The DREAMS Experiment Onboard the Schiaparelli Module of the ExoMars 2016 Mission: Design, Performances and Expected Results

F. Esposito; S. Debei; C. Bettanini; C. Molfese; I. Arruego Rodríguez; G. Colombatti; A. M. Harri; F. Montmessin; C. Wilson; A. Aboudan; P. Schipani; L. Marty; F. J. Álvarez; V. Apestigue; G. Bellucci; J. J. Berthelier; J. R. Brucato; S. B. Calcutt; S. Chiodini; F. Cortecchia; F. Cozzolino; F. Cucciarrè; N. Deniskina; G. Déprez; G. Di Achille; F. Ferri; F. Forget; G. Franzese; E. Friso; M. Genzer; R. Hassen-Kodja; H. Haukka; M. Hieta; J. J. Jiménez; J. L. Josset; H. Kahanpää; O. Karatekin; G. Landis; L. Lapauw; R. Lorenz; J. Martinez-Oter; V. Mennella; D. Möhlmann; D. Moirin; R. Molinaro; T. Nikkanen; E. Palomba; M. R. Patel; J. P. Pommereau; C. I. Popa; S. Rafkin; P. Rannou; N. O. Renno; J. Rivas; W. Schmidt; E. Segato; S. Silvestro; A. Spiga; D. Toledo; R. Trautner; F. Valero; L. Vázquez; F. Vivat; O. Witasse; M. Yela; R. Mugnuolo; E. Marchetti; S. Pirrotta

doi:10.1007/s11214-018-0535-0

The DREAMS Experiment Onboard the Schiaparelli Module of the ExoMars 2016 Mission: Design, Performances and Expected Results

F. Esposito
, S. Debei
, C. Bettanini
, C. Molfese
, I. Arruego Rodríguez
, G. Colombatti
, A. M. Harri
, F. Montmessin
, C. Wilson
, A. Aboudan
, P. Schipani
, L. Marty
, F. J. Álvarez
, V. Apestigue
, G. Bellucci
, J. J. Berthelier
, J. R. Brucato
, S. B. Calcutt
, S. Chiodini
, F. Cortecchia

F. Cozzolino, F. Cucciarrè, N. Deniskina, G. Déprez, G. Di Achille, F. Ferri, F. Forget, G. Franzese, E. Friso, M. Genzer, R. Hassen-Kodja, H. Haukka, M. Hieta, J. J. Jiménez, J. L. Josset, H. Kahanpää, O. Karatekin, G. Landis, L. Lapauw, R. Lorenz, J. Martinez-Oter, V. Mennella, D. Möhlmann, D. Moirin, R. Molinaro, T. Nikkanen, E. Palomba, M. R. Patel, J. P. Pommereau, C. I. Popa, S. Rafkin, P. Rannou, N. O. Renno, J. Rivas, W. Schmidt, E. Segato, S. Silvestro, A. Spiga, D. Toledo, R. Trautner, F. Valero, L. Vázquez, F. Vivat, O. Witasse, M. Yela, R. Mugnuolo, E. Marchetti, S. Pirrotta

Osservatorio Astronomico di Capodimonte
University of Padova
Instituto Nacional de Técnica Aeroespacial (CSIC/INTA)
Finnish Meteorological Institute
Université Versailles-Saint Quentin
University of Oxford
Istituto di Astrofisica e Planetologia Spaziali (IAPS)
Osservatorio Astrofisico Di Arcetri
INAF Istituto di Astrofisica Spaziale e Fisica Cosmica, Bologna
Osservatorio Astronomico di Collurania Vincenzo Cerruli
University of Naples Federico II
Space Exploration Institute
Royal Observatory of Belgium
GSFC Laboratory for Atmopsheres
Johns Hopkins University Applied Physics Laboratory
DLR
The Open University
Southwest Research Institute
UFR Des Sciences
University of Michigan, Ann Arbor
Sorbonne Université
Univ. de Reims Champagne Ardenne
ESTEC - European Space Research and Technology Centre
Complutense University
Science and Research Directorate

Résultats de recherche: Contribution à un journal › Article de révision › Revue par des pairs

