cycle variations play major roles in the location of the bow shock at Mars.
Published: 2019

24. Spatially Resolved Neutral Wind Response Times During High Geomagnetic Activity Above Svalbard

Author: Billett, Daniel, Wild, Jim, Grocott, Adrian, Aruliah, Anasuya, Ronksley, Amy, Walach, Maria, Lester, Mark, Billett, Daniel, Wild, Jim, Grocott, Adrian, Aruliah, Anasuya, Ronksley, Amy, Walach, Maria, and Lester, Mark
Abstract: It has previously been shown that in the high-latitude thermosphere, sudden changes in plasma velocity (such as those due to changes in interplanetary magnetic field) are not immediately propagated into the neutral gas via the ion-drag force. This is due to the neutral particles (O, O 2, and N 2) constituting the bulk mass of the thermospheric altitude range and thus holding on to residual inertia from a previous level of geomagnetic forcing. This means that consistent forcing (or dragging) from the ionospheric plasma is required, over a period of time, long enough for the neutrals to reach an equilibrium with regard to ion drag. Furthermore, mesoscale variations in the plasma convection morphology, solar pressure gradients, and other forces indicate that the thermosphere-ionosphere coupling mechanism will also vary in strength across small spatial scales. Using data from the Super Dual Auroral Radar Network and a Scanning Doppler Imager, a geomagnetically active event was identified, which showed plasma flows clearly imparting momentum to the neutrals. A cross-correlation analysis determined that the average time for the neutral winds to accelerate fully into the direction of ion drag was 75 min, but crucially, this time varied by up to 30 min (between 67 and 97 min) within a 1,000-km field of view at an altitude of around 250 km. It is clear from this that the mesoscale structure of both the plasma and neutrals has a significant effect on ion-neutral coupling strength and thus energy transfer in the thermosphere.
Published: 2019

25. Review of the accomplishments of mid-latitude Super Dual Auroral Radar Network (SuperDARN) HF radars

Author: Electrical and Computer Engineering, Nishitani, Nozomu, Ruohoniemi, J. Michael, Lester, Mark, Baker, Joseph B. H., Koustov, Alexandre V., Shepherd, Simon G., Chisham, Gareth, Hori, Tomoaki, Thomas, Evan Grier, Makarevich, Roman A., Marchaudon, Aurélie, Ponomarenko, Pavlo V., Wild, James A., Milan, Stephen E., Bristow, William A., Devlin, John, Miller, Ethan, Greenwald, Raymond A., Ogawa, Tadahiko, Kikuchi, Takashi, Electrical and Computer Engineering, Nishitani, Nozomu, Ruohoniemi, J. Michael, Lester, Mark, Baker, Joseph B. H., Koustov, Alexandre V., Shepherd, Simon G., Chisham, Gareth, Hori, Tomoaki, Thomas, Evan Grier, Makarevich, Roman A., Marchaudon, Aurélie, Ponomarenko, Pavlo V., Wild, James A., Milan, Stephen E., Bristow, William A., Devlin, John, Miller, Ethan, Greenwald, Raymond A., Ogawa, Tadahiko, and Kikuchi, Takashi
Abstract: The Super Dual Auroral Radar Network (SuperDARN) is a network of high-frequency (HF) radars located in the high- and mid-latitude regions of both hemispheres that is operated under international cooperation. The network was originally designed for monitoring the dynamics of the ionosphere and upper atmosphere in the high-latitude regions. However, over the last approximately 15 years, SuperDARN has expanded into the mid-latitude regions. With radar coverage that now extends continuously from auroral to sub-auroral and mid-latitudes, a wide variety of new scientific findings have been obtained. In this paper, the background of mid-latitude SuperDARN is presented at first. Then, the accomplishments made with mid-latitude SuperDARN radars are reviewed in five specified scientific and technical areas: convection, ionospheric irregularities, HF propagation analysis, ion-neutral interactions, and magnetohydrodynamic (MHD) waves. Finally, the present status of mid-latitude SuperDARN is updated and directions for future research are discussed.
Published: 2019

26. Spatial, Seasonal, and Solar Cycle Variations of the Martian Total Electron Content (TEC): Is the TEC a Good Tracer for Atmospheric Cycles?

Author: Science and Technology Facilities Council (UK), European Space Agency, Europlanet Society, Sánchez-Cano, Beatriz, Lester, Mark, Witasse, Olivier, Blelly, Pierre-Louis, Indurain, Mikel, Cartacci, Marco, González-Galindo, F., Vicente-Retortillo, Álvaro, Cicchetti, Andrea, Noschese, Raffaella, Science and Technology Facilities Council (UK), European Space Agency, Europlanet Society, Sánchez-Cano, Beatriz, Lester, Mark, Witasse, Olivier, Blelly, Pierre-Louis, Indurain, Mikel, Cartacci, Marco, González-Galindo, F., Vicente-Retortillo, Álvaro, Cicchetti, Andrea, and Noschese, Raffaella
Abstract: We analyze 10 years of Mars Express total electron content (TEC) data from the Mars Advanced Radar for Subsurface and Ionospheric Sounding (MARSIS) instrument. We describe the spatial, seasonal, and solar cycle behavior of the Martian TEC. Due to orbit evolution, data come mainly from the evening, dusk terminator and postdusk nightside. The annual TEC profile shows a peak at Ls = 25–75° which is not related to the solar irradiance variation but instead coincides with an increase in the thermospheric density, possibly linked with variations in the surface pressure produced by atmospheric cycles such as the CO or water cycles. With the help of numerical modeling, we explore the contribution of the ion species to the TEC and the coupling between the thermosphere and ionosphere. These are the first observations which show that the TEC is a useful parameter, routinely measured by Mars Express, of the dynamics of the lower-upper atmospheric coupling and can be used as tracer for the behavior of the thermosphere.©2018. The Authors.
Published: 2018

