Biography:Dietrich Belitz

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Short description: American theoretical physicist (born 1955)


Dietrich Belitz
Born
Germany
OccupationTheoretical physicist
Academic background
EducationBaccalaureate diploma, 1980
Dr. rer. nat., 1982
Alma materTechnical University of Munich
ThesisDer Einfluß inkohärenter Tunnelprozesse auf die Leitfähigkeit ungeordneter Materialien
Doctoral advisorWolfgang Götze

Dietrich Belitz (born 1955) is an American theoretical physicist on the faculty of the University of Oregon. He studies statistical mechanics and condensed matter physics.

Early life and education

Belitz earned his Diploma in 1980 and his Dr. rer. nat. degree in 1982, both from the Technical University of Munich (Germany). His dissertation was titled, Der Einfluß inkohärenter Tunnelprozesse auf die Leitfähigkeit ungeordneter Materialien (trans.: The influence of incoherent tunneling processes on the conductivity of disordered materials), advised by Wolfgang Götze.[1][2] He did postdoctoral work at the University of Maryland, College Park.[3][4]

Career

In 1987 Belitz joined the faculty at the University of Oregon and is a member of the Materials Science Institute there.[3] Belitz became a professor of physics in 1997.[5] His research has included statistical mechanics, condensed matter, and theory of quantum many-body systems."[6]

Reviews of Modern Physics describes Belitz' interests as, "...focused on quantum many-body problems, including superconductivity, magnetism, transport processes, and quantum phase transitions."[3]

Belitz is a member of the University's Condensed Matter Theory & Statistical Mechanics group,[5] which describes their work as the study of:

...strongly fluctuating systems with a large number (e.g., Avogadro's number!) of degrees of freedom. These include quantum many-body problems, "soft" phases of matter, and biological systems. The quantum phenomena we study include superconductivity and magnetism; quantum phase transitions, in particular metal-insulator and magnetic transitions; and transport theory. The soft systems include liquid crystals; complex fluids; slender flexible structures (e.g. polymer chains, a sheet of paper, or a ping-pong ball); macromolecular liquids and mixtures, and their phase separation through coarse-graining and multiscale modeling; and mechanical metamaterials. The biological systems include flocks, evolving populations, epidemics, trees, proteins, nucleic acids, and protein/nucleic acid complexes.[7]

Belitz served as department head of physics from 1998–2004, associate dean for natural sciences from 2004–2010, and as director of the Institute of Theoretical Science at the University of Oregon from 2013–2019.[5]

From 2005 to 2020, Belitz served as associate editor for condensed matter theory for Reviews of Modern Physics.[3]

Selected publications

Awards, honors

  • American Physical Society Fellow, 2010. Citation: For work on classical and quantal phase transitions, and the nature of phases affected by generic scale invariance.[8]

References

External links