Because of Covid19, CLEO 2020 will not be a regular conference in San Jose. But it will be held online. So, no reason to travel, just enjoy CLEO from the comfort of your home!
Plus, registration is for free ! And there is a lot going on for Kerr frequency combs. The five sessions listed below are dominated by contributions on Kerr frequency combs and I counted over 60 individual contributions between Monday and Friday. See further down.
Sessions:
Tuesday, 12 May, 13:00 – 15:00: Integrated Frequency Combs (STu3H) Wednesday, 13 May, 13:00 – 15:00: Frequency Combs I (SW3J) Wednesday, 13 May, 17:00 – 19:00: Frequency Combs II (SW4J) Thursday, 14 May, 14:00 – 16:00: Nonlinear Microresonators (FTh3J) Friday, 15 May, 10:30 – 12:30: Nonlinear Optics in Waveguides and Microresonators (SF2B)
And below a list of all relevant contribution I could find.
Monday, 11 May
Tuesday, 12 May
12:12 – 12:24 Generation of Kerr frequency comb aligned with ITU-T DWDM grid for telecom applications (JTU2C.7) Tamiki Ohtsuka, Keio University 13:15 – 13:30 Adjustable repetition rate Kerr frequency combs in an integrated silica microring (STu3H.2) Stuart Murdoch, University of Auckland13:45 – 14:00 Ultrafast real-time dynamics of frequency microcomb transitions (STu3H.4) XINGHE JIANG, University of California, Los Angeles14:00 – 14:30 Microresonator Dual-Comb Coherent FMCW LiDAR (ATu3T.4) Anton Lukashchuk, EPFL 14:00 – 14:15 Dark-pulse Kerr combs in linearly coupled microring structures (STu3H.5) Óskar Helgason, Chalmers University of Technology14:15 – 14:30 Turn-Key, High-Efficiency Kerr Comb Source (STu3H.6) Bok Young Kim, Columbia University14:30 – 14:45 Octave-Spanning Frequency Comb Generation in All-Normal-Dispersion Silicon-Rich Silicon Nitride Waveguide (STu3H.7) Simon Christensen, Technical University of Denmark14:45 – 15:00 Ultra-efficient frequency comb generation in AlGaAs-on-insulator microresonators (STu3H.8) Lin Chang, University of California Santa Barbara15:15 – 16:45 Multi-Spectral Regenerative Frequency Microcombs with Coherent Satellite Clusters (JTu2F.20) Jinghui Yang, Univ. of California Los Angeles 15:15 – 16:45 Boardband Coherent Comb Generation in an All-Normal-Dispersion AlGaAs-on-Sapphire Waveguide (JTu2F.22) Yujun Cheng, Technical University of Denmark 15:15 – 16:45 Monostable Single Dissipative Kerr Soliton Generation in a Periodically Poled Lithium Niobate Microresonator (JTu2F.27) Eugene Tsao, University of Colorado 15:15 – 16:45 Frequency Comb and Ultrashort Pulse Generation in a Normal-Dispersion FP Microresonator with Bandpass Filtering (JTu2F.30) Zeyu Xiao, Shanghai Jiao Tong University 15:15 – 16:45 Universal Conversion Efficiency Scaling with Free-Spectral-Range for Soliton Kerr Combs (JTu2F.32) Jae Jang, Columbia University
Wednesday, 13 May
10:00 – 11:30 Pump frequency noise influence on a microresonator-based soliton frequency comb (JW2B.25) Tomohiro Tetsumoto, IMRA America Inc. 10:00 – 11:30 Wideband High-resolution Spectral Analysis Assisted by Soliton Micro-combs (JW2B.31) Hao Hu, Wuhan National Laboratory for Optoelectr 13:00 – 13:30 Interleaved difference-frequency-generation for mid-infrared microcomb spectral densification (SW3J.1) Chengying Bao, Caltech13:30 – 13:45 Electrically Operated Integrated Optical Dual-Comb Source