A wideband,high-resolution vector spectrum analyzer for integrated photonicsOACSTPCD
A wideband,high-resolution vector spectrum analyzer for integrated photonics
The analysis of optical spectra—emission or absorption—has been arguably the most powerful approach for discovering and understanding matter.The invention and development of many kinds of spectrometers have equipped us with versatile yet ultra-sensitive diagnostic tools for trace gas detection,isotope analysis,and resolving hyperfine structures of atoms and molecules.With proliferating data and information,urgent and demanding requirements have been placed today on spectrum analysis with ever-increasing spectral bandwidth and frequency resolution.These requirements are especially stringent for broadband laser sources that carry massive information and for dispersive devices used in information processing systems.In addition,spectrum analyzers are expected to probe the device's phase response where extra information is encoded.Here we demonstrate a novel vector spectrum analyzer(VSA)that is capable of characterizing passive devices and active laser sources in one setup.Such a dual-mode VSA can measure loss,phase response,and dispersion properties of passive devices.It also can coherently map a broadband laser spectrum into the RF domain.The VSA features a bandwidth of 55.1 THz(1260-1640 nm),a frequency resolution of 471 kHz,and a dynamic range of 56 dB.Meanwhile,our fiber-based VSA is compact and robust.It requires neither high-speed modulators and photodetectors nor any active feedback control.Finally,we employ our VSA for applications including characterization of integrated dispersive waveguides,mapping frequency comb spectra,and coherent light detection and ranging(LiDAR).Our VSA presents an innovative approach for device analysis and laser spectroscopy,and can play a critical role in future photonic systems and applications for sensing,communication,imaging,and quantum information processing.
Yi-Han Luo;Hairun Guo;Junqiu Liu;Baoqi Shi;Wei Sun;Ruiyang Chen;Sanli Huang;Zhongkai Wang;Jinbao Long;Chen Shen;Zhichao Ye
International Quantum Academy,518048 Shenzhen,China||Shenzhen Institute for Quantum Science and Engineering,Southern University of Science and Technology,518055 Shenzhen,ChinaKey Laboratory of Specialty Fiber Optics and Optical Access Networks,Shanghai University,200444 Shanghai,ChinaInternational Quantum Academy,518048 Shenzhen,China||Hefei National Laboratory,University of Science and Technology of China,230088 Hefei,ChinaInternational Quantum Academy,518048 Shenzhen,China||Department of Optics and Optical Engineering,University of Science and Technology of China,230026 Hefei,ChinaInternational Quantum Academy,518048 Shenzhen,ChinaQaleido Photonics,518048 Shenzhen,China
《光:科学与应用(英文版)》 2024 (004)
760-771 / 12
We thank Ting Qing and Jijun He for the fruitful discussion on OVNA,Yuan Chen,Zhiyang Chen,and Huamin Zheng for assistance in the experiment,and Lan Gao for taking the sample photos.J.Liu is indebted to Dapeng Yu who provided critical support to this project.J.Liu acknowledges support from the National Natural Science Foundation of China(Grant No.12261131503),Innovation Program for Quantum Science and Technology(2023ZD0301500),Shenzhen-Hong Kong Cooperation Zone for Technology and Innovation(HZQB-KCZYB2020050),and the Guangdong Provincial Key Laboratory(2019B121203002).Y.-H.L.acknowledges support from the China Postdoctoral Science Foundation(Grant No.2022M721482).
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