2024
H. Qin, R. Cheng, Y. Zhou, H. Tang,
“Integrated photonic Galton board and its application for photon counting”,
arXiv preprint, 2024
Y. Wang, Y. Guo, J. Holguin-Lerma, M. Vezzoli, H. Tang,
“Wafer-Scale Fabrication of a Titanium-Sapphire Laser Substrate by Thermal Diffusion”,
ACS Photonics, 2024
F. Yang, J. Lu, M. Shen, G. Yang, H. Tang,
“Symmetric second-harmonic generation in sub-wavelength periodically poled thin film lithium niobate”,
Optica, 11 (8), 1050-1055 (2024)
C. He, M. Shen, H. Tang,
“Design of BTO-Based Compact Electro-Optic Modulator”,
International Journal of High Speed Electronics and Systems, 2440074 (2024)
M. Xu, Y. Wu, W. Dai, H. Tang,
“Radiatively cooled quantum microwave amplifiers”,
Applied Physics Letters, 125 (2), 2024
D. Wang, J. Xie, Y. Guo, M. Shen, H. Tang,
“Non-contact excitation of multi-GHz lithium niobate electromechanical resonators”,
arXiv preprint, 2024
Y. Wang, Y. Guo, Y. Zhou, H. Xie, H. Tang,
“Heterogeneous sapphire-supported low-loss photonic platform”,
Optics Express, 32, 20146 (2024)
G. Yang, H. Wang, S. Mu, H. Xie, T. Wang, C. He, M. Shen, M. Liu, C. Walle, H. Tang,
“Unveiling the Pockels Coefficient of Ferroelectric Nitride ScAlN”,
Arxiv, preprint arXiv:2405.07978 (2024)
M. Shen, M. Pace, H. Tang,
“Traveling-wave electro-optics for microwave-to-optical quantum transduction”,
Physical Review Applied, 109, 043515 (2024)
M. Shen, L. Yang, Y. Xu, H. Tang,
“Parasitic conduction loss of lithium niobate on insulator platform”,
Applied Physics Letters, 124, 101107 (2024)
J. Xie, M. Shen, H. Tang,
“High acoustic velocity x-cut lithium niobate sub-terahertz electromechanics”,
Applied Physics Letters, 124, 072203 (2024)
Y. Wu, M. Xu, H. Tang,
“Junction-free microwave two-mode radiation from a kinetic inductance nanowire”,
Physical Review Applied, 21, 014029 (2024)
M. Shen, J. Xie, Y. Xu, S. Wang, R. Cheng, W. Fu, Y. Zhou, H. Tang,
“Photonic link from single-flux-quantum circuits to room temperature”,
Nature Photonics, 1-8 (2024)
M. Xu, C. Li, Y. Xu, H. Tang,
“Light-induced microwave noise in superconducting microwave-optical transducers”,
Physical Review Applied, 21, 014022 (2024)
2023
L. Yang, Y. Xu, C. Li, J. Xie, M. Shen, H. Tang,
“Piezoelectric loss of superconducting microwave resonators integrated with thin-film lithium niobate”,
Physical Review Applied, 20, 054026 (2023)
C. He, Y. Wang, C. Waldfried, G. Yang, J. Zheng, S. Hu, H. Tang, “Ultra-high Q alumina optical microresonators in the UV and blue bands”,
Optics Express, 31, 33923-33929 (2023)
L. Yang, S. Wang, H. Tang,
“Toward radiative-limited coherence of erbium dopants in a nanophotonic resonator”,
Applied Physics Letters, 123, 124001 (2023)
F. Yang, G. Yang, D. Wang, P. Wang, J. Lu, Z. Mi, H. Tang, “Domain control and periodic poling of epitaxial ScAlN”,
Applied Physics Letters, 123, 101103 (2023)
M. Xu, Y. Wu, W. Dai, H. Tang,
“Radiatively-cooled quantum microwave amplifiers”,
Arxiv, preprint arXiv:2308.02106 (2023)
X. Sun, Z. Yu, M. Yu, H. Tang,
“Integrated lithium niobate photonics: introduction”,
JOSA B, 40, ILN1-ILN2 (2023)
J. Lu, D. Puzyrev, V. Pankratov, D. Skryabin, F. Yang, Z. Gong, J. Surya, H. Tang,
“Two-colour dissipative solitons and breathers in microresonator second-harmonic generation”,
Nature Communications, 14, 2798 (2023)
J. Xie, M. Shen, Y. Xu, W. Fu, L. Yang, H. Tang,
“Sub-terahertz electromechanics”,
Nature Electronics, 6, 301-306 (2023)
Y. Wang, J. Holguín-Lerma, M. Vezzoli, Y. Guo, H. Tang,
“Photonic-circuit-integrated titanium: sapphire laser”,
Nature Photonics, 17, 338-345 (2023)
L. Yang, S. Wang, M. Shen, J. Xie, H. Tang,
“Controlling single rare earth ion emission in an electro-optical nanocavity”,
Nature Communications, 14, 1718 (2023)
X. Liu, A. Bruch, H. Tang,
“Aluminum nitride photonic integrated circuits: from piezo-optomechanics to nonlinear optics”,
Advances in Optics and Photonics, 15, 236-317 (2023)
R. Cheng, Y. Zhou, S. Wang, M. Shen, T. Taher, H. Tang, “A 100-pixel photon-number-resolving detector unveiling photon statistics”,
Nature Photonics, 17, 112-119 (2023)
2022
Y. Xu, W. Fu, Y. Zhou, M. Xu, M. Shen, A. Sayem, H. Tang, “Light-induced dynamic frequency shifting of microwave photons in a superconducting electro-optic converter”,
Physical Review Applied, 18, 064045 (2022)
J. Ang, G. Carini, Y. Chen, I. Chuang, M. DeMarco, S. Economou, A. Eickbusch, A. Faraon, K. Fu, S. Girvin, M. Hatridge, A. Houck, P. Hilaire, K. Krsulich, A. Li, C. Liu, Y. Liu, M. Martonosi, D. McKay, J. Misewich, M. Ritter, R. Schoelkopf, S. Stein, S. Sussman, H. Tang, W. Tang, T. Tomesh, N. Tubman, C. Wang, N. Wiebe, Y. Yao, D. Yost, Y. Zhou, “Light-induced dynamic frequency shifting of microwave photons in a superconducting electro-optic converter, “Architectures for Multinode Superconducting Quantum Computers”,
Arxiv, preprint arXiv:2212.06167 (2022)
C. Zhong, M. Xu, A. Clerk, H. Tang, L. Jiang,
“Quantum transduction is enhanced by single mode squeezing operators”,
