1. VCSEL with multi-transverse cavities with bandwidth beyond 100 GHz
- Author
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Volker J. Sorger, Hamed Dalir, Elham Heidari, Ahmed Alshahrie, Ahmed Bakry, and Moustafa Ahmed
- Subjects
Materials science ,business.industry ,Physics ,QC1-999 ,Physics::Optics ,Atomic and Molecular Physics, and Optics ,Electronic, Optical and Magnetic Materials ,Vertical-cavity surface-emitting laser ,Transverse plane ,transverse coupled cavity ,Bandwidth (computing) ,Optoelectronics ,Electrical and Electronic Engineering ,business ,optical feedback ,vcsel ,Biotechnology - Abstract
To fulfill the demands of high-speed photonic applications, researchers, and engineers have been working to improve the modulation bandwidth (MBW) of semiconductor lasers. We extend our prior work on modeling a vertical-cavity surface-emitting laser (VCSEL) with multiple transverse-coupled-cavities (MTCCs) to evaluate the feasibility of boosting MBW beyond 100 GHz in this study. Because of the strong coupling of slow-light feedback from nearby lateral transverse coupled cavities (TCCs) into the VCSEL cavity, the laser has a high modulation performance. The intensity modulation response of the VCSEL design using one, two, four, and six TCCs is compared. Due to the optical-feedback (OFB) from short TCCs, which achieves 3 dB MBW reaching 170 GHz, photon–photon-resonance (PPR) is projected to occur at ultra-high frequencies beyond 145 GHz. In terms of the Fourier spectrum of the relative intensity noise (RIN), we characterize the noise features of the MTCC-VCSEL in the ultra-high bandwidth domain.
- Published
- 2021
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