Liwei D. Zhang scite author profile

Liwei D. Zhang

4Publications

55Citation Statements Received

132Citation Statements Given

How they've been cited

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121

Affiliations

Geospace Research (United States), Jet Propulsion Laboratory, Columbus Technologies and Services (United States)

Publications

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Incoherent Scatter Radar Studies of Daytime Plasma Lines

2018

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First results from wideband (electron phase energies of 5-51 eV), high-resolution (0.1 eV) spectral measurements of photoelectron-enhanced plasma lines made with the 430 MHz radar at Arecibo Observatory are presented. In the F region, photoelectrons produced by solar EUV line emissions (He II and Mg IX) give rise to plasma line spectral peaks/valleys. These and other structures occur within an enhancement zone extending from electron phase energies of 14-27 eV in both the bottomside and topside ionosphere. However, photoelectron-thermal electron Coulomb energy losses can lead to a broadened spectral structure with no resolved peaks in the topside ionosphere. The plasma line energy spectra obtained in the enhancement zone exhibit a unique relation in that phase energy is dependent on pitch angle; this relation does not exist in any other part of the energy spectrum. Moreover, large fluctuations in the difference frequency between the upshifted and downshifted plasma lines are evident in the 14-27 eV energy interval. At high phase energies near 51 eV the absolute intensities of photoelectron-excited Langmuir waves are much larger than those predicted by existing theory. The new measurements call for a revision/ improvement of plasma line theory in several key areas.

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Plasma clouds associated with Comet P/Borrelly dust impacts

Tsurutani

Clay

Zhang

et al. 2004

Icarus

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GPS-based remote sensing of the geospace environment: horizontal and vertical structure of the ionosphere and plasmasphere

Mannucci

Hajj

Iijima

et al. 2004

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Error modeling of multibaseline optical truss: part I. Modeling of system-level performance

Milman

Korechoff

Zhang

2004

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Global astrometry is the measurement of stellar positions and motions. These are typically characterized by five parameters, including two position parameters, two proper motion parameters, and parallax. The Space Interferometry Mission (SIM) will derive these parameters for a grid of approximately 1300 stars covering the celestial sphere to an accuracy of approximately 4uas, representing a two orders of magnitude improvement over the most precise current star catalogues. Narrow angle astrometry will be performed to a luas accuracy. A wealth of scientific information will be obtained from these accurate measurements encompassing many aspects of both galactic and extragalactic science. SIM will be subject to a number of instrument errors that can potentially degrade performance. Many of these errors are systematic in that they are relatively static and repeatable with respect to the time frame and direction of the observation. This paper and its companion define the modeling of the contributing factors to these errors and the analysis of how they impact SIM's ability to perform astrometric science.

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Liwei D. Zhang

Incoherent Scatter Radar Studies of Daytime Plasma Lines

Plasma clouds associated with Comet P/Borrelly dust impacts

GPS-based remote sensing of the geospace environment: horizontal and vertical structure of the ionosphere and plasmasphere

Error modeling of multibaseline optical truss: part I. Modeling of system-level performance

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