Physical Review Research, 4, L042013 (2022)
M. Xu, R. Cheng, Y. Wu, G. Liu, H. Tang,
“Magnetic field-resilient quantum-limited parametric amplifier”,
Arxiv, preprint arXiv:2209.13652 (2022)
B. Rameshti, S. Kusminskiy, J. Haigh, K. Usami, D. Lachance-Quirion, Y. Nakamura, C. Hu, H. Tang, G. Bauer, Y. Blanter,
“Cavity magnonics”,
Physics Reports, 979, 1-61 (2022)
Z. Gong, M. Shen, J. Lu, J. Surya, H. Tang, “Monolithic Kerr and electro-optic hybrid microcombs”,
Optica, 9, 1060-1065 (2022)
X. Han, C. Zou, W. Fu, M. Xu, Y. Xu, H. Tang,
“Superconducting Cavity Electromechanics: The Realization of an Acoustic Frequency Comb at Microwave Frequencies”,
Physical Review Letters, 129, 107701 (2022)
N. Zhu, X. Zhang, X. Han, C. Zou, H. Tang,
“Inverse faraday effect in an optomagnonic waveguide”,
Physical Review Applied, 18, 024046 (2022)
S. Wang, L. Yang, R. Cone, C. Thiel, H. Tang, “High-Cooperativity Coupling of Rare-Earth Spins to a Planar Superconducting Resonator”,
Physical Review Applied, 18, 014071 (2022)
S. Wang, L. Yang, M. Shen, W. Fu, Y. Xu, R. Cone, C. Thiel, H. Tang,
“Er:LiNbO3 with High Optical Coherence Enabling Optical Thickness Control”,
Physical Review Applied, 18, 014069 (2022)
Samuel Berweger, Robert Tyrell-Ead, Houchen Chang, Mingzhong Wu, Na Zhu, Hong X Tang, Hans Nembach, T Karl Stupic, Stephen Russek, T Mitch Wallis, Pavel Kabos,
“Imaging of magnetic excitations in nanostructures with near-field microwave microscopy”,
Journal of Magnetism and Magnetic Materials, 546, 168870 (2022)
L. Chen, C. Huang, X. Xu, Y. Zhang, D. Ma, Z. Lu, Z. Wang, G. Chen, J. Zhang, H. Tang, C. Dong, W. Liu, G. Xiang, G. Guo, C. Zou,
“Planar-Integrated Magneto-Optical Trap”,
Physical Review Applied, 3, 034031 (2022)
Z. Gong, A. Bruch, F. Yang, M. Li, J. Lu, J. Surya, C. Zou, H. Tang, “Quadratic strong coupling in AlN Kerr cavity solitons”,
Optics Letters, 4, 746-749 (2022)
G. Moody, V.Sorger, D. Blumenthal, P. Juodawlkis, W. Loh, C. Sorace-Agaskar, A. Jones, K. Balram, J. Matthews, A. Laing, M. Davanco, L. Chang, J. Bowers, N. Quack, C. Galland, I. Aharonovich, M. Wolff, C. Schuck, N. Sinclair, M. Lončar, T. Komljenovic, D. Weld, S. Mookherjea, S. Buckley, M. Radulaski, S. Reitzenstein, B. Pingault, B. Machielse, D. Mukhopadhyay, A. Akimov, A. Zheltikov, G. Agarwal, K. Srinivasan, J. Lu, H. Tang, W. Jiang, T. McKenna, A. Safavi-Naeini, S. Steinhauer, A. Elshaari, V. Zwiller, P. Davids, N. Martinez, M. Gehl, J. Chiaverini, K. Mehta, J. Romero, N. Lingaraju, A. Weiner, D. Peace, R. Cernansky, M. Lobino, E. Diamanti, L. Vidarte, R. Camacho,
“2022 Roadmap on integrated quantum photonics”,
Journal of Physics: Photonics, 1, 012501 (2022)
2021
A. Sayem, Y. Wang, J. Lu, X. Liu, A. Bruch, H. Tang, “Efficient and tunable blue light generation using lithium niobate nonlinear photonics”,
Applied Physics Letters, 23, 231104 (2021)
X. Liu, Z. Gong, A. Bruch, J. Surya, J. Lu, H. Tang, “Aluminum nitride nanophotonics for beyond-octave soliton microcomb generation and self-referencing”,
Nature communications, 1, 1-7 (2021)
X. Han, W. Fu, C. Zou, L. Jiang, H. Tang,
“Microwave-optical quantum frequency conversion”,
Optica, 8, 1050-1064 (2021)
Y. Xu, A. Sayem, L. Fan, C. Zou, S. Wang, R. Cheng, W. Fu, L. Yang, M. Xu, H. Tang,
“Bidirectional interconversion of microwave and light with thin-film lithium niobate”,
Nature communications, 12.1, 1-7 (2021)
W. Fu, M. Xu, X. Liu, C. Zou, C. Zhong, X. Han, M. Shen, Y. Xu, R. Cheng, S. Wang, L. Jiang, H. Tang, “Cavity electro-optic circuit for microwave-to-optical conversion in the quantum ground state”,
Physical Review A, 5, 053504 (2021)
L. Yang, S. Wang, M. Shen, Y. Xu, J. Xie, H. Tang,
“Photonic integration of Er3+:Y2SiO5 with thin-film lithium niobate by flip chip bonding”,
Optics Express, 10, 15497-15504 (2021)
Z. Wang, M. Xu, X. Han, W. Fu, S. Puri, S. Girvin, H. Tang, S/ Shankar, M. Devoret,
“Quantum microwave radiometry with a superconducting qubit”,
Physical Review Letters, 18, 180501 (2021)
X. Hu, Z. Wang, P. Zhang, G. Chen, Y. Zhang, G. Li, X. Zou, T. Zhang, H. Tang, C. Dong, G. Guo, C. Zou,
“Efficient Frequency Conversion in a Degenerate Microresonator”,
Nature communications, 1, 1-8 (2021)
Y. Xu, M. Shen, J. Lu, J. Surya, A. Sayem, H. Tang,
“Mitigating photorefractive effect in thin-film lithium niobate microring resonators”,
Optics Express, 4, 5497-5504 (2021)
D. Awschalom, C. Du, R. He, F. Heremans, A. Hoffmann, J. Hou, H. Kurebayashi, Y. Li, L. Liu, V. Novosad, J. Sklenar, S. Sullivan, D. Sun, H. Tang, V. Tiberkevich, C. Trevillian, A. Tsen, L. Weiss, W. Zhang, X. Zhang, L. Zhao, C. Zollitsch,
“Quantum engineering with hybrid magnonics systems and materials”,
Arxiv, preprint arXiv:2102.03222 (2021)
M. Li, Y. Zhang, X. Xu, C. Dong, H. Tang, G. Guo, C. Zou,
“Multi-color continuous-variable quantum entanglement in dissipative Kerr solitons”,
Arxiv, preprint arXiv:2101.07734 (2021)
Y. Xu, A. Sayem, C. Zou, L. Fan, R. Cheng, H. Tang,
