Your search keyword '"Liuzzi, Giuliano"' showing total 43 results

1. Grid-Based Atmospheric Retrievals for Reflected-Light Spectra of Exoplanets using PSGnest

Author

Susemiehl, Nicholas, Mandell, Avi M., Villanueva, Geronimo L., Liuzzi, Giuliano, Moore, Michael, Baines, Tyler, Himes, Michael D., and Smith, Adam J. R. W.

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Techniques to retrieve the atmospheric properties of exoplanets via direct observation of their reflected light have often been limited in scope due to computational constraints imposed by the forward-model calculations. We have developed a new set of techniques which significantly decreases the time required to perform a retrieval while maintaining accurate results. We constructed a grid of 1.4 million pre-computed geometric albedo spectra valued at discrete sets of parameter points. Spectra from this grid are used to produce models for a fast and efficient nested sampling routine called PSGnest. Beyond the upfront time to construct a spectral grid, the amount of time to complete a full retrieval using PSGnest is on the order of seconds to minutes using a personal computer. An extensive evaluation of the error induced from interpolating intermediate spectra from the grid indicates that this bias is insignificant compared to other retrieval error sources, with an average coefficient of determination between interpolated and true spectra of 0.998. We apply these new retrieval techniques to help constrain the optimal bandpass centers for retrieving various atmospheric and bulk parameters from a LuvEx-type mission observing several planetary archetypes. We show that spectral observations made using a 20\% bandpass centered at 0.73 microns can be used alongside our new techniques to make detections of $H_2O$ and $O_2$ without the need to increase observing time beyond what is necessary for a signal-to-noise ratio of 10. The methods introduced here will enable robust studies of the capabilities of future observatories to characterize exoplanets., Comment: 32 pages, 17 figures. Accepted for publication in The Astronomical Journal

Published

2023

2. The transmission spectrum of the potentially rocky planet L 98-59 c

Author

Barclay, Thomas, Sheppard, Kyle B., Latouf, Natasha, Mandell, Avi M., Quintana, Elisa V., Gilbert, Emily A., Liuzzi, Giuliano, Villanueva, Geronimo L., Arney, Giada, Brande, Jonathan, Colón, Knicole D., Covone, Giovanni, Crossfield, Ian J. M., Damiano, Mario, Domagal-Goldman, Shawn D., Fauchez, Thomas J., Fiscale, Stefano, Gallo, Francesco, Hedges, Christina L., Hu, Renyu, Kite, Edwin S., Koll, Daniel, Kopparapu, Ravi K., Kostov, Veselin B., Kreidberg, Laura, Lopez, Eric D., Mang, James, Morley, Caroline V., Mullally, Fergal, Mullally, Susan E., Pidhorodetska, Daria, Schlieder, Joshua E., Vega, Laura D., Youngblood, Allison, and Zieba, Sebastian

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We present observations of the 1.35+/-0.07 Earth-radius planet L 98-59 c using Wide Field Camera~3 on the Hubble Space Telescope. L 98-59 is a nearby (10.6 pc), bright (H=7.4 mag), M3V star that harbors three small, transiting planets. As one of the closest known transiting multi-planet systems, L 98-59 offers one of the best opportunities to probe and compare the atmospheres of rocky planets that formed in the same stellar environment. We measured the transmission spectrum of L 98-59 c during a single transit, with the extracted spectrum showing marginal evidence for wavelength-dependent transit depth variations which would indicate the presence of an atmosphere. Forward modeling was used to constrain possible atmospheric compositions of the planet based on the shape of the transmission spectrum. Although L 98-59 is a fairly quiet star, we have seen evidence for stellar activity, and therefore we cannot rule out a scenario where the source of the signal originates with inhomogeneities on the host-star surface. While intriguing, our results are inconclusive and additional data is needed to verify any atmospheric signal. Fortunately, additional data will soon be collected from both HST and JWST. Should this result be confirmed with additional data, L 98-59 c would be the first planet smaller than 2 Earth-radii with a detected atmosphere, and among the first small planets with a known atmosphere to be studied in detail by the JWST., Comment: Submitted to AAS Journals

Published

2023

3. CO2 in the atmosphere of Mars depleted in 13C

Author

Liuzzi, Giuliano, Villanueva, Geronimo L., Aoki, Shohei, Stone, Shane W., Faggi, Sara, Trompet, Loïc, Neary, Lori, Daerden, Frank, Viscardy, Sébastien, Masiello, Guido, Serio, Carmine, Thomas, Ian R., Patel, Manish R., Bellucci, Giancarlo, Lopez-Moreno, Jose-Juan, Ristic, Bojan, and Vandaele, Ann Carine

Published

2024

4. The new σ-IASI code for all sky radiative transfer calculations in the spectral range 10 to 2760 cm-1: σ-IASI/F2N

Author

Masiello, Guido, Serio, Carmine, Maestri, Tiziano, Martinazzo, Michele, Masin, Fabrizio, Liuzzi, Giuliano, and Venafra, Sara

Published

2024

5. Evidence of pure ammonia ice clouds from Juno/JIRAM infrared spectral data

Author

Biagiotti, Francesco, primary, Grassi, Davide, additional, Liuzzi, Giuliano, additional, Piccioni, Giuseppe, additional, Villanueva, Geronimo, additional, Oliva, Fabrizio, additional, Fletcher, Leigh, additional, Guillot, Tristan, additional, D'Aversa, Emiliano, additional, Mura, Alessandro, additional, Plainaki, Christina, additional, Sindoni, Giuseppe, additional, Adriani, Alberto, additional, and Di Mico, Elisa, additional

Published

2024

6. Martian Atmospheric Aerosols Composition and Distribution Retrievals During the First Martian Year of NOMAD/TGO Solar Occultation Measurements: 2. Extended Results, End of MY 34 and First Half of MY 35

Author

Stolzenbach, Aurélien, primary, López Valverde, Miguel‐Angel, additional, Brines, Adrian, additional, Modak, Ashimananda, additional, Funke, Bernd, additional, González‐Galindo, Francisco, additional, Thomas, Ian, additional, Liuzzi, Giuliano, additional, Villanueva, Gerónimo, additional, Luginin, Mikhail, additional, Aoki, Shohei, additional, Grabowski, Udo, additional, Lopez Moreno, José Juan, additional, Rodriguez‐Gomez, Julio, additional, Wolff, Mike, additional, Ristic, Bojan, additional, Daerden, Frank, additional, Bellucci, Giancarlo, additional, Patel, Manish, additional, and Vandaele, Ann‐Carine, additional

Published

2023

7. Martian Atmospheric Aerosols Composition and Distribution Retrievals During the First Martian Year of NOMAD/TGO Solar Occultation Measurements: 1. Methodology and Application to the MY 34 Global Dust Storm

Author

Stolzenbach, Aurélien, primary, López Valverde, Miguel‐Angel, additional, Brines, Adrian, additional, Modak, Ashimananda, additional, Funke, Bernd, additional, González‐Galindo, Francisco, additional, Thomas, Ian, additional, Liuzzi, Giuliano, additional, Villanueva, Gerónimo, additional, Luginin, Mikhail, additional, Aoki, Shohei, additional, Grabowski, Udo, additional, Lopez Moreno, José Juan, additional, Rodrìguez Gòmez, Julio, additional, Wolff, Mike, additional, Ristic, Bojan, additional, Daerden, Frank, additional, Bellucci, Giancarlo, additional, Patel, Manish, additional, and Vandaele, Ann‐Carine, additional

Published

2023

8. Grid-based Atmospheric Retrievals for Reflected-light Spectra of Exoplanets Using PSGnest

Author

Susemiehl, Nicholas, primary, Mandell, Avi M., additional, Villanueva, Geronimo L., additional, Liuzzi, Giuliano, additional, Moore, Michael, additional, Baines, Tyler, additional, Himes, Michael D., additional, and W. Smith, Adam J. R., additional

