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Detecting a long lived false vacuum with quantum quenches
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Detecting a long lived false vacuum with quantum quenches
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Distinguishing whether a system supports alternate low-energy (locally stable) states -- stable (true vacuum) versus metastable (false vacuum) -- by direct observation can be difficult when the lifetime of the state is very long but otherwise unknown. Here we demonstrate, in a tractable model system, that there are physical phenomena on much shorter time scales that can diagnose the difference. Specifically, we study the time evolution of the magnetization following a quench in the tilted quantum Ising model, and show that its magnitude spectrum is an effective diagnostic. Small transition bubbles are more common than large ones, and we see characteristic differences in the size dependence of bubble lifetimes even well below the critical size for false vacuum decay. We expect this sort of behavior to be generic in systems of this kind. We show such signatures persist in a continuum field theory. This also opens the possibility of similar signatures of the potential metastable false vacuum of our universe well before the beginning of a decay process to the true vacuum.
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Cited by 1 Pith paper
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False vacuum decay in long-range interacting quantum systems
In long-range Ising chains the false-vacuum bounce action scales as B∼h^{-1/σ} for σ<1 and recovers Coleman B∼h^{-1} (plus h^{σ-2} corrections) for 1<σ<2, with algebraic tails that leave the leading exponents intact.
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