Abstract Coupling qubits to a superconducting resonator provides a mechanism to enable long-distance entangling operations in a quantum computer based on spins in semiconducting materials. Here, we demonstrate a controllable spin-photon coupling based on a longitudinal interaction between a spin qubit and a resonator. We show that coupling a singlet-triplet qubit to a high-impedance superconducting resonator can produce the desired longitudinal coupling when the qubit is driven near the resonator’s frequency. We measure the energy splitting of the qubit as a function of the drive amplitude and frequency of a microwave signal applied near the resonator antinode, revealing pronounced effects close to the resonator frequency due to longitudinal coupling. By tuning the amplitude of the drive, we reach a regime with longitudinal coupling exceeding 1 MHz. This mechanism for qubit-resonator coupling represents a stepping stone towards producing high-fidelity two-qubit gates mediated by a superconducting resonator.
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Kou, A. ; Smith, W. C. ; Vool, U. ; Pop, I. M. ; Sliwa, K. M. ; Hatridge, M. ; Frunzio, L. ; Devoret, M. H. ( , Physical Review Applied)
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Vool, U. ; Kou, A. ; Smith, W. C. ; Frattini, N. E. ; Serniak, K. ; Reinhold, P. ; Pop, I. M. ; Shankar, S. ; Frunzio, L. ; Girvin, S. M. ; et al ( , Physical Review Applied)
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Smith, W. C. ; Kou, A. ; Vool, U. ; Pop, I. M. ; Frunzio, L. ; Schoelkopf, R. J. ; Devoret, M. H. ( , Physical Review B)
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Vool, U. ; Shankar, S. ; Mundhada, S. O. ; Ofek, N. ; Narla, A. ; Sliwa, K. ; Zalys-Geller, E. ; Liu, Y. ; Frunzio, L. ; Schoelkopf, R. J. ; et al ( , Physical Review Letters)
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Holland, E. T. ; Vlastakis, B. ; Heeres, R. W. ; Reagor, M. J. ; Vool, U. ; Leghtas, Z. ; Frunzio, L. ; Kirchmair, G. ; Devoret, M. H. ; Mirrahimi, M. ; et al ( , Physical Review Letters)
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Murch, K. W. ; Vool, U. ; Zhou, D. ; Weber, S. J. ; Girvin, S. M. ; Siddiqi, I. ( , Physical Review Letters)
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Vool, U. ; Pop, I. M. ; Sliwa, K. ; Abdo, B. ; Wang, C. ; Brecht, T. ; Gao, Y. Y. ; Shankar, S. ; Hatridge, M. ; Catelani, G. ; et al ( , Physical Review Letters)