Published

2023

9. Martian atmospheric temperature and density profiles during the 1st year of NOMAD/TGO solar occultation measurements

Author

Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Consejo Superior de Investigaciones Científicas (España), European Commission, European Space Agency, Royal Belgian Institute for Space Aeronomy, Belgian Science Policy Office, UK Space Agency, Agenzia Spaziale Italiana, López-Valverde, M. A. [0000-0002-7989-4267], Funke, Bernd [0000-0003-0462-4702], Brines, Adrian [0000-0002-7044-3638], Stolzenbach, Aurélien [0000-0001-6169-6820], Modak, Ashimananda [0000-0002-3915-5531], González-Galindo, F. [0000-0001-9443-291X], Thomas, Ian R. [0000-0003-3887-6668], Trompet, Loic [0000-0001-6259-2054], Aoki, Shohei [0000-0001-6727-125X], Villanueva, Geronimo L. [0000-0002-2662-5776], Liuzzi, Giuliano [0000-0003-3638-5750], Erwin, Justin T. [0000-0003-0200-3195], Ristic, Bojan [0000-0002-9635-1125], Daerden, Frank [0000-0001-7433-1839], Patel, Manish R. [0000-0002-8223-3566], López-Valverde, M. A., Funke, Bernd, Brines, Adrian, Stolzenbach, Aurélien, Modak, Ashimananda, Hill, Brittany, González-Galindo, F., Thomas, Ian R., Trompet, Loic, Aoki, Shohei, Villanueva, Geronimo L., Liuzzi, Giuliano, Erwin, Justin T., Grabowski, Udo, Forget, François, López-Moreno, José Juan, Rodríguez Gómez, Julio, Ristic, Bojan, Daerden, Frank, Bellucci, Giancarlo, Patel, Manish R., Vandaele, Ann Carine, The NOMAD Team, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Consejo Superior de Investigaciones Científicas (España), European Commission, European Space Agency, Royal Belgian Institute for Space Aeronomy, Belgian Science Policy Office, UK Space Agency, Agenzia Spaziale Italiana, López-Valverde, M. A. [0000-0002-7989-4267], Funke, Bernd [0000-0003-0462-4702], Brines, Adrian [0000-0002-7044-3638], Stolzenbach, Aurélien [0000-0001-6169-6820], Modak, Ashimananda [0000-0002-3915-5531], González-Galindo, F. [0000-0001-9443-291X], Thomas, Ian R. [0000-0003-3887-6668], Trompet, Loic [0000-0001-6259-2054], Aoki, Shohei [0000-0001-6727-125X], Villanueva, Geronimo L. [0000-0002-2662-5776], Liuzzi, Giuliano [0000-0003-3638-5750], Erwin, Justin T. [0000-0003-0200-3195], Ristic, Bojan [0000-0002-9635-1125], Daerden, Frank [0000-0001-7433-1839], Patel, Manish R. [0000-0002-8223-3566], López-Valverde, M. A., Funke, Bernd, Brines, Adrian, Stolzenbach, Aurélien, Modak, Ashimananda, Hill, Brittany, González-Galindo, F., Thomas, Ian R., Trompet, Loic, Aoki, Shohei, Villanueva, Geronimo L., Liuzzi, Giuliano, Erwin, Justin T., Grabowski, Udo, Forget, François, López-Moreno, José Juan, Rodríguez Gómez, Julio, Ristic, Bojan, Daerden, Frank, Bellucci, Giancarlo, Patel, Manish R., Vandaele, Ann Carine, and The NOMAD Team

Abstract

We present vertical profiles of temperature and density from solar occultation (SO) observations by the “Nadir and Occultation for Mars Discovery” (NOMAD) spectrometer on board the Trace Gas Orbiter (TGO) during its first operational year, which covered the second half of Mars Year 34. We used calibrated transmittance spectra in 380 scans, and apply an in-house pre-processing to clean data systematics. Temperature and CO2 profiles up to about 90 km, with consistent hydrostatic adjustment, are obtained, after adapting an Earth-tested retrieval scheme to Mars conditions. Both pre-processing and retrieval are discussed to illustrate their performance and robustness. Our results reveal the large impact of the MY34 Global Dust Storm (GDS), which warmed the atmosphere at all altitudes. The large GDS aerosols opacity limited the sounding of tropospheric layers. The retrieved temperatures agree well with global climate models (GCM) at tropospheric altitudes, but NOMAD mesospheric temperatures are wavier and globally colder by 10 K in the perihelion season, particularly during the GDS and its decay phase. We observe a warm layer around 80 km during the Southern Spring, especially in the Northern Hemisphere morning terminator, associated to large thermal tides, significantly stronger than in the GCM. Cold mesospheric pockets, close to CO2 condensation temperatures, are more frequently observed than in the GCM. NOMAD CO2 densities show oscillations upon a seasonal trend that track well the latitudinal variations expected. Results uncertainties and suggestions to improve future data re-analysis are briefly discussed.

Published

2022

10. Retrieval of Martian Atmospheric CO Vertical Profiles From NOMAD Observations During the First Year of TGO Operations

Author

Modak, Ashimananda, primary, López‐Valverde, Miguel Angel, additional, Brines, Adrian, additional, Stolzenbach, Aurélien, additional, Funke, Bernd, additional, González‐Galindo, Francisco, additional, Hill, Brittany, additional, Aoki, Shohei, additional, Thomas, Ian, additional, Liuzzi, Giuliano, additional, Villanueva, Gerónimo, additional, Erwin, Justin, additional, Lopez Moreno, José Juan, additional, Yoshida, Nao, additional, Grabowski, Udo, additional, Forget, Francois, additional, Daerden, Frank, additional, Ristic, Bojan, additional, Bellucci, Giancarlo, additional, Patel, Manish, additional, Trompet, Loic, additional, and Vandaele, Ann‐Carine, additional

Published

2023

11. Retrieval of Martian Atmospheric CO Vertical Profiles From NOMAD Observations During the First Year of TGO Operations

Author

Ministerio de Ciencia e Innovación (España), European Commission, Belgian Science Policy Office, Modak, Ashimananda, López-Valverde, M. A., Brines, Adrian, Stolzenbach, Aurélien, Funke, Bernd, González-Galindo, F., Hill, Brittany, Aoki, Shohei, Thomas, Ian, Liuzzi, Giuliano, Villanueva, Geronimo L., Erwin, Justin, López-Moreno, José Juan, Yoshida, Nao, Grabowski, Udo, Forget, Francois, Daerden, Frank, Ristic, Bojan, Bellucci, Giancarlo, Patel, Manish, Trompet, Loic, Vandaele, Ann-Carine, Ministerio de Ciencia e Innovación (España), European Commission, Belgian Science Policy Office, Modak, Ashimananda, López-Valverde, M. A., Brines, Adrian, Stolzenbach, Aurélien, Funke, Bernd, González-Galindo, F., Hill, Brittany, Aoki, Shohei, Thomas, Ian, Liuzzi, Giuliano, Villanueva, Geronimo L., Erwin, Justin, López-Moreno, José Juan, Yoshida, Nao, Grabowski, Udo, Forget, Francois, Daerden, Frank, Ristic, Bojan, Bellucci, Giancarlo, Patel, Manish, Trompet, Loic, and Vandaele, Ann-Carine

Abstract

We present CO density profiles up to about 100 km in the Martian atmosphere obtained for the first time from retrievals of solar occultation measurements by the Nadir and Occultation for Mars Discovery (NOMAD) onboard ExoMars Trace Gas Orbiter (TGO). CO is an important trace gas on Mars, as it is controlled by CO2 photolysis, chemical reaction with the OH radicals, and the global dynamics. However, the measurements of CO vertical profiles have been elusive until the arrival of TGO. We show how the NOMAD CO variations describe very well the Mars general circulation. We observe a depletion of CO in the upper troposphere and mesosphere during the peak period, LS = 190°–200°, more pronounced over the northern latitudes, confirming a similar result recently reported by Atmospheric Chemistry Suite onboard TGO. However, in the lower troposphere around 20 km, and at least at high latitudes of the S. hemisphere, NOMAD CO mixing ratios increase over 1,500 ppmv during the GDS (Global Dust Storm) onset. This might be related to the downwelling branch of the Hadley circulation. A subsequent increase in tropospheric CO is observed during the decay phase of the GDS around LS = 210°–250° when the dust loading is still high. This could be associated with a reduction in the amount of OH radicals in the lower atmosphere due to lack of solar insolation. Once the GDS is over, CO steadily decreases globally during the southern summer season. A couple of distinct CO patterns associated with the Summer solstice and equinox circulation are reported and discussed. © 2023. American Geophysical Union. All Rights Reserved.

