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W2065431491 abstract "We study the scaling behavior of fidelity susceptibility density $(chi_{rm f})$ at or close to an anisotropic quantum critical point characterized by two different correlation length exponents $nu_{||}$ and $nu_{bot}$ along parallel and perpendicular spatial directions, respectively. Our studies show that the response of the system due to a small change in the Hamiltonian near an anisotropic quantum critical point is different from that seen near an isotropic quantum critical point. In particular, for a finite system with linear dimension $L_{||}$ ($L_{bot}$) in the parallel (perpendicular) directions, the maximum value of $chi_{rm f}$ is found to increases in a power-law fashion with $L_{||}$ for small $L_{||}$, with an exponent depending on both $nu_{||}$ and $nu_{bot}$ and eventually crosses over to a scaling with $L_{bot}$ for $L_{||}^{1/nu_{||}} gtrsim L_{bot}^{1/nu_{bot}}$. We also propose scaling relations of heat density and defect density generated following a quench starting from an anisotropic quantum critical point and connect them to a generalized fidelity susceptibility. These predictions are verified exactly both analytically and numerically taking the example of a Hamiltonian showing a semi-Dirac band-crossing point." @default.
W2065431491 created "2016-06-24" @default.
W2065431491 creator A5006644558 @default.
W2065431491 creator A5085176201 @default.
W2065431491 date "2011-06-08" @default.
W2065431491 modified "2023-09-26" @default.
W2065431491 title "Fidelity susceptibility and general quench near an anisotropic quantum critical point" @default.
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W2065431491 doi "https://doi.org/10.1103/physrevb.83.214302" @default.
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