“Photorefraction-induced Bragg scattering in cryogenic lithium niobate ring resonators”,
Optics letters, 2, 432-435 (2021)
J. Surya, J. Lu, Y. Xu, H. Tang,
“Stable tuning of photorefractive microcavities using an auxiliary laser”,
Optics Letters, 2, 328-331 (2021)
J. Lu, A. Sayem, Z. Gong, J. Surya, C. Zou, H. Tang,
“Ultralow-threshold thin-film lithium niobate optical parametric oscillator”,
Optica, 4, 539-544 (2021)
A. Bruch, X. Liu, Z. Gong, J. Surya, M. Li, C. Zou, H. Tang,
“Pockels Soliton Microcomb”,
Nature Photonics, 15, pages21–27 Nature Photonics (2021)
2020
N. Zhu, X. Zhang, X. Han, C. Zou, C. Zhong, C. Wang, C. Wang, L. Jiang, H. Tang,
“Waveguide cavity optomagnonics for broadband multimode microwave-to-optics conversion”,
Optica, 7, 1291-1297 (2020)
Z. Gong, X. Liu, Y. Xu, H. Tang,
“Near-octave lithium niobate soliton microcomb”,
Optica, 7, 1275-1278 (2020)
Z. Gong, M. Li, X. Liu, Y. Xu, J. Lu, A. Bruch, J. Surya, C. Zou, H. Tang,
“Photonic dissipation control for Kerr soliton generation in strongly Raman-active media”,
Physical Review Letters, 125, 183901 (2020)
M. Shen, J. Xie, C. Zou, Y. Xu, W. Fu, H. Tang,
“High frequency lithium niobate film-thickness-mode optomechanical resonator”,
Applied Physics Letters, 125, 131104 (2020)
R. Cheng, J. Wright, H. Xing, D. Jena, H. Tang,
“Epitaxial niobium nitride superconducting nanowire single-photon detectors”,
Applied Physics Letters, 117, 132601 (2020)
J. Lu, X. Liu, A. Bruch, L. Zhang, J. Wang, J. Yan, H. Tang,
“Ultraviolet to mid-infrared supercontinuum generation in single-crystalline aluminum nitride waveguides”,
Optics Letters, 45, 4499-4502 (2020)
J. Lu, M. Li, C. Zou, A. Sayem, H. Tang,
“Toward 1% single-photon anharmonicity with periodically poled lithium niobate microring resonators”,
Optica, 12, 1654-1659 (2020)
W. Wang, M. Shen, C. Zou, W. Fu, Z. Shen, H. Tang,
“High-acoustic-index-contrast phononic circuits: numerical modeling”,
Journal of Applied Physics, 18, 184503 (2020)
X. Han, W. Fu, C. Zhong, C. Zou, Y. Xu, A. Sayem, M. Xu, S. Wang, R. Cheng, L. Jiang, H. Tang,
“Cavity piezo-mechanics for superconducting-nanophotonic quantum interface”,
Nature communications, 11, 1-8 (2020)
N. Zhu, X. Han, C. Zou, M. Xu, H. Tang,
“Magnon-photon strong coupling for tunable microwave circulators”,
Physical Review A, 101, 043842 (2020)
S. Jahani, L. Yang, A. Tepole, J. Bardin, H. Tang, Z. Jacob,
“Probabilistic vortex crossing criterion for superconducting nanowire single-photon detectors”,
Journal of Applied Physics, 127, 143101 (2020)
X. Hu, J. Wang, Y. Yang, J. Surya, Y. Zhang, X. Xu, M. Li, C. Dong, G. Guo, H. Tang, C. Zou,
“All-optical thermal control for second-harmonic generation in an integrated microcavity”,
Optics Express, 28, 11144 (2020)
A. Sayem, R. Cheng, S. Wang, H. Tang,
“Lithium-niobate-on-insulator waveguide-integrated superconducting nanowire single-photon detectors”,
Applied Physics Letters, 116, 151102 (2020)
S. Wang, L. Yang, R. Cheng, Y. Xu, M. Shen, R. Cone, C. Thiel, H. Tang,
“Incorporation of erbium ions into thin-film lithium niobate integrated photonics”,
Applied Physics Letters, 116, 151103 (2020)
M. Li, Y. Zhang, H. Tang, C. Dong, G. Guo, C. Zou,
“Photon-Photon Quantum Phase Gate in a Photonic Molecule with χ(2) Nonlinearity”,
Physical Review Applied, 13, 044013 (2020)
Y. Tang, Z. Gong, X. Liu, H. Tang,
“Widely separated optical Kerr parametric oscillation in AlN microrings”,
Optics Letters, 45, 1124 (2020)
R. Cheng, S. Wang, C. Zou, H. Tang,
“Design of a micrometer-long superconducting nanowire perfect absorber for efficient high-speed single-photon detection”,
Photonics Research, 8, 1260-1267 (2020)
P. Ravindran, R. Cheng, H. Tang, J. Bardin,
“Active quenching of superconducting nanowire single photon detectors”,
Optics Express, 28, 4099-4114 (2020)
M. Xu, X. Han, C. Zou, W. Fu, Y. Xu, C. Zhong, L. Jiang, H. Tang,
“Radiative cooling of a superconducting resonator”,
Physical Review Letters, 124, 033602 (2020)
C. Zhong, X. Han, H. Tang, L. Jiang,
“Entanglement of microwave-optical modes in a strongly coupled electro-optomechanical system”,
Physical Review A, 3, 032345 (2020)
C. Zhong, Z. Wang, C. Zou, M. Zhang, X. Han, W. Fu, M. Xu, S Shankar, M. Devoret, H. Tang, L. Jiang,
“Proposal for Heralded Generation and Detection of Entangled Microwave–Optical-Photon Pairs”,
Physical Review Letters, 124, 010511 (2020)
2019
C. Chai, H. Zhao, H. Tang, G. Guo, C. Zou, C. Dong,
“Non‐Reciprocity in High‐Q Ferromagnetic Microspheres via Photonic Spin–Orbit Coupling”,
Laser & Photonics Reviews, 1900252 (2019)
J. Lu, J. Surya, X. Liu, A. Bruch, Z. Gong, Y. Xu, H. Tang,
“Periodically poled thin-film lithium niobate microring resonators with a second-harmonic generation efficiency of 250,000%/W”,
Optica, 6, 1455 (2019)
R. Cheng, S. Wang, H. Tang,
“Superconducting nanowire single-photon detectors fabricated from atomic-layer-deposited NbN”,
Applied Physics Letters, 115, 241101 (2019)
