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排名必读论文期刊顶会热点AI 简史溯源树小脉星探人才迁徙塔尖人才国防情报追踪开源工具智慧手语
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High-gain low-noise mid-infrared quantum cascade optical preamplifier for receiver

Huanlin Zhang,A. Seetharaman,P. Johnson,Guipeng Luo,H. Q. Le

Photonics Technology Letters, IEEE(2005)

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摘要
Optical preamplifier (OPA) in the mid-infrared can boost weak signals in systems such as lidars or optical wireless links to improve the receiver sensitivity. Quantum-cascade-based traveling-wave OPA with off-normal Bragg-grating (BG) coupled surface-emitting configuration have been developed with a net small-signal gain up to 13 dB over a spectral range /spl sim/70 nm around 4.7 μm, limited by the wafer gain bandwidth, and the linear dynamic range was >20 dB. Amplified spontaneous emission (ASE) was measured and the spontaneous emission factor was determined N/sub sp//spl sim/1, indicating near quantum-limit noise behavior. Surface-emitting BG devices yielded diffraction-limited output beam, and provided simultaneous wavelength dispersion and ASE filtering. The OPA was coupled with a detector to form a receiver that is polarization-selective, has a net gain 8-13 dB with a corresponding optical filter bandwidth 25-50 GHz. These results suggest that BG-coupled OPA receivers can be useful for multispectral/wavelength-division-multiplexing systems in free space applications.
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optical filter,Bragg gratings,laser cavity resonators,off-normal Bragg grating,superradiance,surface emitting lasers,amplified spontaneous emission,mid-infrared (mid-IR) optical preamplifier (OPA),multispectral/wavelength-division multiplexing (WDM),wavelength division multiplexing,wafer gain bandwidth,Amplified spontaneous emission (ASE) filter,Bragg-grating (BG) coupler,multispectral system,25 to 50 GHz,low-noise preamplifier,ASE filtering,Bragg grating coupler,wavelength dispersion,diffraction limited output beam,optical preamplifier,lidars,midinfrared preamplifier,infrared spectra,optical receivers,optical filters,surface emitting,quantum cascade (QC),midinfrared receiver,mid-infrared (mid-IR) receiver,quantum cascade preamplifier,quantum noise,8 to 13 dB,optical couplers,wavelength-division-multiplexing system,free space applications,quantum cascade lasers,optical wireless links,traveling-wave OPA,polarization-selective receiver,optical dispersion,receiver sensitivity,high-gain preamplifier,surface-emitting configuration,quantum-limit-noise behavior
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