Alternative Signature of TeV Strings

D. Amati; D. Amati; D.J. Gross; D.J. Gross; D.J. Gross; E. Accomando; E. Dudas; E. Farhi; F. Cornet; G.T. Horowitz; G.T. Horowitz; H.L. Lai; I. Antoniadis; I. Antoniadis; J. Polchinski; J.L.F. Barbon; Kin-ya Oda; M.B. Voloshin; M.B. Voloshin; N. Arkani-Hamed; Nobuchika Okada; P.F. Mende; R.E. Marshak; S. Cullen; S. Dimopoulos; S. Dimopoulos; S.B. Giddings

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Alternative Signature of TeV Strings

Authors: D. Amati
D. Amati
D.J. Gross
D.J. Gross
D.J. Gross
E. Accomando
E. Dudas
E. Farhi
F. Cornet
G.T. Horowitz
G.T. Horowitz
H.L. Lai
I. Antoniadis
I. Antoniadis
J. Polchinski
J.L.F. Barbon
Kin-ya Oda
M.B. Voloshin
M.B. Voloshin
N. Arkani-Hamed
Nobuchika Okada
P.F. Mende
R.E. Marshak
S. Cullen
S. Dimopoulos
S. Dimopoulos
S.B. Giddings
Publication date: 23 November 2001
Publisher: 'American Physical Society (APS)'
Doi

Abstract

In string theory, it is well known that any hard scattering amplitude inevitably suffers exponential suppression. We demonstrate that, if the string scale is M_s < 2TeV, this intrinsically stringy behavior leads to a dramatic reduction in the QCD jet production rate with very high transverse momenta p_T > 2TeV at LHC. This suppression is sufficient to be observed in the first year of low-luminosity running. Our prediction is based on the universal behavior of string theory, and therefore is qualitatively model-independent. This signature is alternative and complementary to conventional ones such as Regge resonance (or string ball/black hole) production.Comment: a note added; version to appear in Phys. Rev. D; 11 pages, 1 eps figure, LaTeX2e; BibTeX with utphys style use

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