Microwave Optomechanically Induced Transparency and Absorption Between 250 and 450 mK

TL;DR

This paper reports on measurements of microwave optomechanically induced transparency and absorption over a broad parameter space, demonstrating agreement with theory and advancing microwave device development.

Contribution

It provides new experimental data on OMIT and OMIA in microwave systems across varied parameters, expanding previous research and guiding future device design.

Findings

Excellent agreement with input/output theory.

Broader parameter space explored than previous studies.

Potential for improved microwave amplifiers and filters.

Abstract

High-quality microwave amplifiers and notch-filters can be made from microwave optomechanical systems in which a mechanical resonator is coupled to a microwave cavity by radiation pressure. These amplifiers and filters rely on optomechanically induced transparency (OMIT) and absorption (OMIA), respectively. Such devices can amplify microwave signals with large, controllable gain, high dynamic range and very low noise. Furthermore, extremely narrowband filters can be constructed with this technique. We briefly review previous measurements of microwave OMIT and OMIA before reporting our own measurements of these phenomena, which cover a larger parameter space than has been explored in previous works. In particular, we vary probe frequency, pump frequency, pumping scheme (red or blue), probe power, pump power and temperature. We find excellent agreement between our measurements and the predictions of input/output theory, thereby guiding further development of microwave devices based on nanomechanics.