标题
Chip-based laser with 1-hertz integrated linewidth
作者
关键词
-
出版物
Science Advances
Volume 8, Issue 43, Pages -
出版商
American Association for the Advancement of Science (AAAS)
发表日期
2022-10-29
DOI
10.1126/sciadv.abp9006
参考文献
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注意:仅列出部分参考文献,下载原文获取全部文献信息。- Silicon nitride passive and active photonic integrated circuits: trends and prospects
- (2022) Chao Xiang et al. Photonics Research
- Low-noise frequency-agile photonic integrated lasers for coherent ranging
- (2022) Grigory Lihachev et al. Nature Communications
- Micro-fabricated mirrors with finesse exceeding one million
- (2022) Naijun Jin et al. Optica
- 36 Hz integral linewidth laser based on a photonic integrated 4.0 m coil resonator
- (2022) Kaikai Liu et al. Optica
- Magneto-optical trapping using planar optics
- (2021) William McGehee et al. NEW JOURNAL OF PHYSICS
- Hertz-linewidth semiconductor lasers using CMOS-ready ultra-high-Q microresonators
- (2021) Warren Jin et al. Nature Photonics
- Meta-grating outcouplers for optimized beam shaping in the visible
- (2021) Chad Ropp et al. OPTICS EXPRESS
- Perspective on the future of silicon photonics and electronics
- (2021) Near Margalit et al. APPLIED PHYSICS LETTERS
- Optically synchronized fibre links using spectrally pure chip-scale lasers
- (2021) Grant M. Brodnik et al. Nature Photonics
- Laser soliton microcombs heterogeneously integrated on silicon
- (2021) Chao Xiang et al. SCIENCE
- Roadmap on integrated quantum photonics
- (2021) Galan Moody et al. Journal of Physics-Photonics
- Reaching fiber-laser coherence in integrated photonics
- (2021) Bohan Li et al. OPTICS LETTERS
- High-performance lasers for fully integrated silicon nitride photonics
- (2021) Chao Xiang et al. Nature Communications
- High-Performance Silicon Photonics Using Heterogeneous Integration
- (2021) Chao Xiang et al. IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS
- Ultranarrow Linewidth Photonic‐Atomic Laser
- (2020) Wei Zhang et al. Laser & Photonics Reviews
- Photonic integration for UV to IR applications
- (2020) Daniel J. Blumenthal APL Photonics
- Deuterated Silicon Dioxide for HeterogeneousIntegration of Ultra Low-Loss Waveguides
- (2020) Warren Jin et al. OPTICS LETTERS
- Coherent optical clock down-conversion for microwave frequencies with 10−18 instability
- (2020) Takuma Nakamura et al. SCIENCE
- Integrated optical multi-ion quantum logic
- (2020) Karan K. Mehta et al. NATURE
- Integrated multi-wavelength control of an ion qubit
- (2020) R. J. Niffenegger et al. NATURE
- Ultra-precise optical-frequency stabilization with heterogeneous III–V/Si lasers
- (2020) Liron Stern et al. OPTICS LETTERS
- Enhanced observation time of magneto-optical traps using micro-machined non-evaporable getter pumps
- (2020) Rodolphe Boudot et al. Scientific Reports
- On-chip optical parametric oscillation into the visible: generating red, orange, yellow, and green from a near-infrared pump
- (2020) Xiyuan Lu et al. Optica
- Operation of an optical atomic clock with a Brillouin laser subsystem
- (2020) William Loh et al. NATURE
- Heterogeneous silicon photonics sensing for autonomous cars [Invited]
- (2019) Weiqiang Xie et al. OPTICS EXPRESS
- Architecture for the photonic integration of an optical atomic clock
- (2019) Zachary L. Newman et al. Optica
- Tutorial on narrow linewidth tunable semiconductor lasers using Si/III-V heterogeneous integration
- (2019) Minh A. Tran et al. APL Photonics
- Narrow-linewidth III-V/Si/Si3N4 laser using multilayer heterogeneous integration
- (2019) Chao Xiang et al. Optica
- Ultracompact reference ultralow expansion glass cavity
- (2018) Alexandre Didier et al. APPLIED OPTICS
- Atomic clock performance enabling geodesy below the centimetre level
- (2018) W. F. McGrew et al. NATURE
- Self-injection locking of a laser diode to a high-Q WGM microresonator
- (2017) N. M. Kondratiev et al. OPTICS EXPRESS
- Compact, thermal-noise-limited reference cavity for ultra-low-noise microwave generation
- (2017) J. Davila-Rodriguez et al. OPTICS LETTERS
- 1.5 μm Lasers with Sub-10 mHz Linewidth
- (2017) D. G. Matei et al. PHYSICAL REVIEW LETTERS
- Heterogeneous Silicon/III–V Semiconductor Optical Amplifiers
- (2016) Michael L. Davenport et al. IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS
- Heterogeneous Silicon Photonic Integrated Circuits
- (2016) Tin Komljenovic et al. JOURNAL OF LIGHTWAVE TECHNOLOGY
- Optical atomic clocks
- (2015) Andrew D. Ludlow et al. REVIEWS OF MODERN PHYSICS
- Ultralow noise miniature external cavity semiconductor laser
- (2015) W. Liang et al. Nature Communications
- Microresonator frequency comb optical clock
- (2014) Scott B. Papp et al. Optica
- Exploiting shot noise correlations in the photodetection of ultrashort optical pulse trains
- (2013) F. Quinlan et al. Nature Photonics
- Cavity-stabilized laser with acceleration sensitivity below10−12g−1
- (2013) David R. Leibrandt et al. PHYSICAL REVIEW A
- Spiral resonators for on-chip laser frequency stabilization
- (2013) Hansuek Lee et al. Nature Communications
- Ultra-low-phase-noise cryocooled microwave dielectric-sapphire-resonator oscillators
- (2012) John G. Hartnett et al. APPLIED PHYSICS LETTERS
- Generation of ultrastable microwaves via optical frequency division
- (2011) T. M. Fortier et al. Nature Photonics
- Spherical reference cavities for frequency stabilization of lasers in non-laboratory environments
- (2011) David R. Leibrandt et al. OPTICS EXPRESS
- Force-insensitive optical cavity
- (2011) Stephen Webster et al. OPTICS LETTERS
- Thermal-noise-limited crystalline whispering-gallery-mode resonator for laser stabilization
- (2011) J. Alnis et al. PHYSICAL REVIEW A
- Significant step in ultra-high stability quartz crystal oscillators
- (2010) P. Salzenstein et al. ELECTRONICS LETTERS
- Measurement and real-time cancellation of vibration-induced phase noise in a cavity-stabilized laser
- (2010) Michael J. Thorpe et al. OPTICS EXPRESS
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