27. Interplanetary coronal mass ejection observed at STEREO-A, Mars, comet 67P/Churyumov-Gerasimenko, Saturn, and New Horizons en-route to Pluto. Comparison of its Forbush decreases at 1.4, 3.1 and 9.9 AU:Interplanetary coronal mass ejection

Author: Witasse, Olivier, Sánchez-Cano, Beatriz, Mays, M. L., Kajdič, P., Opgenoorth, Hermann, Elliott, H. A., Richardson, I. G., Zouganelis, I., Zender, J., Wimmer-Schweingruber, R. F., Turc, L., Taylor, M. G. G. T., Roussos, E., Rouillard, A., Richter, I., Richardson, J. D., Ramstad, R., Provan, G., Posner, A., Plaut, J. J., Odstrcil, D., Nilsson, H., Niemenen, P., Milan, S. E., Mandt, K., Lohf, H., Lester, Mark, Lebreton, J.-P., Kuulkers, E., Krupp, N., Koenders, C., James, M. K., Intzekara, D., Holmstrom, Mats, Hassler, D. M., Hall, B. E. S., Guo, J., Goldstein, R., Goetz, C., Glassmeier, K. H., Génot, V., Evans, H., Espley, J., Edberg, Niklas, Dougherty, M., Cowley, S. W. H., Burch, J., Behar, E., Barabash, Stas, Andrews, David, Altobelli, N., Witasse, Olivier, Sánchez-Cano, Beatriz, Mays, M. L., Kajdič, P., Opgenoorth, Hermann, Elliott, H. A., Richardson, I. G., Zouganelis, I., Zender, J., Wimmer-Schweingruber, R. F., Turc, L., Taylor, M. G. G. T., Roussos, E., Rouillard, A., Richter, I., Richardson, J. D., Ramstad, R., Provan, G., Posner, A., Plaut, J. J., Odstrcil, D., Nilsson, H., Niemenen, P., Milan, S. E., Mandt, K., Lohf, H., Lester, Mark, Lebreton, J.-P., Kuulkers, E., Krupp, N., Koenders, C., James, M. K., Intzekara, D., Holmstrom, Mats, Hassler, D. M., Hall, B. E. S., Guo, J., Goldstein, R., Goetz, C., Glassmeier, K. H., Génot, V., Evans, H., Espley, J., Edberg, Niklas, Dougherty, M., Cowley, S. W. H., Burch, J., Behar, E., Barabash, Stas, Andrews, David, and Altobelli, N.
Abstract: We discuss observations of the journey throughout the Solar System of a large interplanetary coronal mass ejection (ICME) that was ejected at the Sun on 14 October 2014. The ICME hit Mars on 17 October, as observed by the Mars Express, MAVEN, Mars Odyssey and MSL missions, 44 hours before the encounter of the planet with the Siding-Spring comet, for which the space weather context is provided. It reached comet 67P/Churyumov-Gerasimenko, which was perfectly aligned with the Sun and Mars at 3.1 AU, as observed by Rosetta on 22 October. The ICME was also detected by STEREO-A on 16 October at 1 AU, and by Cassini in the solar wind around Saturn on the 12 November at 9.9 AU. Fortuitously, the New Horizons spacecraft was also aligned with the direction of the ICME at 31.6 AU. We investigate whether this ICME has a non-ambiguous signature at New Horizons. A potential detection of this ICME by Voyager-2 at 110-111 AU is also discussed. The multi-spacecraft observations allow the derivation of certain properties of the ICME, such as its large angular extension of at least 116°, its speed as a function of distance, and its magnetic field structure at four locations from 1 to 10 AU. Observations of the speed data allow two different solar wind propagation models to be validated. Finally, we compare the Forbush decreases (transient decreases followed by gradual recoveries in the galactic cosmic ray intensity) due to the passage of this ICME at Mars, comet 67P and Saturn.
Published: 2017

28. Solar cycle variations in the ionosphere of Mars

Author: Sánchez-Cano, Beatriz, Lester, Mark, Witasse, Olivier, Blelly, Pierre-Louis, Cartacci, Marco, Radicella, Sandro M., Herraiz Sarachaga, Miguel, Sánchez-Cano, Beatriz, Lester, Mark, Witasse, Olivier, Blelly, Pierre-Louis, Cartacci, Marco, Radicella, Sandro M., and Herraiz Sarachaga, Miguel
Abstract: ® 2016 Universidad Complutense de Madrid, Servicio de publicaciones. B.S.-C. and M.L. acknowledge support through STFC grant ST/K001000/1 and ST/N000749/1. B.S.-C. also acknowledges a scientific stay at ESA-ESTEC by ESTEC Faculty support funding. Authors acknowledge Mars Express MARSIS PIs for making data accessible., Solar cycle variations in solar radiation create notable changes in the Martian ionosphere, which have been analysed with Mars Express plasma datasets in this paper. In general, lower densities and temperatures of the ionosphere are found during the low solar activity phase, while higher densities and temperatures are found during the high solar activity phase. In this paper, we assess the degree of influence of the long term solar flux variations in the ionosphere of Mars., La radiación solar en cada fase del ciclo solar crea importantes variaciones en la ionosfera de Marte, las cuales son analizadas en este artículo con datos de la sonda Mars Express. En general, las densidades y temperaturas más bajas de la ionosfera se encuentran durante la fase de baja actividad solar, mientras que las densidades y temperaturas más elevadas se encuentran durante la fase de alta actividad solar. Este artículo evalúa el efecto que las variaciones del flujo solar tienen a largo plazo en la ionosfera., STFC, ESTEC Faculty, Depto. de Física de la Tierra y Astrofísica, Fac. de Ciencias Físicas, TRUE, pub
Published: 2016

