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Affiliation of Author(s):材料科学与技术学院

Title of Paper:Transmission properties and physical mechanisms of X-ray communication for blackout mitigation during spacecraft reentry

Journal:PHYSICS OF PLASMAS

Key Words:VEHICLE FLIGHT

Abstract:Recent advances in X-ray science have witnessed the X-ray communication (XCOM), a new revolutionary technology first proposed by NASA since 2007. In combination with the advanced modulated X-ray source, XCOM shows a promising prospect for helping to alleviate the occurrence of inevitable blackout communication by using the regular radio frequency (RF) signal, paving the way towards realizing real-time communication during spacecraft reentry into atmosphere. Here, we acquired the detailed information of electron density distribution of plasma sheath encountered during vehicle reentry through Computational Fluid Dynamics simulation. Based on these derived parameters, Finite-difference Time-domain method was employed to investigate the transmission properties of X-rays through the plasma sheath, and the results indicated that X-ray transmission was not influenced by the reentry plasma sheath at different reentry altitudes and spacecraft surface positions compared with RF signal. In addition, 2D Particle-In-Cell simulation was also adopted to provide deeper insight into the transmission properties and physical mechanisms of X-ray carrier propagating through the plasma sheath, and results showed that the transmission coefficient was over 0.994 and the observation of plasma channel effect was also an important signature, which was of great importance to X-ray propagating through the plasma sheath. Published by AIP Publishing.

ISSN No.:1070-664X

Translation or Not:no

Date of Publication:2017-11-01

Co-author:lihuan,Li, Yanlong,杭爽,Xiaobin Tang

Correspondence Author:Xiaobin Tang,Liu Yunpeng