Add to ORKGWe apply the multicanonical technique to the three dimensional dynamical triangulation model, which is known to exhibit a first order phase transition with the Einstein-Hilbert action. We first clarify the first order nature of the phase transition with the Einstein-Hilbert action in several ways including a high precision finite size scaling analysis. We then add a new local term to the action and confirm the conjecture made through the MCRG technique that the line of the first order phase transition extends to the expanded phase diagram, ending at a point. Fractal dimension at the end point is measured to be around three up to the present size
The transition between the two phases of 4D Euclidean Dynamical Triangulation [1] was long believed ...
We use Monte Carlo simulation to study the phase diagram of three-dimensional dynamical triangulatio...
Causal Dynamical Triangulations (CDT) is a non-perturbative lattice approach to quantum gravity wher...
We investigate a new phase structure of the three-dimensional dynamical triangulation model with an ...
The dynamical triangulation model of three-dimensional quantum gravity is shown to have a line of tr...
The dynamical triangulation model of three-dimensional quantum gravity is shown to have a line of tr...
The dynamical triangulation model of three-dimensional quantum gravity is shown to have a line of tr...
Dynamical Triangulations provide us with a lattice regularization of four-dimensional Euclidean quan...
We use Monte Carlo simulation to study the phase diagram of three-dimensional dynamical triangulatio...
The transition between the two phases of 4D Euclidean Dynamical Triangulation [1] was long believed ...
We investigate the impact of topology on the phase structure of fourdimensional Causal Dynamical Tri...
We report on simulations of DT simplicial gravity for manifolds with the topology of the 4-disk. We ...
The transition between the two phases of 4D Euclidean Dynamical Triangulation [1] was long believed ...
The transition between the two phases of 4D Euclidean Dynamical Triangulation [1] was long believed ...
The transition between the two phases of 4D Euclidean Dynamical Triangulation [1] was long believed ...
The transition between the two phases of 4D Euclidean Dynamical Triangulation [1] was long believed ...
We use Monte Carlo simulation to study the phase diagram of three-dimensional dynamical triangulatio...
Causal Dynamical Triangulations (CDT) is a non-perturbative lattice approach to quantum gravity wher...
We investigate a new phase structure of the three-dimensional dynamical triangulation model with an ...
The dynamical triangulation model of three-dimensional quantum gravity is shown to have a line of tr...
The dynamical triangulation model of three-dimensional quantum gravity is shown to have a line of tr...
The dynamical triangulation model of three-dimensional quantum gravity is shown to have a line of tr...
Dynamical Triangulations provide us with a lattice regularization of four-dimensional Euclidean quan...
We use Monte Carlo simulation to study the phase diagram of three-dimensional dynamical triangulatio...
The transition between the two phases of 4D Euclidean Dynamical Triangulation [1] was long believed ...
We investigate the impact of topology on the phase structure of fourdimensional Causal Dynamical Tri...
We report on simulations of DT simplicial gravity for manifolds with the topology of the 4-disk. We ...
The transition between the two phases of 4D Euclidean Dynamical Triangulation [1] was long believed ...
The transition between the two phases of 4D Euclidean Dynamical Triangulation [1] was long believed ...
The transition between the two phases of 4D Euclidean Dynamical Triangulation [1] was long believed ...
The transition between the two phases of 4D Euclidean Dynamical Triangulation [1] was long believed ...
We use Monte Carlo simulation to study the phase diagram of three-dimensional dynamical triangulatio...
Causal Dynamical Triangulations (CDT) is a non-perturbative lattice approach to quantum gravity wher...