T
Thomas T. Dumitrescu
Researcher at Harvard University
Publications - 51
Citations - 4813
Thomas T. Dumitrescu is an academic researcher from Harvard University. The author has contributed to research in topics: Supersymmetry & Gauge theory. The author has an hindex of 30, co-authored 48 publications receiving 4111 citations. Previous affiliations of Thomas T. Dumitrescu include Princeton University & Columbia University.
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Localization techniques in quantum field theories
Vasily Pestun,Maxim Zabzine,Francesco Benini,Francesco Benini,Tudor Dimofte,Tudor Dimofte,Thomas T. Dumitrescu,Kazuo Hosomichi,Seok Kim,Kimyeong Lee,Bruno Le Floch,Marcos Marino,Joseph A. Minahan,David R. Morrison,Sara Pasquetti,Jian Qiu,Jian Qiu,Leonardo Rastelli,Shlomo S. Razamat,Silvu S. Pufu,Yuji Tachikawa,Brian Willett,Konstantin Zarembo,Konstantin Zarembo +23 more
TL;DR: In this paper, a special issue on localization techniques in quantum field theory is presented, where a summary of individual chapters is given and their interrelation is discussed, as well as their interrelationships among them.
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Contact Terms, Unitarity, and F-Maximization in Three-Dimensional Superconformal Theories
TL;DR: In this paper, the authors consider three-dimensional superconformal field theories on a threesphere and analyze their free energy F as a function of background gauge and supergravity fields.
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Supersymmetric Field Theories on Three-Manifolds
TL;DR: In this article, a supersymmetric field theory on Riemannian three-manifolds was constructed based on the rigid limit of new minimal supergravity in three dimensions, which couples to the flatspace supermultiplet containing the R-current and the energy-momentum tensor.
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Exploring curved superspace
TL;DR: In this article, the authors extend their previous analysis of Riemannian four-manifolds and show that they admit rigid supersymmetry to theories that do not possess a U(1)姫 R TAMADRA symmetry.
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Exploring Curved Superspace
TL;DR: In this paper, the authors systematically analyze Riemannian manifolds M that admit rigid supersymmetry, focusing on four-dimensional N=1 theories with a U(1)_R symmetry.