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Next student seminar :
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Here you can find information about your internships:
Experimental Internship - Undergraduate program
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All information about the program
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Lectures: Kris Van Houcke
Exercises: Félix Werner
ECTS credits: 3
Language of instruction : English
Keywords: Classical field theory, hydrodynamics, two-fluid model, Kostelitz-Thouless theory
Exam: written
Superfluidity (like its cousin, superconductivity) is a particularly striking and concrete manifestation of the wavelike nature of matter. In electromagnetism, it is often fruitful to use Maxwell’s equations, forgetting about the existence of photons. Similarly, we will describe matter by a classical (complex-valued) field, forgetting about the existence of particles. This unconventional approach greatly helps to understand and derive the fundamental concepts and relations of superfluidity, under very general conditions (for any temperature below the transition temperature, including in 2 dimensions —where there is no condensate— and in presence of disorder —where there is no Galilean invariance). Superfluidity appears to be the natural state of the classical field, which can only be destroyed by topological defects (vortices). More formally, superfluidity is associated to a topological order, characterized by an emergent constant of motion. This will allow us to derive key equations of two-fluid hydrodynamics, which will enable us to explain key phenoma such as the fountain effect, the Josephson effect, or supertransport of heat.
Reference:
B. Svistunov, E. Babaev, N. Prokof’ev, Superfluid states of matter (Taylor & Francis, London, 2015)
Next student seminar :
Access to the program
Here you can find information about your internships:
Experimental Internship - Undergraduate program
Master ICFP first year Internship
News : ICFP Research seminars
November 14 - 18, 2022 :
All information about the program
Contact us - Student support and Graduate School office :
Tél : 01 44 32 35 60
enseignement@phys.ens.fr