Kerr combs @ CLEO2021

The CLEO conference is starting soon, as usual, here is a list of the many comb-related talks at the conference.

The conference will be virtual again this year, the times given here are in UTC-7 timezone (San Jose’s time).

Monday

Date	Talk
SM1G.1 Mon 05:00 (15 min)	Dual-Comb Digital Holography With High Spectral Resolution ; Edoardo Vicentini, Istituto di Fotonica e Nanotecnologie, Consiglio Nazionale delle Ricerche
SM1G.2 Mon 05:15 (15 min)	High-Precision and Large-Dynamic-Range Three-Dimensional Surface Profilometry by Comb-Based Time-of-Flight Detection ; Yongjin Na, Korea Advanced Inst of Science & Tech
SM1G.4 Mon 05:45 (15 min)	Simultaneous Detection of Distance and Velocity via Asymmetric Carrier-Suppressed Double Sideband Modulation With a Kerr-Microresonator Soliton Comb ; Hiroki Kitora, Tokushima Univ.
SM1G.5 Mon 06:00 (15 min)	Carrier-Free Dual-Comb Distance Metrology Using Two-Photon Detection ; Hollie Wright, Heriot-Watt Univ.
SM1A.2 Mon 05:15 (15 min)	Hertz-Level-Linewidth Semiconductor Laser via Injection Locking to an Ultra-High Q Silicon Nitride Microresonator ; Warren Jin, Univ. of Cal. Santa Barbara
FM1N.2 Mon 05:30 (15 min)	High-Dimensional Frequency-bin Tomography With Random Measurements ; Hsuan-hao Lu, Purdue Univ.
SM1C.3 Mon 05:30 (15 min)	Optical-Optical Double-Resonance Spectroscopy of Methane Using a Cavity-Enhanced Comb Probe ; Vinicius Silva De Oliveira, Umea Univ.
SM1C.5 Mon 06:00 (30 min)	Dual Species Frequency Comb Cooling ; Damir Aumiler, Inst. of Physics
SM1E.5 Mon 06:15 (15 min)	Kilometer-Range Distributed Acoustic Sensing by Time-Expanded Phase-Sensitive Time-Domain Reflectometry ; Vicente Durán, Univ. Jaume I
SM1H.7 Mon 06:30 (15 min)	Low-Noise, Frequency-Agile, Hybrid Integrated Lasers for LiDAR ; Grigorii Likhachev, EPFL
SM1K.6 Mon 06:30 (15 min)	Y-Coupled THz Quantum Cascade Laser Frequency Comb ; Urban Senica, ETH Zurich
AM3E.1 Mon 12:00 (15 min)	Designer Terahertz Frequency Comb Generation ; Dominik Theiner, TU Wien
AM3E.3 Mon 12:30 (30 min)	Dual Frequency Comb Applications in Atmospheric Sensing, Ranging, and Timing ; Nathan Newbury, Natio. Inst of Standards & Tech.
AM3E.7 Mon 13:45 (15 min)	Calibration of Electronic Distance Meters Using Autocorrelation of Femtosecond Pulses ; Osama Terra, Natio. Inst. of Standards, Egypt
AM3Q.1 Mon 12:00 (30 min)	Fielded Dual Frequency Comb Spectrometry for Methane Emissions From Oil & Gas ; Caroline Alden, LongPath Tech., Inc.
SM3A.4 Mon 12:45 (15 min)	Mid-Infrared Cross-Comb Spectroscopy Using Sum-Frequency Sampling ; Mingchen Liu, Cal. Inst. of Tech.
SM3A.6 Mon 13:15 (30 min)	Mid-Infrared Dual-Comb Spectroscopy With GHz Resolution Using Soliton Microcombs ; Chengying Bao, Caltech
FM3M.6 Mon 13:15 (15 min)	Quantification of High-Dimensional Energy-Time Entanglement in a Biphoton Frequency Comb ; Kai-chi Chang, UCLA
JM3F.5 Mon 13:30 (15 min)	Time-Resolved Detection of Phase-Coherent Biphoton Frequency Combs From Si3N4 Microring ; Karthik Myilswamy, Purdue Univ.
FM4H.1 Mon 15:00 (30 min)	Kerr-Microresonator Frequency Combs: Designing Light-Light Interactions for on-Chip Precision Metrology ; Tara Drake, Univ. of New Mexico
FM4H.3 Mon 15:45 (15 min)	Zero-Dispersion Solitons in Microresonators With Octave-Spanning Dispersive Wave Formation ; Miles Anderson, Swiss Fed. Inst. of Tech. in Lausanne (EPFL)
FM4H.4 Mon 16:00 (15 min)	**Continuous-Wave Electron-Photon Interactions Using Chip-Based High-Q Si\_3N\_4 Microresonator** ; Arslan Raja, EPFL
FM4H.6 Mon 16:30 (15 min)	Universal Flip-Flopping and Self-Symmetrization of Symmetry-Breaking Dynamics in Passive Kerr Resonators ; Stephane Coen, The Univ. of Auckland
FM4H.7 Mon 16:45 (15 min)	Real-Time Study of Coexisting States in Laser Cavity Solitons ; Pierre-henry Hanzard, Univ. of Sussex
SM4B.1 Mon 15:00 (15 min)	Nonlinear Frequency Conversion in the Hybrid Silicon Nitride – Lithium Niobate Integrated Platform ; Mikhail Churaev, EPFL
FM4M.2 Mon 15:30 (15 min)	Multiplexed and Broadband Quantum Storage of Single-Photons at Telecom C-Band ; Qiang Zhou, Univ. of Electronic Science and Tech. of China
SM4N.3 Mon 15:30 (15 min)	Mode-Resolved Cavity-Enhanced Vernier Spectroscopy Using an Interband Cascade Laser Frequency Comb ; Lukasz Sterczewski, Cal. Inst. of Tech.
SM4N.4 Mon 15:45 (30 min)	Electronic Fingerprint Spectroscopy ; Birgitta Bernhardt, Graz Univ. of Tech.
SM4L.7 Mon 16:30 (15 min)	Fully-Resonant Second Harmonic Generation in Periodically Poled Thin-Film Lithium Niobate ; Timothy Mckenna, Stanford Univ.

