Lectures related to Optomechanical squeezing

Coherent Detection: Signal and Local Oscillator Interference

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

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.

Amplified Spontaneous Emission Noise in Fiber Amplifiers

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

Radiation and Antennas: Noise and Propagation Fundamentals

Explores noise and propagation fundamentals in radiation, antennas, and wireless communications, covering internal and external noise sources, thermal noise, wireless principles, and signal propagation phenomena.

Quantum Optics I: Stern-Gerlach Experiment

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

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.

Propagation and Antennas: Atmospheric Effects and Wireless Links

Explores the effects of rain, fog, and obstacles on wave propagation, antenna characteristics, noise in wireless systems, and signal-to-noise ratio.

Radiation and Antennas

Explores interference, reflection, diffraction, fog effects, antennas, noise, EIRP, and link assessment in radiation and antennas.

High Q Optical Microcavities

Explores high Q optical microcavities, covering topics such as quality-factor, nonlinear properties, and cavity quantum optomechanics.

Optical Detection: Synchronous and Direct Methods

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

Radiation and Antennas: Orthogonal Herz Dipole Network

Covers the concept of radiation and antennas in orthogonal Herz dipole networks.

Quantum Optics: Squeezed States and Quadrature Representation

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

Electromagnetic Waves: Theory & Applications

Explores electromagnetic waves, Maxwell's equations, circuits, and wave propagation through different media.

Low-power Radio Design: Mixers Fundamentals

Explores the fundamentals of mixers in low-power radio design for the IoT, covering types, characteristics, and detailed analyses of the single balanced mixer.

Homodyne detection: Optomechanical principles

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

Atomic Structure: Quantum Numbers and Orbitals

Explores atomic structure, quantum numbers, orbitals, and the uncertainty principle in defining electron states and shapes.

Introduction to Quantum Sensing

Introduces quantum sensing and metrology, exploring precision limitations and unified frameworks for analysis with elementary quantum systems.

Quantum Physics: Photon Momentum and Photoelectric Effect

Explores quantum radiation, photon momentum, and the photoelectric effect in detail.

Quantum Acoustics Experiments

Delves into quantum acoustics experiments at TU Delft, covering optomechanics, sensing, and ground-state preparation.

Noise Reduction Techniques in Analog Circuits

Explores noise and offset reduction techniques in analog circuits, focusing on Autozero and Chopper Stabilization.