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• W2008333780 abstract "A regularly spaced multiline modulated-microwave-absorption (MMA) spectrum arising from two lead pieces behaving as a quantum interferometer is modeled by replacing the microwave current across two parallel Josephson junctions by a direct current I that is proportional to the square root of the microwave power P. Assuming that microwave absorption occurs only when I is greater than the field-dependent critical current ${mathit{I}}_{mathit{c}}$ of the two-junction system, the peak-to-peak width ensuremath{delta}H of each MMA line is shown to depend on P according to the relation P=${mathit{P}}_{0}$+(1-cosensuremath{delta}ensuremath{alpha}), where ensuremath{delta}ensuremath{alpha}=ensuremath{pi} ensuremath{delta}H/ensuremath{Delta}H, and ensuremath{Delta}H is the separation of neighboring lines. The experimental data previously obtained by Drumheller, Trybula, and Stankowski were fitted to the values ${mathit{P}}_{0}$=3 mW and a=66 mW, which leads to a ratio ${mathit{I}}_{mathit{a}}$/${mathit{I}}_{mathit{b}}$ of 1.4 for the critical currents of the two junctions. A surprisingly good fit of the data to the more approximate relation P=${mathit{P}}_{0}$+b(ensuremath{delta}H${)}^{2}$ is obtained for the values ${mathit{P}}_{0}$=3 mW and b=74 mW/${mathrm{Oe}}^{2}$. Predictions of the above model are compared with those of the recent theory of Vichery, Beuneu, and Lejay." @default.
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• W2008333780 date "1991-05-01" @default.
• W2008333780 modified "2023-09-25" @default.
• W2008333780 title "Modulated microwave absorption of a superconducting loop with two nonidentical Josephson junctions" @default.
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• W2008333780 doi "https://doi.org/10.1103/physrevb.43.10472" @default.
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