Concept

Homodyne detection

Related lectures (13)

Explores optomechanical squeezing, where radiation pressure modifies light beam quantum properties, leading to complex correlations and experimental demonstrations.

Photonic Systems: APD Responsivity and Detection Techniques

Discusses APD responsivity, differential encoding, balanced detection, and coherent detection techniques in photonic systems.

Homodyne Receivers: Design and Challenges

Explores homodyne receivers, covering DC offset, channel selection, and offset cancellation, along with challenges like even-order distortion and LO leakage.

Coherent Detection: Signal and Local Oscillator Interference

Explores coherent detection in optical systems, highlighting the interference between the signal and local oscillator.

Quantum Optics: Squeezed States and Quadrature Representation

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

Homodyne detection: Optomechanical principles

Explores homodyne detection in optomechanics, addressing limitations of diode rectification and showcasing the advantages of homodyne detection over traditional methods.

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.

Optical Detection: Synchronous and Direct Methods

Discusses optical detection methods, focusing on synchronous and direct detection techniques and their applications in imaging and measurement.

Quantum Optomechanics

Explores ponderomotive squeezing and quantum optomechanics, focusing on BAE/QND measurements and optical field-mirror interactions.

Amplified Spontaneous Emission Noise in Fiber Amplifiers

Explores amplitude and phase modulation, noise figures, and detector noise in fiber amplifiers.

Quantum Optics I: Stern-Gerlach Experiment

Explores the Stern-Gerlach experiment, strong measurements, cavity quantum electrodynamics, and quantum optomechanics.

Quantum Optics I: Wigner Function

Covers the concept of the Wigner function in quantum optics.

Quantum Optics: State Reconstruction

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