William I. Fine Theoretical Physics Institute

  • 116 Church Street SE, 431 Tate Laboratory of Physics

    55455 Minneapolis

    United States

Organization profile

Organization profile

The William I. Fine Theoretical Physics Institute (FTPI) was established in 1987 as part of the School of Physics and Astronomy, with the goal of conducting research in theoretical physics at a world-class level.

The most important function of FTPI is to produce significant, exciting and sound theoretical physics that will have an impact on physics as a whole. To this end the Institute provides a meeting place for theorists from around the globe to exchange and develop ideas.

FTPI sponsors several workshops annually and runs ongoing programs, such as the visiting short- and long-term scholar program. Through these and other outreach programs, the Institute serves to advance theoretical physics and to further develop its links to other science and engineering research disciplines, industrial research initiatives, and other academic sectors.

Fingerprint The fingerprint is based on mining the text of the scientific documents related to the associated persons. Based on that an index of weighted terms is created, which defines the key subjects of research unit

supersymmetry Physics & Astronomy
dark matter Physics & Astronomy
quarks Physics & Astronomy
Supersymmetry Engineering & Materials Science
nuclear fusion Physics & Astronomy
quantum chromodynamics Physics & Astronomy
decay Physics & Astronomy
physics Physics & Astronomy

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Projects 1998 2019

Research Output 1987 2017

(In)dependence of in the Higgs regime without axions

Shifman, M. & Vainshtein, A. May 10 2017 In : Modern Physics Letters A. 32, 14, 1750084

Research output: Contribution to journalArticle

Yang-Mills theory
vacuum
quantum chromodynamics
embedding
fermions
6 Citations

Bottomonium-like states: Physics case for energy scan above the B B threshold at Belle-II

Bondar, A. E., Mizuk, R. V. & Voloshin, M. B. Feb 10 2017 In : Modern Physics Letters A. 32, 4, 1750025

Research output: Contribution to journalArticle

physics
thresholds
energy
mesons
statistics
1 Citations

Chiral liquid phase of simple quantum magnets

Wang, Z., Feiguin, A. E., Zhu, W., Starykh, O. A., Chubukov, A. V. & Batista, C. D. Nov 7 2017 In : Physical Review B. 96, 18, 184409

Research output: Contribution to journalArticle

Magnets
liquid phases
magnets
Liquids
symmetry