Your search keyword '"McKenna-Lawler, S."' showing total 29 results

1. Plasma Acceleration above Martian Magnetic Anomalies

Author

Lundin, R., Winningham, D., Barabash, S., Frahm, R., Holmström, M., Sauvaud, J. A., Fedorov, A., Asamura, K., Coates, A. J., Soobiah, Y., Hsieh, K. C., Grande, M., Koskinen, H., Kallio, E., Kozyra, J., Woch, J., Fraenz, M., Brain, D., Luhmann, J., McKenna-Lawler, S., Orsini, R. S., Brandt, P., and Wurz, P.

Published

2006

2. Solar Wind-Induced Atmospheric Erosion at Mars: First Results from ASPERA-3 on Mars Express

Author

Lundin, R., Barabash, S., Andersson, H., Holmström, M., Grigoriev, A., Yamauchi, M., Fedorov, A., Budnik, E., Winningham, D., Frahm, R., Scherrer, J., Sharber, J., Asamura, K., Hayakawa, H., Coates, A., Linder, D. R., Curtis, C., Hsieh, K. C., Sandel, B. R., Grande, M., Carter, M., Reading, D. H., Koskinen, H., Kallio, E., Riihela, P., Schmidt, W., Säles, T., Kozyra, J., Krupp, N., Woch, J., Luhmann, J., McKenna-Lawler, S., Cerulli-Irelli, R., Orsini, S., Maggi, M., Mura, A., Milillo, A., Roelof, E., Williams, D., Livi, S., Brandt, P., Wurz, P., and Bochsler, P.

Published

2004

3. IMF Direction Derived from Cycloid-Like Ion Distributions Observed by Mars Express

Author

Yamauchi, M., Futaana, Y., Fedorov, A., Dubinin, E., Lundin, R., Sauvaud, J.-A., Winningham, D., Frahm, R., Barabash, S., Holmstrom, M., Woch, J., Fraenz, M., Budnik, E., Borg, H., Sharber, J. R., Coates, A. J., Soobiah, Y, Koskinen, H., Kallio, E., Asamura, K., Hayakawa, H., Curtis, C., Hsieh, K. C., Sandel, B. R., Grande, M., Grigoriev, A., Wurz, P., Orsini, S., Brandt, P., Mckenna-Lawler, S., Kozyra, J., Luhmann, J., and Russell, C. T., editor

Published

2007

4. Auroral Plasma Acceleration above Martian Magnetic Anomalies

Author

Lundin, R., Winningham, D., Barabash, S., Frahm, R., Brain, D., Nilsson, H., Holmström, M., Yamauchi, M., Sharber, J. R., Sauvaud, J.-A., Fedorov, A., Asamura, K., Hayakawa, H., Coates, A. J., Soobiah, Y., Curtis, C., Hsieh, K. C., Grande, M., Koskinen, H., Kallio, E., Kozyra, J., Woch, J., Fraenz, M., Luhmann, J., Mckenna-Lawler, S., Orsini, S., Brandt, P., Wurz, P., and Russell, C. T., editor

Published

2007

5. Locations of Atmospheric Photoelectron Energy Peaks Within the Mars Environment

Author

Frahm, R. A., Sharber, J. R., Winningham, J. D., Wurz, P., Liemohn, M. W., Kallio, E., Yamauchi, M., Lundin, R., Barabash, S., Coates, A. J., Linder, D. R., Kozyra, J. U., Holmström, M., Jeffers, S. J., Andersson, H., Mckenna-Lawler, S., and Russell, C. T., editor

Published

2007

6. Location of the bow shock and ion composition boundaries at Venus—initial determinations from Venus Express ASPERA-4

Author

Martinecz, C., Fränz, M., Woch, J., Krupp, N., Roussos, E., Dubinin, E., Motschmann, U., Barabash, S., Lundin, R., Holmström, M., Andersson, H., Yamauchi, M., Grigoriev, A., Futaana, Y., Brinkfeldt, K., Gunell, H., Frahm, R.A., Winningham, J.D., Sharber, J.R., Scherrer, J., Coates, A.J., Linder, D.R., Kataria, D.O., Kallio, E., Sales, T., Schmidt, W., Riihela, P., Koskinen, H.E.J., Kozyra, J.U., Luhmann, J., Russell, C.T., Roelof, E.C., Brandt, P., Curtis, C.C., Hsieh, K.C., Sandel, B.R., Grande, M., Sauvaud, J.-A., Fedorov, A., Thocaven, J.-J., Mazelle, C., McKenna-Lawler, S., Orsini, S., Cerulli-Irelli, R., Maggi, M., Mura, A., Milillo, A., Wurz, P., Galli, A., Bochsler, P., Asamura, K., Szego, K., Baumjohann, W., Zhang, T.L., and Lammer, H.

Published

2008

7. Locations of Atmospheric Photoelectron Energy Peaks Within the Mars Environment

Author

Frahm, R. A., Sharber, J. R., Winningham, J. D., Wurz, P., Liemohn, M. W., Kallio, E., Yamauchi, M., Lundin, R., Barabash, S., Coates, A. J., Linder, D. R., Kozyra, J. U., Holmström, M., Jeffers, S. J., Andersson, H., and Mckenna-Lawler, S.

Published

2006

8. IMF Direction Derived from Cycloid-Like Ion Distributions Observed by Mars Express

Author

Yamauchi, M., Futaana, Y., Fedorov, A., Dubinin, E., Lundin, R., Sauvaud, J.-A., Winningham, D., Frahm, R., Barabash, S., Holmstrom, M., Woch, J., Fraenz, M., Budnik, E., Borg, H., Sharber, J. R., Coates, A. J., Soobiah, Y., Koskinen, H., Kallio, E., Asamura, K., Hayakawa, H., Curtis, C., Hsieh, K. C., Sandel, B. R., Grande, M., Grigoriev, A., Wurz, P., Orsini, S., Brandt, P., Mckenna-Lawler, S., Kozyra, J., and Luhmann, J.

