Add to ORKGWe present the results of a numerical simulation aimed at understanding the nature of the c = 1 barrier in two-dimensional quantum gravity. We study multiple Ising models living on dynamical phi3 graphs and analyse the behaviour of moments of the graph loop distribution. We note a universality at work as the average properties of typical graphs from the ensemble are determined only by the central charge. We further argue that the qualitative nature of these results can be understood from considering the effect of fluctuations about a mean field solution in the Ising sector
We introduce some modern mathematical and theoretical tools in 2-dimensional physics, and apply them...
A potentially powerful approach to quantum gravity has been developed over the last few years under ...
We study a model in which p independent Ising spins are coupled to 2d quantum gravity (in the form o...
We present the results of a numerical simulation aimed at understanding the nature of the c = 1 bar...
We present the results of a numerical simulation aimed at understanding the nature of the c = 1 bar...
We present the results of a numerical simulation aimed at understanding the nature of the `c = 1 bar...
We study with Monte Carlo methods an ensemble of c=&5 gravity graphs, generated by coupling a co...
We study the Ising model on dynamical phi(3) graphs with spherical topology. A finite-size scaling a...
We study the Ising model on dynamical phi(3) graphs with spherical topology. A finite-size scaling a...
An outstanding challenge for models of non-perturbative quantum gravity is the consistent formulatio...
An outstanding challenge for models of non-perturbative quantum gravity is the consistent formulatio...
Thorleifsson G, Petersson B. Beyond the c=1 barrier in two-dimensional quantum gravity. In: Nuclear...
We present the results of numerical simulations aimed at understanding the nature of models encorpor...
We present the results of numerical simulations aimed at understanding the nature of models encorpor...
We investigate the fractal structure of $2d$ quantum gravity coupled to matter by measuring the dist...
We introduce some modern mathematical and theoretical tools in 2-dimensional physics, and apply them...
A potentially powerful approach to quantum gravity has been developed over the last few years under ...
We study a model in which p independent Ising spins are coupled to 2d quantum gravity (in the form o...
We present the results of a numerical simulation aimed at understanding the nature of the c = 1 bar...
We present the results of a numerical simulation aimed at understanding the nature of the c = 1 bar...
We present the results of a numerical simulation aimed at understanding the nature of the `c = 1 bar...
We study with Monte Carlo methods an ensemble of c=&5 gravity graphs, generated by coupling a co...
We study the Ising model on dynamical phi(3) graphs with spherical topology. A finite-size scaling a...
We study the Ising model on dynamical phi(3) graphs with spherical topology. A finite-size scaling a...
An outstanding challenge for models of non-perturbative quantum gravity is the consistent formulatio...
An outstanding challenge for models of non-perturbative quantum gravity is the consistent formulatio...
Thorleifsson G, Petersson B. Beyond the c=1 barrier in two-dimensional quantum gravity. In: Nuclear...
We present the results of numerical simulations aimed at understanding the nature of models encorpor...
We present the results of numerical simulations aimed at understanding the nature of models encorpor...
We investigate the fractal structure of $2d$ quantum gravity coupled to matter by measuring the dist...
We introduce some modern mathematical and theoretical tools in 2-dimensional physics, and apply them...
A potentially powerful approach to quantum gravity has been developed over the last few years under ...
We study a model in which p independent Ising spins are coupled to 2d quantum gravity (in the form o...