Published

2023

12. Martian Atmospheric Temperature and Density Profiles During the First Year of NOMAD/TGO Solar Occultation Measurements

Author

Ministerio de Ciencia e Innovación (España), European Commission, Belgian Science Policy Office, UK Space Agency, López-Valverde, M. A., Funke, Bernd, Brines, Adrian, Stolzenbach, Aurélien, Modak, Ashimananda, Hill, Brittany, González-Galindo, F., Thomas, Ian, Trompet, Loic, Aoki, Shohei, Villanueva, Geronimo L., Liuzzi, Giuliano, Erwin, Justin, Grabowski, Udo, Forget, Francois, López-Moreno, José Juan, Rodríguez Gómez, Julio, Ristic, Bojan, Daerden, Frank, Bellucci, Giancarlo, Patel, Manish, Vandaele, Ann-Carine, NOMAD team, Ministerio de Ciencia e Innovación (España), European Commission, Belgian Science Policy Office, UK Space Agency, López-Valverde, M. A., Funke, Bernd, Brines, Adrian, Stolzenbach, Aurélien, Modak, Ashimananda, Hill, Brittany, González-Galindo, F., Thomas, Ian, Trompet, Loic, Aoki, Shohei, Villanueva, Geronimo L., Liuzzi, Giuliano, Erwin, Justin, Grabowski, Udo, Forget, Francois, López-Moreno, José Juan, Rodríguez Gómez, Julio, Ristic, Bojan, Daerden, Frank, Bellucci, Giancarlo, Patel, Manish, Vandaele, Ann-Carine, and NOMAD team

Abstract

We present vertical profiles of temperature and density from solar occultation (SO) observations by the “Nadir and Occultation for Mars Discovery” (NOMAD) spectrometer on board the Trace Gas Orbiter during its first operational year, which covered the second half of Mars Year 34. We used calibrated transmittance spectra in 380 scans, and apply an in-house pre-processing to clean data systematics. Temperature and CO2 profiles up to about 90 km, with consistent hydrostatic adjustment, are obtained, after adapting an Earth-tested retrieval scheme to Mars conditions. Both pre-processing and retrieval are discussed to illustrate their performance and robustness. Our results reveal the large impact of the MY34 Global Dust Storm (GDS), which warmed the atmosphere at all altitudes. The large GDS aerosols opacity limited the sounding of tropospheric layers. The retrieved temperatures agree well with global climate models (GCM) at tropospheric altitudes, but NOMAD mesospheric temperatures are wavier and globally colder by 10 K in the perihelion season, particularly during the GDS and its decay phase. We observe a warm layer around 80 km during the Southern Spring, especially in the Northern Hemisphere morning terminator, associated to large thermal tides, significantly stronger than in the GCM. Cold mesospheric pockets, close to CO2 condensation temperatures, are more frequently observed than in the GCM. NOMAD CO2 densities show oscillations upon a seasonal trend that track well the latitudinal variations expected. Results uncertainties and suggestions to improve future data re-analysis are briefly discussed. © 2022 The Authors. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.

Published

2023

13. Martian atmospheric temperature and density profiles during the 1st year of NOMAD/TGO solar occultation measurements

Author

López-Valverde, M. A., Funke, Bernd, Brines, Adrian, Stolzenbach, Aurélien, Modak, Ashimananda, Hill, Brittany, González-Galindo, F., Thomas, Ian R., Trompet, Loic, Aoki, Shohei, Villanueva, Geronimo L., Liuzzi, Giuliano, Erwin, Justin T., Grabowski, Udo, Forget, François, López-Moreno, José Juan, Rodríguez Gómez, Julio, Ristic, Bojan, Daerden, Frank, Bellucci, Giancarlo, Patel, Manish R., Vandaele, Ann Carine, The NOMAD Team, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Consejo Superior de Investigaciones Científicas (España), European Commission, European Space Agency, Royal Belgian Institute for Space Aeronomy, Belgian Science Policy Office, UK Space Agency, Agenzia Spaziale Italiana, López-Valverde, M. A., Funke, Bernd, Brines, Adrian, Stolzenbach, Aurélien, Modak, Ashimananda, González-Galindo, F., Thomas, Ian R., Trompet, Loic, Aoki, Shohei, Villanueva, Geronimo L., Liuzzi, Giuliano, Erwin, Justin T., Ristic, Bojan, Daerden, Frank, and Patel, Manish R.

Abstract

We present vertical profiles of temperature and density from solar occultation (SO) observations by the “Nadir and Occultation for Mars Discovery” (NOMAD) spectrometer on board the Trace Gas Orbiter (TGO) during its first operational year, which covered the second half of Mars Year 34. We used calibrated transmittance spectra in 380 scans, and apply an in-house pre-processing to clean data systematics. Temperature and CO2 profiles up to about 90 km, with consistent hydrostatic adjustment, are obtained, after adapting an Earth-tested retrieval scheme to Mars conditions. Both pre-processing and retrieval are discussed to illustrate their performance and robustness. Our results reveal the large impact of the MY34 Global Dust Storm (GDS), which warmed the atmosphere at all altitudes. The large GDS aerosols opacity limited the sounding of tropospheric layers. The retrieved temperatures agree well with global climate models (GCM) at tropospheric altitudes, but NOMAD mesospheric temperatures are wavier and globally colder by 10 K in the perihelion season, particularly during the GDS and its decay phase. We observe a warm layer around 80 km during the Southern Spring, especially in the Northern Hemisphere morning terminator, associated to large thermal tides, significantly stronger than in the GCM. Cold mesospheric pockets, close to CO2 condensation temperatures, are more frequently observed than in the GCM. NOMAD CO2 densities show oscillations upon a seasonal trend that track well the latitudinal variations expected. Results uncertainties and suggestions to improve future data re-analysis are briefly discussed., The IAA/CSIC team acknowledges financial support from the State Agency for Research686of the Spanish MCI through the ‘Center of Excellence Severe Ochoa’ award for the687Instituto de Astrof ́ısica de Andalucia (DEV-2017-0709) and funding by grants688PGC2018-101836-B-100 (MCI/AEI/FEDER, EU),689PID2019-110689RB-I00/AEI/10.13039/501100011033, and RTI2018-100920-J-I00.690ExoMars is a space mission of the European Space Agency (ESA) and Roscosmos. The691NOMAD experiment is led by the Royal Belgian Institute for Space Aeronomy692(IASB-BIRA), assisted by Co-PI teams from Spain (IAA-CSIC), Italy (IN AF-IA PS), and693the United Kingdom (Open University). This project acknowledges funding by the Belgian694Science Policy Office (BELLS), with the financial and contractual coordination by the695ESAU Prod ex Office (PEA 4000103401, 4000121493) as well as by UK Space Agency696through grants ST/V002295/1, ST/V005332/1 and ST/S00145X/1 and Italian Space697Agency through grant 2018-2-HHS.0. US investigators were supported by the National698Aeronautics and Space Administration. This work was supported by the Belgian Funds de699la Recherche Scientific – FIRS under grant number 30442502 (ETHOME). This project700has received funding from the European Union Horizon 2020 research and innovation701program under grant agreement No 101004052 (Road Map project). We want to thank the702LMD and LATMOS teams for the continuous development of the LMD-MGCM.

Published

2022

14. Martian Atmospheric Temperature and Density Profiles During the First Year of NOMAD/TGO Solar Occultation Measurements

Author

NOMAD Team, López-Valverde, Miguel Angel, Funke, Bernd, Brines, Adrian, Stolzenbach, Aurèlien, Modak, Ashimananda, Hill, Brittany, González-Galindo, Francisco, Thomas, Ian, Trompet, Loic, Aoki, Shohei, Villanueva, Gerónimo, Liuzzi, Giuliano, Erwin, Justin, Grabowski, Udo, Forget, Francois, López-Moreno, José Juan, Rodriguez-Gómez, Julio, Ristic, Bojan, Daerden, Frank, Bellucci, Giancarlo, Patel, Manish, Vandaele, Ann-Carine, Ministerio de Ciencia e Innovación (España), European Commission, Belgian Science Policy Office, and UK Space Agency

Subjects

Atmosphere, IAA, KOPRA, Temperature, Mars, Density, ExoMars/TGO, Earth sciences, RCP, Geophysics, IMK-ASF-SAT, Remote sounding, Atmospheric structure, Space and Planetary Science, Geochemistry and Petrology, ddc:550, TGO, Earth and Planetary Sciences (miscellaneous), NOMAD, Planetary atmospheres