Published

2006

9. Auroral Plasma Acceleration Above Martian Magnetic Anomalies

Author

Lundin, R., Winningham, D., Barabash, S., Frahm, R., Brain, D., Nilsson, H., Holmström, M., Yamauchi, M., Sharber, J. R., Sauvaud, J.-A., Fedorov, A., Asamura, K., Hayakawa, H., Coates, A. J., Soobiah, Y., Curtis, C., Hsieh, K. C., Grande, M., Koskinen, H., Kallio, E., Kozyra, J., Woch, J., Fraenz, M., Luhmann, J., Mckenna-Lawler, S., Orsini, S., Brandt, P., and Wurz, P.

Published

2006

10. First ENA observations at Mars: solar-wind ENAs on the nightside

Author

Brinkfeldt, K., Gunell, H., Brandt, P. C:son, Barabash, S., Frahm, R.A., Winningham, J.D., Kallio, E., Holmstrom, M., Futaana, Y., Ekenback, A., Lundin, R., Andersson, H., Yamauchi, M., Grigoriev, A., Sharber, J.R., Scherrer, J.R., Coates, A.J., Linder, D.R., Kataria, D.O., Koskinen, H., Stiles, T., Riihela, P., Schmidt, W., Kozyra, J., Luhmann, J., Roelof, E., Williams, D., Livi, S., Curtis, C.C., Hsieh, K.C., Sandel, B.R., Grande, M., Carter, M., Sauvaud, J.-A., Fedorov, A., Thocaven, J.-J., McKenna-Lawler, S., Orsini, S., Cerulli-Irelli, R., Maggi, M., Wurz, P., Bochsler, P., Krupp, N., Woch, J., Franz, M., Asamura, K., and Dierker, C.

Subjects

Mars (Planet) -- Observations, Magnetosphere -- Observations, Solar wind -- Observations, Astronomy, Earth sciences

Abstract

We present measurements with an Energetic Neutral Atom (ENA) imager on board Mars Express when the spacecraft moves into Mars eclipse. Solar wind ions charge exchange with the extended Mars exosphere to produce ENAs that can spread into the eclipse of Mars due to the ions' thermal spread. Our measurements show a lingering signal from the Sun direction for several minutes as the spacecraft moves into the eclipse. However, our ENA imager is also sensitive to UV photons and we compare the measurements to ENA simulations and a simplified model of UV scattering in the exosphere. Simulations and further comparisons with an electron spectrometer sensitive to photoelectrons generated when UV photons interact with the spacecraft suggest that what we are seeing in Mars' eclipse are ENAs from upstream of the bow shock produced in charge exchange with solar wind ions with a non-zero temperature. The measurements are a precursor to a new technique called ENA sounding to measure solar wind and planetary exosphere properties in the future. Keywords: Mars; Solar wind; Magnetospheres

Published

2006

11. First ENA observations at Mars: ENA emissions from the martian upper atmosphere

Author

Futaana, Y., Barabash, S., Grigoriev, A., Holmstrom, M., Kallio, E., Brandt, P. C:son, Gunell, H., Brinkfeldt, K., Lundin, R., Andersson, H., Yamauchi, M., McKenna-Lawler, S., Winningham, J.D., Frahm, R.A., Sharber, J.R., Scherrer, J.R., Coates, A.J., Linder, D.R., Kataria, D.O., Sales, T., Riihela, P., Schmidt, W., Koskinen, H., Kozyra, J., Luhmann, J., Roelof, E., Williams, D., Livi, S., Curtis, C.C., Hsieh, K.C., Sandel, B.R., Grande, M., Carter, M., Sauvaud, J.-A., Fedorov, A., Thocaven, J.-J., Orsini, S., Cerulli-Irelli, R., Maggi, M., Wurz, P., Bochsler, P., Galli, A., Krupp, N., Woch, J., Franz, M., and Asamura, K. Dierker, C.

Subjects

Mars probes -- Observations, Mars (Planet) -- Atmosphere, Mars (Planet) -- Observations, Astronomy, Earth sciences

Abstract

The neutral particle detector (NPD) on board Mars Express has observed energetic neutral atoms (ENAs) from a broad region on the dayside of the martian upper atmosphere. We show one such example for which the observation was conducted at an altitude of 570 km, just above the induced magnetosphere boundary (IMB). The time of flight spectra of these ENAs show that they had energies of 0.2-2 keV/amu, with an average energy of ~1.1 keV/amu. Both the spatial distribution and the energy of these ENAs are consistent with the backscattered ENAs, produced by an ENA albedo process. This is the first observation of backscattered ENAs from the martian upper atmosphere. The origin of these ENAs is considered to be the solar wind ENAs that are scattered back by collision processes in the martian upper atmosphere. The particle flux and energy flux of the backscattered ENAs are 0.9-1.3 x [10.sup.7] [cm.sup.-2] [s.sup.-1] and ~9.5 x [10.sup.9] eV [cm.sup.-2] [s.sup.-l], respectively. Keywords: Mars, atmosphere; Solar wind; Atmospheres, dynamics; Atmospheres, structure; Ionospheres

Published

2006

12. Energetic neutral atoms (ENA) at Mars: properties of the hydrogen atoms produced upstream of the martian bow shock and implications for ENA sounding technique around non-magnetized planets

Author

Kallio, E., Barabash, S., Brinkfeldt, K., Gunell, H., Holmstrom, M., Futaana, Y., Schmidt, W., Sales, T., Koskinen, H., Riihela, P., Lundin, R., Andersson, H., Yamauchi, M., Grigoriev, A., Winningham, J.D., Frahm, R.A., Sharber, J.R., Scherrer, J.R., Coates, A.J., Linder, D.R., Kataria, D.O., Kozyra, J., Luhmann, J.G., Roelof, E., Williams, D., Livi, S., Brandt, P. C:son, Curtis, C.C., Hsieh, K.C., Sandel, B.R., Grande, M., Carter, M., Sauvaud, J.-A., Fedorov, A., Thocaven, J.-J., McKenna-Lawler, S., Orsini, S., Cerulli-Irelli, R., Maggi, M., Wurz, P., Bochsler, P., Krupp, N., Woch, J., Franz, M., Asamura, K., and Dierker, C.