Tuesday

Date	Talk
JTu1I.1 Tue 05:00 (20 min)	Photonic Systems Engineering: a Structured Approach to Positioning, Navigation and Timing Using Microresonators ; Ying Lia Li, UCL
STu1D.1 Tue 05:00 (15 min)	Experimental Demonstration of Dynamic Spatiotemporal Structured Beams That Exhibit Two Orbital-Angular-Momenta Simultaneously Using a Kerr Frequency Comb ; Kai Pang, Univ. of Southern Cal.
STu1D.5 Tue 06:00 (15 min)	Gain-Assisted Microcomb Dual-Soliton Manipulation ; Teng Tan, Univ. of Electronic Science & Tech. of China
STu1F.1 Tue 05:00 (15 min)	inTegrated Gallium Nitride Microresonators for Broadband Kerr Comb Generation ; Yanzhen Zheng, Tsinghua Univ.
STu1F.2 Tue 05:15 (15 min)	>30 dB Suppression of Intrinsic Backscattering in Whispering-Gallery-Mode Microresonator ; Andreas Svela, Imperial College London
STu1H.2 Tue 05:30 (15 min)	Self-Starting Harmonic Combs in THz Quantum Cascade Lasers ; Andres Forrer, ETH Zurich
STu1H.3 Tue 05:45 (15 min)	All-Mid-Infrared Stabilized Quantum Cascade Laser Frequency Comb With 30-kHz Frequency Stability at 7.7 µm ; Kenichi Komagata, Laboratoire Temps-Fréquence
STu1J.3 Tue 05:45 (15 min)	Electrically Controllable Microlaser Combs in Graphene-Fiber Microresonators ; Chenye Qin, Univ. of Electronic Science & Tech. of China
STu1J.4 Tue 06:00 (15 min)	Comb-Locked Telecom-Grade Tunable Laser Using a low-Cost FPGA-Based Lockbox ; Zitong Feng, Univ. of southampton
ATu1S.6 Tue 06:45 (15 min)	Proof-of-Principle Frequency-Bin Quantum Key Distribution With Biphoton Frequency Combs ; Murat Sarihan, Univ. of Cal.,Los Angeles
ATu2T.1 Tue 08:00 (30 min)	Quantum Engineering of Broadband Quantum Cascade THz Lasers Operating as Fully Stabilized Optical Frequency Comb Synthesizers ; Miriam Vitiello, Scuola Normale Superiore di Pisa
ATu2T.3 Tue 09:00 (15 min)	High Spectral Purity Chip-Scale Tunable THz Radiation Source ; Wenting Wang, Univ. of Cal. Los Angeles
STu2D.1 Tue 08:00 (15 min)	Transfer Oscillator Technique for 10 GHz Generation With Ultra-Low Phase Noise < -100 dBc/Hz at 1 Hz Offset ; Nicholas Nardelli, NIST
STu2D.2 Tue 08:15 (15 min)	Fiber-Integrated Supercontinuum With a 20 GHz Resonant Electro-Optic Frequency Comb ; Pooja Sekhar, Univ. of Colorado Boulder
STu2D.3 Tue 08:30 (15 min)	An Ultralow Phase Noise 300 GHz Wave Based on Optical Frequency Division via an Integrated Dissipative Kerr Soliton Comb ; Antoine Rolland, IMRA America Inc.
STu2D.4 Tue 08:45 (15 min)	(Withdrawn) Balanced Photodetection With Photocurrent Pulse Shaping for low Phase Noise Microwave Extraction From Combs ; Minji Hyun, Korea Advanced Inst of Science & Tech
STu2D.5 Tue 09:00 (15 min)	Emergence of Laser Cavity-Solitons in a Microresonator-Filtered Fiber Laser ; Maxwell Rowley, Univ. of Sussex
STu2D.6 Tue 09:15 (15 min)	On Spectral Purity of a Soliton Microcomb as a Function of Pump Detuning and Mode Temperature ; Tomohiro Tetsumoto, IMRA America Inc.
