Concept

Hamiltonian (quantum mechanics)

Related lectures (31)

Hamiltonian Formulation and Equivalence with Euler-Lagrange

Explores Hamiltonian formulation and its equivalence with Euler-Lagrange equations, illustrated through examples.

Hamiltonian Mechanics: Diatomic Molecules

Explores Hamiltonian mechanics in diatomic molecules, emphasizing polar coordinates and conservation laws.

Quantum Harmonic Oscillator

Explores the classical dynamics and quantization of a harmonic LC oscillator.

Quantum Physics I

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

Particle in a Central Potential

Explores the particle in a central potential and its mathematical framework.

Particle in a Central Potential

Explores the behavior of a particle in a central potential and its invariance under rotations.

Sideband Cooling

Covers sideband cooling in quantum optics, focusing on motional sidebands, Lamb-Dicke parameter, and cooling cycle.

Harmonic Oscillator

Covers the classical and quantum systems of the harmonic oscillator.

Canonical Transformations in Hamiltonian Formalism

Explores canonical transformations in Hamiltonian formalism, emphasizing preservation of the action principle and structure necessary for transformations.

Topological spatial queries: summary

Covers the evaluation of topological spatial relations between entities.

Group Representations Theory Application Overview

Covers the application of group representations theory in quantum physics.

Hamiltonian Mechanics: Phase Space and Poisson Bracket

Explores phase space, the Poisson bracket, and Hamiltonian mechanics concepts.

Quantum Physics I

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

Quantum Mechanics Basics

Covers the basics of quantum mechanics, focusing on Hamiltonian operator and Schrödinger equations.

Linear Beam Dynamics

Covers the Hamiltonian formalism, linear equations, Courant-Snyder parametrization, and chromatic effects in accelerator physics.

Hartree-Fock: Approximation & Wavefunction

Explains the Hartree-Fock approximation method and the process of minimizing the energy expression to find the wavefunction.

Relativistic Quantum Mechanics

Introduces relativity into quantum mechanics and discusses the Dirac equation and 4x4 matrices.

Staggered Bosons: Symmetry and Gaplessness

Explores staggered bosons, lattice realizations of gapless field theories with symmetry protection, commutation relations, and criticality.

Quantum Mechanics Basics

Covers the basics of quantum mechanics, focusing on solving the non relativistic Schrodinger equation.

Stability of Atoms

Explores the stability of atoms in quantum mechanics, emphasizing the Coulomb uncertainty principle and its impact on electron behavior within the nucleus.