Subjects

Monte Carlo method -- Usage, Hydrogen bonding -- Properties, Mars (Planet) -- Atmosphere, Mars (Planet) -- Observations, Astronomy, Earth sciences

Abstract

We have studied the interaction of fast solar wind hydrogen atoms with the martian atmosphere by a three-dimensional Monte Carlo simulation. These energetic neutral hydrogen atoms, H-ENAs, are formed upstream of the martian bow shock. Both H-ENAs scattered and non-scattered from the martian atmosphere/exosphere were studied. The colliding H-ENAs were found to scatter both to the dayside and nightside. On the dayside they contribute to the so-called H-ENA albedo. On the nightside the heated and scattered hydrogen atoms were found also in the martian wake. The density, the energy distribution function and the direction of the velocity of H-ENAs on the nightside are presented. The present study describes a novel 'ENA sounding' technique in which energetic neutral atoms are used to derive information of the properties of planetary exosphere and atmosphere in a similar manner as the solar wind photons are used to derive atmospheric densities by measuring the scattered UV light. A detailed study of the direction and energy of the scattered and non-scattered H-ENAs suggest that the ENA sounding is a method to study the interaction between the planetary atmosphere and the solar wind and to monitor the density, and likely also the magnetization, of the planetary upper atmosphere. Already present-day ENA instrument should be capable to detect the analyzed particle fluxes. Keywords: Mars, atmosphere

Published

2006

13. First ENA observations at Mars: charge exchange ENAs produced in the magnetosheath

Author

Gunell, H., Brinkfeldt, K., Holmstrom, M., Brandt, P. C:son, Barabash, S., Kallio, E., Ekenback, A., Futaana, Y., Lundin, R., Andersson, H., Yamauchi, M., Grigoriev, A., Winningham, J.D., Frahm, R.A., Sharber, J.R., Scherrer, J.R., Coates, A.J., Linder, D.R., Kataria, D.O., Sales, T., Riihela, P., Schmidt, W., Koskinen, H., Kozyra, J., Luhmann, J., Roelof, E., Williams, D., Livi, S., Curtis, C.C., Hsieh, K.C., Sandel, B.R., Grande, M., Carter, M., Sauvaud, J.-A., Fedorov, A., Thocaven, J.-J., McKenna-Lawler, S., Orsini, S., Cerulli-Irelli, R., Maggi, M., Wurz, P., Bochsler, P., Krupp, N., Woch, J., Franz, M., Asamura, K., and Dierker, C.

Subjects

Mars (Planet) -- Environmental aspects, Mars (Planet) -- Observations, Magnetosphere -- Observations, Astronomy, Earth sciences

Abstract

Measurements of energetic neutral atoms (ENA) generated in the magnetosheath at Mars are reported. These ENAs are the result of charge exchange collisions between solar wind protons and neutral oxygen and hydrogen in the exosphere of Mars. The peak of the observed ENA flux is 1.3 x [10.sup.11] [m.sup.-2] [sr.sup.-1] [s.sup.-1]. For the case studied here, i.e., the passage of Mars Express through the martian magnetosheath around 20:15 UT on 3 May 2004, the measurements agree with an analytical model of the ENA production at the planet. It is possible to find parameter values in the model such that the observed peak in the ENA count rate during the spacecraft passage through the magnetosheath is reproduced. Keywords: Mars; Solar wind; Magnetospheres

Published

2006

14. Plasma intrusion above Mars crustal fields--Mars Express ASPERA-3 observations

Author

Franz, M., Winningham, J.D., Dubinin, E., Roussos, E., Woch, J., Barabash, S., Lundin, R., Holmstrom, M., Andersson, H., Yamauchi, M., Grigoriev, A., Frahm, R.A., Sharber, J.R., Scherrer, J.R., Coates, A.J., Soobiah, Y., Linder, D.R., Kataria, D.O., Kallio, E., Sales, T., Riihela, P., Schmidt, W., Koskinen, H.E.J., Kozyra, J., Luhmann, J., Roelof, E., Williams, D., Livi, S., Curtis, C.C., Hsieh, K.C., Sandel, B.R., Grande, M., Carter, M., Sauvaud, J.-A., Fedorov, A., Thocaven, J.-J., McKenna-Lawler, S., Orsini, S., Cerulli-Irelli, R., Maggi, M., Wurz, P., Bochsler, P., Krupp, N., Asamura, K., and Dierker, C.