STu2G.1 Tue 08:00 (30 min)	Octave-Spanning Lithium Niobate Soliton Microcombs ; Yang He, Univ. of Rochester
STu2G.2 Tue 08:30 (15 min)	High-Efficiency and Broadband Electro-Optic Frequency Combs Using Coupled Lithium-Niobate Microresonators ; Yaowen Hu, Harvard Univ.
STu2G.3 Tue 08:45 (15 min)	Raman-Kerr Combs in High-Q Chalcogenide Microresonators Coupled to Silicon Waveguides ; Philippe Jean, Laval Univ.
STu2G.4 Tue 09:00 (15 min)	Mode-Locked Dark-Pulse Kerr Combs in Normal-Dispersion AlGaAs-on-Insulator Microresonators ; Haowen Shu, Peking Univ.
STu2G.6 Tue 09:30 (15 min)	Formation, Persistence and Statistics of Rogue Events in Microresonators ; Abhinav Vinod, Univ. of Cal. Los Angeles
STu2A.2 Tue 08:15 (15 min)	Application of Refractive-Index-Sensing Optical Frequency Comb for Biosensing of Antigen-Antibody Reaction ; Takeshi Yasui, Tokushima Univ.
STu2A.6 Tue 09:30 (15 min)	Nanometric Precision Metrology Based on Hybrid Spectrally-Resolved and Homodyne Interferometry via a Single Soliton Microcomb ; Hao Liu, Univ. of Cal. Los Angeles
STu2A.7 Tue 09:45 (15 min)	Limits of Resolution for Sensors Based on Correlated Frequency Combs ; Jean-claude Diels, Univ. of New Mexico
STu2Q.2 Tue 08:15 (15 min)	High-Yield, Wafer-Scale Fabrication of Ultralow-Loss, Dispersion-Engineered Silicon Nitride Photonic Circuits ; Junqiu Liu, Ecole Polytechnique Fed. de Lausanne
FTu2L.3 Tue 08:30 (15 min)	Exceptional Point Dispersion Engineering ; Ali Eshaghian Dorche, Georgia Inst. of Tech.
FTu2J.6 Tue 09:15 (15 min)	Carrier-Envelope Phase Dependence of High-Harmonics Generated With a Frequency Comb ; Daniel Lesko, Univ. of Colorado Boulder
FTu2J.7 Tue 09:30 (15 min)	Toward a Tunable VUV Frequency Comb for 229mTh Nuclear Spectroscopy ; Chuankun Zhang, Natio. Inst. of Standards and Tech.
FTu2J.8 Tue 09:45 (15 min)	Octave-Spanning Dissipative Kerr Soliton Frequency Comb in an AlN Microring Resonator ; Haizhong Weng, Trinity College Dublin
JTu2I.4 Tue 09:15 (15 min)	a High Accuracy Cavity Optomechanical Accelerometer With Electro-Optic Frequency Comb Readout ; David Long, NIST
STu2B.5 Tue 09:15 (15 min)	Error-Free Kerr Comb-Driven SiP Microdisk Transmitter ; Asher Novick, Columbia Univ.
STu2E.3 Tue 09:15 (15 min)	2 µm all-Fiber Frequency Comb Providing Single Cycle Pulses and a 2-Octave Spectrum ; Sida Xing, NIST
FTu4E.1 Tue 17:00 (30 min)	Dirac Solitons in Optical Microresonators ; Heming Wang, Cal. Inst. of Tech.
FTu4E.3 Tue 17:45 (15 min)	Dark-Pulse Dynamics and Directional Switching in Photonic-Crystal Ring Resonators ; Erwan Lucas, Natio. Inst. of Standards and Tech.
FTu4E.5 Tue 18:15 (15 min)	Tunable Kerr Combs in a Normal Dispersion Pulse-Driven Mini-Resonator ; Stuart Murdoch, Univ. of Auckland
FTu4E.6 Tue 18:30 (15 min)	Soliton Slingshot in Over-Moded Microresonators ; Teng Tan, Univ. of Electronic Science & Tech. of China
FTu4E.7 Tue 18:45 (15 min)	Dark- and Bright-Pulse States in Photonic Crystal Ring Resonators ; Su-peng Yu, Natio. Inst. of Standards & Tech.

