Cosmology, Particle Physics and Superfluid 3He

A. Borovik-Romanov; A. Otterlo van; A.A. Grib; A.C. Davis; A.D. Sakharov; A.J. Leggett; A.S. Schwarz; C. Bäuerle; C. Caroli; C. Castelijns; D. Bradley; D. Harari; D. Vollhardt; E. Witten; E.B. Sonin; E.J. Copeland; G. Barton; G. E. Volovik; G. Volovik; G. Volovik; G. Volovik; G.E. Volovik; G.E. Volovik; G.E. Volovik; G.E. Volovik; G.E. Volovik; I. Chuang; J. Garriga; J. March-Russel; J.R. Kirtley; J.S. Bell; M. Heinilä; M. Salomaa; M.V. Khazan; N. Turok; N.B. Kopnin; N.B. Kopnin; P. McGraw; P. Schiffer; P.C. Hendry; S. Adler; S. Hawking; S.C. Weinberg; S.G. Naculich; S.S. Gershtein; T. Bevan; T. Vachaspati; T. Vachaspati; T. Vachaspati; T.W.B. Kibble; V. Geshkenbein; V.M.H. Ruutu; W.G. Unruh; W.H. Zurek; Y. Kondo; Y. Nambu; Ya. B. Zeldovich; Yu. Makhlin; Ü. Parts; Ü. Parts

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Cosmology, Particle Physics and Superfluid 3He

Abstract

Many direct parallels connect superfluid 3He with the field theories describing the physical vacuum, gauge fields and elementary fermions. Superfluid

^3

He exhibits a variety of topological defects which can be detected with single-defect sensitivity. Modern scenarios of defect-mediated baryogenesis can be simulated by the interaction of the 3He vortices and domain walls with fermionic quasiparticles. Formation of defects in a symmetry-breaking phase transition in the early Universe, which could be responsible for large-scale structure formation and for microwave-background anisotropy, also may be modelled in the laboratory. This is supported by the recent observation of vortex formation in neutron-irradiated 3He-B where the "primordial fireball" is formed in an exothermic nuclear reaction.Comment: Invited talk at LT-21 Conference, 20 pages, 3 figures available at request, compressed ps file of the camera-ready format with 3 figures is at ftp://boojum.hut.fi/pub/publications/lowtemp/LTL-96006.ps.g

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