Thermal management in on-chip superconducting coherent terahertz emitters with engineered cavities

Siyu Liu; Mingqi Zhang; Yusheng Xiong; Shotaro Yamada; Richard A Klemm; Kazuo Kadowaki; Takanari Kashiwagi; Kaveh Delfanazari

Thermal management in on-chip superconducting coherent terahertz emitters with engineered cavities

POSTER

Abstract

On-chip BSCCO-based layered high-temperature superconducting emitters are sources of high-power coherent millimetre (mm)-waves, and terahertz (THz) photons, and have been used in various applications from imaging, to sensing and spectroscopy. Thermal management is one important factor in developing power-efficient and stable cryogenic mm-waves and THz photon sources, especially for their applications in next-generation telecommunication networks. Here, we analytically and experimentally study heat management and thermal analysis of BSCCO superconducting photon sources with engineered cavities.

^*We thank the Royal Academy of Engineering/Leverhulme Trust (Research Fellowship to K Delfanazari) for financial support.

Presenters

Kaveh Delfanazari
- University of Glasgow

Authors

Siyu Liu
- University of Glasgow
Mingqi Zhang
- University of Glasgow
Yusheng Xiong
- University of Glasgow
Shotaro Yamada
- University of Tsukuba
Richard A Klemm
- University of Central Florida
Kazuo Kadowaki
- Algae Biomass and Energy System (ABES) Research & Development Center, University of Tsukuba
- Institute for Quantum Material Research
- University of Tsukuba
Takanari Kashiwagi
- University of Tsukuba
Kaveh Delfanazari
- University of Glasgow