Applications of optical microcombs

Article Optics

2022 Roadmap on integrated quantum photonics

Galan Moody et al.

Summary: Integrated photonics is crucial for the large-scale integration of quantum systems, enabling programmable quantum information processing, chip-to-chip networking, hybrid quantum system integration, and high-speed communications.

JOURNAL OF PHYSICS-PHOTONICS (2022)

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Article Optics

Quantum optics of soliton microcombs

Melissa A. Guidry et al.

Summary: This study utilizes second-order photon correlations to investigate the quantum processes of soliton microcombs in an integrated silicon carbide microresonator, showing that a stable temporal lattice of solitons can achieve all-to-all entanglement.

NATURE PHOTONICS (2022)

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Article Optics

Dissipative Kerr soliton microcombs for FEC-free optical communications over 100 channels

Shun Fujii et al.

Summary: The demand for high-speed and efficient optical communication techniques is growing rapidly due to increasing data traffic. Intensity modulation and direct detection (IM-DD) are promising schemes for intra/inter data centers. This study investigates a microresonator-based frequency comb as a potential light source for future IM-DD optical systems.

OPTICS EXPRESS (2022)

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Article Multidisciplinary Sciences

Ultrastable microwave and soliton-pulse generation from fibre-photonic-stabilized microcombs

Dohyeon Kwon et al.

Summary: The ability to generate low-noise microwaves using chip-scale devices has been greatly improved by combining microcombs with fiber-photonic-based timing references. This compact and stable method enables the generation of ultrastable soliton pulses and microwaves from palm-sized platforms, which has a wide range of applications in high-precision fields.

NATURE COMMUNICATIONS (2022)

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Article Multidisciplinary Sciences

An optical neural network using less than 1 photon per multiplication

Tianyu Wang et al.

Summary: Deep learning is widely used in science and industry, but the growing energy costs of larger neural networks hinder progress. Optical neural networks based on optical dot products offer a potential solution to the energy-cost problem. This study demonstrates an optical neural network achieving high accuracy with extremely low optical energies. The principle demonstrated here can be applied to various optical neural network architectures.

NATURE COMMUNICATIONS (2022)

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Article Optics

Radio-frequency line-by-line Fourier synthesis based on optical soliton microcombs

Beichen Wang et al.

Summary: Radio-frequency (RF) waveform synthesis has extensive applications in wireless communications, radar systems, and electronic testing. Photonic-based approaches with high bandwidth and low phase noise offer significant advantages. In this study, we demonstrate the Fourier synthesis arbitrary waveform generation (AWG) with integrated optical microresonator solitons, showcasing tunable repetition cycles for RF waveforms and presenting a feasible path towards fully integrated photonic-based RF AWG on a chip.

PHOTONICS RESEARCH (2022)

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Article Optics

Octave-spanning microcomb generation in 4H-silicon-carbide-on-insulator photonics platform

Lutong Cai et al.

Summary: The team reported the first demonstration of octave-spanning microcombs on a silicon carbide platform. The broadband operation was achieved through optimized nanofabrication and dispersion engineering, resulting in a microcomb spectrum covering a wavelength range from 1100 nm to 2400 nm.

PHOTONICS RESEARCH (2022)

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Article Multidisciplinary Sciences

Microcomb-driven silicon photonic systems

Haowen Shu et al.

Summary: This research combines microcomb and SiPh technologies to achieve a low-cost and efficient integrated photonics system, providing new solutions in the fields of optical data transmission and microwave photonics.

NATURE (2022)

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Article Multidisciplinary Sciences

An on-chip photonic deep neural network for image classification

Farshid Ashtiani et al.

Summary: This study presents an integrated photonic deep neural network that performs image classification with sub-nanosecond classification time. Optical waves are directly processed to achieve linear computation in each neuron and opto-electronically realized non-linear activation functions, resulting in comparable computation speed and scalability with digital platforms.

NATURE (2022)

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Article Multidisciplinary Sciences

Coherent optical communications using coherence-cloned Kerr soliton microcombs

Yong Geng et al.

