Discrete formulations of (quantum) gravity in four spacetime dimensions build space out of tetrahedra. We investigate a statistical mechanical system of tetrahedra from a many-body point of view based on nonlocal, combinatorial gluing constraints that are modeled as multiparticle interactions. We focus on Gibbs equilibrium states, constructed using Jaynes's principle of constrained maximization of entropy, which has been shown recently to play an important role in characterizing equilibrium in background-independent systems. We apply this principle first to classical systems of many tetrahedra using different examples of geometrically motivated constraints. Then for a system of quantum tetrahedra, we show that the quantum statistical partit...
In this Contribution we show that a suitably defined nonequilibrium entropy of an N-body isolated sy...
Using the quantum Hamiltonian for a gravitational system with boundary, we find the partition functi...
On the basis of just the microscopic definition of thermodynamic entropy and the definition of the r...
Discrete formulations of (quantum) gravity in four spacetime dimensions build space out of tetrahedr...
Maximum entropy principle and Souriau’s symplectic generalization of Gibbs states have provided cruc...
Due to the absence of well-defined concepts of time and energy in background independent systems, fo...
Here we introduce a non-commutative extension to statistical physics granting it the ability to asso...
Gibbs states are known to play a crucial role in the statistical description of a system with a larg...
We present a novel derivation of the constraints required to obtain the underlying principles of sta...
The unitary dynamics of isolated quantum systems does not allow a pure state to thermalize. Because ...
The graph theoretic concept of maximal independent set arises in several practical problems in compu...
The problem of constructing models for the statistical dynamics of finite-level quantum mechanical s...
The graph theoretic concept of maximal independent set arises in several practical problems in compu...
A set of many identical interacting agents obeying a global additive constraint is considered. Under...
As shown by Jaynes, the canonical and grand canonical probability distributions of equilibrium stati...
In this Contribution we show that a suitably defined nonequilibrium entropy of an N-body isolated sy...
Using the quantum Hamiltonian for a gravitational system with boundary, we find the partition functi...
On the basis of just the microscopic definition of thermodynamic entropy and the definition of the r...
Discrete formulations of (quantum) gravity in four spacetime dimensions build space out of tetrahedr...
Maximum entropy principle and Souriau’s symplectic generalization of Gibbs states have provided cruc...
Due to the absence of well-defined concepts of time and energy in background independent systems, fo...
Here we introduce a non-commutative extension to statistical physics granting it the ability to asso...
Gibbs states are known to play a crucial role in the statistical description of a system with a larg...
We present a novel derivation of the constraints required to obtain the underlying principles of sta...
The unitary dynamics of isolated quantum systems does not allow a pure state to thermalize. Because ...
The graph theoretic concept of maximal independent set arises in several practical problems in compu...
The problem of constructing models for the statistical dynamics of finite-level quantum mechanical s...
The graph theoretic concept of maximal independent set arises in several practical problems in compu...
A set of many identical interacting agents obeying a global additive constraint is considered. Under...
As shown by Jaynes, the canonical and grand canonical probability distributions of equilibrium stati...
In this Contribution we show that a suitably defined nonequilibrium entropy of an N-body isolated sy...
Using the quantum Hamiltonian for a gravitational system with boundary, we find the partition functi...
On the basis of just the microscopic definition of thermodynamic entropy and the definition of the r...