Overdamped Regime

PHYS2113 2023 Video

PHYS2113 2023 Video 15 -- Overdamped Oscillators

Narrow Escape Problem

Narrow Escape Problem of an Chiral Active Particle : Noise-Dominated Regime

Alexander Figotin :

Alexander Figotin : Overdamping in gyroscopic systems composed of high-loss and lossless components

The Physics of

The Physics of Damped Harmonic Oscillations: Simplified | Equations of Motion & Beyond

Prof. Gabriel Stoltz

Prof. Gabriel Stoltz | Optimizing the diffusion for sampling with overdamped Langevin dynamics

PHYS2113 2023 Video

PHYS2113 2023 Video 16 -- Underdamped Oscillators

Lecture 1.5 -

Lecture 1.5 - Undamped Oscillator Harmonic Excitation Characteristics of the Particular Solution

JP in a

JP in a traveling optical potential: small JP, V = 0.4 um/s

JP of the

JP of the same size of the spatial periodicity, V = 0.2 um/s

JP of the

JP of the same size of the spatial periodicity, V = 0.4 um/s

The Step Response

The Step Response | Control Systems in Practice

Probabilistic sampling for

Probabilistic sampling for physics:Finding saddle points of energy landscapes:why and how?T.Lelievre

JP of the

JP of the same size of the spatial periodicity, V = 4 um/s

JP of the

JP of the same size of the spatial periodicity, V = 1 um/s

Unlocking Fusion Secrets:

Unlocking Fusion Secrets: The Six-Dimensional Langevin Breakthrough

JP in a

JP in a traveling optical potential: small JP, V = 0.2 um/s

Electric Circuits Tutor

Electric Circuits Tutor : EE2201 : CH09 : RLC (Full Course : 25 Hours)

JP larger than

JP larger than the spatial periodicity, V = 0.4 um/s

JP in a

JP in a traveling optical potential: small JP, V = 10 um/s

JP in a

JP in a traveling optical potential: small JP, V = 1 um/s

JP in a

JP in a traveling optical potential: small JP, V = 4 um/s

JP of the

JP of the same size of the spatial periodicity, V = 0

JP in a

JP in a traveling optical potential: small JP, V = 2 um/s

JP larger than

JP larger than the spatial periodicity, V = 1 um/s