Entropy production in chemical reaction networks shows generic critical exponents at pitchfork, transcritical, saddle-node, and Hopf bifurcations, with the inequality α - 2β ≥ 0 implying divergent responses require divergent fluctuations but not conversely.
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UNVERDICTED 5representative citing papers
Markovian embedding decomposes non-Markovian entropy production into Markovian dissipation plus nonnegative memory term, yielding finite-time thermodynamic bounds including TURs, speed limits, and power-efficiency trade-offs.
Coulomb interactions renormalize Andreev resonances and suppress coherence in NS quantum dots, producing a pronounced drop in current precision and eliminating quantum TUR violations while the hybrid bound holds.
Motor number fluctuations from shot noise explain the quality factor Q and phase defects observed in the beating of a single cilium.
A new inequality bounds average dissipation rate in Markov jump processes via precision coefficients on recurrence times and integrated currents, saturating under weaker conditions than the TUR.
citing papers explorer
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Motor shot noise explains active fluctuations in a single cilium
Motor number fluctuations from shot noise explain the quality factor Q and phase defects observed in the beating of a single cilium.
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Using precision coefficients on recurrence times and integrated currents to lower bound the average dissipation rate
A new inequality bounds average dissipation rate in Markov jump processes via precision coefficients on recurrence times and integrated currents, saturating under weaker conditions than the TUR.