日本地球惑星科学連合2023年大会

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セッション記号 P (宇宙惑星科学) » P-PS 惑星科学

[P-PS01] Outer Solar System Exploration Today, and Tomorrow

2023年5月25日(木) 13:45 〜 15:00 106 (幕張メッセ国際会議場)

コンビーナ:木村 淳(大阪大学)、佐柳 邦男 M(NASA Langley Research Center)、土屋 史紀(東北大学大学院理学研究科惑星プラズマ・大気研究センター)、座長:佐柳 邦男(NASA Langley Research Center)、木村 淳(大阪大学)

14:45 〜 15:00

[PPS01-15] Shadow Chaser: a SmallSat for stellar-occultation measurements of Uranus and Neptune’s thermospheres from Earth orbit

*佐柳 邦男1、Young Cindy1、Saunders William2、Carden Joshua1、McBrayer Katherine1、Ricano Cadenas Vianni1、Hanrahan Madison3、Chrone Jonathan1、Bell Jared4、Person Michael5、Withers Paul2、Gasbarre Joseph1、Klovstad Jordan1 (1.NASA Langley Research Center 、2.Boston University、3.Deep Creek High School、4.NASA Goddard Space Flight Center、5.Massachusetts Institute of Technology)

キーワード:Uranus、Neptune、SmallSats、Ice Giants、International Cooperation

We present the Shadow Chaser mission concept to perform stellar occultation (SO) measurements of Uranus and Neptune (U&N) from Earth orbit to transform our understanding of the middle and upper atmospheres of these Ice Giants, the last class of planets yet to be explored by an orbiter. The latest Planetary Science and Astrobiology Decadal Survey recommended a Flagship orbiter mission to Uranus to be launched in the early 2030s and a subsequent New Frontiers mission to the Neptune system; the Shadow Chaser concept aims to characterize the middle and upper atmospheres of U&N to guide the design and operations of future missions to U&N.

The key progress to be enabled by Shadow Chaser over Voyager 2 (V2) and ground-based SO measurements is the vastly improved data quality to be returned by our mission concept. The mission’s main scientific objectives includes investigating the surprisingly hot thermospheres of U&N found by Voyager 2. The highly uncertain V2 results remain controversial because they could be explained only by invoking an unknown heat source. Earth-based stellar occultation measurements sense altitudes between the upper stratosphere and lower thermosphere (approximately between 0.1 and 100 microbar levels). Our effort so far has determined the performance requirements for the Shadow Chaser concept, and shown that a >20-cm telescope aperture in Earth orbit can measure SOs with less uncertainty than V2. We present potential design options that meet the performance requirements.

The Shadow Chaser concept also offers significant potential for international cooperation by observing the SO events using multiple SmallSats. Because each SmallSat measures two latitudes where the occulted star goes behind the planet (i.e. ingress) and then re-emerges (egress), multiple SmallSats placed to measure different latitudes would enable analysis of meridional structures of the middle and upper atmospheres. Characterizing the meridional structure is critical to understanding the effects of seasonal forcing; thus, measurements from an international constellation of SmallSats could transform our understanding of the middle and upper atmospheric dynamics of U&N.

Shadow Chaser will advance science, and also improve designs of future missions to U&N. In particular, measurements by Shadow Chaser will reduce the risk in an aerocapture orbit insertion maneuver, which is a technology that may enable new interplanetary trajectories, lower cost, and enhance future missions to U&N.