A. Franson, N. Zhu, S. Kurfman, M. Chilcote, D. Candido, K. Buchanan, M. Flatté, H. Tang, E. Johnston-Halperin,
“Low-Damping Ferromagnetic Resonance in Electron-Beam Patterned, High-Q Vanadium Tetracyanoethylene Magnon Cavities”,
APL Materials, 7, 121113 (2019)
Z. Shen, W. Fu, R. Cheng, H. Townley, C. Zou, H. Tang,
“Polarization mode hybridization and conversion in phononic wire waveguides”,
Applied Physics Letters, 115, 201901 (2019)
A. Bruch, X. Liu, J. Surya, C. Zou, H. Tang,
“On-chip χ(2) microring optical parametric oscillator”,
Optica, 6, 1361-1366 (2019)
R. Cheng, S. Wang, H. Tang,
“Superconducting nanowire single-photon detectors fabricated from atomic-layer-deposited NbN”,
Applied Physics Letters, 24, 241101 (2019)
A. Franson, N. Zhu, S. Kurfman, M. Chilcote, D. Candido, K. Buchanan, M. Flatté, H. Tang, E. Johnston-Halperin,
“Low-Damping Ferromagnetic Resonance in Electron-Beam Patterned, High- Vanadium Tetracyanoethylene Magnon Cavities”,
ArXiv, preprint arXiv:1910.05325 (2019)
Z. Wang, M. Xu, X. Han, W. Fu, S. Puri, S. Girvin, H. Tang, S. Shankar, M. Devoret,
“Quantum Microwave Radiometry with a Superconducting Qubit”,
ArXiv, preprint arXiv:1909.12295 (2019)
X. Xu, X. Guo, W. Chen, H. Tang, C. Dong, G. Guo, C. Zou,
“Flat-top optical filter via the adiabatic evolution of light in an asymmetric coupler”,
Physical Review A, 100, 023809 (2019)
H. Jung, Z. Gong, X. Liu, X. Guo, C. Zou, H. Tang,
“Stokes and anti-Stokes Raman scatterings from frequency comb lines in poly-crystalline aluminum nitride microring resonators”,
Optics Express, 27, 22246-22253 (2019)
R. Cheng, C. Zou, X. Guo, S. Wang, X. Han, H. Tang,
“Broadband on-chip single-photon spectrometer”,
Nature Communications, 10, 1-7 (2019)
W. Fu, Z. Shen, Y. Xu, C. Zou, R. Cheng, X. Han, H. Tang,
“Phononic integrated circuitry and spin–orbit interaction of phonons”,
Nature Communications, 10, 2743 (2019)
Z. Gong, X. Liu, Y. Xu, M. Xu, J. Surya, J. Lu, A. Bruch, C. Zou, H. Tang,
“Soliton microcomb generation at 2 μm in z-cut lithium niobate microring resonators”,
Optics Letters, 44, 3182-3185 (2019)
X. Liu, A. Bruch, J. Lu, Z. Gong, J. Surya, L. Zhang, J. Wang, J. Yan, H. Tang,
“Beyond 100 THz-spanning ultraviolet frequency combs in a non-centrosymmetric crystalline waveguide”,
Nature Communications, 10, 2971 (2019)
M. Xu, X. Han, W. Fu, C. Zou, M. Devoret, H. Tang,
“Frequency-tunable high-Q superconducting resonators via wireless control of nonlinear kinetic inductance”,
Applied Physics Letters, 114, 192601 (2019)
K. Fong, D. Jin, M. Poot, A. Bruch, H. Tang,
“Phonon coupling between a nanomechanical resonator and a quantum fluid”,
Nano letters, 19, 3716-3722 (2019)
J. Lu, J. Surya, X. Liu, Y. Xu, H. Tang,
“Octave-spanning supercontinuum generation in nanoscale lithium niobate waveguides”,
Optics Letters, 44, 1492-1495 (2019)
L. Fan, C. Zou, N. Zhu, H. Tang,
“Spectrotemporal shaping of itinerant photons via distributed nanomechanics”,
Nature Photonics, 13, 323-327 (2019)
X. Hu, C. Zhao, Z. Wang, Y. Zhang, X. Zou, C. Dong, H. Tang, G. Guo, C. Zou,
“Cavity-enhanced optical controlling based on three-wave mixing in cavity-atom ensemble system”,
Optics Express, 27, 6660 (2019)
J. Xie, J. Wang, Z. Wang, X. Hu, X. Guo, R. Niu, J. Surya, J. Zhang, C. Dong, G. Guo, H. Tang, C. Zou,
“Infrared laser locking to a rubidium saturated absorption spectrum via a photonic chip frequency doubler”,
Optics Letters, 44, 1150-1153 (2019)
M. Chilcote, M. Harberts, B. Fuhrman, K. Lehmann, Y. Lu, A. Franson, H. Yu, N. Zhu, H. Tang, G. Schmidt, E. Johnston-Halperin,
“Spin-wave Confinement and Coupling in Organic-Based Magnetic Nanostructures”,
Arxiv, preprint arXiv:1901.03286 (2019)
2018
X. Xiong, C. Zou, X. Guo, H. Tang, X. Ren, G. Guo,
“Broadband frequency conversion and “area law” in tapered waveguides”,
OSA Continuum, 1, 1349-1359 (2018)
X. Liu, A. Bruch, Z. Gong, J. Lu, J. Surya, L. Zhang, J. Wang, J. Yan, H. Tang,
“Ultra-high-Q UV microring resonators based on a single-crystalline AlN platform”,
Optica, 5, 1279 (2018)
A. Bruch, X. Liu, X. Guo, J. Surya, Z. Gong, L. Zhang, J. Wang, J. Yan, H. Tang,
“17 000%/W second-harmonic conversion efficiency in single-crystalline aluminum nitride microresonators”,
Applied Physics Letters, 113, 131102 (2018)
Z. Gong, A. Bruch, M. Shen, X. Guo, H. Jung, L. Fan, X. Liu, L. Zhang, J. Wang, J. Li, J. Yan, H. Tang,
“High-fidelity cavity soliton generation in crystalline AlN micro-ring resonators”,
Optics Letters, 43, 4366 (2018)
X. Hu, C. Zhao, Z. Wang, Y. Zhang, X. Zou, C. Dong, H. Tang, G. Guo, C. Zou,
“Doubly-resonant-cavity electromagnetically induced transparency”,
Arxiv, preprint arXiv:1807.08307 (2018)
X. Guo, C. Zou, H. Jung, Z. Gong, A. Bruch, L. Jiang, H. Tang,
“Efficient Generation of a Near-visible Frequency Comb via Cherenkov-like Radiation from a Kerr Microcomb”,
Physical Review Applied, 10, 014012 (2018)
J. Surya, X. Guo, C. Zou, H. Tang,