Summary: The research demonstrates the regeneration of Kerr soliton microcombs with faithful cloning of frequency and phase, and showcases terabit coherent data interconnect using coherence-cloned soliton microcombs as carriers and local oscillators. This approach improves optical coherent communication by simplifying carrier phase estimation and dispensing with traditional digital processes for frequency offset estimation.

NATURE COMMUNICATIONS (2022)

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Article Optics

Soliton microwave oscillators using oversized billion Q optical microresonators

Lu Yao et al.

Summary: This study demonstrates the fabrication of optical microresonators with large mode volumes, achieving a record-low threshold power of 110 μW for comb operation in millimeter-sized devices and synthesizing X-band microwaves with considerable noise reduction.

OPTICA (2022)

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Article Multidisciplinary Sciences

Self-emergence of robust solitons in a microcavity

Maxwell Rowley et al.

Summary: In open systems far from equilibrium, the states that emerge are determined by a few global parameters. Some of these states can resemble thermodynamic equilibrium, while others require external perturbations. Recent research has shown that the slow non-linearities of a free-running microresonator-filtered fibre laser can transform temporal cavity solitons into the dominant attractor of the system, leading to reliable self-starting oscillation.

NATURE (2022)

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Review Optics

Deep learning for the design of photonic structures

Wei Ma et al.

Summary: Innovative approaches and tools, particularly deep learning, are shaping the field of photonics by offering efficient means to design photonic structures and providing data-driven solutions complementary to traditional physics-based methods. The progress in deep-learning-based photonic design is promising, with various model architectures showing potential applications in specific photonic tasks.

NATURE PHOTONICS (2021)

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Article Optics

Pockels soliton microcomb

Alexander W. Bruch et al.

Summary: Kerr soliton microcombs have been a popular topic in integrated photonics, but Pockels soliton microcombs driven by quadratic photonic materials show unique advantages in nanophotonic platforms, with high soliton generation fidelity and efficient pump-to-soliton conversion.

NATURE PHOTONICS (2021)

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Review Nanoscience & Nanotechnology

Analogue computing with metamaterials

Farzad Zangeneh-Nejad et al.

Summary: Metamaterials provide a platform for ultra-fast computational tasks using optical signals, with wave-based analogue computing systems offering faster speeds and lower power consumption compared to digital processors. Novel schemes based on metamaterials promise a new generation of ultra-fast and efficient computing hardware for applications like image processing and machine learning.

NATURE REVIEWS MATERIALS (2021)

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Review Chemistry, Multidisciplinary

Graphene Oxide for Integrated Photonics and Flat Optics

Jiayang Wu et al.

Summary: Graphene oxide (GO) has shown great potential in integrated photonics for various applications such as photovoltaics, sensing, and nonlinear optics. Significant progress has been made in understanding the optical properties of GO and methods for on-chip integration, but challenges and areas for improvement remain.

ADVANCED MATERIALS (2021)

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Article Optics

Exploiting Ultralow Loss Multimode Waveguides for Broadband Frequency Combs

Xingchen Ji et al.

Summary: Low propagation loss in high confinement waveguides is achieved by shaping the mode using a highly multimode structure to reduce overlap with waveguide interfaces, without the need for sophisticated fabrication processes. Experimental demonstration of microresonators with intrinsic quality factors of 31.8 +/- 4.4 million is provided, showing the generation of a broadband single-soliton frequency comb without higher order modes.

LASER & PHOTONICS REVIEWS (2021)

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Article Multidisciplinary Sciences

Parallel convolutional processing using an integrated photonic tensor core

J. Feldmann et al.

Summary: With the advancement of technology, the demand for fast processing of large amounts of data is increasing, making highly parallelized, fast, and scalable hardware crucial. The integration of photonics can serve as the optical analogue of an application-specific integrated circuit, enabling photonic in-memory computing and efficient computational hardware.

NATURE (2021)

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Article Multidisciplinary Sciences

11 TOPS photonic convolutional accelerator for optical neural networks

Xingyuan Xu et al.

Summary: Inspired by biological visual cortex systems, convolutional neural networks extract hierarchical features of raw data, reducing parameter complexity and improving prediction accuracy. Optical neural networks promise faster computing using broad optical bandwidths, with optical vector convolutional accelerators demonstrating efficient image processing capabilities.

