Publications

• C. Cui, L. Zhang, L. Fan, “Control spontaneous symmetry breaking of photonic chirality with reconfigurable anomalous nonlinearity”, arXiv 2208.04866.

• L. Zhang, C. Cui, J. Yan, Y. Guo, J. Wang, L. Fan, “On-chip parallel processing of quantum frequency combs for high-dimensional hyper-entanglement generation”, arXiv 2111.12784.

• B. Zhang, J. Wu, L. Fan, Q. Zhuang, “Entangling remote microwave quantum computers with hybrid entanglement swap and variational distillation”, arXiv 2206.14682.

• D. Anderson, M. Shah, L. Fan, “Clarification of exceptional point contribution for photonic sensing”, arXiv 2207.10198.

• C. Cui, L. Zhang, L. Fan, “In situ control of effective Kerr nonlinearity with Pockels integrated photonics”, Nature Physics, 18, 497 (2022).

• P. K. Chen, I. Briggs, S. Hou, L. Fan, “Ultra-broadband quadrature squeezing with thin-film lithium niobate nanophotonics”, Optics Letters, 47, 1506 (2022).

• Y. Xu, A. Sayem, L. Fan, C. L. 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, 4453 (2021).

• J. Wu, C. Cui, L. Fan, Q. Zhuang, “Deterministic microwave-optical transduction based on quantum teleportation”, Physical Review Applied, 16, 064044 (2021).

• C. Cui, L. Zhang, L. Fan, “Photonic analog of Mollow triplet with on-chip photon-pair generation in dressed modes”, Optics Letters, 46, 4753 (2021).

• I. Briggs, S. Hou, C. Cui, L. Fan, “Simultaneous type-I and type-II phase matching for second-order nonlinearity in integrated lithium niobate waveguide”, Optics Express, 29, 26183 (2021).

• M. Shah, L. Fan, “Frequency superresolution with spectrotemporal shaping of photons”, Physical Review Applied, 15, 034071 (2021).

• C. Cui, C. Gagatsos, S. Guha, L. Fan, “High-purity pulsed squeezing generation with integrated photonics”, Physical Review Research, 3, 013199 (2021).

• L. Fan, X. Yan, H. Wang, L. V. Wang, “Real-time single-shot spatial-temporal observation of optical chaos”, Science Advances, 7, eabc8448 (2021).

• Y. Xu, A. Sayem, C. L. Zou, L. Fan, R. Cheng, H. Tang, “Photorefraction-induced Bragg scattering in cryogenic lithium niobate ring resonators”, Optics Letters, 46, 432 (2021).

• C. Cui, K. Seshadreesan, S. Guha, L. Fan, “High-dimensional frequency-encoded quantum information processing with time-resolving detection”, Physical Review Letters, 124, 190502 (2020).

• L. Fan, “Squeezed light goes flexible”, Frontiers of Physics, 16, 1 (2020).

• L. Fan, C. Zou, N. Zhu, H. Tang, “Spectro-temporal shaping of itinerant photons via distributed nanomechanics”, Nature Photonics, 13, 323 (2019).

• 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).

• 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 Advances, 4, 4994 (2018).

• 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).

• 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).

• 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).

• C. Schuck, X. Guo, L. Fan, X. Ma, M. Poot, H. Tang, “Quantum interference in heterogeneous superconducting-photonic circuits on a silicon chip”, Nature Communications, 7, 10352 (2016).

• L. Fan, K. Fong, M. Poot, H. Tang, “Cascaded optical transparency in multimode cavity optomechanical systems”, Nature Communications, 6, 5850 (2015).

• K. Fong, L. Fan, L. Jiang, X. Han, H. Tang, “Microwave-assisted coherent and nonlinear control in cavity piezo-optomechanical systems”, Physical Review A, 90, 051801 (2014).

• M. Bagheri, M. Poot, L. Fan, F. Marquardt, H. Tang, “Photonic cavity synchronization of nanomechanical oscillators”, Physical Review Letters, 111, 213902 (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).

• C. Xiong, L. Fan, X. Sun, H. Tang, “Cavity piezooptomechanics: Piezoelectrically excited, optically transduced optomechanical resonators”, Applied Physics Letters, 102, 021110 (2013).

• Z. Fang, Y. Zhen, L. Fan, X. Zhu, P. Nordlande, “Tunable wide-angle plasmonic perfect absorber at visible frequencies”, Physical Review B, 85, 245401 (2012).

• Z. Fang, L. Fan, C. Lin, D. Zhang, A. Meixner, X. Zhu, “Plasmonic coupling of bow tie antennas with Ag nanowire”, Nano Letters, 11, 1676 (2011).

• Z. Fang, Y. Lu, L. Fan, C. Lin, X. Zhu, “Surface plasmon polariton enhancement in silver nanowire–nanoantenna structure”, Plasmonics, 5, 57 (2010).

• Z. Fang, L. Fan, S. Huang, X. Zhu, “Applications of the surface plasmon polariton in the au nanocircuit”, Journal of the Korean Physical Society, 56, 1725 (2010).