29. Annual variations in the Martian bow shock location as observed by the Mars Express mission

Author: Hall, Benjamin Edward Stanley, Lester, Mark, Sánchez-Cano, Beatriz, Nichols, Jonathan, Andrews, David, Edberg, Niklas, Opgenoorth, Hermann, Fraenz, Markus, Holmstrom, Mats, Ramstad, Robin, Witasse, Olivier, Cartacci, Marco, Cicchetti, A, Noschese, R, Orosei, R, Hall, Benjamin Edward Stanley, Lester, Mark, Sánchez-Cano, Beatriz, Nichols, Jonathan, Andrews, David, Edberg, Niklas, Opgenoorth, Hermann, Fraenz, Markus, Holmstrom, Mats, Ramstad, Robin, Witasse, Olivier, Cartacci, Marco, Cicchetti, A, Noschese, R, and Orosei, R
Abstract: The Martian bow shock distance has previously been shown to be anticorrelated with solar wind dynamic pressure but correlated with solar extreme ultraviolet (EUV) irradiance. Since both of these solar parameters reduce with the square of the distance from the Sun, and Mars' orbit about the Sun increases by ∼0.3 AU from perihelion to aphelion, it is not clear how the bow shock location will respond to variations in these solar parameters, if at all, throughout its orbit. In order to characterize such a response, we use more than 5 Martian years of Mars Express Analyser of Space Plasma and EneRgetic Atoms (ASPERA-3) Electron Spectrometer measurements to automatically identify 11,861 bow shock crossings. We have discovered that the bow shock distance as a function of solar longitude has a minimum of 2.39RM around aphelion and proceeds to a maximum of 2.65RM around perihelion, presenting an overall variation of ∼11% throughout the Martian orbit. We have verified previous findings that the bow shock in southern hemisphere is on average located farther away from Mars than in the northern hemisphere. However, this hemispherical asymmetry is small (total distance variation of ∼2.4%), and the same annual variations occur irrespective of the hemisphere. We have identified that the bow shock location is more sensitive to variations in the solar EUV irradiance than to solar wind dynamic pressure variations. We have proposed possible interaction mechanisms between the solar EUV flux and Martian plasma environment that could explain this annual variation in bow shock location.
Published: 2016

30. A survey of superthermal electron flux depressions, or “electron holes” within the illuminated Martian induced magnetosphere

Author: Hall, Benjamin Edward Stanley, Lester, Mark, Nichols, Jonathan, Sánchez-Cano, Beatriz, Andrews, David, Opgenoorth, Hermann, Fraenz, Markus, Hall, Benjamin Edward Stanley, Lester, Mark, Nichols, Jonathan, Sánchez-Cano, Beatriz, Andrews, David, Opgenoorth, Hermann, and Fraenz, Markus
Abstract: Since Mars lacks a global intrinsic magnetic field, the solar wind interacts directly with the Martian upper atmosphere and ionosphere. The presence of localized intense remnant crustal magnetic fields adds to this interaction, making the Martian plasma system a unique environment within the solar system. Rapid reductions in the electron flux, referred to as “electron holes,” occur within the Martian induced magnetosphere (IM). We present a statistical analysis of this phenomenon identified from proxy measurements of the electron flux derived from measurements by the Analyser of Space Plasmas and Energetic Neutral Atoms Electron Spectrometer experiment on board the Mars Express (MEX) spacecraft. The study is completed for the period of 9 February 2004 to 9 May 2014. Electron holes are observed within the IM in more than 56% of MEX orbits during this study period, occurring predominantly at altitudes less than 1300 km, with the majority in the negative X Mars-Centric Solar Orbital direction. The spatial distribution above the surface of Mars is observed to bear close resemblance to that of the crustal magnetic fields as predicted by the Cain et al. [2003] magnetic field model, suggesting that they play an important role in the formation of these phenomena.
Published: 2016

31. The morphology of the topside ionosphere of Mars under different solar wind conditions:results of a multi-instrument observing campaign by Mars Express in 2010

Author: Withers, Paul, Matta, M., Lester, Mark, Andrews, D., Edburg, N., Nilsson, H., Opgenoorth, H. J., Curry, Shannon, Lillis, Robert, Dubinin, E., Franz, M., Han, X., Kofman, Wlodek, Lei, L., Morgan, David, Patzold, M., Peter, Kirsten, Opitz, Andrea, Wild, Jim, Witasse, O., Withers, Paul, Matta, M., Lester, Mark, Andrews, D., Edburg, N., Nilsson, H., Opgenoorth, H. J., Curry, Shannon, Lillis, Robert, Dubinin, E., Franz, M., Han, X., Kofman, Wlodek, Lei, L., Morgan, David, Patzold, M., Peter, Kirsten, Opitz, Andrea, Wild, Jim, and Witasse, O.
Abstract: Since the internally-generated magnetic field of Mars is weak, strong coupling is ex- pected between the solar wind, planetary magnetosphere, and planetary ionosphere. However, few previous observational studies of this coupling incorporated data that extended from the solar wind to deep into the ionosphere. Here we use solar wind, magnetosphere, and ionosphere data obtained by the Mars Express spacecraft dur- ing March/April 2010 to investigate this coupling. We focus on three case studies, each centered on a pair of ionospheric electron density profiles measured by radio occultations, where the two profiles in each pair were obtained from the same lo- cation at an interval of only a few days. We find that high dynamic pressures in the solar wind are associated with compression of the magnetosphere, heating of the magnetosheath, reduction in the vertical extent of the ionosphere, and abrupt changes in electron density at the top of the ionosphere. The first three of these associations are analogous to the behavior of the plasma environment of Venus, but the final one is not. These results reinforce the notion that changes in solar forc- ing influence the behaviors of all of the tightly coupled regions within the Martian plasma environment.
Published: 2016

32. The morphology of the topside ionosphere of Mars under different solar wind conditions : results of a multi-instrument observing campaign by Mars Express in 2010

