Venus Evolution Through Time: Key Science Questions, Selected Mission Concepts and Future Investigations

Thomas Widemann; Suzanne E. Smrekar; James B. Garvin; Anne Grete Straume-Lindner; Adriana C. Ocampo; Mitchell D. Schulte; Thomas Voirin; Scott Hensley; M. Darby Dyar; Jennifer L. Whitten; Daniel C. Nunes; Stephanie A. Getty; Giada N. Arney; Natasha M. Johnson; Erika Kohler; Tilman Spohn; Joseph G. O’Rourke; Colin F. Wilson; Michael J. Way; Colby Ostberg; Frances Westall; Dennis Höning; Seth Jacobson; Arnaud Salvador; Guillaume Avice; Doris Breuer; Lynn Carter; Martha S. Gilmore; Richard Ghail; Jörn Helbert; Paul Byrne; Alison R. Santos; Robert R. Herrick; Noam Izenberg; Emmanuel Marcq; Tobias Rolf; Matt Weller; Cedric Gillmann; Oleg Korablev; Lev Zelenyi; Ludmila Zasova; Dmitry Gorinov; Gaurav Seth; C. V.Narasimha Rao; Nilesh Desai

doi:10.1007/s11214-023-00992-w

Venus Evolution Through Time: Key Science Questions, Selected Mission Concepts and Future Investigations

Thomas Widemann, Suzanne E. Smrekar, James B. Garvin, Anne Grete Straume-Lindner, Adriana C. Ocampo, Mitchell D. Schulte, Thomas Voirin, Scott Hensley, M. Darby Dyar, Jennifer L. Whitten, Daniel C. Nunes, Stephanie A. Getty, Giada N. Arney, Natasha M. Johnson, Erika Kohler, Tilman Spohn, Joseph G. O’Rourke, Colin F. Wilson, Michael J. Way, Colby OstbergFrances Westall, Dennis Höning, Seth Jacobson, Arnaud Salvador, Guillaume Avice, Doris Breuer, Lynn Carter, Martha S. Gilmore, Richard Ghail, Jörn Helbert, Paul Byrne, Alison R. Santos, Robert R. Herrick, Noam Izenberg, Emmanuel Marcq, Tobias Rolf, Matt Weller, Cedric Gillmann, Oleg Korablev, Lev Zelenyi, Ludmila Zasova, Dmitry Gorinov, Gaurav Seth, C. V.Narasimha Rao, Nilesh Desai

Research output: Contribution to journal › Review article › peer-review

9 Scopus citations

Abstract

In this work we discuss various selected mission concepts addressing Venus evolution through time. More specifically, we address investigations and payload instrument concepts supporting scientific goals and open questions presented in the companion articles of this volume. Also included are their related investigations (observations & modeling) and discussion of which measurements and future data products are needed to better constrain Venus’ atmosphere, climate, surface, interior and habitability evolution through time. A new fleet of Venus missions has been selected, and new mission concepts will continue to be considered for future selections. Missions under development include radar-equipped ESA-led EnVision M5 orbiter mission (European Space Agency 2021), NASA-JPL’s VERITAS orbiter mission (Smrekar et al. 2022a), NASA-GSFC’s DAVINCI entry probe/flyby mission (Garvin et al. 2022a). The data acquired with the VERITAS, DAVINCI, and EnVision from the end of this decade will fundamentally improve our understanding of the planet’s long term history, current activity and evolutionary path. We further describe future mission concepts and measurements beyond the current framework of selected missions, as well as the synergies between these mission concepts, ground-based and space-based observatories and facilities, laboratory measurements, and future algorithmic or modeling activities that pave the way for the development of a Venus program that extends into the 2040s (Wilson et al. 2022).

Original language	English (US)
Article number	56
Journal	Space Science Reviews
Volume	219
Issue number	7
DOIs	https://doi.org/10.1007/s11214-023-00992-w
State	Published - Oct 2023
Externally published	Yes

Keywords

Atmospheric chemistry
Atmospheric dynamics
Geological processes
Ground and space-based observatories
Interior structure
Multispectral imager
Planetary system formation
Radio-science
Space instrumentation
Subsurface sounder
Surface processes
Synthetic aperture radar
Thermal state
Venus

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.1007/s11214-023-00992-w

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Widemann, T., Smrekar, S. E., Garvin, J. B., Straume-Lindner, A. G., Ocampo, A. C., Schulte, M. D., Voirin, T., Hensley, S., Dyar, M. D., Whitten, J. L., Nunes, D. C., Getty, S. A., Arney, G. N., Johnson, N. M., Kohler, E., Spohn, T., O’Rourke, J. G., Wilson, C. F., Way, M. J., ... Desai, N. (2023). Venus Evolution Through Time: Key Science Questions, Selected Mission Concepts and Future Investigations. Space Science Reviews, 219(7), Article 56. https://doi.org/10.1007/s11214-023-00992-w

