It is shown that in the theory of discrete quantum gravity defined on the irregular "breathing" lattice, if the macroscopic continuum phase is realized, the phenomenon of state doubling (even if it exists formally at kinematic level) actually is absent at experimentally accessible energies
We consider a covariant causal set approach to discrete quantum gravity. We first review the microsc...
This article presents a simplified version of the author’s previous work. We first construct a causa...
It is shown that discrete-time quantum walks can be used to digitize, i.e., to time discretize fermi...
We consider the application of the \u27consistent lattice quantum gravity\u27 approach we introduced...
In several approaches towards a quantum theory of gravity, such as group field theory and loop quant...
We study a single quantum particle in discrete spacetime evolving in a causal way. We see that in th...
This article presents a simplified version of the author’s previous work. We first construct a causa...
AbstractIn loop quantum gravity the discrete nature of quantum geometry acts as a natural regulator ...
In loop quantum gravity the discrete nature of quantum geometry acts as a natural regulator for matt...
This paper is based on the causal set approach to discrete quantum gravity. We first describe a clas...
In this second of four papers on the eponymous topic, pointwise convergence of a 'discrete' state fu...
We review recent efforts to construct gravitational theories on discrete space-times, usually referr...
We show that a recent proposal for the quantization of gravity based on discrete spacetime implies a...
Several approaches to the dynamics of loop quantum gravity involve discretizing the equations of mot...
Dynamical systems on "continuum" Hilbert spaces may be realized as limits of dynamical systems on "d...
We consider a covariant causal set approach to discrete quantum gravity. We first review the microsc...
This article presents a simplified version of the author’s previous work. We first construct a causa...
It is shown that discrete-time quantum walks can be used to digitize, i.e., to time discretize fermi...
We consider the application of the \u27consistent lattice quantum gravity\u27 approach we introduced...
In several approaches towards a quantum theory of gravity, such as group field theory and loop quant...
We study a single quantum particle in discrete spacetime evolving in a causal way. We see that in th...
This article presents a simplified version of the author’s previous work. We first construct a causa...
AbstractIn loop quantum gravity the discrete nature of quantum geometry acts as a natural regulator ...
In loop quantum gravity the discrete nature of quantum geometry acts as a natural regulator for matt...
This paper is based on the causal set approach to discrete quantum gravity. We first describe a clas...
In this second of four papers on the eponymous topic, pointwise convergence of a 'discrete' state fu...
We review recent efforts to construct gravitational theories on discrete space-times, usually referr...
We show that a recent proposal for the quantization of gravity based on discrete spacetime implies a...
Several approaches to the dynamics of loop quantum gravity involve discretizing the equations of mot...
Dynamical systems on "continuum" Hilbert spaces may be realized as limits of dynamical systems on "d...
We consider a covariant causal set approach to discrete quantum gravity. We first review the microsc...
This article presents a simplified version of the author’s previous work. We first construct a causa...
It is shown that discrete-time quantum walks can be used to digitize, i.e., to time discretize fermi...
DOI
Add to ORKG