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Monte Carlo studies of the IIB matrix model at large N

The low-energy effective theory of the IIB matrix model developed by Aoki et al. is written down explicitly in terms of bosonic variables only. The effective theory is then studied by Monte Carlo simulations in order to investigate the possibility of a spontaneous breakdown of ten-dimensional Lorent...

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Bibliographic Details
Published in:The journal of high energy physics 2000-07, Vol.2000 (7), p.011-11
Main Authors: Ambjørn, Jan, Nishimura, Jun, Anagnostopoulos, Konstantinos N, Bietenholz, Wolfgang, Hotta, Tomohiro
Format: Article
Language:English
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Summary:The low-energy effective theory of the IIB matrix model developed by Aoki et al. is written down explicitly in terms of bosonic variables only. The effective theory is then studied by Monte Carlo simulations in order to investigate the possibility of a spontaneous breakdown of ten-dimensional Lorentz invariance. The imaginary part of the effective action, which causes the so-called sign problem in the simulation, is dropped by hand. The extent of the eigenvalue distribution of the bosonic matrices shows a power-law large N behavior, consistent with a simple branched-polymer prediction. We observe, however, that the eigenvalue distribution becomes more and more isotropic in the ten-dimensional space-time as we increase N. This suggests that, if the spontaneous breakdown of Lorentz invariance really occurs in the IIB matrix model, a crucial role must be played by the imaginary part of the effective action. (Author)
ISSN:1126-6708
1029-8479
1029-8479
DOI:10.1088/1126-6708/2000/07/011