NATURE (2021)

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Article Optics

Dissipative solitons in photonic molecules

Oskar B. Helgason et al.

Summary: The study focuses on the nonlinear dynamics of photonic diatomic molecules in two linearly coupled microresonators, demonstrating the formation of self-enforcing solitary waves when a laser is tuned across a split energy level. The resulting microcomb is coherent, tunable, and reproducible, with high conversion efficiency and spectral flatness, making it suitable for applications in optical communications, spectroscopy, and astronomy.

NATURE PHOTONICS (2021)

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Article Optics

Precise dynamic characterization of microcombs assisted by an RF spectrum analyzer with THz bandwidth and MHz resolution

Ruolan Wang et al.

Summary: This study presents a scheme for measuring the RF spectrum of microcombs using an FP-assisted LISA analyzer, achieving higher precision through compensating for extra dispersion. The research records the RF comb variation characteristics of microcombs in different states, providing insights into the physical mechanism of microcombs. The improved bandwidth and resolution of the FP-assisted LISA enable more precise measurement of RF spectrum.

OPTICS EXPRESS (2021)

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Article Physics, Multidisciplinary

Nanometric Precision Distance Metrology via Hybrid Spectrally Resolved and Homodyne Interferometry in a Single Soliton Frequency Microcomb

Yoon-Soo Jang et al.

Summary: This article introduces a method for high-precision spectral-resolved laser dimensional metrology using a laser frequency comb, which provides information on the optical time-of-flight signature through spectral interferometry. The large free-spectral range and high coherence of the microcomb enable tooth-resolved and high-visibility interferograms that can be directly read out with optical spectrum instrumentation.

PHYSICAL REVIEW LETTERS (2021)

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Article Multidisciplinary Sciences

Dynamics of soliton self-injection locking in optical microresonators

Andrey S. Voloshin et al.

Summary: Soliton microcombs, formed through pump laser self-injection locking, have relaxed the requirements for external laser drives. The Kerr nonlinearity of the microresonator significantly affects the behavior of the laser diode and the locking dynamics, leading to a red-detuned laser emission frequency. The study provides insights for building electrically driven integrated microcomb devices with full control of the dynamics of laser self-injection locking.

NATURE COMMUNICATIONS (2021)

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Article Multidisciplinary Sciences

Soliton microcomb based spectral domain optical coherence tomography

Paul J. Marchand et al.

Summary: The use of dissipative Kerr soliton microcombs in spectral domain optical coherence tomography (OCT) has shown potential for exceeding commercial OCT sources in terms of spectral bandwidth and noise performance, providing superior imaging capabilities.

NATURE COMMUNICATIONS (2021)

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Article Optics

Towards high-power, high-coherence, integrated photonic mmWave platform with microcavity solitons

Beichen Wang et al.

Summary: Researchers have demonstrated the generation of powerful high-frequency radio waves by directing laser-driven microcavity solitons onto tiny photodiodes. This technology could potentially improve bandwidth and resolution in millimeter-wave communication technologies.

LIGHT-SCIENCE & APPLICATIONS (2021)

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Article Optics

Program-controlled single soliton microcomb source

Xinyu Wang et al.

Summary: Soliton microcombs (SMCs) are spontaneously formed in high-quality microresonators, providing a new tool for on-chip frequency comb applications. The experimental demonstration of a program-controlled single SMC source shows the timely balancing of intracavity thermal effects using an auxiliary laser, leading to deterministic single SMC generation. The proposed SMC source shows improved repetition rate stability and continuous pump frequency tuning.

PHOTONICS RESEARCH (2021)

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Article Engineering, Electrical & Electronic

Highly Versatile Broadband RF Photonic Fractional Hilbert Transformer Based on a Kerr Soliton Crystal Microcomb

Mengxi Tan et al.

Summary: This study demonstrates an RF photonic fractional Hilbert transformer based on an integrated Kerr micro-comb source, with tunable bandwidth and center frequencies, as well as high reconfigurability and reduced size and complexity.

JOURNAL OF LIGHTWAVE TECHNOLOGY (2021)

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Review Optics

Photonics for artificial intelligence and neuromorphic computing

Bhavin J. Shastri et al.

