Correlating Superconducting Qubit Performance Losses to Sidewall Near-Field Scattering via Terahertz Nanophotonics

  1. Richard H. J. Kim,
  2. Samuel J. Haeuser,
  3. Joong-Mok Park,
  4. Randall K. Chan,
  5. Jin-Su Oh,
  6. Thomas Koschny,
  7. Lin Zhou,
  8. Matthew J. Kramer,
  9. Akshay A. Murthy,
  10. Mustafa Bal,
  11. Francesco Crisa,
  12. Sabrina Garattoni,
  13. Shaojiang Zhu,
  14. Andrei Lunin,
  15. David Olaya,
  16. Peter Hopkins,
  17. Alex Romanenko,
  18. Anna Grassellino,
  19. and Jigang Wang
Elucidating dielectric losses, structural heterogeneity, and interface imperfections is critical for improving coherence in superconducting qubits. However, most diagnostics rely on destructive electron microscopy or low-throughput millikelvin quantum measurements. Here, we demonstrate noninvasive terahertz (THz) nano-imaging/-spectroscopy of encapsulated niobium transmon qubits, revealing sidewall near-field scattering that correlates with qubit coherence. We further employ a THz hyperspectral line scan to probe dielectric responses and field participation at Al junction interfaces. These findings highlight the promise of THz near-field methods as a high-throughput proxy characterization tool for guiding material selection and optimizing processing protocols to improve qubit and quantum circuit performance.
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