Lectures related to Superfluid helium-4

Gauge Invariance: Electromagnetic Potentials

Explores gauge invariance, electromagnetic potentials, superfluid velocity, and superconductors' magnetic field expulsion.

Path Integrals: Quantum Fluids

Explores Path Integrals for quantum fluids, emphasizing superfluid transitions, permutation distributions, and the fixed-node method.

Topological matter and its exploration with quantum gases

Explores topological matter in 2D systems, discussing unconventional phase transitions, vortices, and the ideal Bose gas.

Exploring 4D Topological Phases of Matter

Explores 4D topological phases of matter through quantum simulation and discusses approaches like topological pumping and synthetic dimensions.

Superconducting Shielding: Design and Properties

Explores superconducting shielding, the Meissner effect, macroscopic wave function, and single-spin detection in biological research.

Controlling Quantum Matter with Light

Explores controlling quantum matter with light, covering photon-matter coupling, experimental setups, and fermion pair polaritons.

Quantum Metrology: Spin-Squeezing and Interferometry

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

Quantum Fluids: Investigating Ultracold Gases

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

Fluid Dynamics: Understanding Stationary Liquids and Bernoulli's Principle

Explains fluid dynamics, focusing on stationary liquids and Bernoulli's principle with practical applications.

Optomechanical Systems: Quantum Measurement and Control

Delves into early quantum-optomechanics, experimental platforms, and hybrid optomechanical systems, exploring quantum measurement and control.

Van der Waals Gas: Phenomenology and Equations

Explores the Van der Waals gas equation and its implications for real gases and fluids.

Vorticity and Circulation

Delves into vorticity, circulation, and vortex characteristics, impacting fluid behavior and system performance.

Quantum Monte Carlo: Mixed-gen Session3

Covers Quantum Monte Carlo methods for strongly correlated systems, including helium properties, phase diagrams, imaginary time path integrals, and applications of Quantum Monte Carlo forces.