Subjects

Mars (Planet) -- Observations, Mars probes -- Observations, Magnetosphere -- Observations, Astronomy, Earth sciences

Abstract

Using data of the ASPERA-3 instrument on board the European Mars Express spacecraft we investigate the effect of the martian crustal fields on electrons intruding from the magnetosheath. For the crustal field strength we use published data obtained by the Mars Global Surveyor MAG/ER instrument for a fixed altitude of 400 km. We use statistics on 13 months of 80-100 eV electron observations to show that the electron intrusion altitude determined by a probability measure is approximately linearly dependent on the total field strength at 400 km altitude. We show that on the dayside the mean electron intrusion altitude describes the location of the Magnetic Pile-Up Boundary (MPB) such that we can quantify the effect of the crustal fields on the MPB. On the nightside we quantify the shielding of precipitating electrons by the crustal fields. PACS: 96.30.Gc; 94.05.-a; 96.12.Jt Keywords: Mars; Magnetospheres

Published

2006

15. Numerical interpretation of high-altitude photoelectron observations

Author

Liemohn, Michael W., Frahm, R.A., Winningham, J.D., Ma, Y., Barabash, S., Lundin, R., Kozyra, J.U., Nagy, A.F., Bougher, S.M., Bell, J., Brain, D., Mitchell, D., Luhmann, J., Holmstrom, M., Andersson, H., Yamauchi, M., Grigoriev, A., McKenna-Lawler, S., Sharber, J.R., Scherrer, J.R., Jeffers, S.J., Coates, A.J., Linder, D.R., Kataria, D.O., Kallio, E., Koskinen, H., Sales, T., Riihela, P., Schmidt, W., Roelof, E., Williams, D., Livi, S., Curtis, C.C., Hsieh, K.C., Sandel, B.R., Grande, M., Carter, M., Sauvaud, J.-A., Fedorov, A., Thocaven, J.-J., Orsini, S., Cerulli-Irelli, R., Maggi, M., Wurz, P., Bochsler, P., Krupp, N., Woch, J., Franz, M., Asamura, K., and Dierker, C.

Subjects

Mars (Planet) -- Observations, Photoelectron spectroscopy -- Observations, Ionosphere -- Spectra, Astronomy, Earth sciences

Abstract

The Electron Spectrometer (ELS) instrument of the ASPERA-3 package on the Mars Express satellite has recorded photoelectron energy spectra up to apoapsis (~10,000 km altitude). The characteristic photoelectron shape of the spectrum is sometimes seen well above the ionosphere in the evening sector across a wide range of near-equatorial latitudes. Two numerical models are used to analyze the characteristics of these high-altitude photoelectrons. The first is a global, multi-species MHD code that produces a 3-D representation of the magnetic field and bulk plasma parameters around Mars. It is used here to examine the possibility of magnetic connectivity between the high-altitude flanks of the martian ionosheath and the subsolar ionosphere. It is shown that some field lines in this region are draped interplanetary magnetic lines while others are open field lines (connected to both the IMF and the crustal magnetic field sources). The second model is a kinetic electron transport model that calculates the electron velocity space distribution along a selected, non-uniform, magnetic field line. It is used here to simulate the high-altitude ELS measurements. It is shown that the photoelectrons are essentially confined to the source cone, as governed by magnetic field inhomogeneity along the field line. Reasonable agreement is shown between the data and the model results, and a method is demonstrated for inferring properties of the local and photoelectron source region magnetic field from the ELS measurements. Specifically, the number of sectors in which photoelectrons are measured is a function of the magnetic field intensity ratio and the field's angle with respect to the detector plane. In addition, the sector of the photoelectron flux peak is a function of the magnetic field azimuthal angle in the detector plane. Keywords: Mars; Magnetospheres; Ionospheres; Magnetic fields

Published

2006

16. Observations of magnetic anomaly signatures in Mars Express ASPERA-3 ELS data

Author

Soobiah, Y., Coates, A.J., Linder, D.R., Kataria, D.O., Winningham, J.D., Frahm, R.A., Sharber, J.R., Scherrer, J.R., Barabash, S., Lundin, R., Holmstrom, M., Andersson, H., Yamauchi, M., Grigoriev, A., Kallio, E., Koskinen, H., Sales, T., Riihela, P., Schmidt, W., Kozyra, J., Luhmann, J., Roelof, E., Williams, D., Livi, S., Curtis, C.C., Hsieh, K.C., Sandel, B.R., Grande, M., Carter, M., Sauvaud, J.-A., Fedorov, A., Thocaven, J.-J., McKenna-Lawler, S., Orsini, S., Cerulli-Irelli, R., Maggi, M., Wurz, P., Bochsler, P., Krupp, N., Woch, J., Franz, M., Asamura, K., and Dierker, C.

Subjects

Solar wind -- Observations, Magnetic fields -- Observations, Mars (Planet) -- Atmosphere, Mars (Planet) -- Observations, Astronomy, Earth sciences

Abstract

Mars Express (MEX) Analyser of Space Plasmas and Energetic Atoms (ASPERA-3) data is providing insights into atmospheric loss on Mars via the solar wind interaction. This process is influenced by both the interplanetary magnetic field (IMF) in the solar wind and by the magnetic 'anomaly' regions of the martian crust. We analyse observations from the ASPERA-3 Electron Spectrometer near to such crustal anomalies. We find that the electrons near remanent magnetic fields either increase in flux to form intensified signatures or significantly reduce in flux to form plasma voids. We suggest that cusps intervening neighbouring magnetic anomalies may provide a location for enhanced escape of planetary plasma. Initial statistical analysis shows that intensified signatures are mainly a dayside phenomenon whereas voids are a feature of the night hemisphere. Keywords: Magnetic fields; Solar wind; Mars

Published

2006

17. Carbon dioxide photoelectron energy peaks at Mars

Author

Frahm, R.A., Winningham, J.D., Sharber, J.R., Scherrer, J.R., Jeffers, S.J., Coates, A.J., Linder, D.R., Kataria, D.O., Lundin, R., Barabash, S., Holmstrom, M., Andersson, H., Yamauchi, M., Grigoriev, A., Kallio, E., Sales, T., Riihela, P., Schmidt, W., Koskinen, H., Kozyra, J.U., Luhmann, J.G., Roelof, E.C., Williams, D.J., Livi, S., Curtis, C.C., Hsieh, K.C., Sandel, B.R., Grande, M., Carter, M., Sauvaudk, J.-A., Fedorov, A., Thocaven, J.J., McKenna-Lawler, S., Orsini, S., Cerulli-Irelli, R., Maggi, M., Wurz, P., Bochsler, P., Krupp, N., Woch, J., Franz, M., Asamura, K., and Dierker, C.

