Concept

Fluctuation theorem

Related lectures (24)

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Response Theory: Trajectory-Based Approach

Explores response theory using a trajectory-based approach in nonequilibrium statistical mechanics, emphasizing dynamical activity and entropy flux.

Nonequilibrium Free Energy Equality

Covers the nonequilibrium equality for free energy differences proposed by Crooks and Jarzynski in 1997.

Non-equilibrium GLE sampling

Explores the Non-equilibrium GLE sampling method for atomistic modeling and discusses S-like thermostats, quantum thermostat, anharmonic systems, and zero-point energy leakage.

Jarzynski Equation and Quantum Circuits

Explores the Jarzynski equation and the quantization of electrical circuits in quantum harmonic oscillators.

Thermal Fluctuations: Importance at Cellular Scale

Explores the impact of thermal fluctuations at the cellular scale, emphasizing randomness in biological processes and the distribution of kinetic energy in gas molecules.

Quantum Mechanics: Stochastic Aspects

Delves into the statistical aspects of quantum mechanics and its relation to stochastic processes, focusing on quantum optics and Markov jump processes.

Pair Correlation Function and Macroscopic Properties

Explores the link between pair correlation function and physical observables, providing insights into particle interactions in liquids.

Information Measures

Covers information measures like entropy, Kullback-Leibler divergence, and data processing inequality, along with probability kernels and mutual information.

Quantum Langevin Equations

Covers the derivation of quantum Langevin equations and input-output formalism in open quantum systems.

Generalized Fluctuation-Dissipation Relation

Explores the Generalized Fluctuation-Dissipation Relation, Wiener-Khinchin theorem, and Fokker-Planck equation applications.

Fluctuation Dissipation Theorem

Explores the Fluctuation Dissipation Theorem, covering topics like the Langevin equation and force correlations in high-temperature equilibrium.

Thermal Detectors: General Model and Applications

Provides an overview of thermal detectors, focusing on their general model, sensitivity, bandwidth, and practical applications in various fields.

Canonical Ensemble: Partition Function and Ideal Gas

Explores the canonical ensemble, partition function, and ideal gas properties.

Radiation Detection: Combining and Comparing Systems

Explores the Fano factor in ionization-based detectors and compares different detector types for superior resolution power.

Conservation of Total Energy

Explores the conservation of total energy in systems with time-independent potential energy, demonstrating its constancy and importance in verifying numerical integration accuracy.

Sampling the Canonical Ensemble

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Path Integral Methods: Advanced Techniques

Explores advanced path integral methods in computational science, covering efficient sampling, colored noise, high-order integrals, and quantum thermostats.

Thermal Fluctuations in Gases

Explores thermal fluctuations in gases and the strength of various bonds, crucial in biological processes.