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PHYS-H200

Physique quantique et statistique

academic year
2023-2024
2024-2025

Course teacher(s)

Jean-Marc SPARENBERG (Coordinator)

ECTS credits

5

Language(s) of instruction

french

Course content

Particles and forces. Wave-particle duality. Schrödinger equation in one and three dimensions. Postulates and their interpretation. Orbital angular momentum. Hydrogen atom. Particle systems. Pauli principle. Spin. Structure of atoms. Molecules. Nuclei. Electromagnetic transitions. Canonical ensemble. Maxwell distribution. Fermi-Dirac statistics and Bose-Einstein. Planck distribution. Applications to atomic and molecular gas.

Technological applications: laser, diffraction grating, polarizer, quantum computing, semiconductors, tunneling microscope.

Objectives (and/or specific learning outcomes)

Understanding basic notions of quantum and statistical physics and being able to put them in practice to solve simple problems.

Situating the origins of quantum physics in science history and being aware of its main technological applications today.

Prerequisites and Corequisites

Required and corequired courses

Cours co-requis

Courses requiring this course

Teaching methods and learning activities

Lectures and exercises.

References, bibliography, and recommended reading

J.-L. Basdevant et J. Dalibard, Mécanique Quantique (Éditions de l'École Polytechnique, 2005)

J.-L. Basdevant and J. Dalibard, Quantum Mechanics (Springer, 2005)

M. Kumar, Quantum: Einstein, Bohr and the Great Debate About the Nature of Reality (Icon Books, 2009)

M. Kumar, Le grand roman de la physique quantique (Lattès, 2011)

F. S. Crawford Jr., Ondes, Berkeley: cours de physique, volume 3 (Armand Colin, 1972)

F. S. Crawford Jr., Waves, Berkeley Physics Course, volume 3 (McGraw-Hill, 1965)

E. H. Wichmann, Physique quantique, Berkeley: cours de physique, volume 4 (Armand Colin, 1974)

E. H. Wichmann, Quantum Physics, Berkeley Physics Course, volume 4 (McGraw-Hill, 1967)

F. Schwabl, Quantum Mechanics (Springer, 2009)

C. Cohen-Tannoudji, B. Diu et F. Laloë, Mécanique quantique I et II (Hermann, 1977)

B. H. Bransden and C. J. Joachain, Introduction to Quantum Mechanics (Longman, 1989)

F. Reif, Physique statistique, Berkeley: cours de physique, volume 5 (Armand Colin, 1972)

F. Reif, Statistical Physics, Berkeley Physics Course, volume 5 (McGraw-Hill, 1967)

B. Diu, C. Guthmann, D. Lederer et B. Roulet, Éléments de Physique Statistique (Hermann, 1997)

Course notes

  • Podcast
  • Syllabus
  • Université virtuelle

Other information

Contacts

jmspar@ulb.ac.be

Campus

Solbosch

Evaluation

Method(s) of evaluation

  • written examination
  • Oral examination
  • Other

written examination

  • Open question with short answer
  • Open question with developed answer

Oral examination

  • Examination with preparation
  • Open question with short answer

Other

Mark calculation method (including weighting of intermediary marks)

Written exam (theory and practice): 70%

Oral exam (theory and practice): 30%

Language(s) of evaluation

  • french

Programmes