Author: Withers, Paul, Matta, M., Lester, Mark, Andrews, D., Edburg, N., Nilsson, H., Opgenoorth, H. J., Curry, Shannon, Lillis, Robert, Dubinin, E., Franz, M., Han, X., Kofman, Wlodek, Lei, L., Morgan, David, Patzold, M., Peter, Kirsten, Opitz, Andrea, Wild, Jim, Witasse, O., Withers, Paul, Matta, M., Lester, Mark, Andrews, D., Edburg, N., Nilsson, H., Opgenoorth, H. J., Curry, Shannon, Lillis, Robert, Dubinin, E., Franz, M., Han, X., Kofman, Wlodek, Lei, L., Morgan, David, Patzold, M., Peter, Kirsten, Opitz, Andrea, Wild, Jim, and Witasse, O.
Abstract: Since the internally-generated magnetic field of Mars is weak, strong coupling is ex- pected between the solar wind, planetary magnetosphere, and planetary ionosphere. However, few previous observational studies of this coupling incorporated data that extended from the solar wind to deep into the ionosphere. Here we use solar wind, magnetosphere, and ionosphere data obtained by the Mars Express spacecraft dur- ing March/April 2010 to investigate this coupling. We focus on three case studies, each centered on a pair of ionospheric electron density profiles measured by radio occultations, where the two profiles in each pair were obtained from the same lo- cation at an interval of only a few days. We find that high dynamic pressures in the solar wind are associated with compression of the magnetosphere, heating of the magnetosheath, reduction in the vertical extent of the ionosphere, and abrupt changes in electron density at the top of the ionosphere. The first three of these associations are analogous to the behavior of the plasma environment of Venus, but the final one is not. These results reinforce the notion that changes in solar forc- ing influence the behaviors of all of the tightly coupled regions within the Martian plasma environment.
Published: 2016

33. Interplanetary magnetic field control of the ionospheric field-aligned current and convection distributions

Author: Juusola, L., Milan, S. E., Lester, Mark, Grocott, Adrian, Imber, S. M., Juusola, L., Milan, S. E., Lester, Mark, Grocott, Adrian, and Imber, S. M.
Abstract: Patterns of the high-latitude ionospheric convection and field-aligned current (FAC) are a manifestation of the solar wind-magnetosphere-ionosphere coupling. By observing them we can acquire information on magnetopause reconnection, a process through which solar wind energy enters the magnetosphere. We use over 10 years of magnetic field and convection data from the CHAMP satellite and Super Dual Auroral Radar Network radars, respectively, to display combined distributions of the FACs and convection for different interplanetary magnetic field (IMF) orientations and amplitudes. During southward IMF, convection follows the established two-cell pattern with associated Region 1 and Region 2 FACs, indicating subsolar reconnection. During northward IMF, superposed on a weak two-cell pattern there is a reversed two-cell pattern with associated Region 0 and Region 1 FACs on the dayside, indicating lobe reconnection. For dominant IMF Bx, the sign of Bz determines whether lobe or subsolar reconnection signatures will be observed, but Bx will weaken the signatures compared to pure northward or southward IMF. When the IMF rotates from northward to duskward or dawnward, the distinct reversed and forward two-cell patterns start to merge into a distorted two-cell pattern. This is in agreement with the IMF By displacing the reconnection location from the open lobe field lines to closed dawn or dusk field lines, even though IMF Bz>0. As the IMF continues to rotate southward, the distorted pattern transforms smoothly to that of the symmetric two-cell pattern. While the IMF direction determines the configuration of the FACs and convection, the IMF amplitude affects their intensity.
Published: 2014

34. From atmosphere to space: a new scientific frontier

Author: Moffat-Griffin, Tracy, Lester, Mark, Freeman, Mervyn, Moffat-Griffin, Tracy, Lester, Mark, and Freeman, Mervyn
Abstract: Progress in the science of weather – on Earth and in space – depends on understanding the whole of the atmosphere, from the surface of the Earth into space. Tracy Moffat-Griffin reports on an RAS specialist discussion meeting that crossed traditional disciplinary boundaries.
Published: 2013

35. Energetic charged particles above thunderclouds

Author: Füllekrug, Martin, Diver, Declan, Pinçon, Jean-Louis, Phelps, Alan D.R., Bourdon, Anne, Helling, Christiane, Blanc, Elisabeth, Honary, Farideh, Harrison, R. Giles, Sauvaud, Jean-André, Renard, Jean-Baptiste, Lester, Mark, Rycroft, Michael, Kosch, Mike, Horne, Richard B., Soula, Serge, Gaffet, Stéphane, Füllekrug, Martin, Diver, Declan, Pinçon, Jean-Louis, Phelps, Alan D.R., Bourdon, Anne, Helling, Christiane, Blanc, Elisabeth, Honary, Farideh, Harrison, R. Giles, Sauvaud, Jean-André, Renard, Jean-Baptiste, Lester, Mark, Rycroft, Michael, Kosch, Mike, Horne, Richard B., Soula, Serge, and Gaffet, Stéphane
Abstract: The French government has committed to launch the satellite TARANIS to study transient coupling processes between the Earth’s atmosphere and near-Earth space. The prime objective of TARANIS is to detect energetic charged particles and hard radiation emanating from thunderclouds. The British Nobel prize winner C.T.R. Wilson predicted lightning discharges from the top of thunderclouds into space almost a century ago. However, new experiments have only recently confirmed energetic discharge processes which transfer energy from the top of thunderclouds into the upper atmosphere and near-Earth space; they are now denoted as transient luminous events, terrestrial gamma-ray flashes and relativistic electron beams. This meeting report builds on the current state of scientific knowledge on the physics of plasmas in the laboratory and naturally occurring plasmas in the Earth’s atmosphere to propose areas of future research. The report specifically reflects presentations delivered by the members of a novel Franco-British collaboration during a meeting at the French Embassy in London held in November 2011. The scientific subjects of the report tackle ionization processes leading to electrical discharge processes, observations of transient luminous events, electromagnetic emissions, energetic charged particles and their impact on the Earth’s atmosphere. The importance of future research in this area for science and society, and towards spacecraft protection, is emphasized.
Published: 2013

