Explores quantum mechanics, focusing on time evolution, Schrodinger equation, observables, Hamiltonians, spin dynamics, and resonance phenomena.
Covers the basics of quantum physics, including the Schrödinger equation and Heisenberg's uncertainty principle.
Covers time-dependent quantum systems, resonance phenomena, and quantum behavior in molecular ammonia.
Introduces the bra-ket formalism, states, wave functions, and Hermitian operators, exploring the correspondence principle between classical and quantum mechanics.
Explores discrete and continuous degrees of freedom, canonical commutation relations, and the correspondence between classical and quantum mechanics.
Explores the position representation and momentum operators in quantum physics.
Covers the transmission operator, commutation relations, position representation, momentum eigenstates, and Fourier transform properties.
Explores quantum physics concepts such as operators, representations, and the uncertainty principle.
Covers the basics of quantum physics, focusing on the quantum harmonic oscillator and eigen-kets of Hamiltonian.
Explores quantum harmonic oscillators, creation operators, energy quantization, and the connection between quantum and classical physics.
Introduces Quantum Physics basics, covering harmonic oscillators, Schrödinger equation, eigenstates, wave functions, and energy quantization.
Covers wave functions, wave equations, bound states, free particles, and normalization properties in quantum physics.
Covers the fundamentals of quantum physics, including the Schrödinger equation and bound states.
Explores the Schrodinger equation, wave function conditions, and finite potential wells.
Covers the fundamentals of quantum physics, including wave packets, probability flux, and conservation properties.
Explores the evolution of wave functions, wave packet behaviors, and wave-barrier interactions.
Covers the basics of quantum physics, including wave packet dynamics and probability density functions.
Explores the analysis of the Schrödinger equation in realistic scenarios, focusing on angular momentum and the association of physical operations with observables.
