Microresonator enhanced, waveguide coupled emission from silicon defect centers for superconducting optoelectronic networks

Alexander N. Tait; Sonia M. Buckley; Jeffrey M. Shainline; Adam N. McCaughan; Jeffrey T. Chiles; Sae Woo Nam; Richard P. Mirin

Official websites use .gov
A .gov website belongs to an official government organization in the United States.

Secure .gov websites use HTTPS
A lock ( ) or https:// means you’ve safely connected to the .gov website. Share sensitive information only on official, secure websites.

PUBLICATIONS

Microresonator enhanced, waveguide coupled emission from silicon defect centers for superconducting optoelectronic networks

Published

July 10, 2020

Author(s)

Alexander N. Tait, Sonia M. Buckley, Jeffrey M. Shainline, Adam N. McCaughan, Jeffrey T. Chiles, Sae Woo Nam, Richard P. Mirin

Abstract

Superconducting optoelectronic networks could achieve scales unmatched in hardware-based neuromorphic computing. After summarizing recent progress in this area, we report new results in cryogenic silicon photonic light sources, components central to these architectures

Issue

Photonics 2

Conference Dates

March 8-12, 2020

Conference Location

San Diego, CA

Conference Title

Optical Fiber Conference

Pub Type

Conferences

Download Paper

Local Download

Optoelectronics and Optical physics and communications

Citation

Tait, A. , Buckley, S. , Shainline, J. , McCaughan, A. , Chiles, J. , Nam, S. and Mirin, R. (2020), Microresonator enhanced, waveguide coupled emission from silicon defect centers for superconducting optoelectronic networks, Optical Fiber Conference, San Diego, CA, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=929232 (Accessed May 27, 2022)

Created July 9, 2020, Updated October 13, 2020

Microresonator enhanced, waveguide coupled emission from silicon defect centers for superconducting optoelectronic networks

Author(s)

Abstract

Download Paper

Citation

Additional citation formats