“Control of second-harmonic generation in doubly resonant aluminum nitride microrings to address a rubidium two-photon clock transition”,
Optics letters, 43, 2696 (2018)
X. Guo, C. Zou, L. Jiang, H. Tang,
“All-Optical Control of Linear and Nonlinear Energy Transfer via the Zeno Effect”,
Physical review letters, 120, 203902 (2018)
L. Fan, C. Zou, R. Cheng, X. Guo, X. Han, Z. Gong, S. Wang, H. Tang,
“Superconducting cavity electro-optics: A platform for coherent photon conversion between superconducting and photonic circuits”,
Science Advance, 4, 4994 (2018)
J. Surya, X. Guo, C. Zou, H. Tang,
“Efficient third-harmonic generation in composite aluminum nitride/silicon nitride microrings”,
Optica, 5, 103 (2018)
J. Surya, X. Guo, C. Zou, H. Tang,
“Control of second-harmonic generation in doubly resonant aluminum nitride microrings to address a rubidium two-photon clock transition”,
Optics letters, 43, 2696 (2018)
Y. Xu, W. Fu, C. Zou, Z. Shen, H. Tang,
“High quality factor surface Fabry-Perot cavity of acoustic waves”,
Applied Physics Letters, 112, 073505 (2018)
L. Yang, H. Tang, Z. Jacob,
“Concept of quantum timing jitter and non-Markovian limits in single-photon detection”,
Physical Review A, 97, 013833 (2018)
C. Zhang, G. Yuan, A. Bruch, K. Xiong, H. Tang, J. Han,
“Toward Quantitative Electrochemical Nanomachining of III-Nitrides”,
Journal of The Electrochemical Society, 165, 513 (2018)
2017
Z. Shen, Xu Han, C. Zou, H. Tang,
“Phase sensitive imaging of 10 GHz vibrations in an AlN microdisk resonator”,
Review of Scientific Instruments, 88, 123709 (2017)
D. Hickstein, H. Jung, D. Carlson, A. Lind, I. Coddington, K. Srinivasan, G. Ycas, D. Cole, A. Kowligy, C. Fredrick, S. Droste, E. Lamb, N. Newbury, H. Tang, S. Diddams, S. Papp,
“Ultrabroadband supercontinuum generation and frequency-comb stabilization using on-chip waveguides with both cubic and quadratic nonlinearities”,
Physical Review Applied, 8, 014025 (2017)
Na Zhu, H. Chang, A. Franson, T. Liu, X. Zhang, E Johnston-Halperin, M. Wu, H. Tang,
“Patterned growth of crystalline Y3Fe5O12 nanostructures with engineered magnetic shape anisotropy”,
Applied Physics Letters, 110, 252401 (2017)
R. Cheng, M. Poot, X. Guo, L. Fan, H. Tang,
“Large-Area Superconducting Nanowire Single-Photon Detector With Double-Stage Avalanche Structure”,
IEEE Transactions on Applied Superconductivity, 27, 1 (2017)
X. Guo, C. Zou, C. Schuck, H. Jung, R. Cheng, H. Tang,
“Parametric down-conversion photon-pair source on a nanophotonic chip”,
Light: Science & Applications, 6, 16249 (2017)
A. Bruch, K. Xiong, H. Jung, X. Guo, C. Zhang, J. Han, H. Tang,
“Electrochemically sliced low loss AlGaN optical microresonators”,
Applied Physics Letters, 110, 021111 (2017)
2016
R. Cheng, X. Guo, X. Ma, L. Fan, K. Fong, M. Poot, H. Tang,
“Self-aligned multi-channel superconducting nanowire single-photon detectors”,
Optics Express, 24, 27070 (2016)
M. Poot, H. Tang,
“Characterization of optical quantum circuits using resonant phase shifts”,
Applied Physics Letters, 109, 131106 (2016)
L. Fan, C. Zou, M. Poot, R. Cheng, X. Guo, X. Han, H. Tang,
“Integrated optomechanical single-photon frequency shifter”,
Nature Photonics, 10, 766 (2016)
M. Poot, H. Tang
“Characterization of optical quantum circuits using resonant phase shifts”,
Applied Physics Letters 109, 131106 (2016)
X. Guo, C. Zou, H. Tang,
“Second-harmonic generation in aluminum nitride microrings with 2500%/W conversion efficiency”,
Optica 3, 1126 (2016)
R. Cheng, X. Guo, X. Ma, L. Fan, K. Fong, M. Poot, H. Tang,
“Self-aligned multi-channel superconducting nanowire single-photon detectors”,
Optics Express, 24, 27070 (2016)
X. Zhang, C. Zou, C. L. Zou, H. Tang,
“Optomagnonic whispering gallery microresonators”,
Physical Review Letters 117, 123605 (2016)
X. Guo, C. Zou, H. Tang,
“70 dB long-pass filter on a nanophotonic chip”,
Optics Express 18, 21167 (2016)
S. Kusminskiy, H. Tang, F. Marquardt
“Coupled spin-light dynamics in cavity optomagnonics”,
Physical Review A 94, 033821 (2016)
X. Guo, C. Zou, H. Jung, H. Tang,
“On-chip strong coupling and efficient frequency conversion between telecom and visible optical modes”,
Physical Review Letters 117, 123902 (2016)
X. Han, C. Zou, H. Tang
“Multimode strong coupling in superconducting cavity piezo-electromechanics”,
Physical Review Letters 117, 123603 (2016)
N. Zhu, X. Zhang, I. Froning, M. Flatté, E. Johnston-Halperin, H. Tang,
“Low loss spin wave resonances in organic-based ferrimagnet vanadium tetracyanoethylene thin films”,
Applied Phyics Letter 109, 082402 (2016)
T. Liu, X. Zhang, H. Tang, M. Flatté,
“Optomagnonics in magnetic solids”,
Physial Review B 94, 060405R (2016)
H. Jung, X. Guo, N. Zhu, S. Papp, S. Diddams, H. Tang
“Phase-dependent interference between frequency doubled comb lines in a χ(2) phase-matched aluminum nitride microring”,
Optics Letters 41, 3747 (2016)
C. Zou, X. Han, L. Jiang, H. Tang,
“Cavity piezomechanical strong coupling and frequency conversion on an aluminum nitride chip”,
