Low temperature physics: proceedings of the Summer School held at Blydepoort, Eastern Transvaal, South Africa, 15-25 January 1991
This volume contains a series of six lecture courses presented by some of the leading exponents in the field of low-temperature physics. Special emphasis is given to theoretical and experimental advances in our understanding of 3He, heavy fermion systems and high-Tc superconductivity. The book provide an ideal basis for graduate courses in low-temperature physics.
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angular momentum approximation assumed atoms axis BCS theory behaviour Bogoliubov quasiparticles boundary condition calculations circulation coefficient collision component condensate conduction electrons constant Cooper pairs correlations corresponding coupling defined density described discussed distribution function dynamics effect eigenstates entropy equilibrium experimental experiments f electron Fermi energy Fermi surface fermion Figure finite fluid frequency Green's function ground Hamiltonian hole hydrodynamic integral interaction isotropic Kapitza resistivity kinetic equation Landau lecture limit liquid 3He low temperatures macroscopic magnetic field matrix mean free path measured NCRI normal Fermi liquid nuclear obtained operator orbital order parameter p-wave particles persistent current phase phonons Phys planes potential properties quantity quantum relation resonance result rotation scattering shear viscosity shown singlet slip length spin diffusion superconductors superflow superfluid superfluid 3He susceptibility tensor texture torsional oscillator transition transport parameters transverse vector velocity viscosity vortex wall wave function Witwatersrand University zero