Summary: Research in photonic computing is thriving due to the proliferation of optoelectronic components in photonic integration platforms. Photonic integrated circuits have enabled ultrafast artificial neural networks, with algorithms running on such hardware having the potential to address the growing demand for machine learning and artificial intelligence. Neuromorphic photonics offers sub-nanosecond latencies, providing a complementary opportunity to extend the domain of artificial intelligence.

NATURE PHOTONICS (2021)

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Article Optics

Optronic convolutional neural networks of multi- layers with different functions executed in optics for image classification

Ziyu Gu et al.

Summary: This study proposes an optronic convolutional neural network (OPCNN) which combines optics and electronics to reduce computation costs. OPCNN performs well on classification tasks, has a more complex architecture, and good scalability.

OPTICS EXPRESS (2021)

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Article Optics

All-optical RF spectrum analyzer with a 5 THz bandwidth based on CMOS-compatible high-index doped silica waveguides

Yuhua Li et al.

Summary: An all-optical radio-frequency spectrum analyzer with a bandwidth greater than 5 THz was developed based on a 50 cm spiral waveguide in a CMOS-compatible high-index doped silica platform. By optimizing the design to achieve near-zero dispersion in the C-band, the analyzer demonstrated the capability of measuring ultrafast optical RF spectrum in the terahertz regime.

OPTICS LETTERS (2021)

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Article Physics, Multidisciplinary

Brillouin-Kerr Soliton Frequency Combs in an Optical Microresonator

Yan Bai et al.

Summary: By generating a Brillouin laser in an optical microresonator and exciting the Kerr frequency comb in the same cavity, a soliton Kerr microcomb was achieved with narrow-linewidth comb lines and stable repetition rate. The system also demonstrated a low-noise microwave signal with excellent phase noise characteristics, showing promising practical applications.

PHYSICAL REVIEW LETTERS (2021)

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Article Multidisciplinary Sciences

Topological optical differentiator

Tengfeng Zhu et al.

Summary: Spatial differentiation, a form of optical computation, has applications in image processing. The authors utilize nontrivial topological charges in the transfer function to achieve broadband isotropic two-dimensional differentiation.

NATURE COMMUNICATIONS (2021)

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Article Multidisciplinary Sciences

Gain-switched semiconductor laser driven soliton microcombs

Wenle Weng et al.

Summary: The authors have successfully generated dissipative Kerr solitons with stable repetition rates and low optical power threshold by actively switching the bias current of injection-locked III-V semiconductor lasers and pulse-pumping crystalline and integrated microresonators.

NATURE COMMUNICATIONS (2021)

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Article Multidisciplinary Sciences

Architecture for microcomb-based GHz-mid-infrared dual-comb spectroscopy

Chengying Bao et al.

Summary: The authors present a microcomb-based dual-comb spectroscopy sensor with GHz resolution for mid-infrared gas sensing. The system stability is determined by a single high-Q microresonator, making it simplified and eliminating the need for external frequency locking. The methane and ethane spectra can be measured over short intervals as 0.5 ms, showing potential for chip-based architectures in mid-IR gas sensors for various applications.

NATURE COMMUNICATIONS (2021)

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Article Multidisciplinary Sciences

Multispecies and individual gas molecule detection using Stokes solitons in a graphene over-modal microresonator

Teng Tan et al.

Summary: The integration of atomically thin materials and microcombs enables the realization of a graphene functionalized microcomb sensor for gas molecule detection. The sensor can identify multiple gas species and achieve individual molecule sensitivity.

NATURE COMMUNICATIONS (2021)

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Article Multidisciplinary Sciences

Ultra-broadband Kerr microcomb through soliton spectral translation

Gregory Moille et al.

Summary: The study focuses on expanding the bandwidth of microcombs by spectral translation through a mix of dissipative Kerr soliton and a secondary pump. Experimental results show the potential of ultra-broadband low-noise microcombs for optical frequency synthesis and atomic clocks.

NATURE COMMUNICATIONS (2021)

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Article Multidisciplinary Sciences

High-performance lasers for fully integrated silicon nitride photonics

Chao Xiang et al.