Subjects

Carbon dioxide -- Environmental aspects, Electron spectroscopy -- Observations, Mars (Planet) -- Atmosphere, Mars (Planet) -- Composition, Mars (Planet) -- Observations, Astronomy, Earth sciences

Abstract

The ELectron Spectrometer (ELS) from the Analyzer of Space Plasmas and Energetic Atoms (ASPERA-3) flown on the Mars Express spacecraft has an 8% energy resolution, combined with the capability to oversample the martian electron distribution. This makes possible the resolution and identification of electrons generated as a result of the He 304 [Angstrom] ionization of C[O.sub.2] at the martian exobase on the dayside of the planet. Ionospheric photoelectrons were observed during almost every pass into the ionosphere and C[O.sub.2] photoelectron peaks were identified near the terminator. Atmospherically generated C[O.sub.2] photoelectrons are also observed at 10,000 km altitude in the martian tail near the inner magnetospheric boundary. Observations over a wide range of spacecraft orbits showed a consistent presence of photoelectrons at locations along the inner magnetospheric boundary and in the ionosphere, from an altitude of 250 to 10,000 km. Keywords: Mars; Ionospheres; Atmospheres; Magnetospheres

Published

2006

18. First ENA observations at Mars: subsolar ENA jet

Author

Futaana, Y., Barabash, S., Grigoriev, A., Holmstrom, M., Kallio, E., Brandt, P. C:son, Gunell, H., Brinkfeldt, K., Lundin, R., Andersson, H., Yamauchi, M., McKenna-Lawler, S., Winningham, J.D., Frahm, R.A., Sharber, J.R., Scherrer, J.R., Coates, A.J., Linder, D.R., Kataria, D.O., Sales, T., Riihela, P., Schmidt, W., Koskinen, H., Kozyra, J., Luhmann, J., Roelof, E., Williams, D., Livi, S., Curtis, C.C., Hsieh, K.C., Sandel, B.R., Grande, M., Carter, M., Sauvaud, J.-A., Fedorov, A., Thocaven, J.-J., Orsini, S., Cerulli-Irelli, R., Maggi, M., Wurz, P., Bochsler, P., Krupp, N., Woch, J., Franz, M., Asamura, K., and Dierker, C.

Subjects

Mars (Planet) -- Observations, Magnetosphere -- Observations, Solar wind -- Observations, Astronomy, Earth sciences

Abstract

The Neutral Particle Detector (NPD), an Energetic Neutral Atom (ENA) sensor of the Analyzer of Space Plasmas and Energetic Atoms (ASPERA-3) on board Mars Express, detected intense fluxes of ENAs emitted from the subsolar region of Mars. The typical ENA fluxes are (4-7) x [10.sup.5] [cm.sup.-2] [sr.sup.-1] [s.sup.-1] in the energy range 0.3-3 keV. These ENAs are likely to be generated in the subsolar region of the martian exosphere. As the satellite moved away from Mars, the ENA flux decreased while the field of view of the NPD pointed toward the subsolar region. These decreases occurred very quickly with a time scale of a few tens of seconds in two thirds of the orbits. Such a behavior can be explained by the spacecraft crossing a spatially constrained ENA jet, i.e., a highly directional ENA emission from a compact region of the subsolar exosphere. This ENA jet is highly possible to be emitted conically from the subsolar region. Such directional ENAs can result from the anisotropic solar wind flow around the subsolar region, but this can not be explained in the frame of MHD models. Keywords: Mars, atmosphere; Solar wind; Magnetospheres

Published

2006

19. Electron oscillations in the induced martian magnetosphere

Author

Winningham, J.D., Frahm, R.A., Sharber, J.R., Coates, A.J., Linder, D.R., Soobiah, Y., Kallio, E., Espley, J.R., Lundin, R., Barabash, S., Holmstrom, M., Andersson, H., Yamauchi, M., Grigoriev, A., Scherrer, J.R., Jeffers, S.J., Kataria, D.O., Kozyra, J.U., Luhmann, J.G., Roelof, E.C., Williams, D.J., Livi, S., Curtis, C.C., Hsieh, K.C., Sandel, B.R., Koskinen, H., Sales, T., Riihela, P., Schmidt, W., Grande, M., Carter, M., Sauvaud, J.-A., Fedorov, A., Thocaven, J.-J., McKenna-Lawler, S., Orsini, S., Cerulli-Irelli, R., Maggi, M., Wurz, P., Bochsler, P., Krupp, N., Woch, J., Franz, M., Asamura, K., and Dierker, C.