Résumé

The first of the two missions foreseen in the ExoMars program was successfully launched on 14th March 2016. It included the Trace Gas Orbiter and the Schiaparelli Entry descent and landing Demonstrator Module. Schiaparelli hosted the DREAMS instrument suite that was the only scientific payload designed to operate after the touchdown. DREAMS is a meteorological station with the capability of measuring the electric properties of the Martian atmosphere. It was a completely autonomous instrument, relying on its internal battery for the power supply. Even with low resources (mass, energy), DREAMS would be able to perform novel measurements on Mars (atmospheric electric field) and further our understanding of the Martian environment, including the dust cycle. DREAMS sensors were designed to operate in a very dusty environment, because the experiment was designed to operate on Mars during the dust storm season (October 2016 in Meridiani Planum). Unfortunately, the Schiaparelli module failed part of the descent and the landing and crashed onto the surface of Mars. Nevertheless, several seconds before the crash, the module central computer switched the DREAMS instrument on, and sent back housekeeping data indicating that the DREAMS sensors were performing nominally. This article describes the instrument in terms of scientific goals, design, working principle and performances, as well as the results of calibration and field tests. The spare model is mature and available to fly in a future mission.

langue originale	Anglais
Numéro d'article	103
journal	Space Science Reviews
Volume	214
Numéro de publication	6
Les DOIs	https://doi.org/10.1007/s11214-018-0535-0
état	Publié - 1 sept. 2018

Accès au document

10.1007/s11214-018-0535-0

Autres fichiers et liens

Lien vers la publication dans Scopus

Contient cette citation

Esposito, F., Debei, S., Bettanini, C., Molfese, C., Arruego Rodríguez, I., Colombatti, G., Harri, A. M., Montmessin, F., Wilson, C., Aboudan, A., Schipani, P., Marty, L., Álvarez, F. J., Apestigue, V., Bellucci, G., Berthelier, J. J., Brucato, J. R., Calcutt, S. B., Chiodini, S., ... Pirrotta, S. (2018). The DREAMS Experiment Onboard the Schiaparelli Module of the ExoMars 2016 Mission: Design, Performances and Expected Results. Space Science Reviews, 214(6), Article 103. https://doi.org/10.1007/s11214-018-0535-0

@article{7ae801d30f084cdfbdc6eaf69b0de071,

title = "The DREAMS Experiment Onboard the Schiaparelli Module of the ExoMars 2016 Mission: Design, Performances and Expected Results",

abstract = "The first of the two missions foreseen in the ExoMars program was successfully launched on 14th March 2016. It included the Trace Gas Orbiter and the Schiaparelli Entry descent and landing Demonstrator Module. Schiaparelli hosted the DREAMS instrument suite that was the only scientific payload designed to operate after the touchdown. DREAMS is a meteorological station with the capability of measuring the electric properties of the Martian atmosphere. It was a completely autonomous instrument, relying on its internal battery for the power supply. Even with low resources (mass, energy), DREAMS would be able to perform novel measurements on Mars (atmospheric electric field) and further our understanding of the Martian environment, including the dust cycle. DREAMS sensors were designed to operate in a very dusty environment, because the experiment was designed to operate on Mars during the dust storm season (October 2016 in Meridiani Planum). Unfortunately, the Schiaparelli module failed part of the descent and the landing and crashed onto the surface of Mars. Nevertheless, several seconds before the crash, the module central computer switched the DREAMS instrument on, and sent back housekeeping data indicating that the DREAMS sensors were performing nominally. This article describes the instrument in terms of scientific goals, design, working principle and performances, as well as the results of calibration and field tests. The spare model is mature and available to fly in a future mission.",

keywords = "Atmospheric electric field, DREAMS, Dust storm season, ExoMars, Mars, Meteorological station, Schiaparelli",

