Litcius/Paper detail

Detecting Hidden Photon Dark Matter Using the Direct Excitation of Transmon Qubits

S. Chen, Hajime Fukuda, Toshiaki Inada, Takeo Moroi, T. Nitta, Thanaporn Sichanugrist

2023Physical Review Letters26 citationsDOIOpen Access PDF

Abstract

We propose a novel dark matter detection method utilizing the excitation of superconducting transmon qubits. Assuming the hidden photon dark matter of a mass of O(10) μeV, the classical wave-matter oscillation induces an effective ac electric field via the small kinetic mixing with the ordinary photon. This serves as a coherent drive field for a qubit when it is resonant, evolving it from the ground state towards the first-excited state. We evaluate the rate of such evolution and observable excitations in the measurements, as well as the search sensitivity to the hidden photon dark matter. For a selected mass, one can reach ε∼10^{-13}-10^{-12} (where ε is the kinetic mixing parameter of the hidden photon) with a few tens of seconds using a single standard transmon qubit. A simple extension to the frequency-tunable SQUID-based transmon enables the mass scan to cover the range of 4-40 μeV (1-10 GHz) within a reasonable length of run time. The scheme has great potential to extend the sensitivity towards various directions including being incorporated into the cavity-based haloscope experiments or the currently available multibit noisy intermediate-scale quantum (NISQ) computer machines.

Topics & Concepts

TransmonPhysicsQubitPhotonExcitationDark matterDark stateExcited stateParticle physicsAtomic physicsQuantum mechanicsQuantumDark Matter and Cosmic PhenomenaQuantum Information and CryptographyQuantum and electron transport phenomena