Resonant Ring with a Gain of 36 for Use with a 1 MW 110 GHz Gyrotron

Author(s)

Claveau, Elliot L.; Shapiro, Michael A.; Temkin, Richard J.

Abstract

A 110 GHz quasi-optical ring resonator, designed for use with a 1 MW pulsed gyrotron, has been built and successfully tested using a 100 mW solid-state source. A low reflectance (2.4%) input coupler and a low-loss, four-mirror ring demonstrated a compression ratio, defined as the ratio of output to input power, of 36. The 6 ns output pulses were generated from the 2 m length ring using a silicon laser-driven semiconductor switch (LDSS). The quasi-optical ring resonator was designed with large waist sizes so that input pulses of up to 1 MW will stay under the 35 kV/cm electric field limit for ionization in ambient air. Maximum compression gain was achieved by matching the input coupling fraction to the round trip loss in the ring, achieving close to critical coupling. The experimental output pulse shape obtained after firing the LDSS was modeled using the reflectance, transmittance, and absorptance of the switch vs. time and vs. laser pulse fluence, with good agreement found with theory. The timing for the peak energy efficiency of 32% was found and the main loss mechanism limiting that efficiency was found to be the absorptance in the silicon wafer.

Date issued

2024-05-31

URI

https://hdl.handle.net/1721.1/155211

Department

Massachusetts Institute of Technology. Plasma Science and Fusion Center

Publisher

Springer Science and Business Media LLC

Citation

Claveau, E.L., Shapiro, M.A. & Temkin, R.J. Resonant Ring with a Gain of 36 for Use with a 1 MW 110 GHz Gyrotron. J Infrared Milli Terahz Waves (2024).

Version: Final published version

ISSN

1866-6892

1866-6906