Based on Microresonators (SW3J.2) Sergey Koptyaev, Samsung R&D Institute Russia13:45 – 14:00 Generation of a dissipative Kerr-microresonator soliton comb pumped by a MHz linewidth DFB laser (SW3J.3) Kenji Nishimoto, Tokushima University14:00 – 14:15 Dynamics of Soliton Microcomb Self-Injection Locking in a Silicon Nitride Microresonator (SW3J.4) Andrey Voloshin, Russian Quantum Center14:15 – 14:30 Post-Fabrication Trimming of Microresonator Frequency Combs for Visible Optical Atomic Clocks (SW3J.5) Gregory Moille, National Institute of Standards and Technology14:30 – 14:45 Ultra-Low Threshold Broadband Soliton Frequency Comb Generation (SW3J.6) Xingchen Ji, Columbia University15:15 – 16:45 Soliton Comb Generation from a Fabry-Pérot Microresonator (JW2F.17) Xiaohan Wang, Nanjing University 15:15 – 16:45 Ultrafast soliton dynamics of micro-combs observed by aberration-free temporal magnifier (JW2F.30) Yanjing Zhao, Wuhan National Lab for Optoelectronics 17:00 – 17:30 Stable Dissipative Kerr Solitons in a AlGaAs Microresonator Through Cryogenic Operation (SW4J.1) Gregory Moille, National Institute of Standards and Technology17:30 – 17:45 Kerr frequency comb generation in photonic integrated Ge-As-S chalcogenide microresonators (SW4J.2) Bin Zhang, Sun Yat-sen University17:45 – 18:00 Soliton Comb Generation in Air-Clad AlN Microresonators (SW4J.3) Yanzhen Zheng, Tsinghua University18:00 – 18:15 AlN microresonators fabricated with standard photolithography for broadband Kerr frequency comb generation (SW4J.4) Haizhong Weng, Trinity College Dublin18:15 – 18:30 A Deterministic Method for Obtaining Large-Bandwidth Frequency Combs in Microresonators with Thermal Effects (SW4J.5) Zhen Qi, University of Maryland Baltimore County18:30 – 18:45 Observation of Islands of Stability in the Chaotic Regime of Kerr Frequency Combs (SW4J.6) Futai Hu, University of California, Los Angeles18:45 – 19:00 Photonic RF fractional Hilbert transformers and filters based on integrated soliton crystal microcombs (SW4J.7) David Moss, Swinburne University of Technology
Thursday, 14 May
8:00 – 9:00 Stabilizing Chip-scale Combs and Infrared Sources: A Metrological View on the Molecular World (STh1N.1) Paolo De Natale, Istituto Nazionale di Ottica-CNR 8:30 – 8:45 Laser Self-Injection Locked Frequency Combs in a Normal GVD Integrated Microresonator (STh1O.3) Grigory Lihachev, Ecole Polytechnique Federale de Lausanne8:45 – 9:00 Demonstration of PAM-4 Data Transmission from a Modulation Instability Induced Frequency Comb (STh1O.4) Chinmay Shirpurkar, CREOL, The College of Optics & Photonics9:15 – 9:30 Semiconductor laser integration for octave-span Kerr-soliton frequency combs (STh1O.6) Travis Briles, NIST-Boulder9:30 – 10:00 Monolithic piezoelectric control of integrated soliton microcombs (STh1O.7) Junqiu Liu, Ecole Polytechnique Federale de Lausanne10:00 – 11:30 Two-soliton Microcombs Enabled Reconfigurable Microwave Photonic Filters (JTh2B.18) Jianqi Hu, Swiss Federal Institute of Technology in Lausanne (EPFL) 10:00 – 11:30 Integrated Lithium Niobate Modulator and Frequency Comb Generator Based on Fabry-Perot Resonators (JTh2B.27) Mengyue Xu, Sun Yat-Sen University 11:12 – 11:24 Efficient Kerr comb generation aligned with ITU-T grid for DWDM telecom applications (JTh2C.2) KOSHIRO