Widemann, T, Smrekar, SE, Garvin, JB, Straume-Lindner, AG, Ocampo, AC, Schulte, MD, Voirin, T, Hensley, S, Dyar, MD, Whitten, JL, Nunes, DC, Getty, SA, Arney, GN, Johnson, NM, Kohler, E, Spohn, T, O’Rourke, JG, Wilson, CF, Way, MJ, Ostberg, C, Westall, F, Höning, D, Jacobson, S, Salvador, A, Avice, G, Breuer, D, Carter, L, Gilmore, MS, Ghail, R, Helbert, J, Byrne, P, Santos, AR, Herrick, RR, Izenberg, N, Marcq, E, Rolf, T, Weller, M, Gillmann, C, Korablev, O, Zelenyi, L, Zasova, L, Gorinov, D, Seth, G, Rao, CVN & Desai, N 2023, 'Venus Evolution Through Time: Key Science Questions, Selected Mission Concepts and Future Investigations', Space Science Reviews, vol. 219, no. 7, 56. https://doi.org/10.1007/s11214-023-00992-w

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title = "Venus Evolution Through Time: Key Science Questions, Selected Mission Concepts and Future Investigations",

abstract = "In this work we discuss various selected mission concepts addressing Venus evolution through time. More specifically, we address investigations and payload instrument concepts supporting scientific goals and open questions presented in the companion articles of this volume. Also included are their related investigations (observations & modeling) and discussion of which measurements and future data products are needed to better constrain Venus{\textquoteright} atmosphere, climate, surface, interior and habitability evolution through time. A new fleet of Venus missions has been selected, and new mission concepts will continue to be considered for future selections. Missions under development include radar-equipped ESA-led EnVision M5 orbiter mission (European Space Agency 2021), NASA-JPL{\textquoteright}s VERITAS orbiter mission (Smrekar et al. 2022a), NASA-GSFC{\textquoteright}s DAVINCI entry probe/flyby mission (Garvin et al. 2022a). The data acquired with the VERITAS, DAVINCI, and EnVision from the end of this decade will fundamentally improve our understanding of the planet{\textquoteright}s long term history, current activity and evolutionary path. We further describe future mission concepts and measurements beyond the current framework of selected missions, as well as the synergies between these mission concepts, ground-based and space-based observatories and facilities, laboratory measurements, and future algorithmic or modeling activities that pave the way for the development of a Venus program that extends into the 2040s (Wilson et al. 2022).",

keywords = "Atmospheric chemistry, Atmospheric dynamics, Geological processes, Ground and space-based observatories, Interior structure, Multispectral imager, Planetary system formation, Radio-science, Space instrumentation, Subsurface sounder, Surface processes, Synthetic aperture radar, Thermal state, Venus",

author = "Thomas Widemann and Smrekar, {Suzanne E.} and Garvin, {James B.} and Straume-Lindner, {Anne Grete} and Ocampo, {Adriana C.} and Schulte, {Mitchell D.} and Thomas Voirin and Scott Hensley and Dyar, {M. Darby} and Whitten, {Jennifer L.} and Nunes, {Daniel C.} and Getty, {Stephanie A.} and Arney, {Giada N.} and Johnson, {Natasha M.} and Erika Kohler and Tilman Spohn and O{\textquoteright}Rourke, {Joseph G.} and Wilson, {Colin F.} and Way, {Michael J.} and Colby Ostberg and Frances Westall and Dennis H{\"o}ning and Seth Jacobson and Arnaud Salvador and Guillaume Avice and Doris Breuer and Lynn Carter and Gilmore, {Martha S.} and Richard Ghail and J{\"o}rn Helbert and Paul Byrne and Santos, {Alison R.} and Herrick, {Robert R.} and Noam Izenberg and Emmanuel Marcq and Tobias Rolf and Matt Weller and Cedric Gillmann and Oleg Korablev and Lev Zelenyi and Ludmila Zasova and Dmitry Gorinov and Gaurav Seth and Rao, {C. V.Narasimha} and Nilesh Desai",

note = "Publisher Copyright: {\textcopyright} 2023, The Author(s).",

year = "2023",

month = oct,

doi = "10.1007/s11214-023-00992-w",

language = "English (US)",

volume = "219",

journal = "Space Science Reviews",

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T2 - Key Science Questions, Selected Mission Concepts and Future Investigations

AU - Widemann, Thomas

AU - Smrekar, Suzanne E.

AU - Garvin, James B.