author = "F. Esposito and S. Debei and C. Bettanini and C. Molfese and \{Arruego Rodr{\'i}guez\}, I. and G. Colombatti and Harri, \{A. M.\} and F. Montmessin and C. Wilson and A. Aboudan and P. Schipani and L. Marty and {\'A}lvarez, \{F. J.\} and V. Apestigue and G. Bellucci and Berthelier, \{J. J.\} and Brucato, \{J. R.\} and Calcutt, \{S. B.\} and S. Chiodini and F. Cortecchia and F. Cozzolino and F. Cucciarr{\`e} and N. Deniskina and G. D{\'e}prez and \{Di Achille\}, G. and F. Ferri and F. Forget and G. Franzese and E. Friso and M. Genzer and R. Hassen-Kodja and H. Haukka and M. Hieta and Jim{\'e}nez, \{J. J.\} and Josset, \{J. L.\} and H. Kahanp{\"a}{\"a} and O. Karatekin and G. Landis and L. Lapauw and R. Lorenz and J. Martinez-Oter and V. Mennella and D. M{\"o}hlmann and D. Moirin and R. Molinaro and T. Nikkanen and E. Palomba and Patel, \{M. R.\} and Pommereau, \{J. P.\} and Popa, \{C. I.\} and S. Rafkin and P. Rannou and Renno, \{N. O.\} and J. Rivas and W. Schmidt and E. Segato and S. Silvestro and A. Spiga and D. Toledo and R. Trautner and F. Valero and L. V{\'a}zquez and F. Vivat and O. Witasse and M. Yela and R. Mugnuolo and E. Marchetti and S. Pirrotta",

note = "Publisher Copyright: {\textcopyright} 2018, Springer Nature B.V.",

year = "2018",

month = sep,

day = "1",

doi = "10.1007/s11214-018-0535-0",

language = "English",

volume = "214",

journal = "Space Science Reviews",

issn = "0038-6308",

number = "6",

}

Esposito, F, Debei, S, Bettanini, C, Molfese, C, Arruego Rodríguez, I, Colombatti, G, Harri, AM, Montmessin, F, Wilson, C, Aboudan, A, Schipani, P, Marty, L, Álvarez, FJ, Apestigue, V, Bellucci, G, Berthelier, JJ, Brucato, JR, Calcutt, SB, Chiodini, S, Cortecchia, F, Cozzolino, F, Cucciarrè, F, Deniskina, N, Déprez, G, Di Achille, G, Ferri, F, Forget, F, Franzese, G, Friso, E, Genzer, M, Hassen-Kodja, R, Haukka, H, Hieta, M, Jiménez, JJ, Josset, JL, Kahanpää, H, Karatekin, O, Landis, G, Lapauw, L, Lorenz, R, Martinez-Oter, J, Mennella, V, Möhlmann, D, Moirin, D, Molinaro, R, Nikkanen, T, Palomba, E, Patel, MR, Pommereau, JP, Popa, CI, Rafkin, S, Rannou, P, Renno, NO, Rivas, J, Schmidt, W, Segato, E, Silvestro, S, Spiga, A, Toledo, D, Trautner, R, Valero, F, Vázquez, L, Vivat, F, Witasse, O, Yela, M, Mugnuolo, R, Marchetti, E & Pirrotta, S 2018, 'The DREAMS Experiment Onboard the Schiaparelli Module of the ExoMars 2016 Mission: Design, Performances and Expected Results', Space Science Reviews, VOL. 214, Numéro 6, 103. https://doi.org/10.1007/s11214-018-0535-0

TY - JOUR

T1 - The DREAMS Experiment Onboard the Schiaparelli Module of the ExoMars 2016 Mission

T2 - Design, Performances and Expected Results

AU - Esposito, F.

AU - Debei, S.

AU - Bettanini, C.

AU - Molfese, C.

AU - Arruego Rodríguez, I.

AU - Colombatti, G.

AU - Harri, A. M.

AU - Montmessin, F.

AU - Wilson, C.

AU - Aboudan, A.

AU - Schipani, P.

AU - Marty, L.

AU - Álvarez, F. J.

AU - Apestigue, V.

AU - Bellucci, G.

AU - Berthelier, J. J.

AU - Brucato, J. R.

AU - Calcutt, S. B.

AU - Chiodini, S.

AU - Cortecchia, F.

AU - Cozzolino, F.

AU - Cucciarrè, F.

AU - Deniskina, N.

AU - Déprez, G.

AU - Di Achille, G.

AU - Ferri, F.

AU - Forget, F.

AU - Franzese, G.

AU - Friso, E.

AU - Genzer, M.

AU - Hassen-Kodja, R.

AU - Haukka, H.

AU - Hieta, M.

AU - Jiménez, J. J.

