Related papers: Trotter transition in BCS pairing dynamics

Trotter transition in BCS pairing dynamics

URL: http://arxiv.org/abs/2506.08657v1
Date: Tue, 10 Jun 2025 10:19:10 GMT
Title: Trotter transition in BCS pairing dynamics
Authors: Aniket Patra, Emil A. Yuzbashyan, Boris L. Altshuler, Sergej Flach,
Abstract summary: We Trotterize the mean-field dynamics of the integrable BCS model using symplectic exponents.<n>The chaotic dynamics is characterized by its Lyapunov spectrum and rescaled Kolmogorov-Sinai entropy.<n>Our work opens new directions -- such as probing observables like the Loschmidt echo -- across the Trotter transition we uncover.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We Trotterize the mean-field dynamics of the integrable BCS model using symplectic integrators. The resulting chaotic dynamics is characterized by its Lyapunov spectrum and rescaled Kolmogorov-Sinai entropy. The chaos quantifiers depend on the Trotterization time step $\tau$. We observe a Trotter transition at a finite step value $\tau_c \approx \sqrt{N}$. While the dynamics is weakly chaotic for time steps $\tau \ll \tau_c$, the regime of large Trotterization steps is characterized by short temporal correlations. We derive two different scaling laws for the two different regimes by numerically fitting the maximum Lyapunov exponent data. The scaling law of the large $\tau$ limit agrees well with the one derived from the kicked top map. Beyond its relevance to current quantum computers, our work opens new directions -- such as probing observables like the Loschmidt echo, which lie beyond standard mean-field description -- across the Trotter transition we uncover.

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