Hagen Kleinert
Hagen Kleinert  

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Photo taken in 2006


Born  Festenberg, Germany (now Twardogóra, Poland) 
15 June 1941
Fields  Theoretical Physics 
Institutions  Free University of Berlin 
Alma mater  University of Hanover, University of Colorado, Boulder 
Influenced  George Gamow, Richard Feynman 
Notable awards  Max Born Prize (2008) Majorana Prize (2008) 
Hagen Kleinert (born 15 June 1941) is Professor of Theoretical Physics at the Free University of Berlin, Germany (since 1968), Honorary Doctor at the West University of Timişoara, and at the KyrgyzRussian Slavic University in Bishkek. He is also Honorary Member of the Russian Academy of Creative Endeavors. For his contributions to particle and solid state physics he was awarded the Max Born Prize 2008 with Medal. His contribution^{[1]} to the memorial volume celebrating the 100th birthday of Lev Davidovich Landau earned him the Majorana Prize 2008 with Medal.
Contents
Publications
Kleinert has written ~400 papers on mathematical physics and the physics of elementary particles, nuclei, solid state systems, liquid crystals, biomembranes, microemulsions, polymers, and the theory of financial markets.^{[2]} He has written several books on theoretical physics,^{[3]} the most notable of which, Path Integrals in Quantum Mechanics, Statistics, Polymer Physics, and Financial Markets, has been published in five editions since 1990 and has received enthusiastic reviews.^{[4]}
Education
He studied physics at the University of Hanover between 1960 and 1963, and at several American universities including Georgia Institute of Technology, where he learned general relativity as a graduate student from George Gamov, one of the fathers of the Big Bang theory. Kleinert earned his doctorate in 1967 at the University of Colorado, Boulder.
Career
As a young professor in 1972, Kleinert visited Caltech and was impressed by noted US physicist Richard Feynman. Later, Kleinert was to collaborate with Feynman^{[5]} in some of the latter's last work.^{[6]} This collaboration led to a mathematical method for converting divergent weakcoupling power series into convergent strongcoupling ones. This socalled variational perturbation theory yields at present the most accurate theory of critical exponents^{[7]} observable close to secondorder phase transitions, as confirmed for superfluid helium in satellite experiments.^{[8]} He also discovered an alternative to Feynman's timesliced path integral construction which can be used to solve the path integral formulations of the hydrogen atom and the centrifugal barrier, i.e. to calculate their energy levels and eigenstates, as special cases of a general strategy for treating systems with singular potentials using path integrals.^{[9]}^{[10]}
Within the quantum field theories of quarks he found the origin^{[11]} of the algebra of Regge residues conjectured by N. Cabibbo, L. Horwitz, and Y. Ne'eman (see p. 232 in reference ^{[12]}).
Discoveries
For superconductors he predicted in 1982 a tricritical point in the phase diagram between typeI and typeII superconductors where the order of the transition changes from second to first.^{[13]} The predictions were confirmed in 2002 by Monte Carlo computer simulations.^{[14]}
The theory is based on a disorder field theory dual to the order field theory of L.D. Landau for phase transitions which Kleinert developed in the books on Gauge Fields in Condensed Matter. In this theory, the statistical properties of fluctuating vortex or defect lines are described as elementary excitations with the help of fields, whose Feynman diagrams are the pictures of the lines.
At the 1978 summer school in Erice he proposed the existence of broken supersymmetry in atomic nuclei,^{[15]} which has since been observed experimentally.^{[16]}
His theory of collective quantum fields^{[17]} and the Hadronization of Quark Theories^{[18]} are prototypes for numerous developments in the theory of condensed matter, nuclear and elementary particle physics.
Together with K. Maki he proposed and clarified in 1981 a possible icosahedral phase of quasicrystals.^{[19]} This structure was discovered three years later in aluminum transition metal alloys by Dan Shechtman, which earned him the Nobel Prize 2011.
In 2006, he considered the existence of a novel Riemann particle. The experimental verification is still missing.
See historical notes.
String theory contributions
In 1986 he introduced^{[20]} stiffness into the theory of strings, which had formerly been characterized by tension alone. This greatly improved the description of the physical properties of strings. The Russian physicist A. Polyakov simultaneously proposed a similar extension, and so the model is now known as the PolyakovKleinert string.
Theory of distributions
Together with A. Chervyakov, Kleinert developed an extension of the theory of distributions from linear spaces to semigroups by defining their products uniquely (in the mathematical theory, only linear combinations are defined). The extension is motivated by the physical requirement that the corresponding path integrals must be invariant under coordinate transformations,^{[21]} which is necessary for the equivalence of the path integral formulation to Schrödinger theory.
String theory alternative
As an alternative to string theory, Kleinert used the complete analogy between nonEuclidean geometry and the geometry of crystals with defects to construct a model of the universe called the World Crystal or PlanckKleinert crystal. In this model, matter creates defects in spacetime which generate curvature. This curvature reproduces all the effects of general relativity, but leads to different physics than string theory at the scale of the Planck length. This theory inspired Italian artist Laura Pesce to create glass sculptures entitled "world crystal" (see also lower left on this page).
Current
Kleinert is a senior member of the faculty for the International Relativistic Astrophysics Ph.D. (IRAP) Project, which forms part of the international network for astrophysics (ICRANet). He was also involved in the European Science Foundation's project Cosmology in the Laboratory.
Kleinert's 60. birthday was honored by a Festschrift and a Festcolloquium with 65 contributions by international colleagues (for instance Y. Ne'eman, R. Jackiw, H. Fritzsch, R. Ruffini, C. DeWitt, L. Kauffman, J. Devreese, and K. Maki).
References
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 ↑ His Papers.
 ↑ His books.
 ↑ Henry B.I. (2007). "Book Reviews". Australian Physics. 44 (3): 110.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
 ↑ Kleinert H. (2004). "Travailler avec Feynman" (PDF). Science (French edition). 19: 89–95.<templatestyles src="Module:Citation/CS1/styles.css"></templatestyles>
 ↑ Lua error in Module:Citation/CS1/Identifiers at line 47: attempt to index field 'wikibase' (a nil value).
 ↑ Kleinert, H., "Critical exponents from sevenloop strongcoupling φ4 theory in three dimensions". Physical Review D 60, 085001 (1999)
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Books
 Gauge Fields in Condensed Matter, Vol. I, " SUPERFLOW AND VORTEX LINES", pp. 1–742, Vol. II, "STRESSES AND DEFECTS", pp. 743–1456, World Scientific (Singapore, 1989); Paperback ISBN 9971502100 (also available online: Vol. I and Vol. II)
 Critical Properties of φ^{4}Theories, World Scientific (Singapore, 2001); Paperback ISBN 9810246587 (also available online) (together with V. SchulteFrohlinde)
 Path Integrals in Quantum Mechanics, Statistics, Polymer Physics, and Financial Markets, 5th edition, World Scientific (Singapore, 2009) (also available online)
 Multivalued Fields in Condensed Matter, Electrodynamics, and Gravitation, World Scientific (Singapore, 2008) (also available online)
 Proceedings of the Eleventh Marcel Grossmann Meeting on General Relativity, World Scientific (Singapore, 2008) (together with R.T. Jantzen)