Abstract

This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited., We present vertical profiles of temperature and density from solar occultation (SO) observations by the “Nadir and Occultation for Mars Discovery” (NOMAD) spectrometer on board the Trace Gas Orbiter during its first operational year, which covered the second half of Mars Year 34. We used calibrated transmittance spectra in 380 scans, and apply an in-house pre-processing to clean data systematics. Temperature and CO2 profiles up to about 90 km, with consistent hydrostatic adjustment, are obtained, after adapting an Earth-tested retrieval scheme to Mars conditions. Both pre-processing and retrieval are discussed to illustrate their performance and robustness. Our results reveal the large impact of the MY34 Global Dust Storm (GDS), which warmed the atmosphere at all altitudes. The large GDS aerosols opacity limited the sounding of tropospheric layers. The retrieved temperatures agree well with global climate models (GCM) at tropospheric altitudes, but NOMAD mesospheric temperatures are wavier and globally colder by 10 K in the perihelion season, particularly during the GDS and its decay phase. We observe a warm layer around 80 km during the Southern Spring, especially in the Northern Hemisphere morning terminator, associated to large thermal tides, significantly stronger than in the GCM. Cold mesospheric pockets, close to CO2 condensation temperatures, are more frequently observed than in the GCM. NOMAD CO2 densities show oscillations upon a seasonal trend that track well the latitudinal variations expected. Results uncertainties and suggestions to improve future data re-analysis are briefly discussed. © 2022 The Authors. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA., The IAA/CSIC team acknowledges financial support from the State Agency for Research of the Spanish MCI through the ‘Center of Excellence Severe Ochoa’ award for the Instituto de Astrofísica de Andalucia (DEV-2017-0709) and funding by grants PGC2018-101836-B-100 (MCI/AEI/FEDER, EU), PID2019-110689RB-I00/AEI/10.13039/501100011033, and RTI2018-100920-J-I00. ExoMars is a space mission of the European Space Agency (ESA) and Roscosmos. The NOMAD experiment is led by the Royal Belgian Institute for Space Aeronomy (IASB-BIRA), assisted by Co-PI teams from Spain (IAA-CSIC), Italy (INAF-IAPS), and the United Kingdom (Open University). This project acknowledges funding by the Belgian Science Policy Office (BELLS), with the financial and contractual coordination by the ESAU Prod ex Office (PEA 4000103401, 4000121493) as well as by UK Space Agency through Grant ST/V002295/1, ST/V005332/1 and ST/S00145X/1 and Italian Space Agency through Grant 2018-2-HHS.0. US investigators were supported by the National Aeronautics and Space Administration. This work was supported by the Belgian Funds de la Recherche Scientific—FIRS under Grant 30442502 (ET_HOME). This project has received funding from the European Union Horizon 2020 research and innovation program under grant agreement No 101004052 (Road Map project)., With funding from the Spanish government through the "Severo Ochoa Centre of Excellence" accreditation (CEX2021-001131-S).

Published

2023

15. Combining spectral databases to simulate molecular absorption in diverse exoplanetary atmospheres

Author

kofman, vincent, primary, Villanueva, Geronimo, additional, Fauchez, Thomas, additional, Liuzzi, Giuliano, additional, Faggi, Sara, additional, and Stone, Shane, additional

Published

2022

16. Global maps of H2O, HCl and isotopic signatures in the Martian atmosphere: synergies between NASA/IRTF and TGO/ExoMars observations.

Author

Faggi, Sara, primary, Aoki, Shohei, additional, Liuzzi, Giuliano, additional, Sagawa, Hideo, additional, Mumma, Michael J., additional, and Villanueva, Geronimo L., additional

Published

2022

17. Isotope Ratios in the Martian Upper Atmosphere Measured by MAVEN NGIMS

Author

Stone, Shane, primary, Villanueva, Geronimo, additional, Yelle, Roger, additional, Benna, Mehdi, additional, Liuzzi, Giuliano, additional, Elrod, Meredith, additional, and Mahaffy, Paul, additional

Published

2022

18. CO distributions retrieved from TGO NOMAD SO using multiple orders

Author

Yoshida, Nao, primary, Aoki, Shohei, additional, Vandaele, Ann Carine, additional, Nakagawa, Hiromu, additional, Thomas, Ian, additional, Erwin, Justin, additional, Daerden, Frank, additional, Trompet, Loïc, additional, Murata, Isao, additional, Terada, Naoki, additional, Neary, Lori, additional, Lopez-Valverde, Miguel, additional, Modak, Ashimananda, additional, Villanueva, Geronimo, additional, Liuzzi, Giuliano, additional, Kasaba, Yasumasa, additional, Patel, Manish, additional, Ristic, Bojan, additional, Bellucci, Giancarlo, additional, and López-Moreno, Jusé Juan, additional

Published

2022

19. Measurements of water and its D/H as released from both Martian polar caps

Author

Villanueva, Geronimo, primary, Liuzzi, Giuliano, additional, Aoki, Shohei, additional, Stone, Shane, additional, Brines, Adrian, additional, Thomas, Ian, additional, Lopez-Valverde, Miguel, additional, Trompet, Loic, additional, Erwin, Justin, additional, Daerden, Frank, additional, Ristic, Bojan, additional, Smith, Michael, additional, Mumma, Michael, additional, Faggi, Sara, additional, Kofman, Vincent, additional, Robert, Severine, additional, Neary, Lori, additional, Patel, Manish, additional, Bellucci, Giancarlo, additional, and Vandaele, Ann-Carine, additional

Published

2022

20. Mesospheric and thermospheric carbon dioxide and temperature profiles from NOMAD-SO onboard TGO.

Author

Trompet, Loïc, primary, Vandaele, Ann Carine, additional, Thomas, Ian, additional, Aoki, Shohei, additional, Daerden, Frank, additional, Erwin, Justin, additional, Flimon, Zachary, additional, Neary, Lori, additional, Mahieux, Arnaud, additional, Robert, Séverine, additional, Villanueva, Geronimo, additional, Liuzzi, Giuliano, additional, Lopez-Valverde, Miguel Angel, additional, Brines, Adrian, additional, Bellucci, Giancarlo, additional, Lopez-Moreno, José Juan, additional, and Patel, Manish, additional

Published

2022

21. Measuring the 13C/12C in the lower atmosphere of Mars with NOMAD/TGO: challenges and interpretation

Author

Liuzzi, Giuliano, primary, Villanueva, Geronimo, additional, Stone, Shane W., additional, Faggi, Sara, additional, Kofman, Vincent, additional, Aoki, Shohei, additional, Alday, Juan, additional, Trompet, Loïc, additional, and Vandaele, Ann Carine, additional

Published

2022

22. Mars water vapor vertical distributions from the troposphere to the mesosphere from NOMAD Solar Occultation for Martian Years 34 and 35

Author

Brines, Adrian, primary, Lopez Valverde, Miguel Ángel, additional, Stolzenbach, Aurélien, additional, Modak, Ashim, additional, Funke, Bernd, additional, Gonzalez Galindo, Francisco, additional, Lopez Moreno, Jose Juan, additional, Aoki, Shohei, additional, Vandaele, Ann Carine, additional, Daerden, Frank, additional, Thomas, Ian, additional, Erwin, Justin, additional, Trompet, Loïc, additional, Ristic, Bojan, additional, Villanueva, Gerónimo Luis, additional, Liuzzi, Giuliano, additional, Patel, Manish, additional, and Bellucci, Giancarlo, additional

Published

2022

23. Vertical distribution of atmospheric temperature and density from the solar occultation instruments NOMAD and ACS on board the Trace Gas Orbiter

Author

Lopez-Valverde, Miguel Angel, primary, Funke, Bernd, additional, Brines, Adrian, additional, Stolzenbach, Aurélien, additional, Modak, Ashimananda, additional, Gonzalez-Galindo, Francisco, additional, Aoki, Shohei, additional, Trompet, Loic, additional, Thomas, Ian, additional, Villanueva, Gerónimo, additional, Liuzzi, Giuliano, additional, Belyaev, Denis, additional, Olsen, Kevin, additional, Trokhimovsky, Alexander, additional, Lopez-Moreno, Jose Juan, additional, Vandaele, Ann Carine, additional, Patel, Manish, additional, Bellucci, Giancarlo, additional, Korablev, Oleg, additional, and Montmessin, Franck, additional

Published

2022

24. Composition and size of Martian aerosols as seen in the IR from solar occultation measurements by NOMAD onboard TGO

Author

stolzenbach, aurélien, primary, López Valverde, Miguel-Angel, additional, Brines, Adrian, additional, Modak, Ashimananda, additional, Funke, Bernd, additional, González-Galindo, Francisco, additional, Thomas, Ian, additional, Liuzzi, Giuliano, additional, Villanueva, Geronimo, additional, Luginin, Mikhail, additional, and Aoki, Shohei, additional

Published

2022

25. Mapping of Martian CO from NOMAD solar occultation measurements for MY35 and 36

Author

Modak, Ashimananda, primary, Lopez-Valverde, Miguel-Angel, additional, Brines, Adrian, additional, Stolzenbach, Aurelien, additional, Funke, Bernd, additional, Gonzalez-Galindo, Francisco, additional, Lopez-Moreno, Jose-Juan, additional, Aoki, Shohe, additional, Villanueva, Geronimo, additional, Liuzzi, Giuliano, additional, Bellucci, Giancarlo, additional, Yoshida, Nao, additional, Erwin, Justin, additional, Trompet, Loic, additional, Thomas, Ian, additional, Daerden, Frank, additional, Ristic, Bojan, additional, Patel, Manish, additional, Vandaele, Ann Carine, additional, and Montmessin, Franck, additional

