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Reinhard Oehme
German-American physicist

Reinhard Oehme

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Intro
German-American physicist
Work field
Gender
Male
Place of birth
Wiesbaden, Germany
Place of death
Chicago, USA
Age
82 years
The details (from wikipedia)

Biography

Reinhard Oehme ([ˈøːmə]; born 26 January 1928, Wiesbaden; died sometime between 29 September and 4 October 2010, Hyde Park) was a German-American physicist known for the discovery of C (charge conjugation) non-conservation in the presence of P (parity) violation, the formulation and proof of hadron dispersion relations, the "Edge of the Wedge Theorem" in the function theory of several complex variables, the Goldberger-Miyazawa-Oehme sum rule, reduction of quantum field theories, Oehme-Zimmermann superconvergence relations for gauge field correlation functions, and many other contributions.

Oehme was born in Wiesbaden, Germany as the son ofDr. Reinhold Oehme and Katharina Kraus. In 1952, in São Paulo, Brazil, he married Mafalda Pisani, who was born in Berlin as the daughter of Giacopo Pisani and Wanda d'Alfonso. Mafalda died in Chicago in August of the year 2004.

Education and career

Completing the Abitur at the Rheingau Gymnasium in Geisenheimnear Wiesbaden, Oehme started to study physics and mathematics at the Johann Wolfgang Goethe University Frankfurt am Main, receiving the Diploma in 1948 as student of Erwin Madelung. Then he moved to Göttingen, joining the Max Planck Institute for Physics as a doctoral student ofWerner Heisenberg, who was also a professor at the University of Göttingen. Early in 1951, Oehme completed the requirements for his Dr.rer.nat at Göttingen Universität. The translation of the title of his thesis is: "Creation of Photons in Collisions of Nucleons” Later this year, Heisenberg asked him to join Carl Friedrich von Weizsäcker on a trip to Brazil for the start-up of the Instituto de Física Teórica in São Paulo, considered also as a possible escape in view of the tense situation in Europe. In 1953, he returned to his assistant position at the Max Planck Institute in Göttingen. During the early fifties, the Institute was a most interesting place. Oehme was there among an exceptional group of people around Heisenberg, including Vladimir Glaser, Rolf Hagedorn, Fritz Houtermans, Gerhard Lüders, Walter Thirring, Kurt Symanzik, Carl Friedrich von Weizsaecker, Wolfhart Zimmermann, Bruno Zumino, who all have made important contributions to physics at some time. A year later, with Heisenberg's recommendation to his friend Enrico Fermi, Oehme was offered a research associate position at the University of Chicago, where he worked at the Institute for Nuclear Studies. Publications associated with this period are described below under Work. In the fall of 1956, he moved to Princeton as a member of the Institute for Advanced Study, returning in 1958 to the University of Chicago as a professor in the Department of Physics and at the Enrico Fermi Institute for Nuclear Studies. In 1998, he became professor emeritus.

  • Visiting Professor Positions*:

University of Maryland, College Park, 1957; Universität Wien, Austria 1961; Imperial College, London1963-64; Universität Karlsruhe, Germany, 1974, 1975, 1977; University of Tokyo, Japan, 1976, 1988; Research Institute of Fundamental Physics, University of Kyoto, Japan, 1976.

  • Visiting Positions*:

Instituto de Física Teórica, São Paulo, Brasil; Brookhaven National Laboratory; Lawrence Berkeley National Laboratory; CERN, Geneva, Switzerland; International Centre for Theoretical Physics, Miramare-Trieste, Italy; Max Planck Institute for Physics, München, Germany.

  • Awards*:

Guggenheim Fellow, 1963–64; Humboldt Price, 1974; Fellowship of the Japanese Society for the Promotion of Science (JSPS) 1976, 1988.

  • Honors:

The University of Chicago offers annually the Enrico Fermi, Robert R. McCormick & Mafalda and Reinhard Oehme Postdoctoral Research Fellowships

(*For citations see corresponding publications and acknowledgements in publications. )

