Looking for TeV scale strings and extra dimensions
Dec, 199919 pages
Published in:
- Nucl.Phys.B 579 (2000) 3-16
e-Print:
- hep-ph/9912287 [hep-ph]
Report number:
- CPHT-S-751-1299,
- CTP-TAMU-47-99,
- CERN-TH-99-385
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Citations per year
Abstract: (Elsevier)
In contrast to the old heterotic string case, the (weakly coupled) type I brane framework allows to have all, part or none of the standard model gauge group factors propagating in large extra-dimensions of TeV −1 size. We investigate the main experimental signatures of these possibilities, related to the production of Kaluza–Klein excitations of gluons and electroweak gauge bosons. A discovery through direct observation of resonances is possible only for compactification scales below 6 TeV. However effects due to exchange of virtual Kaluza–Klein excitations could be observed for higher scales. We find that LHC can probe compactification scales as high as 20 TeV for excitations of gluons and 8–15 TeV for excitations of electroweak gauge bosons. Finally, in the case where no gauge boson feels the extra-dimension, we find that effective contact interactions due to massive string mode oscillations dominate those due to the exchange of Kaluza–Klein excitations of gravitons and could be used to obtain bounds on the string scale.- string model
- orbifold
- membrane model
- Kaluza-Klein model
- gluon: excited state
- gauge boson: excited state
- space-time: higher-dimensional
- compactification
- grand unified theory
- oscillation: string
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