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Instrument Technology for Magnetosphere Plasma Imaging from High Earth Orbit.Design of a Radio Plasma Sounder

机译：高地球轨道磁层等离子体成像仪器技术。无线电等离子体探测仪的设计

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The use of radio sounding techniques for the study of the ionospheric plasmadates back to G. Briet and M. A. Tuve in 1926. Ground based swept frequency sounders can monitor the electron number density (N(sub e)) as a function of height (the N(sub e) profile). These early instruments evolved into a global network that produced high-resolution displays of echo time delay vs frequency on 35-mm film. These instruments provided the foundation for the success of the International Geophysical Year (1958). The Alouette and International Satellites for Ionospheric Studies (ISIS) programs pioneered the used of spaceborne, swept frequency sounders to obtain N(sub e) profiles of the topside of the ionosphere, from a position above the electron density maximum. Repeated measurements during the orbit produced an orbital plane contour which routinely provided density measurements to within 10 percent. The Alouette/ISIS experience also showed that even with a high powered transmitter (compared to the low power sounder possible today) a radio sounder can be compatible with other imaging instruments on the same satellite. Digital technology was used on later spacecraft developed by the Japanese (the EXOS C and D) and the Soviets (Intercosmos 19 and Cosmos 1809). However, a full coherent pulse compression and spectral integrating capability, such as exist today for ground-based sounders (Reinisch et al., 1992), has never been put into space. NASA's 1990 Space Physics Strategy Implementation Study 'The NASA Space Physics Program from 1995 to 2010' suggested using radio sounders to study the plasmasphere and the magnetopause and its boundary layers (Green and Fung, 1993). Both the magnetopause and plasmasphere, as well as the cusp and boundary layers, can be observed by a radio sounder in a high-inclination polar orbit with an apogee greater than 6 R(sub e) (Reiff et al., 1994; Calvert et al., 1995). Magnetospheric radio sounding from space will provide remote density measurements of unprecedented precision and coverage in the plasmasphere, inner magnetosphere and magnetopause, from which the structure, inter-relationship, and variations of different plasma regions can be determined (Armstrong Johnson, 1995). A space-borne Radio Plasma Imager (RPI) could provide a unique global view of the magnetosphere revealing the underlying structure of remote plasma regions, thereby providing a framework for the interpretation of images obtained by other techniques as identified in the technical areas TA1 to TA4 in the MSFC NRA8-8.

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Haines, D. M.; Reinisch, B. W.;
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年度 1995
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总页数 29
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Atmospheric density; Atmospheric sounding; Boundary layer plasmas; Densitymeasurement; Imaging techniques; Magnetopause; Plasmasphere; Radio frequencies; Remote sensing; Satellite imagery; Earth ionosphere; Technology assessment; Atmospheric models; Elect;

机译：大气密度;大气探测;边界层等离子体;密度测量;成像技术;磁层;等离子体;射频;遥感;卫星图像;地球电离层;技术评估;大气模型;当选;

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1. Investigations of irregularities in remote plasma regions by radio sounding: applications of the radio plasma imager on image [Review] [J] . Fung SF., Carpenter DL., Reinisch BW., Space Science Reviews . 2000,第1a2期

机译：通过无线电探测调查远程等离子体区域中的不规则性：无线电等离子体成像仪在图像上的应用[评论]
2. Guided echoes in the magnetosphere: Observations by Radio Plasma Imager on IMAGE - art. no. 1589 [J] . Fung SF., Benson RF., Carpenter DL., Geophysical Research Letters . 2003,第11期

机译：磁层中的引导回波：无线电等离子体成像仪对IMAGE的观察-艺术。没有。 1589
3. Proton cyclotron echoes and a new resonance observed by the Radio Plasma Imager instrument on the IMAGE satellite [J] . D. L. Carpenter, T. F. Bell, D. Chen, Journal of Geophysical Research, A. Space Physics: JGR . 2007,第a8期

机译：质子回旋加速器回波和IMAGE卫星上的放射性等离子体成像仪观测到的新共振
4. Whistler mode radio sounding from IMAGE of field aligned electron and ion densities in the plasmasphere below 4000 km [C] . Sonwalkar, Vikas, Reddy, Amani, Hazra, Susmita URSI General Assembly and Scientific Symposium . 2014

机译：低于4000 km的等离子层中场对准的电子和离子密度的IMAGE图像吹响的惠斯勒模式无线电
5. Collisionless Plasma Turbulence: Insights from Magnetohydrodynamic and Hall Magnetohydrodynamic Simulations and Observations of the Earth's Magnetosphere. [D] . Stawarz, Julia E. 2016

机译：无碰撞等离子体湍流：磁流体动力学和霍尔磁流体动力学模拟和地球磁层观测的见解。
6. A novel fractional micro-plasma radio-frequency technology for the treatment of facial scars and rhytids: A pilot study [O] . Shlomit Halachmi, Arie Orenstein, Tania Meneghel, -1

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7. The nightside-to-dayside evolution of the inner magnetosphere: Imager for Magnetopause-to-Aurora Global Exploration Radio Plasma Imager observations [O] . H. S. Fu, J. Tu, P. Song, 2010

机译：内磁层的夜间到斯蒂德演变：磁偶像 - 达极罗拉全球勘探无线电等离子体观测的成像仪

Instrument Technology for Magnetosphere Plasma Imaging from High Earth Orbit.Design of a Radio Plasma Sounder

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