36. Energetic Charged Particles Above Thunderclouds

Author: Fuellekrug, Martin, Diver, Declan, Pincon, Jean-Louis, Phelps, Alan D. R., Bourdon, Anne, Helling, Christiane, Blanc, Elisabeth, Honary, Farideh, Harrison, R. Giles, Sauvaud, Jean-Andre, Renard, Jean-Baptiste, Lester, Mark, Rycroft, Michael, Kosch, Michael, Horne, Richard B., Soula, Serge, Gaffet, Stephane, Fuellekrug, Martin, Diver, Declan, Pincon, Jean-Louis, Phelps, Alan D. R., Bourdon, Anne, Helling, Christiane, Blanc, Elisabeth, Honary, Farideh, Harrison, R. Giles, Sauvaud, Jean-Andre, Renard, Jean-Baptiste, Lester, Mark, Rycroft, Michael, Kosch, Michael, Horne, Richard B., Soula, Serge, and Gaffet, Stephane
Abstract: The French government has committed to launch the satellite TARANIS to study transient coupling processes between the Earth's atmosphere and near-Earth space. The prime objective of TARANIS is to detect energetic charged particles and hard radiation emanating from thunderclouds. The British Nobel prize winner C.T.R. Wilson predicted lightning discharges from the top of thunderclouds into space almost a century ago. However, new experiments have only recently confirmed energetic discharge processes which transfer energy from the top of thunderclouds into the upper atmosphere and near-Earth space; they are now denoted as transient luminous events, terrestrial gamma-ray flashes and relativistic electron beams. This meeting report builds on the current state of scientific knowledge on the physics of plasmas in the laboratory and naturally occurring plasmas in the Earth's atmosphere to propose areas of future research. The report specifically reflects presentations delivered by the members of a novel Franco-British collaboration during a meeting at the French Embassy in London held in November 2011. The scientific subjects of the report tackle ionization processes leading to electrical discharge processes, observations of transient luminous events, electromagnetic emissions, energetic charged particles and their impact on the Earth's atmosphere. The importance of future research in this area for science and society, and towards spacecraft protection, is emphasized.
Published: 2013

37. Design alternatives to improve consumer appeal and manufacturability of a water-filled teether for babies

Author: Steven D. Eppinger., Sloan School of Management., Lester, Mark Alan, Steven D. Eppinger., Sloan School of Management., and Lester, Mark Alan
Abstract: Thesis (M.S.)--Massachusetts Institute of Technology, Sloan School of Management, 1990., by Mark Alan Lester., M.S.
Published: 2012

38. Physical Fitness and Injuries Before and After Deployments of the United States (US) Army to Afghanistan and Iraq

Author: ARMY RESEARCH INST OF ENVIRONMENTAL MEDICINE NATICK MA, Sharp, Marilyn A, Lester, Mark E, Knapik, Joseph J, ARMY RESEARCH INST OF ENVIRONMENTAL MEDICINE NATICK MA, Sharp, Marilyn A, Lester, Mark E, and Knapik, Joseph J
Abstract: Physical training and avoidance of injury is critical to maintaining the health and performance of soldiers. Anecdotal reports from United States (US) Army unit leaders and healthcare providers suggest deployed soldiers experience losses in fitness and muscle mass and have higher injury rates compared to those experienced prior to deployment. Confirming or countering these reports is particularly important since soldiers are called upon for repeated deployments., See also ADA562561. RTO-MP-HFM-181 Human Performance Enhancement for NATO Military Operations (Science, Technology and Ethics) (Amelioration des performances humaines dans les operations militaires de l'OTAN (Science, Technologie et Ethique)). RTO Human Factors and Medicine Panel (HFM) Symposium held in Sofia, Bulgaria, on 5-7 October 2009., The original document contains color images.
Published: 2009

39. Injuries and Physical Fitness Before and After Deployments of the 10th Mountain Division to Afghanistan and the 1st Cavalry Division to Iraq, September 2005 - October 2008

Author: ARMY CENTER FOR HEALTH PROMOTION AND PREVENTIVE MEDICINE ABERDEEN PROVING GROUND MD, Knapik, Joseph J., Spiess, Anita, Grier, Tyson L., Lester, Mark E., Sharp, Marilyn A., Tobler, Steven K., Swedler, David I., Jones, Bruce H., ARMY CENTER FOR HEALTH PROMOTION AND PREVENTIVE MEDICINE ABERDEEN PROVING GROUND MD, Knapik, Joseph J., Spiess, Anita, Grier, Tyson L., Lester, Mark E., Sharp, Marilyn A., Tobler, Steven K., Swedler, David I., and Jones, Bruce H.
Abstract: This project examined injuries and physical fitness before and after deployments of the 10th Mountain Division to Afghanistan (10thMt cohort, n=505 men) and 1st Cavalry Division to Iraq (1stCav cohort, n=3242 men). Deployed Soldiers' outpatient medical encounters were obtained from the Armed Forces Health Surveillance Center and examined for injuries during two consecutive 90-day periods before (Periods 1-2) and two consecutive 90-day periods after deployment (Periods 3-4). Army Physical Fitness Test (APFT) data were obtained from testing 4-6 months before and after deployment. Both deployed groups showed post deployment increases in injury incidence (10thMt=14.1%, 14.1%, 16.4%, 23.4%; 1stCav=15.1%, 12.4%, 35.4%, 43.4%; Periods 1-4, respectively). Limited APFT data (n=178, 10thMt; n=90, 1stCav) indicated that average post deployment body weights were higher (3-9 lb), but there was generally little difference in the pre- and post deployment push-up and sit-up scores. The 10thMt group had similar pre- and post deployment 2-mile run times, but the 1stCav demonstrated an average 5% slower post deployment run time. This project documented a post deployment increase in injuries. Further, in some cases, physical fitness may not return to pre deployment levels even 4 to 6 months post deployment, although an appropriate physical training program may ameliorate this effect., The original document contains color images.
Published: 2008

