Concept

Thermal fluctuations

Related lectures (30)

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.

Sampling the Canonical Ensemble

Explores sampling the canonical ensemble, temperature fluctuations, extended Lagrangian, and Maxwell-Boltzmann distribution in molecular dynamics simulations.

Canonical Ensemble: Partition Function and Ideal Gas

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

Eigenstate Thermalization Hypothesis

Explores the Eigenstate Thermalization Hypothesis in quantum systems, emphasizing the random matrix theory and the behavior of observables in thermal equilibrium.

Response Theory: Trajectory-Based Approach

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

Renormalization & Scaling

Explores renormalization, scaling, critical points, exponents, and phase transitions in conformal field theory and quantum gravity.

Sampling the Canonical Ensemble

Explores sampling the canonical ensemble, temperature fluctuations, extended Lagrangian, and molecular dynamics control of temperature.

Kinetic Theory of Gases: Introduction

Introduces the kinetic theory of gases, focusing on the microscopic description of gas components and the ideal gas law.

Jarzynski Equation and Quantum Circuits

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

Molecular dynamics: Integrating Newton's equations

Explores molecular dynamics, integrating Newton's equations to make atoms move according to interatomic forces.

Statistical Mechanics: Fundamentals

Covers the fundamentals of statistical mechanics, including system parameters, variables, and thermal equilibrium.

Phase Equilibria: Understanding Vapor-Liquid Separation

Provides an overview of vapor-liquid phase diagrams and their role in separation processes, focusing on phase equilibria and the Gibbs phase rule.

Thermal Fluctuations in Gases

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

Irreversible Processes, Transport

Explores irreversible processes and transport phenomena related to heat, pressure, and chemical potential differences in isolated systems.

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.

Quantifying Randomness in Biological Data

Covers randomness and information in biological data, focusing on discrete random variables and their quantification.

Euclidean Correlation Functions

Explores Euclidean correlation functions and the transition to real-time correlators, emphasizing analyticity and time ordering in thermal n-point functions.

Kinetic Theory: Ideal Gas Model

Introduces the kinetic theory of gases and the ideal gas law.

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.