Published

2022

26. The Deuterium Isotopic Ratio of Water Released From the Martian Caps as Measured With TGO/NOMAD

Author

Villanueva, Geronimo L., Liuzzi, Giuliano, Aoki, Shohei, Stone, Shane W., Brines, Adrian, Thomas, Ian R., Lopez‐Valverde, Miguel Angel, Trompet, Loic, Erwin, Justin, Daerden, Frank, Ristic, Bojan, Smith, Michael D., Mumma, Michael J., Faggi, Sara, Kofman, Vincent, Robert, Séverine, Neary, Lori, Patel, Manish, Bellucci, Giancarlo, Lopez‐Moreno, Jose Juan, Vandaele, Ann Carine, Ministerio de Ciencia e Innovación (España), European Commission, Belgian Science Policy Office, UK Space Agency, and Agenzia Spaziale Italiana

Subjects

History, Geophysics, Atmosphere, Mars, Water, General Earth and Planetary Sciences, Polar

Abstract

We report vertical profiles of water and D/H for one Martian year as measured with the TGO/NOMAD instrument. The observations were performed via solar occultation, providing water profiles up to ∼100 km and D/H up to ∼60 km, with a vertical resolution of 1–2 km. The measurements reveal dramatic variability of water and D/H over short timescales and with altitude and location on the planet. We investigated the release of seasonal water from the polar caps during southern and northern summer, by mapping water and its D/H near the polar regions. Above the hygropause, the D/H drops substantially below 2 VSMOW, and both seasonal polar caps show a consistent and enriched D/H of 5–7 VSMOW within the hygrosphere. © 2022 American Geophysical Union. All Rights Reserved., This work was supported by NASA’s Mars Program Office under WBS 604796, “Participation in the TGO/NOMAD Investigation of Trace Gases on Mars.” ExoMars is a space mission of the European Space Agency (ESA) and Roscosmos. The NOMAD experiment is led by the Royal Belgian Institute for Space Aeronomy (IASB-BIRA), assisted by Co-PI teams from Spain (IAA-CSIC), Italy (INAF-IAPS), and the United Kingdom (The Open University). This project acknowledges funding by the Belgian Science Policy Office (BELSPO), with the financial and contractual coordination by the ESA Prodex Office (PEA 4000103401, 4000121493), by the Spanish MICINN through its Plan Nacional and by European funds under grants PGC2018-101836-B-I00 and ESP2017-87143-R (MINECO/FEDER) and by the Spanish Science Ministry Centro de Excelencia Severo Ochoa Program under grant SEV-2017-0709, as well as by the UK Space Agency through grants ST/V002295/1, ST/V005332/1, and ST/S00145X/1 and Italian Space Agency through grant 2018-2-HH.0. This work was supported by the Belgian Fonds de la Recherche Scientifique – FNRS (grant number 30442502, ET_HOME) and has received funding from the European Union’s Horizon 2020 research and innovation program (grant agreement no. 101004052, RoadMap project). SR thanks BELSPO for the FED-tWIN funding (Prf-2019-077 - RT-MOLEXO).

Published

2022

27. Innovative remote-sensed thermodynamical indices to identify vegetation stress and surface dryness: application to southern Italy over the last decade

Author

Comerón, Adolfo, Kassianov, Evgueni I., Schäfer, Klaus, Picard, Richard H., Weber, Konradin, Pasquariello, Pamela, Masiello, Guido, Serio, Carmine, Mastro, Pietro, Liuzzi, Giuliano, Della Rocca, Fabio, and De Feis, Italia

Published

2023

28. The Deuterium Isotopic Ratio of Water Released From the Martian Caps as Measured With TGO/NOMAD

Author

Villanueva, Geronimo L., primary, Liuzzi, Giuliano, additional, Aoki, Shohei, additional, Stone, Shane W., additional, Brines, Adrian, additional, Thomas, Ian R., additional, Lopez‐Valverde, Miguel Angel, additional, Trompet, Loic, additional, Erwin, Justin, additional, Daerden, Frank, additional, Ristic, Bojan, additional, Smith, Michael D., additional, Mumma, Michael J., additional, Faggi, Sara, additional, Kofman, Vincent, additional, Robert, Séverine, additional, Neary, Lori, additional, Patel, Manish, additional, Bellucci, Giancarlo, additional, Lopez‐Moreno, Jose Juan, additional, and Vandaele, Ann Carine, additional

Published

2022

29. Variations in Vertical CO/CO2 Profiles in the Martian Mesosphere and Lower Thermosphere Measured by the ExoMars TGO/NOMAD: Implications of Variations in Eddy Diffusion Coefficient

Author

Yoshida, Nao, Nakagawa, Hiromu, Aoki, Shohei, Erwin, Justin, Vandaele, Ann Carine, Daerden, Frank, Thomas, Ian, Trompet, Loïc, Koyama, Shungo, Terada, Naoki, Neary, Lori, Murata, Isao, Villanueva, Geronimo, Liuzzi, Giuliano, Lopez‐Valverde, Miguel Angel, Brines, Adrian, Modak, Ashimananda, Kasaba, Yasumasa, Ristic, Bojan, Bellucci, Giancarlo, López‐Moreno, José Juan, Patel, Manish, Ministerio de Ciencia e Innovación (España), European Commission, Belgian Science Policy Office, UK Space Agency, and Agenzia Spaziale Italiana

Subjects

Geophysics, Retrieval, Atmospheric composition, General Earth and Planetary Sciences, Mars, Eddy diffusion coefficient, Spectroscopy, Mesosphere

Abstract

This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited., Using the Nadir and Occultation for MArs Discovery instrument aboard Trace Gas Orbiter, we derived the CO/CO2 profiles between 75 and 105 km altitude with the equivalent width technique. The derived CO/CO2 profiles showed significant seasonal variations in the southern hemisphere with decreases near perihelion and increases near aphelion. The estimation of the CO/CO2 profiles with a one-dimensional photochemical model shows that an altitude-dependent eddy diffusion coefficient better reproduces the observed profiles than a vertically uniform one. Our estimation suggests that the eddy diffusion coefficient in Ls = 240–270 is uniformly larger by a factor of ∼2 than that in Ls = 90–120 in the southern hemisphere, while they are comparable in the northern hemisphere. This fact demonstrates that the eddy diffusion coefficient is variable with season and latitude. © 2022. The Authors., The NOMAD experiment is led by the Royal Belgian Institute for Space Aeronomy (IASB-BIRA), assisted by Co-PI teams from Spain (IAA-CSIC), Italy (INAF-IAPS), and the United Kingdom (Open University). This project acknowledges funding by the Belgian Science Policy Office (BELSPO), with the financial and contractual coordination by the ESA Prodex Office (PEA 4000103401, 4000121493), by Spanish Ministry of Science and Innovation (MCIU) and by European funds under Grants PGC2018-101836-B-I00 and ESP2017-87143-R (MINECO/FEDER), as well as by UK Space Agency through Grants ST/V002295/1, ST/V005332/1, and ST/S00145x/1 and Italian Space Agency through Grant 2018-2-HH.0. This work was supported by the Belgian Fonds de la Recherche Scientifique–FNRS under Grant No. 30442502 (ET_HOME). The IAA/CSIC team acknowledges financial support from the State Agency for Research of the Spanish MCIU through the “Center of Excellence Severo Ochoa” award for the Instituto de Astrofísica de Andalucía (SEV-2017-0709). US investigators were supported by the National Aeronautics and Space Administration. Canadian investigators were supported by the Canadian Space Agency. Y. N. is supported by The international Joint Graduate Program in Earth and Environmental Sciences, Tohoku University (GP-EES), and the Japanese Society for the Promotion of Science (JP21J13710). This work was supported by JSPS KAKENHI Grant Nos. 20H04605 and 19K03943.

Published

2022

30. The Deuterium Isotopic Ratio of Water Released From the Martian Caps as Measured With TGO/NOMAD

Author

Ministerio de Ciencia e Innovación (España), European Commission, Belgian Science Policy Office, UK Space Agency, Agenzia Spaziale Italiana, Villanueva, Geronimo L., Liuzzi, Giuliano, Aoki, Shohei, Stone, Shane W., Brines, Adrian, Thomas, Ian R., López-Valverde, M. A., Trompet, Loic, Erwin, Justin T., Daerden, Frank, Ristic, Bojan, Smith, Michael D., Mumma, Michael J., Faggi, Sara, Kofman, Vincent, Robert, Séverine, Neary, Lori, Patel, Manish R., Bellucci, Giancarlo, López-Moreno, José Juan, Vandaele, Ann Carine, Ministerio de Ciencia e Innovación (España), European Commission, Belgian Science Policy Office, UK Space Agency, Agenzia Spaziale Italiana, Villanueva, Geronimo L., Liuzzi, Giuliano, Aoki, Shohei, Stone, Shane W., Brines, Adrian, Thomas, Ian R., López-Valverde, M. A., Trompet, Loic, Erwin, Justin T., Daerden, Frank, Ristic, Bojan, Smith, Michael D., Mumma, Michael J., Faggi, Sara, Kofman, Vincent, Robert, Séverine, Neary, Lori, Patel, Manish R., Bellucci, Giancarlo, López-Moreno, José Juan, and Vandaele, Ann Carine

Abstract

We report vertical profiles of water and D/H for one Martian year as measured with the TGO/NOMAD instrument. The observations were performed via solar occultation, providing water profiles up to ∼100 km and D/H up to ∼60 km, with a vertical resolution of 1–2 km. The measurements reveal dramatic variability of water and D/H over short timescales and with altitude and location on the planet. We investigated the release of seasonal water from the polar caps during southern and northern summer, by mapping water and its D/H near the polar regions. Above the hygropause, the D/H drops substantially below 2 VSMOW, and both seasonal polar caps show a consistent and enriched D/H of 5–7 VSMOW within the hygrosphere. © 2022 American Geophysical Union. All Rights Reserved.