Subjects

Magnetosphere -- Observations, Solar oscillations -- Observations, Mars (Planet) -- Environmental aspects, Mars (Planet) -- Observations, Astronomy, Earth sciences

Abstract

The Analyzer of Space Plasmas and Energetic Atoms (ASPERA-3) experiment flown on the Mars Express (MEX) spacecraft includes the Electron Spectrometer (ELS) as part of its complement. The ELS instrument measures the differential electron flux spectrum in a 128-level logarithmic energy sweep within a time period of 4 s. The orbital path of MEX traverses the martian sheath, cusps, and tail where ELS recorded periodic electron intensity oscillations. These oscillations comprised periodic variations of up to an order of magnitude (peak to valley) in energy flux, with the largest amplitudes in the tens to hundreds of eV range. The observed oscillations displayed periods ranging from minutes down to the instrument sweep resolution of 4 s. In the cases analyzed here, the frequency of the integrated electron energy flux typically peaked between 0.01 and 0.02 Hz. This frequency range is nearly the same as the typical [O.sup.+] gyrofrequency in the magnetosheath, calculated using magnetometer data from Mars Global Surveyor. Due to the motion of the spacecraft, it is unclear if the wave structures observed were permanent standing waves or rather constituted waves propagating past the spacecraft. Keywords: Mars; Magnetosphere

Published

2006

20. Solar wind plasma protrusion into the martian magnetosphere: ASPERA-3 observations

Author

Dubinin, E., Winningham, D., Franz, M., Woch, J., Lundin, R., Barabash, S., Fedorov, A., Frahm, R., Sharber, J.R., Coates, A.J., Krupp, N., Sauvaud, J.-A., Holmstrom, M., Andersson, H., Yamauchi, M., Grigoriev, A., Thocaven, J.-J., Asamura, K., Curtis, C., Hsieh, K.S., Sandel, B., Koskinen, H., Kallio, E., Riihela, P., Schmidt, W., Sales, T., Kozyra, J., Luhmann, J., McKenna-Lawler, S., Cerulli-Irelli, R., Orsini, S., Maggi, M., Roelof, E., Williams, D., Livi, S., Wurz, P., Bochsler, P., Dierker, C., Grande, M., and Carter, M.

Subjects

Solar wind -- Observations, Magnetosphere -- Observations, Mars (Planet) -- Environmental aspects, Mars (Planet) -- Observations, Astronomy, Earth sciences

Abstract

The ASPERA-3 experiment onboard the Mars Express spacecraft revealed, near the wake boundary of Mars, a spatially narrow, strip-like plasma structure composed of magnetosheath-like electrons and planetary ions. The peak electron energy often exceeds the peak energy at the bow shock that indicates a significant heating (acceleration) during the structure formation. It is shown that this structure is formed during efficient plasma penetration into the martian magnetosphere in the region near the terminator. The penetration of sheath electrons and their gradual heating (acceleration) is accompanied by a change of the ion composition from a solar wind plasma to a planetary plasma dominated by oxygen ions. A possible mechanism of plasma inflow to the magnetosphere is discussed. Keywords: Mars; Magnetospheres

Published

2006

21. Structure of the martian wake

Author

Fedorov, A., Budnik, E., Sauvaud, J.-A., Mazelle, C., Barabash, S., Lundin, R., Acuna, M., Holmstrom, M., Grigoriev, A., Yamauchi, M., Andersson, H., Thocaven, J.-J, Winningham, D., Frahm, R., Sharber, J.R., Scherrer, J., Coastes, A.J., Linder, D.R., Kataria, D.O., Kallio, E., Koskines, H., Sales, T., Riihela, P., Schmidt, W., Kozyra, J., Luhmann, J., Roeloff, E., Williams, D., Livi, S., Curtis, C.C., Hsieh, K.C., Sandel, B.R., Grande, M., Carter, M., McKenna-Lawler, S., Orsini, S., Cerulli-Irelli, R., Maggi, M., Wurz, P., Bochsler, P., Krupp, N., Woch, J., Franz, M., Asamura, K., and Dierker, C.

Subjects

Heavy ions -- Observations, Magnetosphere -- Observations, Mars (Planet) -- Atmosphere, Mars (Planet) -- Observations, Astronomy, Earth sciences

Abstract

We present the first results from the ion mass analyzer IMA of the ASPERA-3 instrument on-board of Mars Express. More than 200 orbits for May 2004-September 2004 time interval have been selected for the statistical study of the distribution of the atmospheric origin ions in the planetary wake. This study shows that the martian magnetotail consists of two different ion regimes. Planetary origin ions of the first regime form the layer adjacent to the magnetic pile-up boundary. These ions are accelerated to energy greater than 2000 eV and exhibit a gradual decreasing of energy down to the planetary tail. The second plasma regime is observed in the planetary shadow. The heavy ions (considered as planetary ones) are accelerated to the energy of the solar wind protons. Obviously the acceleration mechanism is different for the different plasma regimes. Study of two plasma regimes in the frame referred to the interplanetary magnetic field (IMF) direction (we used MGS magnetometer data to obtain the IMF clock angle) clearly shows their spatial anisotropy. The monoenergetic plasma in the planetary shadow is observed only in the narrow angular sector around the positive direction of the interplanetary electric field. Keywords: Mars; Magnetospheres

Published

2006

22. Mass composition of the escaping plasma at Mars

Author

Carlsson, E., Fedorov, A., Barabash, S., Budnik, E., Grigoriev, A., Gunell, H., Nilsson, H., Sauvaud, J.-A., Lundin, R., Futaana, Y., Holmstrom, M., Andersson, H., Yamauchi, M., Winningham, J.D., Frahm, R.A., Sharber, J.R., Scherrer, J., Coates, A.J., Linder, D.R., Kataria, D.O., Kallio, E., Koskinen, H., Sales, T., Riihela, P., Schmidt, W., Kozyra, J., Luhmann, J., Roelof, E., Williams, D., Livi, S., Curtis, C.C., Hsieh, K.C., Sandel, B.R., Grande, M., Carter, M., Thocaven, J.J., McKenna-Lawler, S., Orsini, S., Cerulli-Irelli, R., Maggi, M., Wurz, P., Bochsler, P., Krupp, N., Woch, J., Franz, M., Asamura, K., and Dierker, C.