Wednesday

Date	Talk
SW2H.1 Wed 09:00 (15 min)	Gain-Switched Semiconductor Laser Driven Soliton Microcombs ; Wenle Weng, Ecole Polytechnique Fed. de Lausanne
SW2H.2 Wed 09:15 (15 min)	a Method for Increasing Thermal Stability of Short-Living Solitons in Silicon Nitride Microresonators ; Federico Sabattoli, Univ. of Pavia
SW2H.3 Wed 09:30 (15 min)	Synchronization of Normal-GVD Kerr Combs ; Bok Young Kim, Columbia Univ.
SW2H.4 Wed 09:45 (15 min)	Subharmonic Synchronization of Soliton Microcomb Breathing Oscillations to Periodic Forces ; Jordan Stone, NIST
SW2H.6 Wed 10:30 (15 min)	Zero-Dispersion Soliton Generation in a High-Q Fiber Fabry-Pérot Microresonator ; Zeyu Xiao, Shanghai Jiao Tong Univ.
SW2H.7 Wed 10:45 (15 min)	Optical Dual-Comb Vernier Division of an Octave-Spanning Kerr Microcomb ; Nathan O’malley, Purdue Univ.
AW2E.4 Wed 10:30 (15 min)	Optical Neuromorphic Processing Based on Kerr Microcombs ; David Moss, Swinburne Univ. of Tech.
AW3S.2 Wed 12:30 (15 min)	Megapixel per Second Hardware Efficient LiDAR Based on Microcombs ; Anton Lukashchuk, EPFL
AW3S.4 Wed 13:00 (15 min)	A Pulsed-Coherent Lidar System With a Chip Based Optical Frequency Comb ; Li-yang Chen, Univ. of Cal., Los Angeles
SW3B.4 Wed 12:45 (15 min)	High Repetition Rate Detection With Dual-Comb Vernier Frequency Division in Microresonators ; Zijiao Yang, Univ. of Virginia
JW3G.5 Wed 13:20 (25 min)	Mid-Infrared Photonics for Frequency-Comb Generation and Dual-Comb Spectroscopy ; Nathalie Picqué, Max-Planck-Inst. fur Quantenoptik
SW3R.6 Wed 13:30 (15 min)	Frequency Comb-Like High Energy gas-Filled Fiber Raman Laser Spanning From 1.68 µm to 2.4 µm ; Yazhou Wang, Technical Univ. of Denmark
SW4A.1 Wed 15:00 (15 min)	Rapid and Large Scanning of a Microresonator Soliton Comb With the Frequency-Shift Tracking of all Comb Modes ; Naoya Kuse, Tokushima Univ.
SW4A.2 Wed 15:15 (15 min)	Generation of High-Power, High-Coherence Millimeter-Wave Using Microresonator Solitons ; Beichen Wang, Univ. of Virginia
SW4A.3 Wed 15:30 (15 min)	Stable Formation of Multiple Solitons in an Optical Microresonator Assisted by Saturable Absorption ; Ayata Nakashima, Keio Univ.
SW4A.4 Wed 15:45 (15 min)	Broadband Dual-Pumped Normal-GVD Kerr Combs ; Yoshitomo Okawachi, Columbia Univ.
SW4A.5 Wed 16:00 (30 min)	Ultra-Broadband Dissipative Kerr Soliton Microcomb Through Dual Pumping Operation ; Gregory Moille, Joint Quantum Inst.
SW4A.6 Wed 16:30 (15 min)	Fully Integrated Broad-Band High Power Frequency Comb Based on a Multimode Gain Chip ; Andres Gil-molina, Columbia Univ.

