科技报告详细信息
Using the Hottest Particles in the Universe to Probe Icy Solar System Worlds
Miller, T ; Kleinfelder, S ; Barwick, S ; Besson, D ; Chechin, Valery ; Connolly, A ; Gusev, German ; Jaeger, T ; Patterson, G W ; Rodgers, D(Johns Hopkins Univ, Laurel, MD, United States)
关键词: ICY SATELLITES;    ENCELADUS;    GANYMEDE;    EUROPA;    CALLISTO;    RADIO FREQUENCIES;    HIGH ENERGY INTERACTIONS;    LOW COST;    NEUTRINOS;    EXTRATERRESTRIAL LIFE;    SOLAR SYSTEM;   
RP-ID  :  HQ-E-DAA-TN62822
学科分类:航空航天科学
美国|英语
来源: NASA Technical Reports Server
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【 摘 要 】

We present results of our Phase 1 NIAC Study to determine the feasibility of developing a competitive, low cost, low power, low mass passive instrument to measure ice depth on outer planet ice moons, such as Europa, Ganymede, Callisto, and Enceladus. Indirect measurements indicate that liquid water oceans are likely present beneath the icy shells of such moons (see e.g.,the JPL press release "The Solar System and Beyond is Awash in Water"), which has important astrobiological implications. Determining the thickness of these ice shells is challenging given spacecraft SWaP (Size, Weight and Power) resources. The current approach uses a suite of instruments, including a high power, massive ice penetrating radar. The instrument under study, called PRIDE (Passive Radio Ice Depth Experiment) exploits a remarkable confluence between methods from the high energy particle physics and the search for extraterrestrial life within the solar system. PRIDE is a passive receiver of a naturally occurring radio frequency (RF) signal generated by interactions of deep penetrating Extremely High Energy (> 10^18 eV) cosmic ray neutrinos. It could measure ice thickness directly, and at a significant savings to spacecraft resources. At RF frequencies the transparency of modeled Europan ice is up to many km, so an RF sensor in orbit can observe neutrino interactions to great depths, and thereby probe the thickness of the ice layer.

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