Subjects

Mars (Planet) -- Observations, Ionospheric research, Astronomy, Earth sciences

Abstract

Data from the Ion Mass Analyzer (IMA) sensor of the ASPERA-3 instrument suite on Mars Express have been analyzed to determine the mass composition of the escaping ion species at Mars. We have examined 77 different ion-beam events and we present the results in terms of flux ratios between the following ion species: C[O.sup.+.sub.2]/[O.sup.+] and [O.sup.+.sub.2]/[O.sup.+]. The following ratios averaged over all events and energies were identified: C[O.sup.+.sub.2]/[O.sup.+] = 0.2 and [O.sup.+.sub.2]/[O.sup.+] = 0.9. The values measured are significantly higher, by a factor of 10 for [O.sup.+.sub.2]]/[O.sup.+], than a contemporary modeled ratio for the maximum fluxes which the martian ionosphere can supply. The most abundant ion species was found to be [O.sup.+], followed by [O.sup.+.sub.2] and C[O.sup.+.sub.2]. We estimate the loss of C[O.sup.+.sub.2] to be 4.0 x [10.sup.24] s-1 (0.29 kg[s.sup.-1]) by using the previous measurements of Phobos-2 in our calculations. The dependence of the ion ratios in relation to their energy ranges we studied, 0.3-3.0 keV, indicated that no clear correlation was found. Keywords: Ionospheres; Mars, atmosphere

Published

2006

23. Ion escape at Mars: comparison of a 3-D hybrid simulation with Mars Express IMA/ASPERA-3 measurements

Author

Kallio, E., Fedorov, A., Budnik, E., Sales, T., Janhunen, P., Schmidt, W., Koskinen, H., Riihela, P., Barabash, S., Lundin, R., Holmstrom, M., Gunell, H., Brinkfeldt, K., Futaana, Y., Andersson, H., Yamauchi, M., Grigoriev, A., Sauvaud, J.-A., Thocaven, J.-J., Winningham, J.D., Frahm, R.A., Sharber, J.R., Scherrer, J.R., Coates, A.J., Linder, D.R., Kataria, D.O., Kozyra, J., Luhmann, J.G., Roelof, E., Williams, D., Livi, S., Curtis, C.C., Hsieh, K.C., Sandel, B.R., Grande, M., Carter, M., McKenna-Lawler, S., Orsini, S, Cerulli-Irelli, R., Maggi, M., Wurz, P., Bochsler, P., Krupp, N., Woch, J., Franz, M., Asamura, K., and Dierker, C.

Subjects

Mars (Planet) -- Observations, Ionospheric electron density -- Measurement, Solar wind -- Research, Astronomy, Earth sciences

Abstract

We have analysed ion escape at Mars by comparing ASPERA-3/Mars Express ion measurements and a 3-D quasi-neutral hybrid model. As Mars Express does not have a magnetometer onboard, the analysed IMA data are from an orbit when the IMF clock angle was possible to determine from the magnetic field measurements of Mars Global Surveyor. We found that fast escaping planetary ions were observed at the place which, according to the 3-D model, is anticipated to contain accelerated heavy ions originating from the martian ionosphere. The direction of the interplanetary magnetic field was found to affect noticeably which regions can be magnetically connected to Mars Express and to the overall 3-D Mars-solar wind interaction. Keywords: Mars, atmosphere; Ionospheres

Published

2006

24. Ionospheric plasma acceleration at Mars: ASPERA-3 results

Author

Lundin, R., Winningham, D., Barabash, S., Frahm, R.A., Andersson, H., Holmström, M., Grigoriev, A., Yamauchi, M., Borg, H., Sharber, J.R., Sauvaud, J.-A., Fedorov, A., Budnik, E., Thocaven, J.-J., Asamura, K., Hayakawa, H., Coates, A.J., Linder, D.R., Kataria, D.O., Curtis, C., Hsieh, K.C., Sandel, B.R., Grande, M., Carter, M., Reading, D.H., Koskinen, H., Kallio, E., Riihelä, P., Schmidt, W., Säles, T., Kozyra, J., Krupp, N., Woch, J., Fränz, M., Luhmann, J., McKenna-Lawler, S., Cerulli-Irelli, R., Orsini, S., Maggi, M., Roelof, E., Williams, D., Livi, S., Brandt, P. C:son, Wurz, P., and Bochsler, P.

Published

2006

25. Electric fields within the martian magnetosphere and ion extraction: ASPERA-3 observations

Author

Dubinin, E., Lundin, R., Fränz, M., Woch, J., Barabash, S., Fedorov, A., Winningham, D., Krupp, N., Sauvaud, J.-A., Holmström, M., Andersson, H., Yamauchi, M., Grigoriev, A., Thocaven, J.-J., Frahm, R., Sharber, J., Asamura, K., Coates, A., Curtis, C., Hsieh, K.S., Sandel, B., Koskinen, H., Kallio, E., Riihelä, P., Schmidt, W., Säles, T., Kozyra, J., Luhmann, J., McKenna-Lawler, S., Cerulli-Irelli, R., Orsini, S., Maggi, M., Roelof, E., Williams, D., Livi, S., Wurz, P., Bochsler, P., Dierker, C., Grande, M., and Carter, M.

