Shaken, but not stirred—Potts model coupled to quantum gravity

J. Ambjørn; K.N. Anagnostopoulos; R. Loll; I. Pushkina

Shaken, but not stirred—Potts model coupled to quantum gravity

J. Ambjørn, K.N. Anagnostopoulos, R. Loll, I. Pushkina

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Abstract

We investigate the critical behaviour of both matter and geometry of the three-state Potts model coupled to two-dimensional Lorentzian quantum gravity in the framework of causal dynamical triangulations. Contrary to what general arguments on the effects of disorder suggest, we find strong numerical evidence that the critical exponents of the matter are not changed under the influence of quantum fluctuations in the geometry, compared to their values on fixed, regular lattices. This lends further support to previous findings that quantum gravity models based on causal dynamical triangulations are in many ways better behaved than their Euclidean counterparts

Original language	Undefined/Unknown
Pages (from-to)	251-264
Number of pages	14
Journal	Nuclear physics. Series B
Volume	807
Issue number	1-2
Publication status	Published - 2009

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title = "Shaken, but not stirred—Potts model coupled to quantum gravity",

abstract = "We investigate the critical behaviour of both matter and geometry of the three-state Potts model coupled to two-dimensional Lorentzian quantum gravity in the framework of causal dynamical triangulations. Contrary to what general arguments on the effects of disorder suggest, we find strong numerical evidence that the critical exponents of the matter are not changed under the influence of quantum fluctuations in the geometry, compared to their values on fixed, regular lattices. This lends further support to previous findings that quantum gravity models based on causal dynamical triangulations are in many ways better behaved than their Euclidean counterparts",

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year = "2009",

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T1 - Shaken, but not stirred—Potts model coupled to quantum gravity

AU - Ambjørn, J.

AU - Anagnostopoulos, K.N.

AU - Loll, R.

AU - Pushkina, I.

PY - 2009

Y1 - 2009

N2 - We investigate the critical behaviour of both matter and geometry of the three-state Potts model coupled to two-dimensional Lorentzian quantum gravity in the framework of causal dynamical triangulations. Contrary to what general arguments on the effects of disorder suggest, we find strong numerical evidence that the critical exponents of the matter are not changed under the influence of quantum fluctuations in the geometry, compared to their values on fixed, regular lattices. This lends further support to previous findings that quantum gravity models based on causal dynamical triangulations are in many ways better behaved than their Euclidean counterparts

AB - We investigate the critical behaviour of both matter and geometry of the three-state Potts model coupled to two-dimensional Lorentzian quantum gravity in the framework of causal dynamical triangulations. Contrary to what general arguments on the effects of disorder suggest, we find strong numerical evidence that the critical exponents of the matter are not changed under the influence of quantum fluctuations in the geometry, compared to their values on fixed, regular lattices. This lends further support to previous findings that quantum gravity models based on causal dynamical triangulations are in many ways better behaved than their Euclidean counterparts

M3 - Article

SN - 0550-3213

VL - 807

SP - 251

EP - 264

JO - Nuclear physics. Series B

JF - Nuclear physics. Series B

IS - 1-2

ER -