| Photonic link from single-flux-quantum circuits to room temperature M Shen, J Xie, Y Xu, S Wang, R Cheng, W Fu, Y Zhou, HX Tang Nature Photonics 18 (4), 371-378, 2024 | 5 | 2024 |
| Parasitic conduction loss of lithium niobate on insulator platform M Shen, L Yang, Y Xu, HX Tang Applied Physics Letters 124 (10), 2024 | | 2024 |
| Light-induced microwave noise in superconducting microwave-optical transducers M Xu, C Li, Y Xu, HX Tang Physical Review Applied 21 (1), 014022, 2024 | 1 | 2024 |
| 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 | | 2023 |
| Sub-terahertz electromechanics J Xie, M Shen, Y Xu, W Fu, L Yang, HX Tang Nature Electronics 6 (4), 301-306, 2023 | 13 | 2023 |
| Light-Induced dynamic frequency shifting of microwave photons in a superconducting electro-optic converter Y Xu, W Fu, Y Zhou, M Xu, M Shen, AA Sayem, HX Tang Physical Review Applied 18 (6), 064045, 2022 | 4 | 2022 |
| Superconducting cavity electromechanics: the realization of an acoustic frequency comb at microwave frequencies X Han, CL Zou, W Fu, M Xu, Y Xu, HX Tang Physical Review Letters 129 (10), 107701, 2022 | 11 | 2022 |
| with High Optical Coherence Enabling Optical Thickness Control S Wang, L Yang, M Shen, W Fu, Y Xu, RL Cone, CW Thiel, HX Tang Physical Review Applied 18 (1), 014069, 2022 | 16 | 2022 |
| Microwave to optical quantum conversion W Fu, M Xu, Y Xu, A Al Sayem, X Han, L Fan, H Tang Quantum Computing, Communication, and Simulation II 12015, 30-37, 2022 | | 2022 |
| Bidirectional interconversion of microwave and light with thin-film lithium niobate Y Xu, A Sayem, L Fan, CL Zou, S Wang, R Cheng, W Fu, L Yang, M Xu, ... Nature Communications 12 (1), 4453, 2021 | 91* | 2021 |
| Photonic integration of Er3+:Y2SiO5 with thin-film lithium niobate by flip chip bonding L Yang, S Wang, M Shen, Y Xu, J Xie, HX Tang Optics Express 29 (10), 15497-15504, 2021 | 11 | 2021 |
| Cavity electro-optic circuit for microwave-to-optical conversion in the quantum ground state W Fu, M Xu, X Liu, CL Zou, C Zhong, X Han, M Shen, Y Xu, R Cheng, ... Physical Review A 103 (5), 053504, 2021 | 45* | 2021 |
| Mitigating photorefractive effect in thin-film lithium niobate microring resonators Y Xu, M Shen, J Lu, JB Surya, A Al Sayem, HX Tang Optics Express 29 (4), 5497-5504, 2021 | 65 | 2021 |
| Photorefraction-induced Bragg scattering in cryogenic lithium niobate ring resonators Y Xu, A Al Sayem, CL Zou, L Fan, R Cheng, HX Tang Optics Letters 46 (2), 432-435, 2021 | 14 | 2021 |
| Stable tuning of photorefractive microcavities using an auxiliary laser JB Surya, J Lu, Y Xu, HX Tang Optics Letters 46 (2), 328-331, 2021 | 12 | 2021 |
| Pulsed Cavity Electro-optics for Ground-state Microwave-to-optical Conversion M Xu, W Fu, X Liu, CL Zou, C Zhong, X Han, M Shen, Y Xu, R Cheng, ... APS March Meeting Abstracts 2021, F31. 004, 2021 | | 2021 |
| Cavity piezo-mechanics for microwave-to-optical conversion W Fu, X Han, C Zhong, CL Zou, Y Xu, AA Sayem, M Xu, S Wang, R Cheng, ... APS March Meeting Abstracts 2021, E27. 012, 2021 | | 2021 |
| Photonic dissipation control for Kerr soliton generation in strongly Raman-active media Z Gong, M Li, X Liu, Y Xu, J Lu, A Bruch, JB Surya, C Zou, HX Tang Physical Review Letters 125 (18), 183901, 2020 | 35 | 2020 |
| Near-octave lithium niobate soliton microcomb Z Gong, X Liu, Y Xu, HX Tang Optica 7 (10), 1275-1278, 2020 | 103 | 2020 |
| High frequency lithium niobate film-thickness-mode optomechanical resonator M Shen, J Xie, CL Zou, Y Xu, W Fu, HX Tang Applied Physics Letters 117 (13), 2020 | 17 | 2020 |
