Articoli con mandati relativi all'accesso pubblico - Hong X. TangUlteriori informazioni
Non disponibili pubblicamente: 8
Toward quantitative electrochemical nanomachining of III-nitrides
C Zhang, G Yuan, A Bruch, K Xiong, HX Tang, J Han
Journal of The Electrochemical Society 165 (10), E513, 2018
Mandati: US Department of Defense
Sub-terahertz electromechanics
J Xie, M Shen, Y Xu, W Fu, L Yang, HX Tang
Nature Electronics 6 (4), 301-306, 2023
Mandati: US National Science Foundation, US Department of Energy, US Department of …
High-cooperativity coupling of rare-earth spins to a planar superconducting resonator
S Wang, L Yang, RL Cone, CW Thiel, HX Tang
Physical Review Applied 18 (1), 014071, 2022
Mandati: US Department of Energy
Organic ferrimagnetic material vanadium tetracyanoethylene for non-reciprocal microwave applications
N Zhu, A Franson, S Kurfman, M Chilcote, DR Candido, KE Nygren, ...
2020 IEEE/MTT-S International Microwave Symposium (IMS), 528-531, 2020
Mandati: US National Science Foundation
Cavity electro-optic circuit for microwave-to-optical frequency conversion
L Fan, C Zou, R Cheng, X Guo, X Han, Z Gong, S Wang, H Tang
Nonlinear Optics, NF2A. 2, 2019
Mandati: US Department of Defense
Narrow-linewidth GaN lasers based on an AlN photonic integrated circuit
JA Holguín-Lerma, Y Wang, Y Guo, M Vezzoli, HX Tang
Frontiers in Optics, FM1E. 2, 2022
Mandati: US Department of Defense
Piezoelectric loss of superconducting microwave resonators integrated with thin-film lithium niobate
L Yang, Y Xu, C Li, J Xie, M Shen, HX Tang
Physical Review Applied 20 (5), 054026, 2023
Mandati: US Department of Energy, US Department of Defense
On-chip waveguides for self-referencing low-power and high-repetition-rate laser frequency combs
DD Hickstein, DR Carlson, H Jung, A Lind, D Westly, K Srinivasan, ...
Nonlinear Optics, NM2A. 6, 2017
Mandati: US National Science Foundation, US Department of Defense, US National …
Disponibili pubblicamente: 113
High-speed and high-efficiency travelling wave single-photon detectors embedded in nanophotonic circuits
WHP Pernice, C Schuck, O Minaeva, M Li, GN Goltsman, AV Sergienko, ...
Nature communications 3 (1), 1325, 2012
Mandati: German Research Foundation
Magnon dark modes and gradient memory
X Zhang, CL Zou, N Zhu, F Marquardt, L Jiang, HX Tang
Nature communications 6 (1), 8914, 2015
Mandati: National Natural Science Foundation of China
Periodically poled thin-film lithium niobate microring resonators with a second-harmonic generation efficiency of 250,000%/W
J Lu, JB Surya, X Liu, AW Bruch, Z Gong, Y Xu, HX Tang
Optica 6 (12), 1455-1460, 2019
Mandati: US National Science Foundation, US Department of Energy, US Department of …
2022 Roadmap on integrated quantum photonics
G Moody, VJ Sorger, DJ Blumenthal, PW Juodawlkis, W Loh, ...
Journal of Physics: Photonics 4 (1), 012501, 2022
Mandati: US National Science Foundation, European Commission
Low-loss, silicon integrated, aluminum nitride photonic circuits and their use for electro-optic signal processing
C Xiong, WHP Pernice, HX Tang
Nano letters 12 (7), 3562-3568, 2012
Mandati: German Research Foundation
Parametric down-conversion photon-pair source on a nanophotonic chip
X Guo, C Zou, C Schuck, H Jung, R Cheng, HX Tang
Light: Science & Applications 6 (5), e16249-e16249, 2017
Mandati: German Research Foundation
Aluminum nitride as a new material for chip-scale optomechanics and nonlinear optics
C Xiong, WHP Pernice, X Sun, C Schuck, KY Fong, HX Tang
New Journal of Physics 14 (9), 095014, 2012
Mandati: German Research Foundation
Cavity magnonics
BZ Rameshti, SV Kusminskiy, JA Haigh, K Usami, D Lachance-Quirion, ...
Physics Reports 979, 1-61, 2022
Mandati: US National Science Foundation, Natural Sciences and Engineering Research …
Superconducting cavity electro-optics: a platform for coherent photon conversion between superconducting and photonic circuits
L Fan, CL Zou, R Cheng, X Guo, X Han, Z Gong, S Wang, HX Tang
Science advances 4 (8), eaar4994, 2018
Mandati: US National Science Foundation, US Department of Defense
Photonic cavity synchronization of nanomechanical oscillators
M Bagheri, M Poot, L Fan, F Marquardt, HX Tang
Physical review letters 111 (21), 213902, 2013
Mandati: German Research Foundation
Nanoelectromechanical resonator arrays for ultrafast, gas-phase chromatographic chemical analysis
M Li, EB Myers, HX Tang, SJ Aldridge, HC McCaig, JJ Whiting, ...
Nano letters 10 (10), 3899-3903, 2010
Mandati: US National Institutes of Health
Toward 1% single-photon anharmonicity with periodically poled lithium niobate microring resonators
J Lu, M Li, CL Zou, A Al Sayem, HX Tang
Optica 7 (12), 1654-1659, 2020
Mandati: US National Science Foundation, US Department of Energy
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