(C1) and taking the limita→ ∞, we obtain the Markovian kernel G(t) = 1 λ e− γ0 t 2 sin(λt),(C13) valid in the underdamped regime2ω > γ 0

Limit of the kernel The asymptotic behavior of the remaining coefficients is d=− a2 γ0 + 2a− ω2 γ0 +O(a −1), c 1 ∼ γ0 a2 ,(C11) which implies lim a→∞ c1(d−q) =−1

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Non-Markovian entropy production fluctuation theorem driven by a time-dependent electric field

cond-mat.stat-mech · 2026-05-04 · unverdicted · novelty 4.0

Kubo's FDT remains unchanged despite an induced electric force from the bath, enabling a Gaussian position PDF that proves the detailed fluctuation theorem for entropy production in this non-Markovian GLE setup.

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Non-Markovian entropy production fluctuation theorem driven by a time-dependent electric field cond-mat.stat-mech · 2026-05-04 · unverdicted · none · ref 5
Kubo's FDT remains unchanged despite an induced electric force from the bath, enabling a Gaussian position PDF that proves the detailed fluctuation theorem for entropy production in this non-Markovian GLE setup.

(C1) and taking the limita→ ∞, we obtain the Markovian kernel G(t) = 1 λ e− γ0 t 2 sin(λt),(C13) valid in the underdamped regime2ω > γ 0

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