WADA, Keio University11:30 – 13:00 KerrMicrocomb Generation With Self-injection Locked Distributed Feedback Diode Laser (JTh2E.22) Liyun Hao, Nanjing University 11:30 – 13:00 Optical frequency comb generation using low stress reactive sputtered silicon nitride waveguides (JTh2F.17) Andreas Frigg, RMIT University 11:12 – 11:24 Efficient Kerr comb generation aligned with ITU-T grid for DWDM telecom applications (JTh2C.2) KOSHIRO WADA, Keio University14:00 – 14:15 Persistence of extreme events in microresonators (FTh3J.1) Abhinav Vinod, University of California Los Angeles14:15 – 14:30 Resonant dissipative Kerr soliton supercontinuum in the normal dispersion regime (FTh3J.2) Miles Anderson, Ecole Polytechnique Federale de Lausanne14:30 – 14:45 On-Chip Synchronization of Kerr Frequency Combs (FTh3J.3) Jae Jang, Columbia University14:45 – 15:00 Impact of Spatio-temporal Thermal Decoherence on Soliton Microcombs In Multimode Microresonators (FTh3J.4) Qifan Yang, California Institute of Technology15:00 – 15:15 Multistability-Enabled Complex Soliton Dynamics in a Bichromatically Driven Optical Microresonator (FTh3J.5) Wenle Weng, Ecole Polytechnique Federale de Lausanne15:30 – 15:45 Optical Parametric Oscillation Using 4H-SiC-on-Insulator Nanophotonics (FTh3J.7) Melissa Guidry, Stanford University15:45 – 16:00 Observation of internally-pumped parametric oscillation and initial stages of χ(2) comb generation in a lithium niobate microresonator (FTh3J.8) Ian Hendry, University of Auckland16:30 – 17:00 Ring Laser Frequency Combs Enabled by Phase Turbulence and Their Connection to Kerr Combs (STh4E.1) Marco Piccardo, Harvard University21:30 – 21:45 Single Dark-Pulse Kerr Comb Supporting 1.84 Pbit/s Transmission over 37-Core Fiber (JTh4A.7) Asbjørn Jørgensen, University of Copenhagen
Friday, 15 May
8:00 – 8:15 Wide-band Millimeter-wave Synthesizer by Integrated Microcomb Photomixing (SF1O.1) Jizhao Zang, National Institute of Standards and Technology 8:15 – 8:30 Ultra-efficient RF photonics filter based on an AlGaAs-on-insulator integrated Kerr frequency comb source (SF1O.2) Haowen Shu, Peking University8:30 – 9:00 Microcombs Based on Laser Cavity Solitons (SF1G.3) Alessia Pasquazi, University of Sussex 10:30 – 10:45 Perfect soliton crystals on demand (SF2B.1) Yang He, University of Rochester10:45 – 11:00 Extended access to self-disciplined platicon generation in normal dispersion regime via intensity-modulated pump (SF2B.2) Hao Liu, University of California Los Angeles11:30 – 12:00 Ultrastable THz Wave Generation using a Soliton Microcomb (SF2G.5) Shuangyou zhang, National Physical Laboratory11:45 – 12:00 Large-frequency-shift tunable parametric oscillation in a Kerr microresonator (SF2B.5) Stuart Murdoch, University of Auckland12:00 – 12:15 Spectral Multiplexing of Dissipative Kerr Solitons in a Single Optical Microresonator (SF2B.6) Maxim Karpov, Lab. of Photonics and Quantum Measuremen14:00 – 14:15 Integrated Photonic Interposers for Processing Octave-Spanning Microresonator Frequency Combs (SF3O.1) Ashutosh Rao, National Institute of Standards and Technology15:00 – 15:15 Integrated Turnkey Soliton Microcombs Operated at CMOS Frequencies (SF3O.4) Boqiang Shen, California Institute of Technology
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