Summary: Achieving high output power and low noise integrated lasers using Si/SiN heterogeneous platform with Hertz-level linewidth has been demonstrated. This paves the way for fully integrating low-noise silicon nitride photonics in volume. The high-performance lasers on SiN with tens of milliwatts output power and sub-kHz fundamental linewidth address issues of mode transition loss, cavity design, and fabrication process, marking a milestone towards fully integrated low-noise silicon nitride photonics platform.

NATURE COMMUNICATIONS (2021)

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Article Optics

Optically referenced 300 GHz millimetre-wave oscillator

Tomohiro Tetsumoto et al.

Summary: The integration of low-noise stimulated Brillouin scattering process, dissipative Kerr soliton comb, and optical-to-electrical conversion has led to the generation of a 300 GHz signal with a phase noise of -100 dBc Hz(-1). The optical frequency division via optical frequency combs has revolutionized microwave metrology and shows great potential for application in the millimeter-wave and terahertz-wave domains. Disipative Kerr solitons in integrated photonic chips are emerging as a leading technology with ultrahigh repetition rates in the millimeter-wave and terahertz-wave fields.

NATURE PHOTONICS (2021)

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Article Multidisciplinary Sciences

Squeezed light from a nanophotonic molecule

Y. Zhang et al.

Summary: The research demonstrates how to effectively generate non-classical light using two coupled microring resonators while suppressing unwanted parasitic fluorescence, ensuring the cleanliness of the generated light source.

NATURE COMMUNICATIONS (2021)

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Article Optics

Photonic chip-based resonant supercontinuum via pulse-driven Kerr microresonator solitons

Miles H. Anderson et al.

Summary: Supercontinuum generation and soliton microcomb formation are key techniques for coherent, ultrabroad optical frequency combs, but they differ in their efficiency and application in the microwave domain. Bridging the efficiency gap between the two approaches by driving a dispersion-engineered photonic-chip-based microresonator can achieve high-efficiency soliton microcomb generation and frequency conversion.

OPTICA (2021)

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Article Optics

Tantala Kerr nonlinear integrated photonics

Hojoong Jung et al.

Summary: Integrated photonics is essential for a wide range of modern scientific and technological advancements, and tantalum pentoxide (Ta2O5) has emerged as a promising material for integrated nonlinear photonics due to its low intrinsic stress, optical loss, and efficient Kerr nonlinear processes. Using >800 nm thick tantalum films deposited via ion beam sputtering, researchers have successfully fabricated integrated nonlinear resonators and waveguides with high optical quality factors, paving the way for future applications in ultrabroad bandwidth Kerr soliton frequency combs and supercontinuum generation.

OPTICA (2021)

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Article Optics

Directly accessing octave-spanning dissipative Kerr soliton frequency combs in an AIN microresonator

Haizhong Weng et al.

Summary: This study introduces a simple method to achieve octave-spanning DKS in an aluminum nitride microresonator. By using two nearly degenerate modes, a single pump can generate DKS and enhance soliton access window.

PHOTONICS RESEARCH (2021)

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Article Engineering, Electrical & Electronic

High Spectral Efficiency Coherent Superchannel Transmission With Soliton Microcombs

Mikael Mazur et al.

Summary: Spectral efficiency (SE) is a key metric for optical communication networks, and optical superchannels can maximize SE by efficiently utilizing available bandwidth and minimizing guard-bands between channels. Microcombs are a promising solution for low power superchannel laser sources that provide high signal quality, broadband waveforms, but their realization with sufficient line power, coherence, and line spacing compatible with electronic bandwidths is extremely challenging.

JOURNAL OF LIGHTWAVE TECHNOLOGY (2021)

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Article Multidisciplinary Sciences

Laser soliton microcombs heterogeneously integrated on silicon

Chao Xiang et al.

Summary: Silicon photonics enables integration of optical functionalities on chip, and our approach of heterogeneously integrated laser soliton microcombs provides a route for large-volume, low-cost manufacturing of chip-based frequency combs. These devices can output single-soliton microcombs with a 100-gigahertz repetition rate and offer laser frequency noise reduction, showing potential for next-generation high-capacity transceivers, data centers, and mobile platforms.

SCIENCE (2021)

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Article Optics

Near-infrared frequency comb generation from a silicon microresonator

Yaojing Zhang et al.

