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The International School for Advanced Studies (SISSA) was founded in 1978 and was the first institution in Italy to promote post-graduate courses leading to a Doctor Philosophiae (or PhD) degree. A centre of excellence among Italian and international universities, the school has around 65 teachers, 100 post docs and 245 PhD students, and is located in Trieste, in a campus of more than 10 hectares with wonderful views over the Gulf of Trieste.

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Getting super-excited with modified dispersion relations

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Published 6 September 2017 © 2017 IOP Publishing Ltd and Sissa Medialab
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Author e-mails

amjad.ashoorioon@bo.infn.it

roberto.casadio@bo.infn.it

ggeshniz@uwaterloo.ca

h268kim@uwaterloo.ca

Author affiliations

a INFN—Sezione di Bologna, viale B. Pichat 6/2, I-40127 Bologna, Italy

b Department of Applied Mathematics, University of Waterloo Waterloo, Ontario, N2L 3G1, Canada

c Perimeter Institute for Theoretical Physics 31 Caroline St. N., Waterloo, ON, N2L 2Y5, Canada

Dates

Received 1 March 2017
Accepted 16 August 2017
Published

Citation

Amjad Ashoorioon et al JCAP09(2017)008

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DOI

https://doi.org/10.1088/1475-7516/2017/09/008

E-print

http://arxiv.org/abs/1702.06101

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1475-7516/2017/09/008

Abstract

We demonstrate that in some regions of parameter space, modified dispersion relations can lead to highly populated excited states, which we dub as "super-excited" states. In order to prepare such super-excited states, we invoke dispersion relations that have negative slope in an interim sub-horizon phase at high momenta. This behaviour of quantum fluctuations can lead to large corrections relative to the Bunch-Davies power spectrum, which mimics highly excited initial conditions. We identify the Bogolyubov coefficients that can yield these power spectra. In the course of this computation, we also point out the shortcomings of the gluing method for evaluating the power spectrum and the Bogolyubov coefficients. As we discuss, there are other regions of parameter space, where the power spectrum does not get modified. Therefore, modified dispersion relations can also lead to so-called "calm excited states". We conclude by commenting on the possibility of obtaining these modified dispersion relations within the Effective Field Theory of Inflation.

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