On O(Nc) d = 3 N = 2 supersymmetric QCD theories

Ofer Aharony; Itamar Shamir

doi:10.1007/JHEP12(2011)043

On O(N_c) d = 3 N = 2 supersymmetric QCD theories

Ofer Aharony, Itamar Shamir

Department of Particle Physics and Astrophysics

Weizmann Institute of Science

Research output: Contribution to journal › Article › peer-review

Abstract

We study three dimensional N = 2 supersymmetric QCD theories with O(N _c) gauge groupsand with N_f chiral multiplets in the vector representation. We argue that for N_f < N_c - 2 there is a runaway potential on the moduli space and no vacuum. For N_f ≥ N_c - 2 there is a moduli space also in the quantum theory, and for N_f ≥ N_c - 1 there is a superconformal fixed point at the origin of this moduli space that has a dual description as the low-energy fixed point of an O(N_f - N_c + 2) gauge theory. We test this duality in various ways;in some cases the duality for an O(2) gauge theory may be related to the known duality for U(1) gauge theories. We also discuss real mass deformations, which allow to connect theories with a different Chern-Simons level. This allows us to connect our duality with the known duality in O(N_c) theories with a Chern-Simons term of level k, where the dual gauge group is given by O(N_f + |k| - N_c + 2).

Original language	English
Article number	043
Journal	Journal of High Energy Physics
Volume	2011
Issue number	12
DOIs	https://doi.org/10.1007/JHEP12(2011)043
State	Published - 2011

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics

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10.1007/JHEP12(2011)043

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title = "On O(Nc) d = 3 N = 2 supersymmetric QCD theories",

abstract = "We study three dimensional N = 2 supersymmetric QCD theories with O(N c) gauge groupsand with Nf chiral multiplets in the vector representation. We argue that for Nf < Nc - 2 there is a runaway potential on the moduli space and no vacuum. For Nf ≥ Nc - 2 there is a moduli space also in the quantum theory, and for Nf ≥ Nc - 1 there is a superconformal fixed point at the origin of this moduli space that has a dual description as the low-energy fixed point of an O(Nf - Nc + 2) gauge theory. We test this duality in various ways;in some cases the duality for an O(2) gauge theory may be related to the known duality for U(1) gauge theories. We also discuss real mass deformations, which allow to connect theories with a different Chern-Simons level. This allows us to connect our duality with the known duality in O(Nc) theories with a Chern-Simons term of level k, where the dual gauge group is given by O(Nf + |k| - Nc + 2).",

author = "Ofer Aharony and Itamar Shamir",

note = "Israel-U.S. Binational Science Foundation; Israel Science Foundation [1468/06]; German-Israeli Foundation (GIF) for Scientific Research and Development; Minerva foundation; Federal German Ministry for Education and ResearchWe would like to thank F. Benini, J. Erlich, A. Giveon, D. Jafferis, Z. Komargodski, D. Kutasov, I. Yaakov, and especially C. Closset and S. Cremonesi for useful discussions. This work was supported in part by the Israel-U.S. Binational Science Foundation, by a research center supported by the Israel Science Foundation (grant number 1468/06), by the German-Israeli Foundation (GIF) for Scientific Research and Development, and by the Minerva foundation with funding from the Federal German Ministry for Education and Research.",

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N1 - Israel-U.S. Binational Science Foundation; Israel Science Foundation [1468/06]; German-Israeli Foundation (GIF) for Scientific Research and Development; Minerva foundation; Federal German Ministry for Education and ResearchWe would like to thank F. Benini, J. Erlich, A. Giveon, D. Jafferis, Z. Komargodski, D. Kutasov, I. Yaakov, and especially C. Closset and S. Cremonesi for useful discussions. This work was supported in part by the Israel-U.S. Binational Science Foundation, by a research center supported by the Israel Science Foundation (grant number 1468/06), by the German-Israeli Foundation (GIF) for Scientific Research and Development, and by the Minerva foundation with funding from the Federal German Ministry for Education and Research.

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N2 - We study three dimensional N = 2 supersymmetric QCD theories with O(N c) gauge groupsand with Nf chiral multiplets in the vector representation. We argue that for Nf < Nc - 2 there is a runaway potential on the moduli space and no vacuum. For Nf ≥ Nc - 2 there is a moduli space also in the quantum theory, and for Nf ≥ Nc - 1 there is a superconformal fixed point at the origin of this moduli space that has a dual description as the low-energy fixed point of an O(Nf - Nc + 2) gauge theory. We test this duality in various ways;in some cases the duality for an O(2) gauge theory may be related to the known duality for U(1) gauge theories. We also discuss real mass deformations, which allow to connect theories with a different Chern-Simons level. This allows us to connect our duality with the known duality in O(Nc) theories with a Chern-Simons term of level k, where the dual gauge group is given by O(Nf + |k| - Nc + 2).

AB - We study three dimensional N = 2 supersymmetric QCD theories with O(N c) gauge groupsand with Nf chiral multiplets in the vector representation. We argue that for Nf < Nc - 2 there is a runaway potential on the moduli space and no vacuum. For Nf ≥ Nc - 2 there is a moduli space also in the quantum theory, and for Nf ≥ Nc - 1 there is a superconformal fixed point at the origin of this moduli space that has a dual description as the low-energy fixed point of an O(Nf - Nc + 2) gauge theory. We test this duality in various ways;in some cases the duality for an O(2) gauge theory may be related to the known duality for U(1) gauge theories. We also discuss real mass deformations, which allow to connect theories with a different Chern-Simons level. This allows us to connect our duality with the known duality in O(Nc) theories with a Chern-Simons term of level k, where the dual gauge group is given by O(Nf + |k| - Nc + 2).

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On O(N_c) d = 3 N = 2 supersymmetric QCD theories

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