Summary: This study experimentally demonstrated Kerr comb generation in a high-quality-factor silicon microresonator using sub-milliwatt pump power, without the need for removing free carriers. The effects of pump powers and quality factors on comb output power and comb lines were investigated. Higher pump power or quality factor can yield higher comb output power and more comb lines under low pump power, but the comb output power is limited by nonlinear absorptions at higher pump powers.

JOURNAL OF OPTICS (2021)

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Article Multidisciplinary Sciences

Synthesized soliton crystals

Zhizhou Lu et al.

Summary: In this study, synthesized and reconfigurable soliton crystals were successfully demonstrated by constructing a periodic intra-cavity potential field, which enhanced the power of soliton crystal comb lines and allowed manipulation of soliton number and temporal distribution. The synthesized soliton crystals offer reconfigurable temporal and spectral profiles, showing great potential for applications in fields such as photonic radar, satellite communication, and radio-frequency filters.

NATURE COMMUNICATIONS (2021)

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Article Multidisciplinary Sciences

A squeezed quantum microcomb on a chip

Zijiao Yang et al.

Summary: A deterministic quantum microcomb consisting of 40 continuous-variable quantum modes has been successfully demonstrated on a silicon chip, offering new possibilities for applications in fields such as spectroscopy and quantum metrology.

NATURE COMMUNICATIONS (2021)

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Article Multidisciplinary Sciences

Aluminum nitride nanophotonics for beyond-octave soliton microcomb generation and self-referencing

Xianwen Liu et al.

Summary: The authors have introduced a solution for accessing octave soliton microcombs and self-referencing using aluminum nitride nanophotonic chips, which could potentially benefit applications such as precision metrology, molecular fingerprinting, and exoplanet discoveries. Through the use of aluminum nitride thin films, the microcomb stabilization has been achieved within the chip, paving the way for fully integrated self-locked microcombs for portable optical atomic clocks and frequency synthesizers.

NATURE COMMUNICATIONS (2021)

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Article Optics

High-Q microresonators on 4H-silicon-carbide-on-insulator platform for nonlinear photonics

Chengli Wang et al.

Summary: By experimenting with photonic microresonators on a 4H-silicon-carbide-on-insulator platform, a wide range of frequency conversion phenomena, including second-, third-, and fourth-harmonic generation, as well as cascaded Raman lasing, were observed under high-Q factors. Additionally, by engineering the dispersion properties of the SiC microresonator, broadband Kerr frequency combs covering from 1300 to 1700nm were achieved. This demonstration represents a significant milestone in the development of SiC photonic integrated devices.

LIGHT-SCIENCE & APPLICATIONS (2021)

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Review Physics, Multidisciplinary

RF and microwave photonic temporal signal processing with Kerr micro-combs

Mengxi Tan et al.

Summary: Integrated Kerr micro-combs are a powerful source of multiple wavelength channels for photonic RF and microwave signal processing, offering advantages such as compact device footprint, high versatility, large numbers of wavelengths, and wide Nyquist bands. Research focuses on Hilbert transforms, differentiators, and integrators. The future potential of optical micro-combs for RF photonic applications is discussed in terms of functionality and ability to realize integrated solutions.

ADVANCES IN PHYSICS-X (2021)

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Article Optics

Integrated gallium phosphide nonlinear photonics

Dalziel J. Wilson et al.

NATURE PHOTONICS (2020)

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Article Engineering, Electrical & Electronic

Broadband Microwave Frequency Conversion Based on an Integrated Optical Micro-Comb Source

Xingyuan Xu et al.

JOURNAL OF LIGHTWAVE TECHNOLOGY (2020)

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Review Optics

Recent Progress in 2D Material-Based Saturable Absorbers for All Solid-State Pulsed Bulk Lasers

Baitao Zhang et al.

LASER & PHOTONICS REVIEWS (2020)

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Article Multidisciplinary Sciences

Fully hardware-implemented memristor convolutional neural network

Peng Yao et al.

NATURE (2020)

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Article Optics

Flat optics for image differentiation

You Zhou et al.

NATURE PHOTONICS (2020)

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Article Multidisciplinary Sciences

Ultralow-noise photonic microwave synthesis using a soliton microcomb-based transfer oscillator

Erwan Lucas et al.

