Concept

Time evolution

Related lectures (31)

Covers the Cincent Model of Deutsch for Quantum Computation, focusing on input representation, Hilbert space, and unitary evolution.

Schrödinger Equation: Properties and Time Evolution

Covers the properties of the Schrödinger equation and its time evolution.

Quantum Physics I

Explores quantum mechanics, focusing on time evolution, Schrodinger equation, observables, Hamiltonians, spin dynamics, and resonance phenomena.

Quantum Mechanics: Time Evolution

Explores time evolution in quantum mechanics, covering compatibility, uncertainty, and evolution properties.

Quantum Physics I

Introduces key quantum physics concepts such as commutators, observables, and the Schrödinger equation, emphasizing the importance of diagonalization and energy eigenvalues.

Path Integral Evolution Operator

Covers the path integral evolution operator representation and the semiclassical approximation in quantum mechanics.

Evolution of Density Matrices

Covers the evolution of density matrices in quantum optics, focusing on quantum channels and amplitude damping.

Quantum Physics I

Covers the fundamentals of quantum physics, including commutation relations and time evolution operators.

Quantum Field Theory: BRST Symmetry

Covers the BRST symmetry in Quantum Field Theory, focusing on physical states and norm preservation.

Quantum Perturbation Theory: Time-Dependent Part 1

Covers the basics of time-dependent perturbation theory in quantum mechanics.

Quantum Principles

Covers the fundamental principles of quantum computing and unitary evolution in quantum systems.

Quantum Mechanics: Path Integral Methods

Covers the basics of path integral in quantum mechanics and its application to free particles.

Quantum Optics: Atom-Field Interaction

Covers the full quantum theory of atom-field interaction and the synthesis of arbitrary quantum states using unitary evolution operators.

Evolution of Density Matrices

Explores the evolution of density matrices in quantum optics, emphasizing super-operators and completely positive maps.

Theory of Open Quantum Systems

Covers the theory of open quantum systems and the dynamics of isolated systems.

Quantum Physics I

Covers time-dependent quantum systems, resonance phenomena, and quantum behavior in molecular ammonia.

Quantum Mechanics: Operators and Eigenvalues

Covers matrix elements, operators, paths with conditions, and time evolution in quantum mechanics.

Quantum Mechanics: Harmonic Oscillator

Introduces coherent states, the Ehrenfest theorem, and path integrals in quantum mechanics.

Turbulent Energy Dissipation

Explores turbulence models for energy dissipation and kinetic energy transport.

Deformation and Strain Tensors

Explores deformation and strain tensors, Lagrange representation, elasticity theory, and the divergence theorem.