about
Data acquisition in a high-speed rotating frame for New Mexico Institute of Mining and Technology liquid sodium αω dynamo experiment.High magnetic shear gain in a liquid sodium stable Couette flow experiment: a prelude to an α-Ω dynamo.Why does Steady-State Magnetic Reconnection have a Maximum Local Rate of Order 0.1?Formation of hard power laws in the energetic particle spectra resulting from relativistic magnetic reconnection.The growth of the stellar seeds of supermassive black holesIdentifying Anticyclonic Vortex Features Produced by the Rossby Wave Instability in Protoplanetary DisksLarge-scale Compression Acceleration during Magnetic Reconnection in a Low-β PlasmaRadiation Hydrodynamical Simulations of the First QuasarsReverse Current Model for Coronal Mass Ejection Cavity FormationNew Constraints on Turbulence and Embedded Planet Mass in the HD 163296 Disk from Planet–Disk Hydrodynamic SimulationsThe Roles of Fluid Compression and Shear in Electron Energization during Magnetic ReconnectionInvestigating the Early Evolution of Planetary Systems with ALMA and the Next Generation Very Large ArrayParametric Decay Instability and Dissipation of Low-frequency Alfvén Waves in Low-beta Turbulent PlasmasApex Dips of Experimental Flux Ropes: Helix or Cusp?Astrophysics/Cosmology Status ReportStrategic Directions for FY18-20: Astrophysics and CosmologyMagnetized Reverse Shock: Density-fluctuation-induced Field Distortion, Polarization Degree Reduction, and Application to GRBsDense Plasma Focus ModelingParticle Acceleration during Magnetic Reconnection in a Low-beta PlasmaThe Parametric Decay Instability of Alfvén Waves in Turbulent Plasmas and the Applications in the Solar WindThree-dimensional Magnetohydrodynamical Simulations of the Morphology of Head–Tail Radio Galaxies Based on the Magnetic Tower Jet ModelLong-lived Dust Asymmetries at Dead Zone Edges in Protoplanetary DisksPolarization Signatures of Kink Instabilities in the Blazar Emission Region from Relativistic Magnetohydrodynamic SimulationsDissipation and particle energization in moderate to low beta turbulent plasma via PIC simulationsMultiple Disk Gaps and Rings Generated by a Single Super-EarthThe Acceleration of High-energy Protons at Coronal Shocks: The Effect of Large-scale Streamer-like Magnetic Field StructuresEfficient production of high-energy nonthermal particles during magnetic reconnection in a magnetically dominated ion-electron plasmaFirst-order particle acceleration in magnetically-driven flowsModeling dust emission of HL Tau disk based on planet-disk interactionsPolarization signatures of relativistic magnetohydrodynamic shocks in the blazar emission region. I. Force-free helical magnetic fieldsParticle acceleration during magnetic reconnection in a low-beta pair plasmaSpheromaks and how plasmas may explain the ultra high energy cosmic ray mysteryThe role of disk self-gravity on gap formation of the HL Tau proto-planetary diskQuasi-static model of magnetically collimated jets and radio lobes. II. Jet structure and stabilityNonthermally dominated electron acceleration during magnetic reconnection in a low-{beta} plasmaParticle acceleration and plasma dynamics during magnetic reconnection in the magnetically dominated regimeEnergy dynamics and current sheet structure in fluid and kinetic simulations of decaying magnetohydrodynamic turbulenceModified FARGO algorithm and its combination with adaptive mesh refinementPolarization swings reveal magnetic energy dissipation in blazarsScaling of Magnetic Reconnection in Relativistic Collisionless Pair Plasmas
P50
Q30687707-DB36B80F-3C17-4FAB-AF38-3740D85537D3Q51029659-83E12F7F-EE70-4E67-82DE-279EACF12C16Q53445845-E0C14394-582F-474F-A668-0DC9E060176BQ54599252-75CF2837-DA9F-43CA-AE20-90CC39BEF45EQ58213203-6B6840A1-CD9E-417F-B0D9-F891D6522888Q59713228-1B6797A8-B3C2-4864-B0C4-A6D4C0C8D532Q59713229-8C9DD60E-0899-4FAE-A10E-A253F576EA7DQ59713230-C0CDE489-3387-4E23-A95C-D6CDC82E8F07Q59713231-442B4F1B-27D1-44E9-B56F-A459175B3B2FQ59713232-603D2976-F456-4E7D-BDC7-E5B2A6007F6AQ59713233-AB9DE931-9D3A-430F-98E4-6F4DD809608DQ59713234-D34BAA41-896A-442D-BA9F-72C323963C67Q59713235-ACECC928-BFD5-48A5-B643-DCBC1BE0869AQ59713238-614FD714-4523-4C34-B6B8-D74F2DC13462Q59713240-DE8E89A0-915E-4C01-8AAB-1F7714CAADAAQ59713243-65B7C757-8791-467B-AD14-950C3A3FCA8AQ59713246-BDCA46D8-5A22-42C5-8A81-74C163CCB1FDQ59713249-9F4CF83C-8103-436C-81C6-BE9E6A72B142Q59713251-96DDA6E1-B6B3-4151-9AB6-4A6A5C951237Q59713254-33F75355-9966-4369-956E-8FE1C06F0DACQ59713256-111D9D37-DF27-4AAF-BC2D-A241F700D06FQ59713259-6B5897D0-1B71-4C4D-8E59-8AEDFB7E2096Q59713262-869FF3F8-362B-41A4-BABF-2BEA7B6400F7Q59713265-3B1A0C2F-A943-44F2-8F01-A043ACA3A773Q59713267-ED44CC73-4C1D-4F68-864D-75FD0B061913Q59713269-8CAF9DA1-8896-4D6E-B546-4AD638238E54Q59713275-E0DB4931-BC0A-4955-B87E-858F531D3054Q59713277-44CCA11C-9377-4889-BBC2-DED2EA2FF887Q59713280-964DC812-66C6-4698-B91A-284660F19F4AQ59713282-AD877E16-0B58-4D41-928A-ED9ABE2F85D2Q59713285-D70099BB-3836-4955-8B0A-64B7CB0E4345Q59713290-22CB69C4-A1C7-47D6-A794-5E37791F83E6Q59713294-0192D9F0-ED4B-4056-982D-C7C313A407FEQ59713297-59877175-1B9A-467B-ACC2-FF21AD226C15Q59713299-0333F25E-08D4-4BF8-A6E6-30ECF4D42DD0Q59713301-71C8A199-BCE4-4590-A06D-A522C86D6DF3Q59713306-0C283D80-4CA0-4804-95C2-9AA9981FCD38Q59713309-19C45D57-4320-4043-BF31-E49AA42060EFQ59713314-14E3FF67-C651-452D-9433-354EE77C9C06Q59713317-B3477D1E-0E42-47F1-8BA2-E60DE3FB89C0
P50
description
researcher ORCID: 0000-0003-3556-6568
@en
name
Hui Li
@ast
Hui Li
@en
Hui Li
@es
Hui Li
@nl
Hui Li
@sl
type
label
Hui Li
@ast
Hui Li
@en
Hui Li
@es
Hui Li
@nl
Hui Li
@sl
prefLabel
Hui Li
@ast
Hui Li
@en
Hui Li
@es
Hui Li
@nl
Hui Li
@sl
P214
P106
P1153
43361425900
P214
P2456
66/3387-28
P31
P496
0000-0003-3556-6568
P734
P735
P7859
viaf-311367839