NATURE COMMUNICATIONS (2020)

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Article Optics

Integrated Microwave Photonic Filters

Yang Liu et al.

Advances in Optics and Photonics (2020)

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Review Optics

Emerging material systems for integrated optical Kerr frequency combs

Andre Kovach et al.

ADVANCES IN OPTICS AND PHOTONICS (2020)

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Article Optics

Visible nonlinear photonics via high-order-mode dispersion engineering

Yun Zhao et al.

OPTICA (2020)

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Article Optics

Interleaved difference-frequency generation for microcomb spectral densification in the mid-infrared

Chengying Bao et al.

OPTICA (2020)

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Article Multidisciplinary Sciences

Coherent optical clock down-conversion for microwave frequencies with 10-18 instability

Takuma Nakamura et al.

SCIENCE (2020)

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Article Multidisciplinary Sciences

Chaos-assisted two-octave-spanning microcombs

Hao-Jing Chen et al.

NATURE COMMUNICATIONS (2020)

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Article Multidisciplinary Sciences

Heteronuclear soliton molecules in optical microresonators

Wenle Weng et al.

NATURE COMMUNICATIONS (2020)

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Article Multidisciplinary Sciences

Ultra-efficient frequency comb generation in AlGaAs-on-insulator microresonators

Lin Chang et al.

NATURE COMMUNICATIONS (2020)

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Article Multidisciplinary Sciences

Ultra-dense optical data transmission over standard fibre with a single chip source

Bill Corcoran et al.

NATURE COMMUNICATIONS (2020)

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Letter Optics

Real-time transition dynamics and stability of chip-scale dispersion-managed frequency microcombs

Yongnan Li et al.

LIGHT-SCIENCE & APPLICATIONS (2020)

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Article Multidisciplinary Sciences

Massively parallel coherent laser ranging using a soliton microcomb

Johann Riemensberger et al.

NATURE (2020)

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Article Optics

Photonic microwave generation in the X- and K-band using integrated soliton microcombs

Junqiu Liu et al.

NATURE PHOTONICS (2020)

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Article Physics, Multidisciplinary

Near-Degenerate Quadrature-Squeezed Vacuum Generation on a Silicon-Nitride Chip

Yun Zhao et al.

PHYSICAL REVIEW LETTERS (2020)

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Article Optics

Silicon integrated microwave photonic beamformer

Chen Zhu et al.

OPTICA (2020)

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Article Optics

Optical parametric oscillation in silicon carbide nanophotonics

Melissa A. Guidry et al.

OPTICA (2020)

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Article Optics

Frequency stabilization and tuning of breathing solitons in Si3N4 microresonators

Shuai Wan et al.

PHOTONICS RESEARCH (2020)

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Article Optics

Photonic Perceptron Based on a Kerr Microcomb for High-Speed, Scalable, Optical Neural Networks

Xingyuan Xu et al.

LASER & PHOTONICS REVIEWS (2020)

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Article Optics

Dissipative Kerr Solitons in a III-V Microresonator

Gregory Moille et al.

LASER & PHOTONICS REVIEWS (2020)

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Article Optics

Perfect Soliton Crystals on Demand

Yang He et al.

LASER & PHOTONICS REVIEWS (2020)

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Article Multidisciplinary Sciences

Integrated turnkey soliton microcombs

Boqiang Shen et al.

NATURE (2020)

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Article Multidisciplinary Sciences

Monolithic piezoelectric control of soliton microcombs

Junqiu Liu et al.

NATURE (2020)

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Article Multidisciplinary Sciences

Vernier frequency division with dual-microresonator solitons

Beichen Wang et al.

NATURE COMMUNICATIONS (2020)

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Article Engineering, Electrical & Electronic

Broadband Photonic RF Channelizer With 92 Channels Based on a Soliton Crystal Microcomb

Xingyuan Xu et al.

JOURNAL OF LIGHTWAVE TECHNOLOGY (2020)

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Article Multidisciplinary Sciences

Reconfigurable radiofrequency filters based on versatile soliton microcombs

Jianqi Hu et al.

NATURE COMMUNICATIONS (2020)

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