Thursday

Date	Talk
STh1L.1 Thu 04:00 (30 min)	Generation, Nonlinear Conversion and Applications of Mid-IR Ultrashort Pulses ; Irina Sorokina, Norges Teknisk Naturvitenskapelige Univ
STh1L.3 Thu 04:45 (15 min)	0.5-W Few-Cycle Frequency Comb at 4 μm From an Efficient Simulton-Based Optical Parametric Oscillator ; Robert Gray, Cal. Inst. of Tech.
STh1C.3 Thu 04:45 (15 min)	151-as Jitter, 22-GHz Pulse Train From a Silica Microcomb ; Dohyeon Kwon, Korea Advanced Inst. of Science and Tech.
STh1C.5 Thu 05:15 (15 min)	Synchronization of an Optical Frequency Comb and a Microwave Oscillator With -174 dBc/Hz Noise Floor ; Changmin Ahn, KAIST
STh1I.4 Thu 04:45 (15 min)	Active Demultiplexer-Enabled 300G 16-QAM SSB-DMT Transmission Using Optical Frequency Combs ; Syed Ahmad, Dublin City Univ.
FTh2P.1 Thu 07:00 (15 min)	Brillouin Optomechanics in Whispering-Gallery-Mode Microresonators: From Strong Coupling to Single-Phonon Addition and Subtraction ; Michael Vanner, Imperial College London
STh2L.2 Thu 07:15 (15 min)	Fully-Stabilized Mid-Infrared Optical Frequency Comb With Dynamic Offset Frequency Tuning ; Mikhail Roiz, Univ. of Helsinki
STh2E.3 Thu 07:30 (15 min)	Direct Hyperspectral Dual-Comb Imaging: Ultrafine Spectral and High Temporal Resolutions ; Farid Ullah Khan, Univ. Carlos III de Madrid
STh2E.4 Thu 07:45 (60 min)	Open-Path Sensing With Frequency Combs ; Kevin Cossel, NIST-Boulder
STh2H.7 Thu 08:30 (15 min)	Probing the Material Loss and Optical Nonlinearity of Integrated Photonic Materials ; Maodong Gao, Cal. Inst. of Tech.
ATh4G.2 Thu 13:30 (0 min??)	Optical Frequency Combs From Semiconductor Lasers: Characterization, Stabilization, and Applications ; Thomas Südmeyer, Univ. de Neuchatel
STh4A.3 Thu 13:30 (30 min)	Precision Measurements With Optical Frequency Combs: From Absolute Frequencies to Two-Way Time Transfer ; Holly Leopardi, Space Dynamics Laboratory
STh4A.4 Thu 14:00 (15 min)	Differential Spectroscopy of Atomic Clocks for Improved Measurement Instability ; Nicholas Nardelli, NIST