AU - Straume-Lindner, Anne Grete

AU - Ocampo, Adriana C.

AU - Schulte, Mitchell D.

AU - Voirin, Thomas

AU - Hensley, Scott

AU - Dyar, M. Darby

AU - Whitten, Jennifer L.

AU - Nunes, Daniel C.

AU - Getty, Stephanie A.

AU - Arney, Giada N.

AU - Johnson, Natasha M.

AU - Kohler, Erika

AU - Spohn, Tilman

AU - O’Rourke, Joseph G.

AU - Wilson, Colin F.

AU - Way, Michael J.

AU - Ostberg, Colby

AU - Westall, Frances

AU - Höning, Dennis

AU - Jacobson, Seth

AU - Salvador, Arnaud

AU - Avice, Guillaume

AU - Breuer, Doris

AU - Carter, Lynn

AU - Gilmore, Martha S.

AU - Ghail, Richard

AU - Helbert, Jörn

AU - Byrne, Paul

AU - Santos, Alison R.

AU - Herrick, Robert R.

AU - Izenberg, Noam

AU - Marcq, Emmanuel

AU - Rolf, Tobias

AU - Weller, Matt

AU - Gillmann, Cedric

AU - Korablev, Oleg

AU - Zelenyi, Lev

AU - Zasova, Ludmila

AU - Gorinov, Dmitry

AU - Seth, Gaurav

AU - Rao, C. V.Narasimha

AU - Desai, Nilesh

PY - 2023/10

Y1 - 2023/10

N2 - In this work we discuss various selected mission concepts addressing Venus evolution through time. More specifically, we address investigations and payload instrument concepts supporting scientific goals and open questions presented in the companion articles of this volume. Also included are their related investigations (observations & modeling) and discussion of which measurements and future data products are needed to better constrain Venus’ atmosphere, climate, surface, interior and habitability evolution through time. A new fleet of Venus missions has been selected, and new mission concepts will continue to be considered for future selections. Missions under development include radar-equipped ESA-led EnVision M5 orbiter mission (European Space Agency 2021), NASA-JPL’s VERITAS orbiter mission (Smrekar et al. 2022a), NASA-GSFC’s DAVINCI entry probe/flyby mission (Garvin et al. 2022a). The data acquired with the VERITAS, DAVINCI, and EnVision from the end of this decade will fundamentally improve our understanding of the planet’s long term history, current activity and evolutionary path. We further describe future mission concepts and measurements beyond the current framework of selected missions, as well as the synergies between these mission concepts, ground-based and space-based observatories and facilities, laboratory measurements, and future algorithmic or modeling activities that pave the way for the development of a Venus program that extends into the 2040s (Wilson et al. 2022).

AB - In this work we discuss various selected mission concepts addressing Venus evolution through time. More specifically, we address investigations and payload instrument concepts supporting scientific goals and open questions presented in the companion articles of this volume. Also included are their related investigations (observations & modeling) and discussion of which measurements and future data products are needed to better constrain Venus’ atmosphere, climate, surface, interior and habitability evolution through time. A new fleet of Venus missions has been selected, and new mission concepts will continue to be considered for future selections. Missions under development include radar-equipped ESA-led EnVision M5 orbiter mission (European Space Agency 2021), NASA-JPL’s VERITAS orbiter mission (Smrekar et al. 2022a), NASA-GSFC’s DAVINCI entry probe/flyby mission (Garvin et al. 2022a). The data acquired with the VERITAS, DAVINCI, and EnVision from the end of this decade will fundamentally improve our understanding of the planet’s long term history, current activity and evolutionary path. We further describe future mission concepts and measurements beyond the current framework of selected missions, as well as the synergies between these mission concepts, ground-based and space-based observatories and facilities, laboratory measurements, and future algorithmic or modeling activities that pave the way for the development of a Venus program that extends into the 2040s (Wilson et al. 2022).

KW - Atmospheric chemistry

KW - Atmospheric dynamics

KW - Geological processes

KW - Ground and space-based observatories

KW - Interior structure

KW - Multispectral imager

KW - Planetary system formation

KW - Radio-science

KW - Space instrumentation

KW - Subsurface sounder

KW - Surface processes

KW - Synthetic aperture radar

KW - Thermal state

KW - Venus

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U2 - 10.1007/s11214-023-00992-w

DO - 10.1007/s11214-023-00992-w

M3 - Review article

AN - SCOPUS:85173608419

SN - 0038-6308

VL - 219

JO - Space Science Reviews

JF - Space Science Reviews

IS - 7

M1 - 56

ER -

Venus Evolution Through Time: Key Science Questions, Selected Mission Concepts and Future Investigations

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Keywords

ASJC Scopus subject areas

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