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W2754825448 abstract "The coherent process that a single photon simultaneously excites two qubits has recently been theoretically predicted by [https://link.aps.org/doi/10.1103/PhysRevLett.117.043601 {Phys. Rev. Lett. 117, 043601 (2016)}]. We propose a different approach to observe a similar dynamical process based on a superconducting quantum circuit, where two coupled flux qubits longitudinally interact with the same resonator. We show that this simultaneous excitation of two qubits (assuming that the sum of their transition frequencies is close to the cavity frequency) is related to the counter-rotating terms in the dipole-dipole coupling between two qubits, and the standard rotating-wave approximation is not valid here. By numerically simulating the adiabatic Landau-Zener transition and Rabi-oscillation effects, we clearly verify that the energy of a single photon can excite two qubits via higher-order transitions induced by the longitudinal couplings and the counter-rotating terms. Compared with previous studies, the coherent dynamics in our system only involves one intermediate state and, thus, exhibits a much faster rate. We also find transition paths which can interfere. Finally, by discussing how to control the two longitudinal-coupling strengths, we find a method to observe both constructive and destructive interference phenomena in our system." @default.
W2754825448 created "2017-09-25" @default.
W2754825448 creator A5006822602 @default.
W2754825448 creator A5032132103 @default.
W2754825448 creator A5048800312 @default.
W2754825448 creator A5079671435 @default.
W2754825448 date "2017-12-14" @default.
W2754825448 modified "2023-10-14" @default.
W2754825448 title "Observing pure effects of counter-rotating terms without ultrastrong coupling: A single photon can simultaneously excite two qubits" @default.
W2754825448 cites W1553661501 @default.
W2754825448 cites W1652418441 @default.
W2754825448 cites W1871137248 @default.
W2754825448 cites W1943394565 @default.
W2754825448 cites W1963811960 @default.
W2754825448 cites W1965990893 @default.
W2754825448 cites W1966686191 @default.
W2754825448 cites W1970834860 @default.
W2754825448 cites W1972436401 @default.
W2754825448 cites W1978475254 @default.
W2754825448 cites W1981659415 @default.
W2754825448 cites W1983336715 @default.
W2754825448 cites W1984496192 @default.
W2754825448 cites W1986933492 @default.
W2754825448 cites W1988005384 @default.
W2754825448 cites W1988808284 @default.
W2754825448 cites W1991360830 @default.
W2754825448 cites W1995362788 @default.
W2754825448 cites W1997182041 @default.
W2754825448 cites W1998246638 @default.
W2754825448 cites W2004414715 @default.
W2754825448 cites W2010010774 @default.
W2754825448 cites W2014063691 @default.
W2754825448 cites W2014115758 @default.
W2754825448 cites W2014142792 @default.
W2754825448 cites W2017156903 @default.
W2754825448 cites W2019048445 @default.
W2754825448 cites W2020018917 @default.
W2754825448 cites W2022881716 @default.
W2754825448 cites W2024565547 @default.
W2754825448 cites W2029539632 @default.
W2754825448 cites W2030234138 @default.
W2754825448 cites W2035009541 @default.
W2754825448 cites W2041343077 @default.
W2754825448 cites W2042968140 @default.
W2754825448 cites W2044868702 @default.
W2754825448 cites W2046762508 @default.
W2754825448 cites W2047485586 @default.
W2754825448 cites W2053001474 @default.
W2754825448 cites W2056576695 @default.
W2754825448 cites W2057273947 @default.
W2754825448 cites W2057357428 @default.
W2754825448 cites W2060904747 @default.
W2754825448 cites W2061464631 @default.
W2754825448 cites W2068221458 @default.
W2754825448 cites W2081961796 @default.
W2754825448 cites W2084802573 @default.
W2754825448 cites W2085884730 @default.
W2754825448 cites W2087568007 @default.
W2754825448 cites W2095860393 @default.
W2754825448 cites W2100369285 @default.
W2754825448 cites W2108183232 @default.
W2754825448 cites W2119046658 @default.
W2754825448 cites W2127595774 @default.
W2754825448 cites W2130074705 @default.
W2754825448 cites W2134000508 @default.
W2754825448 cites W2143754127 @default.
W2754825448 cites W2143784259 @default.
W2754825448 cites W2144428352 @default.
W2754825448 cites W2171034976 @default.
W2754825448 cites W2171926115 @default.
W2754825448 cites W2211778065 @default.
W2754825448 cites W2259011212 @default.
W2754825448 cites W2263453110 @default.
W2754825448 cites W2267224454 @default.
W2754825448 cites W2282198888 @default.
W2754825448 cites W2296631050 @default.
W2754825448 cites W2302319554 @default.
W2754825448 cites W2336320008 @default.
W2754825448 cites W2400657135 @default.
W2754825448 cites W2476776009 @default.
W2754825448 cites W2499510233 @default.
W2754825448 cites W2563041252 @default.
W2754825448 cites W2580815400 @default.
W2754825448 cites W2581217922 @default.
W2754825448 cites W2587746776 @default.
W2754825448 cites W2612059372 @default.
W2754825448 cites W2724166426 @default.
W2754825448 cites W2729697906 @default.
W2754825448 cites W3037443854 @default.
W2754825448 cites W3100526867 @default.
W2754825448 cites W3101787561 @default.
W2754825448 cites W4312861377 @default.
W2754825448 doi "https://doi.org/10.1103/physreva.96.063820" @default.
W2754825448 hasPublicationYear "2017" @default.
W2754825448 type Work @default.
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