Friday

Date	Talk
SF2D.1 Fri 07:00 (30 min)	Petabit per Second Data Transmission Using an Integrated Optical Frequency Comb and Multicore Fiber ; Michael Galili, Technical Univ. of Denmark
SF2F.2 Fri 07:15 (15 min)	Comb Injection Into a Single-Mode Laser ; Dominik Auth, Technische Univ. Darmstadt
SF2F.3 Fri 07:30 (15 min)	Ultra-Stable 25.5 GHz Quantum dot Mode-Locked Frequency Comb Operating up to 120 °C ; Shujie Pan, Univ. College London
SF2A.4 Fri 07:45 (15 min)	Impact of Stoichiometric Silicon Nitride Growth Conditions on Dispersion and Broadband Kerr Microcombs in the Near-Visible ; Gregory Moille, Joint Quantum Inst.
SF2O.4 Fri 08:00 (15 min)	Broadband UV-Vis Frequency Combs From High-Harmonic Generation in Quasi-Phase-Matched Waveguides ; Jay Rutledge, Stony Brook Univ.
FF2E.4 Fri 08:30 (30 min)	PORT: Piezoelectric Optical Resonant Transducer ; Sunil Bhave, Purdue Univ.

Posters

Ref	Poster
JTh3A.112	Gating Artefact in the Coupled-Wave-Equations Modeling of Classical and Quantum Kerr Nonlinear Effects ; Hossein Taheri, Univ. of Cal. Riverside
JTh3A.31	Perfect Soliton Crystal in an AlN Microresonator ; Haizhong Weng, Trinity College Dublin
JTh3A.38	Experimental Investigation of Tunable Acousto-Optic Frequency Combs ; Andrey Voloshin, Russian Quantum Center
JTu3A.138	Sampling sub-THz Phase Noise in Frequency Microcombs via Fiber Interferometry ; Wenting Wang, Univ. of Cal. Los Angeles
JTu3A.175	Coupling Scaling for High-Efficient Cnoidal Wave Generation in Microresonators ; Pei-hsun Wang, Natio. Central Univ.
JTu3A.48	a Self-Oscillating Phase Conjugate Resonator as an Optical Frequency Comb ; Zhifan Zhou, Univ. of Maryland
JTu3A.63	Maximizing the Efficiency of χ(2) Processes in Microresonators ; Yun Zhao, Columbia Univ.
JTu3A.95	Automatically Mapping the Stable Regions of Frequency Combs in Microresonators ; Logan Courtright, Univ. of Maryland, Baltimore County
JW1A.101	Integrated Ge-Sb-S Chalcogenide Raman Laser ; Bin Zhang, Sun Yat-Sen Univ.
JW1A.107	High-Quality-Factor Chalcogenide Microresonators With Low Parametric Oscillation Threshold ; Bin Zhang, Sun Yat-Sen Univ.
JW1A.112	25.6 Tbps Pre-Compensated Waveform Propagation Using Optical Frequency Comb Synthesizer/Analyzer ; Nasrin Sultana, Hajee Mohammad Danesh Science and Tech. Univ.
JW1A.114	Multi-Color Method for the Correction of Air Refractive Index Based on Dispersive Interferometry of Optical Frequency Comb ; Shilin Xiong, Tsinghua Univ.
JW1A.15	Mechanism and Sensitivity of Fano Resonance Tuning in High-Contrast Gratings ; Hsin-yu Yao, Natio. Tsing Hua Univ.
JW1A.167	Stability of Lithium Niobate Integrated Photonics in Nonlinear and Metrology Applications ; Victor Brasch, CSEM
JW1A.51	Narrow-Linewidth Optical Frequency Comb Reference to a Fiber Delay Line ; Haochen Tian, Tianjin Univ.
JW1A.59	Phase Noise Reduction of a Dissipative Kerr-Microresonator Soliton Comb by a Sideband Cooling ; Naoya Kuse, Tokushima Univ.
JW1A.6	Soliton Blockade and Symmetry Breaking in Microresonators ; Zhiwei Fan, Univ. of Bath
JW1A.85	Ultrafast Phenomena Induced in Crystal by one-Shot Three-Dimensional Imaging With Optical Frequency Comb ; Takashi Kato, The Univ. of Electro-Communications

This work is licensed under a Creative Commons Attribution 4.0 International License.