Published

2022

31. Variations in Vertical CO/CO2 Profiles in the Martian Mesosphere and Lower Thermosphere Measured by the ExoMars TGO/NOMAD: Implications of Variations in Eddy Diffusion Coefficient

Author

Ministerio de Ciencia e Innovación (España), European Commission, Belgian Science Policy Office, UK Space Agency, Agenzia Spaziale Italiana, Yoshida, Nao, Nakagawa, Hiromu, Aoki, Shohei, Erwin, Justin T., Vandaele, Ann Carine, Daerden, Frank, Thomas, Ian R., Trompet, Loïc., Koyama, Shungo, Terada, Naoki, Neary, Lori, Murata, Isao, Villanueva, Geronimo L., Liuzzi, Giuliano, López-Valverde, M. A., Brines, Adrian, Modak, Ashimananda, Kasaba, Yasumasa, Ristic, Bojan, Bellucci, Giancarlo, López-Moreno, José Juan, Patel, Manish R., Ministerio de Ciencia e Innovación (España), European Commission, Belgian Science Policy Office, UK Space Agency, Agenzia Spaziale Italiana, Yoshida, Nao, Nakagawa, Hiromu, Aoki, Shohei, Erwin, Justin T., Vandaele, Ann Carine, Daerden, Frank, Thomas, Ian R., Trompet, Loïc., Koyama, Shungo, Terada, Naoki, Neary, Lori, Murata, Isao, Villanueva, Geronimo L., Liuzzi, Giuliano, López-Valverde, M. A., Brines, Adrian, Modak, Ashimananda, Kasaba, Yasumasa, Ristic, Bojan, Bellucci, Giancarlo, López-Moreno, José Juan, and Patel, Manish R.

Abstract

Using the Nadir and Occultation for MArs Discovery instrument aboard Trace Gas Orbiter, we derived the CO/CO2 profiles between 75 and 105 km altitude with the equivalent width technique. The derived CO/CO2 profiles showed significant seasonal variations in the southern hemisphere with decreases near perihelion and increases near aphelion. The estimation of the CO/CO2 profiles with a one-dimensional photochemical model shows that an altitude-dependent eddy diffusion coefficient better reproduces the observed profiles than a vertically uniform one. Our estimation suggests that the eddy diffusion coefficient in Ls = 240–270 is uniformly larger by a factor of ∼2 than that in Ls = 90–120 in the southern hemisphere, while they are comparable in the northern hemisphere. This fact demonstrates that the eddy diffusion coefficient is variable with season and latitude. © 2022. The Authors.

Published

2022

32. Planet-Wide Ozone Destruction in the Middle Atmosphere on Mars During Global Dust Storm

Author

Ministerio de Ciencia e Innovación (España), European Commission, Belgian Science Policy Office, UK Space Agency, Daerden, Frank, Neary, L., Wolff, M. J., Clancy, R. T., Lefèvre, F., Whiteway, J. A., Viscardy, S., Piccialli, A., Willame, Y., Depiesse, C., Aoki, Shohei, Thomas, Ian R., Ristic, Bojan, Erwin, Justin T., Gérard, J. -C., Sandor, B. J., Khayat, A., Smith, M. D., Mason, Jonathon P., Patel, Manish R., Villanueva, Geronimo L., Liuzzi, Giuliano, Bellucci, Giancarlo, López-Moreno, José Juan, Vandaele, Ann Carine, Ministerio de Ciencia e Innovación (España), European Commission, Belgian Science Policy Office, UK Space Agency, Daerden, Frank, Neary, L., Wolff, M. J., Clancy, R. T., Lefèvre, F., Whiteway, J. A., Viscardy, S., Piccialli, A., Willame, Y., Depiesse, C., Aoki, Shohei, Thomas, Ian R., Ristic, Bojan, Erwin, Justin T., Gérard, J. -C., Sandor, B. J., Khayat, A., Smith, M. D., Mason, Jonathon P., Patel, Manish R., Villanueva, Geronimo L., Liuzzi, Giuliano, Bellucci, Giancarlo, López-Moreno, José Juan, and Vandaele, Ann Carine

Abstract

The Nadir and Occultation for MArs Discovery (NOMAD)/UV-visible (UVIS) spectrometer on the ExoMars Trace Gas Orbiter provided observations of ozone (O3) and water vapor in the global dust storm of 2018. Here we show in detail, using advanced data filtering and chemical modeling, how Martian O3 in the middle atmosphere was destroyed during the dust storm. In data taken exactly 1 year later when no dust storm occurred, the normal situation had been reestablished. The model simulates how water vapor is transported to high altitudes and latitudes in the storm, where it photolyzes to form odd hydrogen species that catalyze O3. O3 destruction is simulated at all latitudes and up to 100 km, except near the surface where it increases. The simulations also predict a strong increase in the photochemical production of atomic hydrogen in the middle atmosphere, consistent with the enhanced hydrogen escape observed in the upper atmosphere during global dust storms. © 2022 The Authors.

Published

2022

33. Variations in Vertical CO/CO 2 Profiles in the Martian Mesosphere and Lower Thermosphere Measured by the ExoMars TGO/NOMAD: Implications of Variations in Eddy Diffusion Coefficient

Author

Yoshida, Nao, primary, Nakagawa, Hiromu, additional, Aoki, Shohei, additional, Erwin, Justin, additional, Vandaele, Ann Carine, additional, Daerden, Frank, additional, Thomas, Ian, additional, Trompet, Loïc, additional, Koyama, Shungo, additional, Terada, Naoki, additional, Neary, Lori, additional, Murata, Isao, additional, Villanueva, Geronimo, additional, Liuzzi, Giuliano, additional, Lopez‐Valverde, Miguel Angel, additional, Brines, Adrian, additional, Modak, Ashimananda, additional, Kasaba, Yasumasa, additional, Ristic, Bojan, additional, Bellucci, Giancarlo, additional, López‐Moreno, José Juan, additional, and Patel, Manish, additional

Published

2022

34. Impacts of Heterogeneous Chemistry on Vertical Profiles of Martian Ozone

Author

Brown, Megan A J, primary, Patel, Manish R, additional, Lewis, Stephen, additional, Holmes, James Andrew, additional, Streeter, Paul Michael, additional, Sellers, Graham, additional, Bennaceur, Amel, additional, Liuzzi, Giuliano, additional, Villanueva, Geronimo Luis, additional, and Vandaele, Ann Carine, additional

Published

2022

35. Martian Atmospheric Temperature and Density Profiles During the First Year of NOMAD/TGO Solar Occultation Measurements.

Author

López‐Valverde, Miguel Angel, Funke, Bernd, Brines, Adrian, Stolzenbach, Aurèlien, Modak, Ashimananda, Hill, Brittany, González‐Galindo, Francisco, Thomas, Ian, Trompet, Loic, Aoki, Shohei, Villanueva, Gerónimo, Liuzzi, Giuliano, Erwin, Justin, Grabowski, Udo, Forget, Francois, López‐Moreno, José Juan, Rodriguez‐Gómez, Julio, Ristic, Bojan, Daerden, Frank, and Bellucci, Giancarlo

Subjects

ATMOSPHERIC temperature, ATMOSPHERIC density, CLIMATE change models, FRONTS (Meteorology), DUST storms, GLOBAL warming

