SNAIL-TWPA circuits form stable analogue black-white holes with quasi-normal modes that determine the ringdown timescale before nonlinear dispersion dominates.
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Open-quantum-systems analysis of dissipative dc-SQUID and SNAIL transmission-line analogues of Schwarzschild black holes yields detectability thresholds showing Hawking temperatures above 73 mK remain observable, with the tunable line reaching 113 mK.
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Stability and quasi-normal ringing in analogue black-white holes in SNAIL-based traveling-wave parametric amplifiers
SNAIL-TWPA circuits form stable analogue black-white holes with quasi-normal modes that determine the ringdown timescale before nonlinear dispersion dominates.
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Dissipative Effects in Transmission Line Analogues of Hawking Radiation
Open-quantum-systems analysis of dissipative dc-SQUID and SNAIL transmission-line analogues of Schwarzschild black holes yields detectability thresholds showing Hawking temperatures above 73 mK remain observable, with the tunable line reaching 113 mK.