Physical Review A 94, 013812 (2016)
M. Poot, C. Schuck, X. Ma, X. Guo, H. Tang,
“Design and characterization of integrated components for SiN photonic quantum circuits”,
Optics Express 24, 6843(2016)
H. Jung, H. Tang,
“Aluminum nitride as nonlinear optical materials for on-chip frequency comb generation and frequency conversion”,
Nanophotonics 5, 9 (2016)
X. Zhang, C. Zou, L. Jiang, and H. Tang,
“Cavity magnonechanics”,
Science Advances 2, e1501286 (2016)
X. Zhang, C. Zou, L. Jiang, H. Tang,
“Superstrong coupling of thin film magnetostatic waves with microwave cavity”,
Journal of Applied Physics 119, 023905 (2016)
C. Shuck, X. Guo, L. Fan, X. Ma, M. Poot, H. Tang,
“Quantum interference in heterogeneously integrated superconducting-photonic circuits on a silicon chip”,
Nature Communications 7, 10352 (2016)
2015
H. Jung, M. Poot, H. Tang
“In-resonator variation of waveguide cross-sections for dispersion control of aluminum nitride micro-rings”,
Optics Express 23, 030634 (2015)
X. Zhang, C. Zou, N. Zhu, F. Marquardt, L. Jiang, H. Tang,
“Magnon dark modes and gradient memory”,
Nature Communications 6, 8914(2015)
A. Bruch. C. Xiong, B. Leung, M. Poot, J. Han, H. Tang,
“Nanophotonic waveguides and resonators based on epitaxial GaN thin films”,
Applied Physics Letters 107, 141113 (2015)
E. Bankowski, T. Meitzler, R. Khymyn, V. Tiberkevich, A. Slavin, H. Tang,
“Magnonic crystal as a delay line for low-noise auto-oscillators”,
Applied Physics Letters 108, 161108 (2015)
K. Y. Fong, M. Poot, H. X. Tang,
“Nano-optomechanical resonators in microfluidics”,
Nano Letters 107, 122409 (2015)
X. Han, K. Fong, H. Tang,
“A 10-GHz film-thickness-mode cavity optomechanical resonator”,
Applied Physics Letters 108, 161108 (2015)
M. Poot, K. Fong, H. Tang,
“Deep feedback-stabilized parametric squeezing in an opto-electromechanical system”,
New Journal of Physics 17, 043056 (2015)
L. Fan, K. Fong, M. Poot, H. Tang,
“Cascaded optical transparency in multimode-cavity optomechanical systems”,
Nature Communications 6, 5850 (2015)
2014
M. Poot, K. Fong, and H. Tang,
“Classical non-Gaussian state preparation through squeezing in an optoelectromechanical resonator”, Physical Review A 90, 063809 (2014)
H. Jung, R. Stoll, X. Guo, D. Fischer, H. Tang,
“Green, red, and I frequency comb line generation from single IR pump in AlN microring resonator”, Optica 1, 396 (2014)
K. Fong, L. Fan, L. Jiang, H. Tang,
“Microwave assisted optical amplication and coherent absorption in cavity piezo-optomechanical system”, Physical Review A 90, 051801R (2014)
X. Ma, X. Guo, L. Jiang, H. Tang,
“On-chip interaction-free measurement via quantum Zeno effect”, Physical Review A 90, 042109 (2014)
X. Zhang, C. Zou, L. Jiang, H. Tang,
“Strongly coupled magnons and cavity microwave photons”, Physical Review Letters 113, 156401(2014)
K. Fong, M. Poot, X. Han, H. Tang,
“Phase noise of self-sustained optomechanical oscillators”, Physical Review A 90, 023825 (2014)
C. Wang, B. Lichetenwalter, A. Friebel, H. Tang,
“A closed-cycle 1K refrigeration cryostat”, Cryogenics 64, 5 (2014)
X. Zhang, T. Liu, M. Flatte, H. Tang,
“Electric-field coupling to spin waves in a centrosymmetric ferrite”, Physical Review Letters 113, 037202(2014)
H. Tang, and D. Vitali,
“The prospect of detecting single-photon force effects in cavity optomechanics”, Phys. Rev. A 89, 063821 (2014)
W. Pernice, C. Xiong, F. Walker, H. Tang,
“Design of a silicon integrated electro-optic modulator using ferroelectric BaTiO3 thin films”, IEEE Photonics Letters doi:10.1109/LPT.2014.2322501 (2014)
X. Han, C. Xiong, K. Fong, X. Zhang, H. Tang,
“Triply resonant cavity piezo-optomechanics at X-band”, New Journal of Physics 16, 063060 (2014)
X. Sun, K. Xu, H. Tang
“Monolithically integrated, ultrahigh-frequency cavity nanooptoelectromechanical system with on-chip germanium waveguide photodetector”, Optics Letters 39, 2514(2014)
C. Xiong, W. Pernice, J. Ngai, J. Reiner, D. Kumah, F. Walker, C. Ahn, H.Tang,
“Active integrated optics on silicon: ferroelectric BaTiO3 devices”, Nano Letters 14, 1419 (2014)
V. Tiberkevich, R. Khymyn, H. Tang, A. Slavin,
“Sensitivity to external signals and synchronization properties of a non-isochronous auto-oscillator with delayed feedback”, Scientific Reports 4, 3873 (2014)
P. Lin, H. J. Jung, A. Agarwal, L. Kimerling, H. Tang,
“Low-loss aluminum nitride thin film for mid-infrared microelectronics”, Laser & Photonics Reviews DOI: 10.1002/Ipor.201300176 (2014)
M. Poot, H. Tang
“Broadband nanoelectromechanical phase shifting of light on a chip”, Appl. Phys. Lett. 104, 061104 (2014)
H. Jung, K. Fong, C. Xiong, H. Tang
“Electrical tuning and switching of optical microcomb generated in aluminum nitride micro-ring resonators”, Optics Letters 39, 26(2014)
2013
M. Bagheri, M. Poot, L. Fan, F. Marquardt, H. Tang
“Photonic cavity synchronization of nanomechanical oscillators”, Physical Revew Letters 111, 213902(2013).
