L
Lou-Chuang Lee
Researcher at Academia Sinica
Publications - 315
Citations - 12361
Lou-Chuang Lee is an academic researcher from Academia Sinica. The author has contributed to research in topics: Magnetopause & Magnetic reconnection. The author has an hindex of 58, co-authored 309 publications receiving 11552 citations. Previous affiliations of Lou-Chuang Lee include United States Naval Research Laboratory & University of Maryland, College Park.
Papers
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Energy of Alfvén waves generated during magnetic reconnection
TL;DR: In this paper, a new method for the determination of the Alfven wave energy generated during magnetic reconnection is introduced and used to analyze the results from two-dimensional MHD simulations.
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Structure of intermediate shocks and slow shocks in a magnetized plasma with heat conduction
TL;DR: In this article, Tsai et al. simulated the structure of slow shocks and intermediate shocks in the presence of a heat conduction parallel to the local magnetic field, where the tangential magnetic fields on the two side of initial current sheet are exactly antiparallel (By=0).
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Generation of Pc 1 waves by the ion temperature anisotropy associated with fast shocks caused by sudden impulses
M. E. Mandt,Lou-Chuang Lee +1 more
TL;DR: In this article, a mechanism is proposed which leads to the generation of Pc 1 waves by the interaction of a dynamic pressure pulse with the earth's bow shock leading to the formation of a weak fast-mode shock propagating into the magnetoshealth.
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Structure of field‐aligned plasma jets associated with magnetic reconnection
Lou-Chuang Lee,M. Yan +1 more
TL;DR: In this article, the structure of field-aligned plasma jets associated with magnetic reconnection is examined and it is found that the plasma jets are located slightly downstream of the magnetic separatrices and each plasma jet consists of two parts: a slow mode shock and a fast mode compressional structure.
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The 762 nm emissions of sprites
Cheng Ling Kuo,Shu Chun Chang,L. J. Lee,Tai Yin Huang,Tai Yin Huang,A. Chen,Han Tzong Su,Rue-Ron Hsu,D. D. Sentman,Harald U. Frey,Stephen B. Mende,Yukihiro Takahashi,Lou-Chuang Lee +12 more
TL;DR: In this article, a zero-dimensional plasma chemistry model is used to estimate the expected relative intensities of the N2 first positive (1PN2) bands, (2, 0) and (3, 1), and the O2 atmospheric (atm) band (0, 0), while the hydroxyl emissions can be neglected.