Microwave Loss in the High-Performance Dielectric at 4.2 K L Liu, M Flores, N Newman
Physical Review Letters 109 (25), 257601, 2012
41 2012 The dominance of paramagnetic loss in microwave dielectric ceramics at cryogenic temperatures L Liu, A Matusevich, C Garg, N Newman
Applied Physics Letters 101 (25), 252901, 2012
23 * 2012 Interesting Features of n2 D Rydberg Series Fine-Structure Splittings along the Sodium-Like Isoelectronic Sequence W Xiao-Lu, L Ling-Tao, G Xiang, S Chun, L Jia-Ming
Chinese Physics Letters 25 (12), 4244, 2008
11 2008 Resonator techniques to characterize material and device properties at microwave frequencies in the quantum design PPMS measurement system N Newman, L Liu, R Hanley, C Garg
Application note 40, 1084-750, 2013
10 2013 Growth and characterization of Ba (Cd1/3Ta2/3) O3 thin films LT Liu, C Kopas, RK Singh, RM Hanley, N Newman
Thin Solid Films 520 (19), 6153-6157, 2012
8 2012 Mechanisms of microwave loss tangent in high performance dielectric materials L Liu
Arizona State University, 2013
7 2013 Simulation of Ionic Populations in Hot Dense Plasmas via a New Method beyond the Average Atom Model W Min-Sheng, L Ling-Tao, L Jia-Ming
Chinese Physics Letters 22 (7), 1576, 2005
5 2005 Simulation of hot dense plasma's ionic population: beyond the average atom model W Minsheng, L Lingtao, L Jiaming, H Xiaoying
Acta Physica Sinica 55, 2006
2 2006 Heating of Thermo-Optic Device MN Sakib, S Fathololoumi, H Frish, L Liu, W Qian, et al
US Patent App. 17/358,256, 2021
1 2021 High performance microwave dielectric systems and methods N Newman, L Liu
US Patent App. 15/921,102, 2018
1 2018 Effective heat conduction from hotspot to heat spreader through package substrate C Xu, Z Wan, L Liu, Y Deng, J Zhao, CM Jha, K Lee
US Patent 11,502,017, 2022
2022