H. Jung, C. Xiong, K. Fong, X. Zhang, H. Tang
“Optical frequency comb generation from aluminum nitride microring resonator”, Optics Letters 38, 15 (2013)
C. Schuck, W. Pernice, H. Tang
“Milli-Hz dark count rate, waveguide integrated low-noise NbTiN nanowire single photon detectors”, Scientific Reports 3, 1893 (2013)
C. Schuck, W. Pernice, X. Ma, H. Tang
“Optical time domain reflectometry with low noise waveguide superconducting nanowire single photon detectors”, Applied Physics Letters 102, 191104 (2013)
L. Fan, X. Sun, C. Xiong, C. Schuck, H. Tang
“Aluminum nitride piezo-acousto-photonic crystal nanocavity with high quality factors”, Applied Physics Letters 102, 153507 (2013)
W. Pernice, C. Xiong, H. Tang,
“Photonic crystal dumbbell resonators in silicon and aluminum nitride integrated optical circuits”, Journal of Nanophotonics 7, 073095 (2013)
X. Sun, X. Zhang, C. Schuck, H. Tang,
“Nonlinear optical effects of ultrahihg-Q silicon photonic nanocavities immersed in superfluid helium”, Scientific Reports 3, 1436 (2013)
C. Schuck, W. Pernice, H. Tang,
“NbTiN superconducting nanowire detectors for visible and telecom wavelengths single photon counting on Si3N4 photonic circuits”, Applied Physics Letters 102, 051101 (2013)
C. Schuck, W. Pernice, H. Tang,
“Matrix of integrated superconducting single photon detectors with high timing resolution”, IEEE Trans on Applied Superconductivity (invited article) 3, 2201007(2013)
D. Garcia-Sanchez, K. Fong, H. Bhaskaran, S. Lamoreaux, H. Tang,
“Casimir microscope based upon metallized high Q SiN nanomembrane resonator”, Rev. Sci. Inst. 84, 015115 (2013)
C. Xiong, L. Fan, X. Sun, H. Tang
“Cavity piezooptomechanics: Piezoelectrically excited, optically transduced optomechanical resonators”, Applied Physics Letters 102, 021110 (2013)
2012
W. Pernice, C. Schuck, O. Minaeva, M. Li, G. Goltsman, A. Sergienko, H. Tang,
“High speed travelling wave single-photon detectors with near-unity quantum efficiency”, Nature Communications, 3, 1325 (2012)
X. Sun, X. Zhang, M. Poot, C. Xiong, H. Tang,
“A superhigh-frequency optoelectromechanical system based on a slotted photonic crystal cavity”, Appl. Phys. Lett. 101, 221116 (2012)
J. Zheng, X. Sun, Y. Li, M. Poot, A. Dadgar, N. Shi, W. Pernice, H. Tang, C. Wong,
“Femtogram dispersive L3-nanobeam optomechanical cavities: design and experimental comparison”, Optics Express 20, 26486 (2012)
M. Poot, K. Fong, M. Bagheri, W. Pernice, H. Tang,
“Backaction limts on self-sustained optomechanical oscillators”, Phys. Rev. A 86, 053826 (2012)
C. Xiong, W. Pernice, X. Sun, C. Schuck, K. Fong, H. Tang,
“Aluminum nitride as a new material for chip-scale optomechanics and nonlinear optics”,
New Journal of Physics 14, 095014 (2012)
X. Zhang, X. Sun, H. Tang,
“A 1.16-µm-radius disk cavity in a sunflower-type circular photonic crystal with ultrahigh quality factor”,
Optics Letters 15, 3195 (2012)
D. Garcia-Sanchez, K. Fong, H. Bhaskaran, S. Lamoreaux, H. Tang
“Casimir force and in-situ surface potential measurements on nanomembranes”, Physical Review Letters 109, 027202(2012)
C. Xiong, W. Pernice, H. Tang,
“Low-loss, silicon integrated, aluminum nitride photonic circuits and their use for electro-optic signal processing”,
Nano Letters 12, 3562 (2012)
W. Pernice, C. Xiong, C. Schuck, H. Tang,
“Second harmonic generation in phase matched aluminum nitride waveguides and micro-ring resonators”,
Appl. Phys. Lett. 100, 223501 (2012)
W. Pernice, C. Xiong, H. Tang,
“High Q micro-ring resonators fabricated from polycrystalline aluminum nitride films for near infrared and visible photonics”,
Optics Express 20, 12261 (2012)
C. Xiong, X. Sun, K. Fong, H. Tang,
“Integrated high frequency aluminum nitride optomechanical resonators”, Appl. Phys. Letters 100, 171111 (2012)
K. Fong, W. Pernice, H. Tang
“Frequency and phase noise of ultrahigh Q silicon nitride nanomechanical resonators”, Physical Review B 85, 161410R (2012)
X. Sun, X. Zhang, H. Tang,
“High-Q silicon optomechanical microdisk resonators at gigahertz frequencies”, Appl. Phys. Letters 100, 173116 (2012)
X. Sun, J. Zheng, M. Poot, C. Wong, H. Tang,
“Femtogram Doubly Clamped Nanomechanical Resonator Embedded in a High-Q Two-Dimensional Photonic Crystal Nanocavity”, Nano Letters 12, 2299 (2012)
W. Pernice, C. Xiong, C. Schuck, H. Tang,
“High-Q aluminum nitride photonic crystal nanobeam cavities”, Appl. Phys. Letters 100, 091105 (2012)
2011
M. Bagheri, M. Poot, M. Li, W. Pernice, H. Tang
“Dynamic manipulation of mechanical resonators in the high amplitude regime through optical backaction”, Nature Nanotechnology 6, 726 (2011)
X. Sun, K. Fong, C. Xiong, W. Pernice, H. Tang
