Vacuum stability, string density of states and the Riemann zeta function

Carlo Angelantonj; Matteo Cardella; Shmuel Elitzur; Eliezer Rabinovici

doi:10.1007/JHEP02(2011)024

Vacuum stability, string density of states and the Riemann zeta function

Carlo Angelantonj^*
, Matteo Cardella
, Shmuel Elitzur
, Eliezer Rabinovici

^*Corresponding author for this work

Racah Institute of Physics

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

30 Scopus citations

Abstract

We study the distribution of graded degrees of freedom in classically stable oriented closed string vacua and use the Rankin-Selberg transform to link it to the finite one-loop vacuum energy. In particular, we find that the spectrum of physical excitations not only must enjoy asymptotic supersymmetry but actually, at very large mass, bosonic and fermionic states must follow a universal oscillating pattern, whose frequencies are related to the zeros of the Riemann ζ-function. Moreover, the convergence rate of the overall number of the graded degrees of freedom to the value of the vacuum energy is determined by the Riemann hypothesis. We discuss also attempts to obtain constraints in the case of tachyon-free open-string theories.

Original language	English
Article number	024
Journal	Journal of High Energy Physics
Volume	2011
Issue number	2
DOIs	https://doi.org/10.1007/JHEP02(2011)024
State	Published - Feb 2011

Keywords

Superstring vacua
Superstrings and heterotic strings

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10.1007/JHEP02(2011)024

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abstract = "We study the distribution of graded degrees of freedom in classically stable oriented closed string vacua and use the Rankin-Selberg transform to link it to the finite one-loop vacuum energy. In particular, we find that the spectrum of physical excitations not only must enjoy asymptotic supersymmetry but actually, at very large mass, bosonic and fermionic states must follow a universal oscillating pattern, whose frequencies are related to the zeros of the Riemann ζ-function. Moreover, the convergence rate of the overall number of the graded degrees of freedom to the value of the vacuum energy is determined by the Riemann hypothesis. We discuss also attempts to obtain constraints in the case of tachyon-free open-string theories.",

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Vacuum stability, string density of states and the Riemann zeta function

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