Distributed Bragg reflector based ASE noise removal pump wavelength filters for futuristic chip-scale quantum photonic circuits.

IF 3.2 2区物理与天体物理 Q2 OPTICS

Optics express Pub Date : 2024-07-29 DOI:10.1364/OE.530001

Pratyasha Priyadarshini, Arnab Goswami, Ashitosh Velamuri, Bijoy Krishna Das

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引用次数: 0

Abstract

This article reports a novel design of a compact tunable resonance filter with a highly extinguished and ultra-broad out-of-band rejection for on-chip amplified spontaneous noise suppression from pump lasers highly demanding for generating pure/entangled photon pairs via χ⁽³⁾ process in a CMOS compatible silicon photonics technology platform. The proposed device is designed with two identically apodized distributed grating structures for guided Fabry-Perot resonant transmissions in a silicon-on-insulator rib waveguide structure. The device design parameters are optimized by theoretical simulation for a low insertion loss singly-resonant transmission peak at a desired wavelength. We observed that a device length of as low as ∼ 35 µm exhibits a rejection band as large as ∼ 60 nm with an extinction of ∼ 40 dB with respect to the resonant wavelength peak at λ_r ∼ 1550 nm (FWHM ∼ 80 pm, IL ∼ 2 dB). The experimental results have been shown to be closely matching to our theoretical simulation and modeling results in terms of its stop bandwidth and resonance wavelength for noise suppressed pump laser wavelength filtering. As expected from the theoretical prediction, the trend pertaining to the trade-off between passive insertion loss and Q-value of the resonances has been observed depending on the device parameters. The thermo-optic tuning characteristics of resonant wavelengths have been obtained by integrating microheaters. The resonance peak could be tuned at a rate of 96 pm per mW of consumed thermal power. Noise associated with an amplified pump wavelength (λ_P ∼ 1550 nm) has been shown to be suppressed (∼ 40-dB), up to the detector noise floor.

查看原文本刊更多论文

基于分布式布拉格反射器的 ASE 噪声消除泵波长滤波器，用于未来芯片级量子光子电路。

本文报告了一种紧凑型可调谐振滤波器的新型设计，它具有高度熄灭和超宽带外抑制功能，可用于抑制来自泵浦激光器的片上放大自发噪声，这种泵浦激光器对纯净/纠缠光子对的要求很高，需要在 CMOS 兼容硅光子技术平台上通过 χ(3) 工艺产生。所提出的器件设计有两个相同的光栅分布式光栅结构，用于在硅绝缘体肋波导结构中引导法布里-珀罗共振传输。我们通过理论仿真对器件设计参数进行了优化，以在所需波长上实现低插入损耗的单谐振传输峰值。我们观察到，器件长度低至 ∼ 35 µm 时，相对于 λr ∼ 1550 nm 处的谐振波长峰值（FWHM ∼ 80 pm，IL ∼ 2 dB），抑制带大至 ∼ 60 nm，消光率为 ∼ 40 dB。实验结果表明，在噪声抑制泵浦激光波长滤波时，其停止带宽和谐振波长与我们的理论模拟和建模结果非常吻合。正如理论预测所示，无源插入损耗和谐振 Q 值之间的权衡趋势取决于器件参数。通过集成微加热器，获得了谐振波长的热光学调谐特性。谐振峰值的调谐速率为每毫瓦消耗热功率 96 pm。与放大泵浦波长（λP ∼ 1550 nm）相关的噪声已被证明可被抑制（∼ 40-dB），直至探测器的噪声本底。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Optics express 物理-光学

CiteScore

6.60

自引率

15.80%

发文量

5182

审稿时长

2.1 months

期刊介绍： Optics Express is the all-electronic, open access journal for optics providing rapid publication for peer-reviewed articles that emphasize scientific and technology innovations in all aspects of optics and photonics.