Applications of InAs-Al Heterostructures in Quantum Computing

Josephson junctions created from Indium Arsenide (InAs) and Aluminum (Al) heterostructures allow for the integration of tunable superconductivity into microwave circuits. Superconducting circuits used for quantum computation can benefit from these type of elements in a variety of ways. In our group we have demonstrated how a highly transparent contact between a superconductor and a semiconductor allows a two dimensional electron gas in a layer of InAs to be proximitized by superconducting Al [1]. The 2DEG is gate voltage tunable. By using a simple gate electrode the carrier density of the 2DEG can be adjusted and consequently adjust the amount of supercurrent allowed to pass through the junction. This circuit element has been used to create a gate tunable modified transmon dubbed a gatemon [2]. Here we explore gatemon qubits and other use cases such as tunable resonators, tunable bus couplers and in general the use of InAs-Al heterostructures for superconducting circuits in the realm of quantum computing.

[1] W. Mayer, Appl. Phys. Lett. 114, 103104 (2019)
[2] L. Casparis, Nature Nanotechnology, volume 13, pages 915–919 (2018)