AU - Josset, J. L.

AU - Kahanpää, H.

AU - Karatekin, O.

AU - Landis, G.

AU - Lapauw, L.

AU - Lorenz, R.

AU - Martinez-Oter, J.

AU - Mennella, V.

AU - Möhlmann, D.

AU - Moirin, D.

AU - Molinaro, R.

AU - Nikkanen, T.

AU - Palomba, E.

AU - Patel, M. R.

AU - Pommereau, J. P.

AU - Popa, C. I.

AU - Rafkin, S.

AU - Rannou, P.

AU - Renno, N. O.

AU - Rivas, J.

AU - Schmidt, W.

AU - Segato, E.

AU - Silvestro, S.

AU - Spiga, A.

AU - Toledo, D.

AU - Trautner, R.

AU - Valero, F.

AU - Vázquez, L.

AU - Vivat, F.

AU - Witasse, O.

AU - Yela, M.

AU - Mugnuolo, R.

AU - Marchetti, E.

AU - Pirrotta, S.

PY - 2018/9/1

Y1 - 2018/9/1

N2 - The first of the two missions foreseen in the ExoMars program was successfully launched on 14th March 2016. It included the Trace Gas Orbiter and the Schiaparelli Entry descent and landing Demonstrator Module. Schiaparelli hosted the DREAMS instrument suite that was the only scientific payload designed to operate after the touchdown. DREAMS is a meteorological station with the capability of measuring the electric properties of the Martian atmosphere. It was a completely autonomous instrument, relying on its internal battery for the power supply. Even with low resources (mass, energy), DREAMS would be able to perform novel measurements on Mars (atmospheric electric field) and further our understanding of the Martian environment, including the dust cycle. DREAMS sensors were designed to operate in a very dusty environment, because the experiment was designed to operate on Mars during the dust storm season (October 2016 in Meridiani Planum). Unfortunately, the Schiaparelli module failed part of the descent and the landing and crashed onto the surface of Mars. Nevertheless, several seconds before the crash, the module central computer switched the DREAMS instrument on, and sent back housekeeping data indicating that the DREAMS sensors were performing nominally. This article describes the instrument in terms of scientific goals, design, working principle and performances, as well as the results of calibration and field tests. The spare model is mature and available to fly in a future mission.

AB - The first of the two missions foreseen in the ExoMars program was successfully launched on 14th March 2016. It included the Trace Gas Orbiter and the Schiaparelli Entry descent and landing Demonstrator Module. Schiaparelli hosted the DREAMS instrument suite that was the only scientific payload designed to operate after the touchdown. DREAMS is a meteorological station with the capability of measuring the electric properties of the Martian atmosphere. It was a completely autonomous instrument, relying on its internal battery for the power supply. Even with low resources (mass, energy), DREAMS would be able to perform novel measurements on Mars (atmospheric electric field) and further our understanding of the Martian environment, including the dust cycle. DREAMS sensors were designed to operate in a very dusty environment, because the experiment was designed to operate on Mars during the dust storm season (October 2016 in Meridiani Planum). Unfortunately, the Schiaparelli module failed part of the descent and the landing and crashed onto the surface of Mars. Nevertheless, several seconds before the crash, the module central computer switched the DREAMS instrument on, and sent back housekeeping data indicating that the DREAMS sensors were performing nominally. This article describes the instrument in terms of scientific goals, design, working principle and performances, as well as the results of calibration and field tests. The spare model is mature and available to fly in a future mission.

KW - Atmospheric electric field

KW - DREAMS

KW - Dust storm season

KW - ExoMars

KW - Mars

KW - Meteorological station

KW - Schiaparelli

UR - https://www.scopus.com/pages/publications/85046083576

U2 - 10.1007/s11214-018-0535-0

DO - 10.1007/s11214-018-0535-0

M3 - Review article

AN - SCOPUS:85046083576

SN - 0038-6308

VL - 214

JO - Space Science Reviews

JF - Space Science Reviews

IS - 6

M1 - 103

ER -

The DREAMS Experiment Onboard the Schiaparelli Module of the ExoMars 2016 Mission: Design, Performances and Expected Results

Résumé

Accès au document

Autres fichiers et liens

Empreinte digitale

Contient cette citation