Tunability of Excited-State Energy Levels of Four-Josephson-Junction Circuit in Crossover from Double-Well to Single-Well Potential

TL;DR

This study investigates the tunability of excited-state energy levels in a four-Josephson-junction flux qubit, demonstrating potential control over quantum states through in situ potential profile adjustments.

Contribution

It provides spectroscopic measurements of the energy spectrum and shows the potential to manipulate qubits in both double-well and single-well regimes using a simplified approach.

Findings

Observed resonances for the first three excited states.

Qualitative agreement with effective Hamiltonian calculations.

Potential crossover from double-well to single-well regime.

Abstract

A double-loop four-Josephson-junction (4-JJ) flux qubit is a tunable qubit wherein the potential profile can be varied in situ via two applied magnetic fluxes. This provides a high level of control over state transitions. Here, we report the results of spectroscopic measurements on this system. We observed microwave resonances associated with the first and second excited states. A branch of resonances that is most likely attributable to the third excited state was also observed. The excitation energy spectra for these levels were in qualitative agreement with the results of simplified calculations performed using an effective Hamiltonian with two phases. The three lowest levels characterized in this study may allow novel applications, including those proposed theoretically in the past. Our analysis showed that the potential exhibited a crossover from the commonly used double-well regime to the novel single-well regime. This indicates the possibility of manipulation and readout of a 3-JJ (and 4-JJ) qubit in the single-well regime using a simple technique.