PRX Quantum (Sep 2024)

Direct Microwave Spectroscopy of Andreev Bound States in Planar Ge Josephson Junctions

  • M. Hinderling,
  • S. C. ten Kate,
  • M. Coraiola,
  • D.Z. Haxell,
  • M. Stiefel,
  • M. Mergenthaler,
  • S. Paredes,
  • S.W. Bedell,
  • D. Sabonis,
  • F. Nichele

DOI
https://doi.org/10.1103/PRXQuantum.5.030357
Journal volume & issue
Vol. 5, no. 3
p. 030357

Abstract

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We demonstrate microwave measurements of the Andreev-bound-state (ABS) spectrum in planar Josephson junctions (JJs) defined in Ge high-mobility two-dimensional hole gases contacted by superconducting platinum germanosilicide (PtSiGe). The JJs and readout circuitry are located on separate chips and inductively coupled via flip-chip bonding. For a device with 350-nm junction length, the spectroscopic signatures were consistent with the short-junction limit, with an induced superconducting gap Δ^{∗}≈48μeV and transmission τ≈0.94. The interaction between the highest-transmission ABS and the resonator was well described by a Jaynes-Cummings model with a vacuum Rabi splitting of approximately 6 MHz. A device with a junction length of 1μm showed an ABS spectrum consistent with a long-junction model. Time-resolved monitoring of the readout resonator in the dispersive regime revealed gate-voltage tunable-junction parity fluctuations on the time scale of seconds. Our work indicates a viable path toward hybrid quantum devices based on planar Ge.