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Multi-level Spectroscopy of Two-Level Systems Coupled to a dc SQUID Phase Qubit

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arxiv 1003.3941 v1 pith:BCYYD6EK submitted 2010-03-20 cond-mat.supr-con

Multi-level Spectroscopy of Two-Level Systems Coupled to a dc SQUID Phase Qubit

classification cond-mat.supr-con
keywords junctionexcitedqubitstatephasespectroscopicaloxavoided
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We report spectroscopic measurements of discrete two-level systems (TLSs) coupled to a dc SQUID phase qubit with a 16 \mu\m2 area Al/AlOx/Al junction. Applying microwaves in the 10 GHz to 11 GHz range, we found eight avoided level crossings with splitting sizes from 10 MHz to 200 MHz and spectroscopic lifetimes from 4 ns to 160 ns. Assuming the transitions are from the ground state of the composite system to an excited state of the qubit or an excited state of one of the TLS states, we fit the location and spectral width to get the energy levels, splitting sizes and spectroscopic coherence times of the phase qubit and TLSs. The distribution of splittings is consistent with non-interacting individual charged ions tunneling between random locations in the tunnel barrier and the distribution of lifetimes is consistent with the AlOx in the junction barrier having a frequency-independent loss tangent. To check that the charge of each TLS couples independently to the voltage across the junction, we also measured the spectrum in the 20-22 GHz range and found tilted avoided level crossings due to the second excited state of the junction and states in which both the junction and a TLS were excited.

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  1. Bogolyubov excitons as a microscopic origin of two-level systems

    cond-mat.supr-con 2026-07 conditional novelty 6.5

    Repulsive higher-angular-momentum interactions bind Bogolyubov quasiparticles into subgap excitons that, at surfaces, act as electric-dipole TLS and produce resonator avoided crossings.