A Miniaturized 3D Heat Flux Sensor to Characterize Heat Transfer in Regolith of Planets and Small Bodies

Domínguez-Pumar, Manuel; Rodríguez-Manfredi, Jose-Antonio; Jiménez, Vicente G.; Bermejo, Sandra; Pons-Nin, Joan

doi:10.3390/s20154135

Cited by 4 publications

(1 citation statement)

References 45 publications

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“…Additionally, remote characterization is also possible through, for example, the interpretation of thermal inertia data [8]. Recently a 3D heat flux sensor has been proposed for thermal property determinations for regoliths [9]. The sensor is based on the spherical structure of a Mars wind sensor [10,11].…”

Section: Introductionmentioning

confidence: 99%

Spherical probe for the thermophysical characterization of regoliths for planetary exploration using frequency methods

Domínguez-Pumar

Rosero-Pozo²,

Pons-Nin³

et al. 2022

Sensors and Actuators A: Physical

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Section: Introductionmentioning

confidence: 99%

Spherical probe for the thermophysical characterization of regoliths for planetary exploration using frequency methods

Domínguez-Pumar

Rosero-Pozo²,

Pons-Nin³

et al. 2022

Sensors and Actuators A: Physical

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

Widemann,

Smrekar,

Garvin

et al. 2023

Space Sci Rev

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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).

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Linear Temperature Distribution Sensor Using FBG in Liquids—Local Heat Transfer Examination Application

et al. 2021

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A Miniaturized 3D Heat Flux Sensor to Characterize Heat Transfer in Regolith of Planets and Small Bodies

Cited by 4 publications

References 45 publications

Spherical probe for the thermophysical characterization of regoliths for planetary exploration using frequency methods

Spherical probe for the thermophysical characterization of regoliths for planetary exploration using frequency methods

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

Linear Temperature Distribution Sensor Using FBG in Liquids—Local Heat Transfer Examination Application

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