Published

2006

26. Plasma Acceleration Above Martian Magnetic Anomalies

Author

Lundin, R., Winningham, D., Barabash, S., Frahm, R., Holmstrom, M., Sauvaud, J.-A., Fedorov, A., Asamura, Kazushi, Coates, A. J., Soobiah, Y., Hsieh, K. C., Grande, M., Koskinen, H., Kallio, E., Kozyra, J., Woch, J., Fraenz, M., Brain, D., Luhmann, J., McKenna-Lawler, S., Orsini, R. S., Brandt, P., Wurz, P., 浅村, 和史, Lundin, R., Winningham, D., Barabash, S., Frahm, R., Holmstrom, M., Sauvaud, J.-A., Fedorov, A., Asamura, Kazushi, Coates, A. J., Soobiah, Y., Hsieh, K. C., Grande, M., Koskinen, H., Kallio, E., Kozyra, J., Woch, J., Fraenz, M., Brain, D., Luhmann, J., McKenna-Lawler, S., Orsini, R. S., Brandt, P., Wurz, P., and 浅村, 和史

Abstract

著者人数: 23名, Accepted: 2006-01-05

Published

2018

27. Mass composition of the escaping plasma at Mars

Author

Carlsson, Ella, Fedorov, A., Barabash, S., Budnik, E., Grigoriev, A., Gunell, H., Nilsson, H., Sauvaud, J.-A., Lundin, R., Futaana, Y., Holmström, M., Andersson, H., Yamauchi, M., Winningham, J.D., Frahm, R.A., Sharber, J.R., Scherrer, J., Coates, A.J., Linder, D.R., Kataria, D.O., Kallio, E., Koskinen, H., Säles, T., Riihelä, P., Schmidt, W., Kozyra, J., Luhmann, J., Roelof, E., Williams, D., Livi, S., Curtis, C.C., Hsieh, K.C., Sandel, B.R., Grande, M., Carter, M., Thocaven, J.-J., McKenna-Lawler, S., Orsini, S., Cerulli-Irelli, R., Maggi, M., Wurz, P., Bochsler, P., Krupp, N., Woch, J., Fränz, M., Asamura, K., Dierker, C., Carlsson, Ella, Fedorov, A., Barabash, S., Budnik, E., Grigoriev, A., Gunell, H., Nilsson, H., Sauvaud, J.-A., Lundin, R., Futaana, Y., Holmström, M., Andersson, H., Yamauchi, M., Winningham, J.D., Frahm, R.A., Sharber, J.R., Scherrer, J., Coates, A.J., Linder, D.R., Kataria, D.O., Kallio, E., Koskinen, H., Säles, T., Riihelä, P., Schmidt, W., Kozyra, J., Luhmann, J., Roelof, E., Williams, D., Livi, S., Curtis, C.C., Hsieh, K.C., Sandel, B.R., Grande, M., Carter, M., Thocaven, J.-J., McKenna-Lawler, S., Orsini, S., Cerulli-Irelli, R., Maggi, M., Wurz, P., Bochsler, P., Krupp, N., Woch, J., Fränz, M., Asamura, K., and Dierker, C.

Abstract

Data from the Ion Mass Analyzer (IMA) sensor of the ASPERA-3 instrument suite on Mars Express have been analyzed to determine the mass composition of the escaping ion species at Mars. We have examined 77 different ion-beam events and we present the results in terms of flux ratios between the following ion species: CO2+/O+ and O-2(+)/O+. The following ratios averaged over all events and energies were identified: CO2+/O+ = 0.2 and O-2(+)/O+ = 0.9. The values measured are significantly higher, by a factor of 10 for O-2(+)/O+, than a contemporary modeled ratio for the maximum fluxes which the martian ionosphere can supply. The most abundant ion species was found to be O+, followed by O-2(+) and CO2+. We estimate the loss of CO2+ to be 4.0 x 10(24) s(-1) (0.29 kg s(-1)) by using the previous measurements of Phobos-2 in our calculations. The dependence of the ion ratios in relation to their energy ranges we studied, 0.3-3.0 keV, indicated that no clear correlation was found., Validerad; 2006; Bibliografisk uppgift: Se artikeln för de andra 46 medförfattarna.; 20070104 (pafi)

Published

2006

28. Erratum to “Observations of magnetic anomaly signatures in Mars Express ASPERA-3 ELS data” [Icarus 182 (2006) 396–405]

Author

Soobiah, Y., Coates, A.J., Linder, D.R., Kataria, D.O., Winningham, J.D., Frahm, R.A., Sharber, J.R., Scherrer, J.R., Barabash, S., Lundin, R., Holmström, M., Andersson, H., Yamauchi, M., Grigoriev, A., Kallio, E., Koskinen, H., Säles, T., Riihelä, P., Schmidt, W., Kozyra, J., Luhmann, J., Roelof, E., Williams, D., Livi, S., Curtis, C.C., Hsieh, K.C., Sandel, B.R., Grande, M., Carter, M., Sauvaud, J.-A., Fedorov, A., Thocaven, J.-J., McKenna-Lawler, S., Orsini, S., Cerulli-Irelli, R., Maggi, M., Wurz, P., Bochsler, P., Krupp, N., Woch, J., Fränz, M., Asamura, K., and Dierker, C.

Published

2007

29. Aspera-3: Analyser of space plasmas and energetic neutral atoms

Author

Lundin, R., Barabash, S., Holmström, M., Andersson, H., Yamauchi, M., Nilsson, H., Grigorev, A., Winningham, D., Frahm, R., Sharber, J. R., Sauvaud, J. -A, Fedorov, A., Budnik, E., Thocaven, J. -J, Asamura, K., Hayakawa, H., Coates, A. J., Soobiah, Y., Linder, D. R., Kataria, D. O., Curtis, C., Hsieh, K. C., Sandel, B. R., Manuel Grande, Carter, M., Reading, D. H., Koskinen, H., Kallio, E., Riihela, P., Sales, T., Kozyra, J., Krupp, N., Woch, J., Fraenz, M., Luhmann, J., Brain, D., Mckenna-Lawler, S., Cerulli-Irelli, R., Orsini, S., Maggi, M., Milillo, A., Roelof, E., Livi, S., Brandt, P., Wurz, P., Bochsler, P., and Galli, A.