Abstract

We present vertical profiles of temperature and density from solar occultation (SO) observations by the "Nadir and Occultation for Mars Discovery" (NOMAD) spectrometer on board the Trace Gas Orbiter during its first operational year, which covered the second half of Mars Year 34. We used calibrated transmittance spectra in 380 scans, and apply an in‐house pre‐processing to clean data systematics. Temperature and CO2 profiles up to about 90 km, with consistent hydrostatic adjustment, are obtained, after adapting an Earth‐tested retrieval scheme to Mars conditions. Both pre‐processing and retrieval are discussed to illustrate their performance and robustness. Our results reveal the large impact of the MY34 Global Dust Storm (GDS), which warmed the atmosphere at all altitudes. The large GDS aerosols opacity limited the sounding of tropospheric layers. The retrieved temperatures agree well with global climate models (GCM) at tropospheric altitudes, but NOMAD mesospheric temperatures are wavier and globally colder by 10 K in the perihelion season, particularly during the GDS and its decay phase. We observe a warm layer around 80 km during the Southern Spring, especially in the Northern Hemisphere morning terminator, associated to large thermal tides, significantly stronger than in the GCM. Cold mesospheric pockets, close to CO2 condensation temperatures, are more frequently observed than in the GCM. NOMAD CO2 densities show oscillations upon a seasonal trend that track well the latitudinal variations expected. Results uncertainties and suggestions to improve future data re‐analysis are briefly discussed. Plain Language Summary: The detailed variation of temperature and density with altitude is of paramount importance to characterize the atmospheric state and to constrain the chemistry and dynamics as a whole. The Nadir and Occultation for Mars Discovery (NOMAD) instrument on board the Trace Gas Orbiter (TGO) has among its key targets the characterization of the thermal state with unprecedented vertical resolution. This is the target of this work, where we analyzed transmittance spectra obtained from the NOMAD solar occultation channel, with a state‐of‐the‐art retrieval scheme, adapted from Earth to Mars conditions and geometry. We applied it to the first year of TGO observations, which covered the last two Mars seasons of Mars Year 34. The results permit to study the temperature structure up to 90 km and its seasonal and latitudinal variations, revealing the impact of the MY34 Global Dust Storm, a warm layer at mesospheric altitudes not present in climate models, more frequent cold pockets than in current global climate models, and generally, colder temperature at those altitudes, all of which can be of importance for the validation of these climate models. Key Points: Temperature and density profiles up to 90 km are retrieved from Nadir and Occultation for Mars Discovery (NOMAD) first year of solar occultations, covering two seasons of Mars Year 34NOMAD temperatures agree well with climate model predictions below 50 km but are wavier and globally colder by about 10 K at high altitudesWe report large thermal tides producing warm layers at 80 km in the morning terminator. Also strong warming by the 2018 global dust storm [ABSTRACT FROM AUTHOR]

Published

2023

36. First Detection and Thermal Characterization of Terminator CO 2 Ice Clouds With ExoMars/NOMAD

Author

Liuzzi, Giuliano, primary, Villanueva, Geronimo L., additional, Trompet, Loïc, additional, Crismani, Matteo M. J., additional, Piccialli, Arianna, additional, Aoki, Shohei, additional, Lopez‐Valverde, Miguel Angel, additional, Stolzenbach, Aurélien, additional, Daerden, Frank, additional, Neary, Lori, additional, Smith, Michael D., additional, Patel, Manish R., additional, Lewis, Stephen R., additional, Clancy, R. Todd, additional, Thomas, Ian R., additional, Ristic, Bojan, additional, Bellucci, Giancarlo, additional, Lopez‐Moreno, Jose‐Juan, additional, and Vandaele, Ann Carine, additional

Published

2021

37. Variations in Vertical CO/CO2 Profiles in the Martian Mesosphere and Lower Thermosphere Measured by the ExoMars TGO/NOMAD: Implications of Variations in Eddy Diffusion Coefficient.

Author

Yoshida, Nao, Nakagawa, Hiromu, Aoki, Shohei, Erwin, Justin, Vandaele, Ann Carine, Daerden, Frank, Thomas, Ian, Trompet, Loïc, Koyama, Shungo, Terada, Naoki, Neary, Lori, Murata, Isao, Villanueva, Geronimo, Liuzzi, Giuliano, Lopez‐Valverde, Miguel Angel, Brines, Adrian, Modak, Ashimananda, Kasaba, Yasumasa, Ristic, Bojan, and Bellucci, Giancarlo

Subjects

DIFFUSION coefficients, MESOSPHERE, TRACE gases, THERMOSPHERE, MIDDLE atmosphere, EDDIES

Abstract

Using the Nadir and Occultation for MArs Discovery instrument aboard Trace Gas Orbiter, we derived the CO/CO2 profiles between 75 and 105 km altitude with the equivalent width technique. The derived CO/CO2 profiles showed significant seasonal variations in the southern hemisphere with decreases near perihelion and increases near aphelion. The estimation of the CO/CO2 profiles with a one‐dimensional photochemical model shows that an altitude‐dependent eddy diffusion coefficient better reproduces the observed profiles than a vertically uniform one. Our estimation suggests that the eddy diffusion coefficient in Ls = 240–270 is uniformly larger by a factor of ∼2 than that in Ls = 90–120 in the southern hemisphere, while they are comparable in the northern hemisphere. This fact demonstrates that the eddy diffusion coefficient is variable with season and latitude. Plain Language Summary: The eddy diffusion coefficient is widely used to parameterize the efficiency of vertical diffusion in the planetary atmosphere, whose variation characterizes the transportation of trace gas species. Additionally, it could vary their vertical distributions in the middle and upper atmosphere, which might cause an impact on the species escaping to space. However, the variability of the eddy diffusion coefficient in those altitude regions have been poorly understood. In this study, we focus on the estimation of variation in the eddy diffusion coefficient by analyzing the CO and CO2 measurements made by the ExoMars Trace Gas Orbiter. The observed CO/CO2 ratio between altitudes of 75 and 105 km shows a significant seasonal variation in the southern hemisphere. The observed CO/CO2 profiles are compared with the simulated profiles obtained with a one‐dimensional photochemical model assigning several shapes and intensity of eddy diffusion coefficient. The comparison shows that the eddy diffusion coefficient is not constant but variable depending on altitude, season, and latitude, which suggests that the efficiency of the vertical diffusion varies with season and latitude. This fact is useful to other 1D photochemical models to reproduce the seasonal and latitudinal variation of atmospheric composition. Key Points: The CO/CO2 profiles from 75 to 105 km measured by NOMAD aboard TGO are used to investigate variations in the eddy diffusion coefficientThe estimated CO/CO2 profiles agree well with the observed profiles if altitude‐dependent eddy diffusion coefficients are consideredOur results demonstrate a substantial seasonal variation in the eddy diffusion coefficient in the southern hemisphere [ABSTRACT FROM AUTHOR]

Published

2022

38. First Detection and Thermal Characterization of Terminator CO2 Ice Clouds With ExoMars/NOMAD.

Author

Liuzzi, Giuliano, Villanueva, Geronimo L., Trompet, Loïc, Crismani, Matteo M. J., Piccialli, Arianna, Aoki, Shohei, Lopez‐Valverde, Miguel Angel, Stolzenbach, Aurélien, Daerden, Frank, Neary, Lori, Smith, Michael D., Patel, Manish R., Lewis, Stephen R., Clancy, R. Todd, Thomas, Ian R., Ristic, Bojan, Bellucci, Giancarlo, Lopez‐Moreno, Jose‐Juan, and Vandaele, Ann Carine

Subjects

*ICE clouds, *TRACE gases, *MARTIAN atmosphere, *ICE nuclei, *UPPER atmosphere, *FREEZING points

Abstract

We present observations of terminator CO2 ice clouds events in three groups: Equatorial dawn, Equatorial dusk (both between 20°S and 20°N) and Southern midlatitudes at dawn (45°S and 55°S east of Hellas Basin) with ESA ExoMars Trace Gas Orbiter's Nadir and Occultation for MArs Discovery instrument. CO2 ice abundance is retrieved simultaneously with water ice, dust, and particle sizes, and rotational temperature and CO2 column profiles in 16 of 26 cases. Small particles (<0.5 μm) prevail at dusk, while water ice likely provides most source nuclei at dawn. Clouds east of Hellas are found to be dominantly nucleated on surface‐lifted dust. CO2 ice is sometimes detected in unsaturated air together with dust nuclei at dawn, suggesting ongoing sublimation. Depending on latitude and local time, the interplay between particle precipitation and the lifetime of temperature minima (i.e., cold pockets) determines CO2 ice properties. Plain Language Summary: The upper atmosphere of Mars is characterized by the seasonal presence of CO2 ice clouds. Their properties have been long studied, as well as their formation mechanisms in relation to the thermal structure of the atmosphere and its variability. In this study, we present the first observations of these clouds at the terminator (dawn and dusk) by the NOMAD spectrometer onboard the Exomars Trace Gas Orbiter. CO2 ice is detected simultaneously with dust, water ice and the temperature profile. Our results agree with previous findings in terms of how clouds are spatially distributed and their temporal occurrence. However, we also explore the sources of condensation nuclei for CO2 ice particles, showing that water ice is a possible source at dawn near the Equator. We also identify surface‐lifted dust below the CO2 ice clouds observed east of Hellas Basin, suggesting that, at that location, dust could provide nuclei for CO2 ice. CO2 ice is also sometimes detected at temperatures higher than the CO2 freezing point, suggesting ongoing sublimation. In this work we explore for the first time the composition of CO2 ice clouds, which is critical to advance our understanding of how CO2 ice clouds form in the mesosphere at Mars. Key Points: Twenty Six mesospheric CO2 ice clouds were detected with NOMAD SO in Mars Year 35, simultaneously with water ice, dust, and CO2 saturation ratiosEquatorial CO2 clouds are observed at 50–80 km altitude at dusk, and 40–60 km at dawn, when water ice likely provides condensation nucleiSix CO2 ice clouds are found east of Hellas basin; their formation is likely sourced by surface‐lifted dust at 40–65 km [ABSTRACT FROM AUTHOR]

Published

2021

39. Innovative remote-sensed thermodynamical indices to identify vegetation stress and surface dryness: application to southern Italy over the last decade.