40. Injury Reduction Effectiveness of Prescribing Running Shoes Based on Foot Shape in Basic Combat Training

Author: ARMY CENTER FOR HEALTH PROMOTION AND PREVENTIVE MEDICINE ABERDEEN PROVING GROUND MD, Knapik, Joseph J., Swedler, David, Grier, Tyson, Hauret, Keith G., Bullock, Steven H., Williams, Kelly, Darakjy, Salima, Lester, Mark, Tobler, Steve, Clemmons, Nakia, ARMY CENTER FOR HEALTH PROMOTION AND PREVENTIVE MEDICINE ABERDEEN PROVING GROUND MD, Knapik, Joseph J., Swedler, David, Grier, Tyson, Hauret, Keith G., Bullock, Steven H., Williams, Kelly, Darakjy, Salima, Lester, Mark, Tobler, Steve, and Clemmons, Nakia
Abstract: In Basic Combat Training (BCT) running shoes are prescribed based on plantar foot shape (reflecting longitudinal arch height). In response to a request from the Military Training Task Force of the Defense Safety Oversight Council this study examined whether or not this prescription technique influenced injury risk. After foot examinations BCT recruits in an experimental group (E, n=1,079 men, 456 women) were prescribed motion control stability or cushioned shoes for foot shapes judged to represent low medium or high arches respectively. A control group (C, n=1,068 men, 464 women) received a stability shoe regardless of plantar foot shape. Injuries during BCT were determined from outpatient visits provided by the Army Medical Surveillance Activity. Other previously known injury risk factors (e.g. age fitness smoking) were obtained from a questionnaire and existing databases. Multivariate Cox regression controlling for other injury risk factors showed little difference between the E and C groups among men (risk ratio (CIE) = 1.1195% confidence interval = 0.91- 1.34) or women (risk ratio (CIE)=1.14 95% confidence interval = 0.91-1.44). This prospective study demonstrated that prescribing shoes on the basis of the shape of the plantar foot surface had little influence on injury risk even after control of known injury risk factors., The original document contains color images.
Published: 2008

41. Observations of tail dynamics using ground and space based instruments during a period of multiple substorm events

Author: Syrjasuo, M., Donovan, E., Forsyth, C., Lester, Mark, Milan, S. E., Grocott, Adrian, Frey, H. U., Lucek, E., Reme, Henri, Watermann, Jurgen, Syrjasuo, M., Donovan, E., Forsyth, C., Lester, Mark, Milan, S. E., Grocott, Adrian, Frey, H. U., Lucek, E., Reme, Henri, and Watermann, Jurgen
Published: 2006

42. Unusual Ionospheric Echoes with Velocity and Very Low Special Width Observed by the SuperDARN Radars in the Polar Cap During High Geomagnetic Activity

Author: AIR FORCE RESEARCH LAB HANSCOM AFB MA SPACE WEATHER CENTER OF EXCELLENCE, Nishitani, Nozomu, Lester, Mark, Milan, Steve E., Ogawa, Tadahiko, Sato, Natsuo, AIR FORCE RESEARCH LAB HANSCOM AFB MA SPACE WEATHER CENTER OF EXCELLENCE, Nishitani, Nozomu, Lester, Mark, Milan, Steve E., Ogawa, Tadahiko, and Sato, Natsuo
Abstract: The spectral width of the ionospheric backscatter echoes obtained with the SuperDARN radars has been regarded as a useful tool for locating specific ionospheric regions such as the cusp. In this paper we report the presence of ionospheric echoes with high (>450 m/s) Doppler velocity and very low (<60 m/s) spectral width, observed by the CUTLASS and Syowa East and South SuperDARN radars. These echoes have the following characteristics. (1) They have a close correlation with geomagnetic activity such that as the Dst index decreases, the radars tend to observe ionospheric echoes with high Doppler velocity and very low spectral width more frequently. (2) Their existence does not depend on magnetic local time. (3) They are located preferably in the polar cap region, where antisunward convection prevails. (4) They sometimes exist over a wide range, so they are more likely to be F-region rather than E-region echoes. The occurrence of these echoes during active periods is associated with the suppression of the electric field turbulence. The present result appears consistent with the previous paper by Golovchanskaya et al. 2002, who showed the negative correlation between the electric field turbulence level and geomagnetic activity., The original document contains color images. All DTIC reproductions will be in black and white. Pub. in Jnl. of Geophysical Research, v109 p1-15, 2004.
Published: 2004

43. Simultaneous SuperDARN and Cluster observations of the growth and expansion phases of substorms

Author: Ganushkina, N., Pulkkinen, T. I., Draper, N. C., Lester, Mark, Wild, Jim, Milan, S. E., Provan, G., Grocott, Adrian, Cowley, S. W. H., Fazakerley, A. N., Lahiff, A., Davies, Jackie A., Bosqued, J.-M., Dewhurst, J. P., Nakamura, R., Owen, C. J., Ganushkina, N., Pulkkinen, T. I., Draper, N. C., Lester, Mark, Wild, Jim, Milan, S. E., Provan, G., Grocott, Adrian, Cowley, S. W. H., Fazakerley, A. N., Lahiff, A., Davies, Jackie A., Bosqued, J.-M., Dewhurst, J. P., Nakamura, R., and Owen, C. J.
Published: 2004

