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Radzihovsky, Leo

Professor

Positions

Research Areas research areas

Research

research overview

  • I develop theories of broad range of condensed matter, that includes: quantum liquids, superconductors, magnets, polymers, liquid crystals, colloids, disordered systems, degenerate atomic gases, and critical phenomena, quantum molecular chemistry. The common theme that unifies these topics is the qualitatively important role played by thermal and quantum fluctuations and interactions.

keywords

  • Condensed matter physics theory, atomic gases, critical phenomena, disorder, superconductivity, magnetism, soft-matter, quantum liquids, topological states of matter, quantum molecular chemistry

Publications

selected publications

Teaching

courses taught

  • PHYS 3220 - Quantum Mechanics 1
    Secondary Instructor - Spring 2018 / Spring 2019
    Introduces quantum mechanics with wave, operator and matrix computational techniques. Investigates solutions for harmonic oscillator, potential well and systems with angular momentum. Develops a quantitative description of one-electron atoms in lowest order.
  • PHYS 7230 - Statistical Mechanics
    Primary Instructor - Spring 2021 / Spring 2022 / Spring 2023
    Classical and quantum statistical theory, including study of both equilibrium and nonequilibrium systems. Topics covered include kinetic theory, degenerate gases, macrocanonical and grand canonical ensembles, and irreversible processes. Department enforced prerequisite: advanced undergraduate quantum mechanics course.
  • PHYS 7240 - Advanced Statistical Mechanics
    Primary Instructor - Fall 2019 / Fall 2020 / Fall 2022
    Introduces current research topics in statistical mechanics. Topics vary from year to year and may include phase transitions, critical phenomena, nonequilibrium phenomena, dense fluids, dynamical systems, plasma physics, or quantum statistical mechanics. Recommended prerequisite: PHYS 7230.
  • PHYS 7280 - Advanced Quantum Theory
    Secondary Instructor - Spring 2023
    Quantum theory of fields, elementary particles, symmetry laws, and topics of special interest. Recommended prerequisite: PHYS 7270 or instructor consent required.

Background

awards and honors

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