Author

Pasquariello, Pamela, Masiello, Guido, Serio, Carmine, Mastro, Pietro, Liuzzi, Giuliano, Della Rocca, Fabio, and De Feis, Italia

Published

2023

40. Simultaneous retrieval from the full IASI spectrum of cloud and atmospheric parameters using the new all-sky forward model σ-IASI/F2N: the first day-night infrared retrieval of the Antarctica ozone hole.

Author

Serio, Carmine, Masiello, Guido, Liuzzi, Giuliano, Mastro, Pietro, Maestri, Tiziano, Martinazzo, Michele, Masin, Fabrizio, and Venafra, Sara

Published

2023

41. Simultaneous retrieval from the full IASI spectrum of cloud and atmospheric parameters using the new all-sky forward model σ-IASI/F2N: the first day-night infrared retrieval of the Antarctica ozone hole

Author

Comerón, Adolfo, Kassianov, Evgueni I., Schäfer, Klaus, Picard, Richard H., Weber, Konradin, Serio, Carmine, Masiello, Guido, Liuzzi, Giuliano, Mastro, Pietro, Maestri, Tiziano, Martinazzo, Michele, Masin, Fabrizio, and Venafra, Sara

Published

2023

42. Variations in Vertical CO/CO2Profiles in the Martian Mesosphere and Lower Thermosphere Measured by the ExoMars TGO/NOMAD: Implications of Variations in Eddy Diffusion Coefficient

Author

Yoshida, Nao, Nakagawa, Hiromu, Aoki, Shohei, Erwin, Justin, Vandaele, Ann Carine, Daerden, Frank, Thomas, Ian, Trompet, Loïc, Koyama, Shungo, Terada, Naoki, Neary, Lori, Murata, Isao, Villanueva, Geronimo, Liuzzi, Giuliano, Lopez‐Valverde, Miguel Angel, Brines, Adrian, Modak, Ashimananda, Kasaba, Yasumasa, Ristic, Bojan, Bellucci, Giancarlo, López‐Moreno, José Juan, and Patel, Manish

Abstract

Using the Nadir and Occultation for MArs Discovery instrument aboard Trace Gas Orbiter, we derived the CO/CO2profiles between 75 and 105 km altitude with the equivalent width technique. The derived CO/CO2profiles showed significant seasonal variations in the southern hemisphere with decreases near perihelion and increases near aphelion. The estimation of the CO/CO2profiles with a one‐dimensional photochemical model shows that an altitude‐dependent eddy diffusion coefficient better reproduces the observed profiles than a vertically uniform one. Our estimation suggests that the eddy diffusion coefficient in Ls= 240–270 is uniformly larger by a factor of ∼2 than that in Ls= 90–120 in the southern hemisphere, while they are comparable in the northern hemisphere. This fact demonstrates that the eddy diffusion coefficient is variable with season and latitude. The eddy diffusion coefficient is widely used to parameterize the efficiency of vertical diffusion in the planetary atmosphere, whose variation characterizes the transportation of trace gas species. Additionally, it could vary their vertical distributions in the middle and upper atmosphere, which might cause an impact on the species escaping to space. However, the variability of the eddy diffusion coefficient in those altitude regions have been poorly understood. In this study, we focus on the estimation of variation in the eddy diffusion coefficient by analyzing the CO and CO2measurements made by the ExoMars Trace Gas Orbiter. The observed CO/CO2ratio between altitudes of 75 and 105 km shows a significant seasonal variation in the southern hemisphere. The observed CO/CO2profiles are compared with the simulated profiles obtained with a one‐dimensional photochemical model assigning several shapes and intensity of eddy diffusion coefficient. The comparison shows that the eddy diffusion coefficient is not constant but variable depending on altitude, season, and latitude, which suggests that the efficiency of the vertical diffusion varies with season and latitude. This fact is useful to other 1D photochemical models to reproduce the seasonal and latitudinal variation of atmospheric composition. The CO/CO2profiles from 75 to 105 km measured by NOMAD aboard TGO are used to investigate variations in the eddy diffusion coefficientThe estimated CO/CO2profiles agree well with the observed profiles if altitude‐dependent eddy diffusion coefficients are consideredOur results demonstrate a substantial seasonal variation in the eddy diffusion coefficient in the southern hemisphere The CO/CO2profiles from 75 to 105 km measured by NOMAD aboard TGO are used to investigate variations in the eddy diffusion coefficient The estimated CO/CO2profiles agree well with the observed profiles if altitude‐dependent eddy diffusion coefficients are considered Our results demonstrate a substantial seasonal variation in the eddy diffusion coefficient in the southern hemisphere

Published

2022

43. First Detection and Thermal Characterization of Terminator CO2Ice Clouds With ExoMars/NOMAD

Author

Liuzzi, Giuliano, Villanueva, Geronimo L., Trompet, Loïc, Crismani, Matteo M. J., Piccialli, Arianna, Aoki, Shohei, Lopez‐Valverde, Miguel Angel, Stolzenbach, Aurélien, Daerden, Frank, Neary, Lori, Smith, Michael D., Patel, Manish R., Lewis, Stephen R., Clancy, R. Todd, Thomas, Ian R., Ristic, Bojan, Bellucci, Giancarlo, Lopez‐Moreno, Jose‐Juan, and Vandaele, Ann Carine

Abstract

We present observations of terminator CO2ice clouds events in three groups: Equatorial dawn, Equatorial dusk (both between 20°S and 20°N) and Southern midlatitudes at dawn (45°S and 55°S east of Hellas Basin) with ESA ExoMars Trace Gas Orbiter's Nadir and Occultation for MArs Discovery instrument. CO2ice abundance is retrieved simultaneously with water ice, dust, and particle sizes, and rotational temperature and CO2column profiles in 16 of 26 cases. Small particles (<0.5 μm) prevail at dusk, while water ice likely provides most source nuclei at dawn. Clouds east of Hellas are found to be dominantly nucleated on surface‐lifted dust. CO2ice is sometimes detected in unsaturated air together with dust nuclei at dawn, suggesting ongoing sublimation. Depending on latitude and local time, the interplay between particle precipitation and the lifetime of temperature minima (i.e., cold pockets) determines CO2ice properties. The upper atmosphere of Mars is characterized by the seasonal presence of CO2ice clouds. Their properties have been long studied, as well as their formation mechanisms in relation to the thermal structure of the atmosphere and its variability. In this study, we present the first observations of these clouds at the terminator (dawn and dusk) by the NOMAD spectrometer onboard the Exomars Trace Gas Orbiter. CO2ice is detected simultaneously with dust, water ice and the temperature profile. Our results agree with previous findings in terms of how clouds are spatially distributed and their temporal occurrence. However, we also explore the sources of condensation nuclei for CO2ice particles, showing that water ice is a possible source at dawn near the Equator. We also identify surface‐lifted dust below the CO2ice clouds observed east of Hellas Basin, suggesting that, at that location, dust could provide nuclei for CO2ice. CO2ice is also sometimes detected at temperatures higher than the CO2freezing point, suggesting ongoing sublimation. In this work we explore for the first time the composition of CO2ice clouds, which is critical to advance our understanding of how CO2ice clouds form in the mesosphere at Mars. Twenty Six mesospheric CO2ice clouds were detected with NOMAD SO in Mars Year 35, simultaneously with water ice, dust, and CO2saturation ratiosEquatorial CO2clouds are observed at 50–80 km altitude at dusk, and 40–60 km at dawn, when water ice likely provides condensation nucleiSix CO2ice clouds are found east of Hellas basin; their formation is likely sourced by surface‐lifted dust at 40–65 km Twenty Six mesospheric CO2ice clouds were detected with NOMAD SO in Mars Year 35, simultaneously with water ice, dust, and CO2saturation ratios Equatorial CO2clouds are observed at 50–80 km altitude at dusk, and 40–60 km at dawn, when water ice likely provides condensation nuclei Six CO2ice clouds are found east of Hellas basin; their formation is likely sourced by surface‐lifted dust at 40–65 km

Published

2021