44. Optimum Antenna Spacing for Diversity in Meteor Burst Communications Systems

Author: ROYAL AEROSPACE ESTABLISHMENT FARNBOROUGH (UNITED KINGDOM), Cannon, Paul S., Shula, Anil K., Lester, Mark, ROYAL AEROSPACE ESTABLISHMENT FARNBOROUGH (UNITED KINGDOM), Cannon, Paul S., Shula, Anil K., and Lester, Mark
Abstract: Temperate latitude meteor burst (MB) space diversity measurements, using cross correlation analysis of 37 MHz signals scattered over an 800 km path, are reported. Signals of duration >0.75 s, received on antennas separated by 5 Lambda, 10 Lambda and 20 lambda, are investigated using 6 days of data collected over a 9-day period during February 1990. Signal decorrelation is shown to be achieved by an antenna separation of 5 Lambda and there is no apparent variation in average cross correlation coefficient, for antenna separations between 5 Lambda and 20 Lambda for any of the signal categories examined. We discuss in some detail previous diversity studies by Bartholome 1 and Ladd 2., This article is from 'Use or Reduction of Propagation and Noise Propagation in Distributed Military Systems: Electromagnetic Wave Propagation Panel Symposium Held in Rethymno, Crete, Greece on 15-18 October 1990 (Utilisation ou Reduction des Effets de la Propagation et du Bruit dans les Systemes Militaires Distribues,' AD-A244 895, p6-1 thru 6-13.
Published: 1991

45. Studies of Plasma Irregularities and Convection in the Polar Ionosphere Using HILAT, SABRE and EISCAT

Author: LEICESTER UNIV (UNITED KINGDOM) DEPT OF PHYSICS, Jones, Tudor B., Lester, Mark, Wilkinson, Angela J., LEICESTER UNIV (UNITED KINGDOM) DEPT OF PHYSICS, Jones, Tudor B., Lester, Mark, and Wilkinson, Angela J.
Abstract: A statistical study of the F-region main ionospheric trough has been undertaken with EISCAT common programme data to assess the possibility that the trough region is a perferntial region for the generation of E-region irregularities. Three years of CP-3 data from EISCAT formed the basis of this study. Backscatter observed by the coherent radar, SABRE, was also utilised to study the occurrence of irregularities in the E-region. On 26 out of the 36 day s when the trough was observed by EISCAT, SABRE observed coherent backscatter. Although this percentage seems high, there was no consistent relationship between the latitude of the trough minimum and the latitude of peak backscatter intensity. A case study involving a four day run of EISCAT in September 1986 indicates that the trough latitude can be affected by changes in the Interplanetary Magnetic Field north-south components. On two days rapid decreases in the latitude of the trough were related to a southward turning of the IMF and the onset of backscatter. The high percentage of occurrence of and backscatter if believed to be caused by enhanced convection.
Published: 1989

46. A Model for Integrating a Job-Aiding, Training, and Performance Assessment System--a Preliminary Concept Paper.

Author: AIR FORCE HUMAN RESOURCES LAB BROOKS AFB TX, Kline, Charles R , Jr, Lester, Mark, AIR FORCE HUMAN RESOURCES LAB BROOKS AFB TX, Kline, Charles R , Jr, and Lester, Mark
Abstract: A model for an integrated system used for job aiding, training, and performance assessment is presented. The model is driven by updatable job aids, by integrated man machine heuristics, and by an expanding matrix of maintenance activities. The model uses the job-aiding base, updated by computer networks and retrieval systems. In the model, this job aiding system is part of an expert system. All inputs and outputs are envisioned to be in natural, human, languages presented in a user friendly series of displays and menus. The model also provides for training and performance assessment. To create training modules, the computer subsystem implements the appropriate job aid by presenting it in a training frame. To create training modules, the computer subsystem implements the appropriate job aid by presenting it in a training frame. To create a performance assessment battery, the computer subsystem presents the job aid after filtering it through a linguistic transformation which turns it into a case study or, if appropriate, a series of questions. Keywords: Artificial intelligence, Expert systems, Heuristic problem solving, Integrated diagnostics., Prepared in collaboration with Tracor Aerospace, Austin, TX and Eastern Washington Univ., Cheney, WA. Dept. of English.
Published: 1988

47. Atmospheric Tomography Using the Nordic Meteor Radar Cluster And Chilean Observation Network de Meteor Radars: Network Details and 3D-Var Retrieval

Author: Stober, Gunter, Liu, Alan Z., Qiao, Zishun, Kozlovsky, Alexander, Tsutsumi, Masaki, Hall, Chris, Nozawa, Satonori, Lester, Mark, Belova, Evgenia, Kero, Johan, Espy, Patrick J, Hibbins, Robert E, Mitchell, Nicholas, Stober, Gunter, Liu, Alan Z., Qiao, Zishun, Kozlovsky, Alexander, Tsutsumi, Masaki, Hall, Chris, Nozawa, Satonori, Lester, Mark, Belova, Evgenia, Kero, Johan, Espy, Patrick J, Hibbins, Robert E, and Mitchell, Nicholas
Abstract: 1

