Hagedorn-like transition at high supersymmetry breaking scale

Hervé Partouche; Balthazar de Vaulchier

doi:10.1007/JHEP08(2019)155

Hagedorn-like transition at high supersymmetry breaking scale

Hervé Partouche
, Balthazar de Vaulchier

CNRS

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

Abstract

We consider phase transitions occurring in four-dimensional heterotic orbifold models, when the scale of spontaneous breaking of N = 1 supersymmetry is of the order of the string scale. The super-Higgs mechanism is implemented by imposing distinct boundary conditions for bosons and fermions along an internal circle of radius R. Depending on the orbifold action, the usual scalars becoming tachyonic when R falls below the Hagedorn radius may or may not be projected out of the spectrum. In all cases, infinitely many other scalars, which are pure Kaluza-Klein or pure winding states along other internal directions, become tachyonic in subregions in moduli space. We derive the off-shell tree level effective potential that takes into account these potentially tachyonic modes. We show that when a combination of the usual tachyons survives the orbifold action, it is the only degree of freedom that actually condenses.

Original language	English
Article number	155
Journal	Journal of High Energy Physics
Volume	2019
Issue number	8
DOIs	https://doi.org/10.1007/JHEP08(2019)155
Publication status	Published - 1 Aug 2019

Keywords

Superstrings and Heterotic Strings
Supersymmetric Effective Theories
Supersymmetry Breaking
Tachyon Condensation

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10.1007/JHEP08(2019)155

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title = "Hagedorn-like transition at high supersymmetry breaking scale",

abstract = "We consider phase transitions occurring in four-dimensional heterotic orbifold models, when the scale of spontaneous breaking of N = 1 supersymmetry is of the order of the string scale. The super-Higgs mechanism is implemented by imposing distinct boundary conditions for bosons and fermions along an internal circle of radius R. Depending on the orbifold action, the usual scalars becoming tachyonic when R falls below the Hagedorn radius may or may not be projected out of the spectrum. In all cases, infinitely many other scalars, which are pure Kaluza-Klein or pure winding states along other internal directions, become tachyonic in subregions in moduli space. We derive the off-shell tree level effective potential that takes into account these potentially tachyonic modes. We show that when a combination of the usual tachyons survives the orbifold action, it is the only degree of freedom that actually condenses.",

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T1 - Hagedorn-like transition at high supersymmetry breaking scale

AU - Partouche, Hervé

AU - de Vaulchier, Balthazar

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N2 - We consider phase transitions occurring in four-dimensional heterotic orbifold models, when the scale of spontaneous breaking of N = 1 supersymmetry is of the order of the string scale. The super-Higgs mechanism is implemented by imposing distinct boundary conditions for bosons and fermions along an internal circle of radius R. Depending on the orbifold action, the usual scalars becoming tachyonic when R falls below the Hagedorn radius may or may not be projected out of the spectrum. In all cases, infinitely many other scalars, which are pure Kaluza-Klein or pure winding states along other internal directions, become tachyonic in subregions in moduli space. We derive the off-shell tree level effective potential that takes into account these potentially tachyonic modes. We show that when a combination of the usual tachyons survives the orbifold action, it is the only degree of freedom that actually condenses.

AB - We consider phase transitions occurring in four-dimensional heterotic orbifold models, when the scale of spontaneous breaking of N = 1 supersymmetry is of the order of the string scale. The super-Higgs mechanism is implemented by imposing distinct boundary conditions for bosons and fermions along an internal circle of radius R. Depending on the orbifold action, the usual scalars becoming tachyonic when R falls below the Hagedorn radius may or may not be projected out of the spectrum. In all cases, infinitely many other scalars, which are pure Kaluza-Klein or pure winding states along other internal directions, become tachyonic in subregions in moduli space. We derive the off-shell tree level effective potential that takes into account these potentially tachyonic modes. We show that when a combination of the usual tachyons survives the orbifold action, it is the only degree of freedom that actually condenses.

KW - Superstrings and Heterotic Strings

KW - Supersymmetric Effective Theories

KW - Supersymmetry Breaking

KW - Tachyon Condensation

UR - https://www.scopus.com/pages/publications/85071536459

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DO - 10.1007/JHEP08(2019)155

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VL - 2019

JO - Journal of High Energy Physics

JF - Journal of High Energy Physics

IS - 8

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ER -

Hagedorn-like transition at high supersymmetry breaking scale

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