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Article 2020

Bell Polynomials and Brownian Bridge in Spectral Gravity Models on Multifractal Robertson\textendashWalker Cosmologies

{We obtain an explicit formula for the full expansion of the spectral action on Robertson\textendashWalker spacetimes, expressed in terms of Bell polynomials, using Brownian bridge integrals and the Feynman\textendashKac formula. We then apply this result to the case of multifractal Packed Swiss Cheese Cosmology models obtained from an arrangement of Robertson\textendashWalker spacetimes along an Apollonian sphere packing. Using Mellin transforms, we show that the asymptotic expansion of the spectral action contains the same terms as in the case of a single Robertson\textendashWalker spacetime, but with zeta-regularized coefficients, given by values at integers of the zeta function of the fractal string of the radii of the sphere packing, as well as additional log-periodic correction terms arising from the poles (off the real line) of this zeta function.}

Author(s): Fathizadeh, F and Kafkoulis, Y and Marcolli, M
Journal: {Annales Henri Poincar\'e}
Volume: 21
Number (issue): 4
Pages: 1329--1382
Year: 2020
Publisher: Birkha.user
Bibtex Type: Article (article)
DOI: 10.1007/s00023-020-00894-5
Address: Basel
Electronic Archiving: grant_archive

BibTex 

@article{item_3243904,
  title = {{Bell Polynomials and Brownian Bridge in Spectral Gravity Models on Multifractal Robertson\textendashWalker Cosmologies}},
  journal = {{Annales Henri Poincar\'e}},
  abstract = {{We obtain an explicit formula for the full expansion of the spectral action on Robertson\textendashWalker spacetimes, expressed in terms of Bell polynomials, using Brownian bridge integrals and the Feynman\textendashKac formula. We then apply this result to the case of multifractal Packed Swiss Cheese Cosmology models obtained from an arrangement of Robertson\textendashWalker spacetimes along an Apollonian sphere packing. Using Mellin transforms, we show that the asymptotic expansion of the spectral action contains the same terms as in the case of a single Robertson\textendashWalker spacetime, but with zeta-regularized coefficients, given by values at integers of the zeta function of the fractal string of the radii of the sphere packing, as well as additional log-periodic correction terms arising from the poles (off the real line) of this zeta function.}},
  volume = {21},
  number = {4},
  pages = {1329--1382},
  publisher = {Birkha.user},
  address = {Basel},
  year = {2020},
  slug = {item_3243904},
  author = {Fathizadeh, F and Kafkoulis, Y and Marcolli, M}
}