48. Mars' plasma system. Scientific potential of coordinated multipoint missions: The next generation

Author: Sanchez-Cano, Beatriz, Lester, Mark, Andrews, David J., Opgenoorth, Hermann, Lillis, Robert, Leblanc, Francois, Fowler, Christopher M., Fang, Xiaohua, Vaisberg, Oleg, Mayyasi, Majd, Holmberg, Mika, Guo, Jingnan, Hamrin, Maria, Mazelle, Christian, Peter, Kerstin, Patzold, Martin, Stergiopoulou, Katerina, Goetz, Charlotte, Ermakov, Vladimir Nikolaevich, Shuvalov, Sergei, Wild, James A., Blelly, Pierre-Louis, Mendillo, Michael, Bertucci, Cesar, Cartacci, Marco, Orosei, Roberto, Chu, Feng, Kopf, Andrew J., Girazian, Zachary, Roman, Michael T., Sanchez-Cano, Beatriz, Lester, Mark, Andrews, David J., Opgenoorth, Hermann, Lillis, Robert, Leblanc, Francois, Fowler, Christopher M., Fang, Xiaohua, Vaisberg, Oleg, Mayyasi, Majd, Holmberg, Mika, Guo, Jingnan, Hamrin, Maria, Mazelle, Christian, Peter, Kerstin, Patzold, Martin, Stergiopoulou, Katerina, Goetz, Charlotte, Ermakov, Vladimir Nikolaevich, Shuvalov, Sergei, Wild, James A., Blelly, Pierre-Louis, Mendillo, Michael, Bertucci, Cesar, Cartacci, Marco, Orosei, Roberto, Chu, Feng, Kopf, Andrew J., Girazian, Zachary, and Roman, Michael T.
Abstract: The objective of this White Paper, submitted to ESA's Voyage 2050 call, is to get a more holistic knowledge of the dynamics of the Martian plasma system, from its surface up to the undisturbed solar wind outside of the induced magnetosphere. This can only be achieved with coordinated multi-point observations with high temporal resolution as they have the scientific potential to track the whole dynamics of the system (from small to large scales), and they constitute the next generation of the exploration of Mars analogous to what happened at Earth a few decades ago. This White Paper discusses the key science questions that are still open at Mars and how they could be addressed with coordinated multipoint missions. The main science questions are: (i) How does solar wind driving impact the dynamics of the magnetosphere and ionosphere? (ii) What is the structure and nature of the tail of Mars' magnetosphere at all scales? (iii) How does the lower atmosphere couple to the upper atmosphere? (iv) Why should we have a permanent in-situ Space Weather monitor at Mars? Each science question is devoted to a specific plasma region, and includes several specific scientific objectives to study in the coming decades. In addition, two mission concepts are also proposed based on coordinated multi-point science from a constellation of orbiting and ground-based platforms, which focus on understanding and solving the current science gaps.

49. Meteor Radar Vertical Wind Observation Biases and Mathematical Debiasing Strategies Including the 3DVAR+Div Algorithm

Author: Liu, Alan Z., Qiao, Zishun, Stober, Gunter, Kozlovsky, Alexander, Kuchar, Ales, Jacobi, Christoph, Meek, Chris, Janches, Diego, Liu, Guiping, Tsutsumi, Masaki, Gulbrandsen, Njål, Nozawa, Satonori, Lester, Mark, Belova, Evgenia, Kero, Johan, Mitchell, Nicholas, Liu, Alan Z., Qiao, Zishun, Stober, Gunter, Kozlovsky, Alexander, Kuchar, Ales, Jacobi, Christoph, Meek, Chris, Janches, Diego, Liu, Guiping, Tsutsumi, Masaki, Gulbrandsen, Njål, Nozawa, Satonori, Lester, Mark, Belova, Evgenia, Kero, Johan, and Mitchell, Nicholas
Abstract: 1

50. Mars' plasma system. Scientific potential of coordinated multipoint missions: The next generation

Author: Sanchez-Cano, Beatriz, Lester, Mark, Andrews, David J., Opgenoorth, Hermann, Lillis, Robert, Leblanc, Francois, Fowler, Christopher M., Fang, Xiaohua, Vaisberg, Oleg, Mayyasi, Majd, Holmberg, Mika, Guo, Jingnan, Hamrin, Maria, Mazelle, Christian, Peter, Kerstin, Patzold, Martin, Stergiopoulou, Katerina, Goetz, Charlotte, Ermakov, Vladimir Nikolaevich, Shuvalov, Sergei, Wild, James A., Blelly, Pierre-Louis, Mendillo, Michael, Bertucci, Cesar, Cartacci, Marco, Orosei, Roberto, Chu, Feng, Kopf, Andrew J., Girazian, Zachary, Roman, Michael T., Sanchez-Cano, Beatriz, Lester, Mark, Andrews, David J., Opgenoorth, Hermann, Lillis, Robert, Leblanc, Francois, Fowler, Christopher M., Fang, Xiaohua, Vaisberg, Oleg, Mayyasi, Majd, Holmberg, Mika, Guo, Jingnan, Hamrin, Maria, Mazelle, Christian, Peter, Kerstin, Patzold, Martin, Stergiopoulou, Katerina, Goetz, Charlotte, Ermakov, Vladimir Nikolaevich, Shuvalov, Sergei, Wild, James A., Blelly, Pierre-Louis, Mendillo, Michael, Bertucci, Cesar, Cartacci, Marco, Orosei, Roberto, Chu, Feng, Kopf, Andrew J., Girazian, Zachary, and Roman, Michael T.
Abstract: The objective of this White Paper, submitted to ESA's Voyage 2050 call, is to get a more holistic knowledge of the dynamics of the Martian plasma system, from its surface up to the undisturbed solar wind outside of the induced magnetosphere. This can only be achieved with coordinated multi-point observations with high temporal resolution as they have the scientific potential to track the whole dynamics of the system (from small to large scales), and they constitute the next generation of the exploration of Mars analogous to what happened at Earth a few decades ago. This White Paper discusses the key science questions that are still open at Mars and how they could be addressed with coordinated multipoint missions. The main science questions are: (i) How does solar wind driving impact the dynamics of the magnetosphere and ionosphere? (ii) What is the structure and nature of the tail of Mars' magnetosphere at all scales? (iii) How does the lower atmosphere couple to the upper atmosphere? (iv) Why should we have a permanent in-situ Space Weather monitor at Mars? Each science question is devoted to a specific plasma region, and includes several specific scientific objectives to study in the coming decades. In addition, two mission concepts are also proposed based on coordinated multi-point science from a constellation of orbiting and ground-based platforms, which focus on understanding and solving the current science gaps.

Catalog

Books, media, physical & digital resources

See catalog results

Searchworks

Select search scope, currently: Articles Catalog books, media & more in Jio Institute collections Articles journal articles & other e-resources

Search

Search Constraints

Refine your results

Search Limiters

Topic

Publication Year Range

Language

Publication Type

Database

Publisher

121 results on '"Lester, Mark"'

Search Results

Catalog

Select search scope, currently: Articles

Catalog

books, media & more in Jio Institute collections

Articles

journal articles & other e-resources