String theory predictions for future accelerators

E. Dudas; J. Mourad

doi:10.1016/S0550-3213(00)00082-1

String theory predictions for future accelerators

E. Dudas
, J. Mourad

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

Abstract

We consider, in a string theory framework, physical processes of phenomenological interest in models with a low string scale. The amplitudes we study involve tree-level virtual gravitational exchange, divergent in a field-theoretical treatment, and massive gravitons emission, which are the main signatures of this class of models. First, we discuss the regularization of summations appearing in virtual gravitational (closed string) Kaluza-Klein exchanges in Type I strings. We argue that a convenient manifestly ultraviolet convergent low energy limit of Type I string theory is given by an effective field theory with an arbitrary cutoff Λ in the closed (gravitational) channel and a related cutoff M_s²/Λ in the open (Yang-Mills) channel. We find the leading string corrections to the field theory results. Second, we calculate exactly string tree-level three and four-point amplitudes with gauge bosons and one massive graviton and examine string deviations from the field-theory result.

Original language	English
Pages (from-to)	3-34
Number of pages	32
Journal	Nuclear Physics B
Volume	575
Issue number	1-2
DOIs	https://doi.org/10.1016/S0550-3213(00)00082-1
Publication status	Published - 29 May 2000
Externally published	Yes

Keywords

11.10Kk
11.15-q
11.25-w
Kaluza-Klein compactifications
Type I string theory

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10.1016/S0550-3213(00)00082-1

Cite this

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title = "String theory predictions for future accelerators",

abstract = "We consider, in a string theory framework, physical processes of phenomenological interest in models with a low string scale. The amplitudes we study involve tree-level virtual gravitational exchange, divergent in a field-theoretical treatment, and massive gravitons emission, which are the main signatures of this class of models. First, we discuss the regularization of summations appearing in virtual gravitational (closed string) Kaluza-Klein exchanges in Type I strings. We argue that a convenient manifestly ultraviolet convergent low energy limit of Type I string theory is given by an effective field theory with an arbitrary cutoff Λ in the closed (gravitational) channel and a related cutoff Ms2/Λ in the open (Yang-Mills) channel. We find the leading string corrections to the field theory results. Second, we calculate exactly string tree-level three and four-point amplitudes with gauge bosons and one massive graviton and examine string deviations from the field-theory result.",

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TY - JOUR

T1 - String theory predictions for future accelerators

AU - Dudas, E.

AU - Mourad, J.

PY - 2000/5/29

Y1 - 2000/5/29

N2 - We consider, in a string theory framework, physical processes of phenomenological interest in models with a low string scale. The amplitudes we study involve tree-level virtual gravitational exchange, divergent in a field-theoretical treatment, and massive gravitons emission, which are the main signatures of this class of models. First, we discuss the regularization of summations appearing in virtual gravitational (closed string) Kaluza-Klein exchanges in Type I strings. We argue that a convenient manifestly ultraviolet convergent low energy limit of Type I string theory is given by an effective field theory with an arbitrary cutoff Λ in the closed (gravitational) channel and a related cutoff Ms2/Λ in the open (Yang-Mills) channel. We find the leading string corrections to the field theory results. Second, we calculate exactly string tree-level three and four-point amplitudes with gauge bosons and one massive graviton and examine string deviations from the field-theory result.

AB - We consider, in a string theory framework, physical processes of phenomenological interest in models with a low string scale. The amplitudes we study involve tree-level virtual gravitational exchange, divergent in a field-theoretical treatment, and massive gravitons emission, which are the main signatures of this class of models. First, we discuss the regularization of summations appearing in virtual gravitational (closed string) Kaluza-Klein exchanges in Type I strings. We argue that a convenient manifestly ultraviolet convergent low energy limit of Type I string theory is given by an effective field theory with an arbitrary cutoff Λ in the closed (gravitational) channel and a related cutoff Ms2/Λ in the open (Yang-Mills) channel. We find the leading string corrections to the field theory results. Second, we calculate exactly string tree-level three and four-point amplitudes with gauge bosons and one massive graviton and examine string deviations from the field-theory result.

KW - 11.10Kk

KW - 11.15-q

KW - 11.25-w

KW - Kaluza-Klein compactifications

KW - Type I string theory

U2 - 10.1016/S0550-3213(00)00082-1

DO - 10.1016/S0550-3213(00)00082-1

M3 - Article

AN - SCOPUS:0002852572

SN - 0550-3213

VL - 575

SP - 3

EP - 34

JO - Nuclear Physics B

JF - Nuclear Physics B

IS - 1-2

ER -

String theory predictions for future accelerators

Abstract

Keywords

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