Galvanically connected tunable coupler between a cavity and a waveguide

TL;DR

This paper introduces a galvanically connected, tunable cavity-waveguide coupler with high on-off ratio, achieved through a tunable stub that shifts the cavity mode node, enabling ultrastrong coupling in quantum devices.

Contribution

It proposes a novel cavity-waveguide coupler with tunable coupling and high on-off ratio using a tunable stub and galvanic connection, enabling ultrastrong coupling.

Findings

Achieves high on-off ratio tunable coupling.

Enables ultrastrong cavity-waveguide coupling.

Provides a practical design for quantum device integration.

Abstract

One of the key technologies in recent quantum devices is the tunable coupling among quantum elements such as qubits, cavities, and waveguides. In this work, we propose a cavity-waveguide tunable coupler with an excellent on-off ratio, which is realized in a semi-infinite waveguide equipped with a tunable stub. The working principle of the present device is the shift of the node position of the cavity mode induced by the tunable boundary condition at the stub end. When the node position is adjusted to the branch point of the waveguide, the cavity mode becomes decoupled from the waveguide modes in principle. At the same time, owing to the galvanic connection, the present device readily achieves an ultrastrong cavity-waveguide coupling, where the cavity decay rate is comparable to the cavity resonance frequency.