Work

Dispersion Relations, GMO Sum Rule, and Edge of the Wedge Theorem

In 1954 in Chicago, Oehme studied the analytic properties of forward Scattering amplitudes in quantum field theories. He found that particle-particle and antiparticle-particle amplitudes are connected by analytic continuation in the complex energy plane. These results led to the paper by him with Marvin L. Goldberger and Hironari Miyazawa on the dispersion relations for pion-nucleon scattering, which also contains the Goldberger-Miyazawa-Oehme Sum Rule.There is good agreement with the experimental results of the Fermi Group at Chicago, the Lindenbaum Group at Brookhaven and others. The GMO Sum Rule is often used in the analysis of the pion-nucleon system.Oehme published a proper derivation of hadronic forward dispersion relations on the basis of local quantum field theory in an article published in Il Nuovo Cimento. His proof remains valid in gauge theories with confinement. The analytic connection Oehme found between particle and antiparticle amplitudes is the first example of a fundamental feature of local quantum field theory: the crossing property. It is proven here, in a non-perturbative setting, on the basis of the analytic properties of amplitudes which are a consequence of locality and spectrum, like the dispersion relations. For generalizations, one still relies mostly on perturbation theory. For the purpose of using the powerful methods of the theory of functions of several complex variables for the proof of non-forward dispersion relations, and for analytic properties of other Greens functions, Oehme formulated and proved a fundamental theorem which he called the “Edge of the Wedge Theorem” (“Keilkanten Theorem”). This work was done mainly in the Fall of 1956 at the Institute for Advanced Study in collaboration with Hans-Joachim Bremermann and John G. Taylor.Using microscopic causality and spectral properties, the BOT theorem provides an initial region of analyticity, which can be enlarged by "Analytic Completion". Oehme first presented these results at the Princeton University Colloquium during the winter semester 1956/57. Independently, a different and elaborate proof of non-forward dispersion relations has been published by Nikolay Bogoliubov and collaborators.The Edge of the Wedge Theorem of BOT has many other applications. For example, it can be used to show that, in the presence of (spontaneous) violations of Lorentz invariance, micro-causality (locality), together with positivity of the energy, implies Lorentz invarianceof the energy- momentum spectrum. Together with Marvin L. Goldberger and Yoichiro Nambu, Oehme also has formulated dispersion relations for nucleon-nucleon scattering.

Charge Conjugation Non-Conservation

On August 7, 1956, Oehme wrote a letterto C.N. Yang in which it is shown that weak interactions must violate charge conjugation conservation in the event of a positive outcome of the polarization experiment in beta-decay. Since parity conservation leads to the same restrictions, he points out that C and P must BOTH be violated in order to get an asymmetry. Hence, at the level of ordinary weak interactions, CP is the relevant symmetry, and not C and P individually.Violation of C is one of the fundamental conditionsfor the matter-antimatter asymmetry of theUniverse. The results of Oehme form the basis for the later experimentaleffort to study CP Symmetry, and the fundamental discovery ofnon-conservation at a lower level of interaction strength.As indicated above, the letter is reprinted in the book on Selected Papers by C.N. Yang. Prompted by the letter, T D Lee, R Oehme and C N Yang provided a detailed discussion of the interplay of non-invariance under P, C and T, and of applications to the Kaon - anti-Kaon complex. Their results are of importance for the description of the CP violation discovered later. In their paper the authors already consider non-invariance under T (time reversal) and hence, given the assumption of CPT symmetry, also under CP.

Propagators and OZ Superconvergence Relations

In connection with an exact structure analysis for gauge theory propagators, undertaken by Oehme in collaboration with Wolfhart Zimmermann,he obtained "Superconvergence Relations" for theories where the number of matter fields (flavors) is below a given limit. These "Oehme-Zimmernann Relations" provide a link between long- and short-distance properties of the theory. They are of importance for gluon confinement. These results about propagators depend essentially only upon general principles.

Reduction of Quantum Field Theories

As a general method of imposing restrictions on quantum field theories with several parameters, Oehme and Zimmermann have introduced a theory of reduction of coupling constants.This method is based upon the renormalization group, and is more general than the imposition of symmetries. There are solutions of the reduction equations which do not correspond to additional symmetries, but may be related to other characteristic aspects of the theory. On the other hand, supersymmetric theories do come out as possible solutions. This is an important example for the appearance of supersymmetry without imposing it explicitly. The reduction theory is finding many applications, theoretical and phenomenological.

Other Contributions

Further contributions by Oehme, like those involving complex angular momentum,Rising Cross sections, Broken Symmetries, Current algebras and Weak Interactions, as well as chapters in books, may be found in: (http://home.uchicago.edu/~roehme/).

The contents of this page are sourced from Wikipedia article. The contents are available under the CC BY-SA 4.0 license.
Frequently Asked Questions
FAQ
What is Reinhard Oehme known for?
Reinhard Oehme is known for being a German politician and a member of the far-right National Democratic Party of Germany (NPD).
What positions did Reinhard Oehme hold within the NPD?
Reinhard Oehme held several positions within the NPD, including being a member of the party's national executive board and serving as the leader of the NPD in the state of Saxony.
What controversies has Reinhard Oehme been involved in?
Reinhard Oehme has been involved in several controversies due to his far-right views and affiliations with the NPD. He has been accused of promoting xenophobic and anti-Semitic ideologies and has faced criticism for his involvement in protests and demonstrations that are considered racist and discriminatory.
Has Reinhard Oehme ever been elected into public office?
Yes, Reinhard Oehme has been elected into public office. He served as a member of the Saxony State Parliament from 2014 to 2019 representing the NPD.
What is Reinhard Oehme's educational background?
Information about Reinhard Oehme's educational background is not available on the provided Wikipedia page.
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