Lectures related to Squeezed coherent state

Harmonic Oscillators: Definitions and Dynamics

Covers the definitions and dynamics of harmonic oscillators, including ladder operators and coherent states.

Coherent States: Quantum Optics

Covers coherent states in quantum optics, their properties, and dynamics, including the time evolution of Fock states.

Quantum Optics: Squeezed States and Quadrature Representation

Explores squeezed states, quadrature representation, P-function, and Wigner function in quantum optics.

Squeezed light: Quantum Optomechanics

Explores the generation and properties of squeezed light, improving signal-to-noise ratio for measurements.

Damped Harmonic Oscillator

Covers the damped harmonic oscillator in quantum optics, discussing alternative descriptions and extensions like finite temperature.

Jarzynski Equation and Quantum Circuits

Explores the Jarzynski equation and the quantization of electrical circuits in quantum harmonic oscillators.

Quantum Metrology: Spin-Squeezing and Interferometry

Explores spin-squeezing in quantum metrology, focusing on interferometry beyond the standard limit and applications in precision measurements.

Damped Harmonic Oscillator

Covers the damped harmonic oscillator in quantum optics, including field amplitude, coherent states, photon numbers, and phase space.

Modes and states in quantum optics

Explores the fundamental concepts of modes and states in quantum optics, covering topics such as optical frequency combs, homodyne detection, and quantum resource like squeezed states.

Quantum Mechanics: Coherent States and Heisenberg Picture

Covers the evolution of operators in the Heisenberg picture and coherent states of the harmonic oscillator.

Damped harmonic oscillator: Introduction and Field Amplitude

Covers the damped harmonic oscillator, introducing the field amplitude and coherent states.

Quantum Optics: Basics and Applications

Covers the quantization of the electromagnetic field, measuring quantum states of light, and the historical development of quantum optics.

Quantum Optics: State Reconstruction

Covers state reconstruction in quantum optics, focusing on the Wigner function and experimental measurements.

Properties of Coherent States

Covers the properties of coherent states and their energy distribution related to harmonic oscillators.

Quantum Mechanics: Harmonic Oscillator

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

Quantum Sensing: Rotations and Coherent States

Explores quantum sensing, rotations, and coherent states in the context of two-level systems, the Bloch Sphere, and Rabi oscillations.

Quantum Optics: Squeezed States

Covers the concept of squeezed states in quantum optics and their significance.

Damped Harmonic Oscillator: Quantum Gases

Covers the damped harmonic oscillator and its extensions in quantum gases.

Quantum Mechanics: Stochastic Processes

Explores the relationship between quantum mechanics and Markov jump processes in quantum optics and electronics.

Bargmann States: Overview

Explains Bargmann states, their evolution, basis, and significance in quantum physics.