Lectures related to Quantum Physics I

Explores time-dependent perturbation theory in quantum physics from an interaction point of view.

Double Slit Experiment and Quantum Information Processing

Explores the historical development of quantum mechanics and information theory, focusing on the double slit experiment and quantum phenomena.

Quantum Physics I

Explores experiments with entangled photons and quantum information science.

Quantum Fluids: Investigating Ultracold Gases

Explores investigating quantum matter with ultracold gases and the quest for supersolidity.

Quantum Information Principles

Covers the mathematical principles of quantum physics, including Hilbert spaces and quantum bits.

Quantum Principles

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

Quantum Physics II: Operator or Density Matrix

Explores operator, density matrix, subsystems, states, and system evolution in quantum physics.

Quantum Information Theory: Basics and Quantum States

Covers the basics of quantum information theory, focusing on classical and quantum states, evolutions, and measurements.

Quantum Measurements

Explores projective quantum measurements, system-meter formulation, observable outcomes, and coupling between systems and meters.

Quantum Mechanics: Wave Mechanics

Explores wave mechanics in quantum physics, focusing on the Schrodinger equation and stationary states.

Quantum Computing: Introduction

Covers quantum computing basics, quantum algorithms, error correction, and quantum bit manipulation.

Quantum Information: Young's Double-Slit Experiment

Explores Young's double-slit experiment and the behavior of quantum particles.

Fixed Energy Propagator: Analytic Structure and Applications

Explores the fixed energy propagator, its analytic structure, boundary conditions, and applications in quantum systems.

Quantum Information: Principles and Measurements

Covers the principles of quantum physics and quantum measurements.

Quantum Physics I

Explores quantum state evolution, unitary operators, Heisenberg representation, spin precession, and observable averages.

Quantum Physics II: Operator or Density Matrix

Explores operator or matrix density in quantum physics, discussing system evolution and interactions with the environment.

Quantum Information: Security Testing

Covers security testing in quantum communication, emphasizing the importance of rigorous verification and testing protocols.

Quantum Mechanics: Spatial Interference and Coupling

Covers quantum mechanics exercises on spatial interference and coupling between oscillators, emphasizing independent problem-solving and the implications of measurement in quantum systems.

Quantum Information: Principles and Applications

Explores quantum information principles, including Larmor precession and quantum states evolution in magnetic fields.

Quantum Simulation with Cold Atoms

Covers the principles of quantum simulation with cold atoms, including optical dipole potentials and Feshbach resonances.