“GHz optomechanical resonators with high mechanical Q factor in air”, Optics Express 19, 22316 (2011)
K. Fong, W. Pernice, M. Li, H. Tang
“Tunable optical coupler controlled by optical gradient forces”, Optics Express 19, 015098 (2011)
C. Xiong, W. Pernice, K. Ryu, C. Schuck, K. Fong, T. Palacios, H. Tang
“Integrated GaN photonic circuits on silicon (100) for second harmonic generation”, Optics Express 19, 10462 (2011)
W. Pernice, C. Schuck, M. Li, H. Tang
“Carrier and thermal dynamics ofsilicon photonic resonators at cryogenic temperatures”, Optics Express 19, 3290 (2011)
H. Bhaskaran, M Li, D. Garcia-Sanchez, P. Zhao, I. Takeuchi, H. Tang
“Active microcantilevers based on piezoresistive ferromagnetic thin films”, Applied Physics Letters 98, 013502 (2011)
2010
M. Li, W. Pernice, H. Tang,
“Ultrahigh-Frequency Nano-Optomechanical Resonators in Slot Waveguide Ring Cavities”, Applied Physics Letters 97, 183110(2010)
C. Xiong, W. Pernice, M. Li and H. Tang,
“High performance nanophotonic circuits based on partially buried horizontal slot waveguides”, Optics Express 18, 20690 (2010)
M. Li, E. Myers, H. Tang, J. Aldridge, J. Whiting, R. Simonson, H. McCaig, N. Lewis, M. Roukes,
“Nanoelectromechanical resonator arrays for ultrafast, gas-phase chromatographic chemical analysis”, Nano Letters 10, 3899 (2010)
K. Fong, W. Pernice, M. Li and H. Tang,
“High Q optomechanical resonators in silicon nitride nanophotonic circuits”, Applied Physics Letters 97, 073112 (2010)
W. Pernice, M. Li and H. Tang,
“Time-domain measurement of optical transport in silicon micro-ring resonatorss”, Optics Express 18, 18438 (2010)
C. Xiong, W. Pernice, M. Li, M. Rooks, H. Tang,
“Adiabatic embedment of nanomechanical resonators in photonic microring cavities”, Applied Physics Letters 96, 263101 (2010)
W. Pernice, M. Li, D. Garcia-Sanchez, H. Tang,
“Analysis of short range forces in optomechanical devices with a nanogap”, Optics Express 18, 12615 (2010)
2009
Mo Li, W. Pernice, H. Tang,
“Reactive cavity optical forces on micro-disk coupled nanomechanical beam waveguides”, Physical Review Letters 103, 223901 (2009)
W. Pernice, Mo Li, H. Tang,
“A mechanical Kerr effect in deformable photonic media”, Applied Physics Letter 95, 123507 (2009)
W. Pernice, Mo Li, K. Fong, H. Tang,
“Modeling of the optical force between propagating lightwaves in parallel 3D waveguides”, Optics Express 17, 16032 (2009)
Mo Li, W. Pernice, H. Tang,
“Tunable bipolar optical interactions between guided lightwaves”, Nature Photonics 3, 464 (2009)
W. Pernice, Mo Li, H. Tang,
“Optomechanical coupling in photonic crystal supported nanomechanical waveguides”, Optics Express 15, 12424 (2009)
Mo Li, W. Pernice, H. Tang,
“Broadband all-photonic transduction of nanocantilevers”, Nature Nanotechnology 4, 377 (2009)
G. Kumar, H. Tang, J. Schroers, “Nanomoulding using thermoplastic forming with bulk metallic glass”, Nature 457, 868 (2009).
2008
Mo Li , W. Pernice, C. Xiong, T. Baehr-Jones, M. Hochberg, H. Tang , “Harnessing optical forces in integrated photonic circuits.”, Nature , 456, 480(2008)
W. Pernice, Mo Li, H. Tang, “Theoretical investigation of the transverse optical force between a silicon nanowire and a substrate”, Optics Express 17, 1806 (2009).
W.H.P Pernice, Mo Li, H.X. Tang, “Photothermal actuation in nanomechanical waveguide devices”, Journal of Applied Physics 105, 014508 (2009).
W. Pernice, Mo Li, H. Tang, “Gigahertz photothermal effect in silicon waveguides”, Applied Physics Letters 93, 213106 (2008).
T. Henry, K. Kim, Z. Ren, C. Yerino, J. Han, H. Tang, “Directed growth of horizontally aligned gallium nitride nanowires for nanoelectromechanical resonator arrays”, Nano Letters 93, 213106 (2008).
prior to 2007, selected
M. Li, H. Tang, M. Roukes, " Ultrasensitive nanoelectromechanical-system based cantilevers for sensing, scanned probe, and very high frequency applications ",
Nature Nanotechnology, 2, 114 (2007)
S. Masmanidis, H. Tang, M. Li, K. Degreve, G. Vermeulen, W. Van Roy, M. Roukes, " Nanomechanical measurements of magnetostriction and magnetic anisotropy in magnetic semiconductors ", Physical Review Letters 95, 187206 (2005)
H. Tang, S. Masmanidis, R. Kawakami, D. Awschalom, M. Roukes, " Negative intrinsic resistivity of an individual domain wall in epitaxial (Ga,Mn)As microdevices ", Nature, 431, 52 (2004).
H. Tang, R. Kawakami, D. Awschalom, M. Roukes, " Giant Planar Hall Effect in (Ga,Mn)As devices ", Physical Review Letters 90, 107201 (2003).
H. Tang, H. Huang, W. Wegscheider, M. Roukes, " Two-dimensional electron-gas actuation and transduction for GaAs nanoelectromechanical systems ", Applied Physics Letters , 81, 3879 (2002).