Understanding cause-effect relationships is a crucial part of the scientific process. As Bell’s theorem shows, within a given causal structure, classical and quantum physics impose different constraints on the correlations that are realisable, a fundamental feature that has technological applications. However, in general it is difficult to distinguish the set of classical and quantum correlations within a causal structure. Here we investigate a method to do this based on using entropy vectors for Tsallis entropies. We derive constraints on the Tsallis entropies that are implied by (conditional) independence between classical random variables and apply these to causal structures. We find that the number of independent constraints needed to c...
Entanglement entropy is now widely accepted as having deep connections with quantum gravity. It is t...
In classical information theory, a causal relationship between two variables is typically modelled b...
Tsallis entropy for assessing quantum correlation with Bell-type inequalities in EPR experiment
This thesis reports progress in two domains, namely causal structures and microscopic thermodynamics...
A central question for causal inference is to decide whether a set of correlations fits a given caus...
A central question for causal inference is to decide whether a set of correlations fits a given caus...
Causality and logic are both fundamental to our understanding of the universe, but our intuitions ab...
Information plays an important role in our understanding of the physical world. Hence we propose an ...
We review a formulation of the entanglement entropy of a quantum scalar field in terms of its spacet...
We consider the problem of identifying the causal direction between two discrete random variables us...
The entropic uncertainty relations are a very active field of scientific inquiry. Their applications...
A causal scenario is a graph that describes the cause and effect relationships between all relevant ...
The strength of quantum correlations is bounded from above by Tsirelson's bound. We establish a conn...
Seen from the modern lens of causal inference, Bell's theorem is nothing else than the proof that a ...
We introduce the concept of entropic nonsignaling correlations, i.e., entropies arising from probabi...
Entanglement entropy is now widely accepted as having deep connections with quantum gravity. It is t...
In classical information theory, a causal relationship between two variables is typically modelled b...
Tsallis entropy for assessing quantum correlation with Bell-type inequalities in EPR experiment
This thesis reports progress in two domains, namely causal structures and microscopic thermodynamics...
A central question for causal inference is to decide whether a set of correlations fits a given caus...
A central question for causal inference is to decide whether a set of correlations fits a given caus...
Causality and logic are both fundamental to our understanding of the universe, but our intuitions ab...
Information plays an important role in our understanding of the physical world. Hence we propose an ...
We review a formulation of the entanglement entropy of a quantum scalar field in terms of its spacet...
We consider the problem of identifying the causal direction between two discrete random variables us...
The entropic uncertainty relations are a very active field of scientific inquiry. Their applications...
A causal scenario is a graph that describes the cause and effect relationships between all relevant ...
The strength of quantum correlations is bounded from above by Tsirelson's bound. We establish a conn...
Seen from the modern lens of causal inference, Bell's theorem is nothing else than the proof that a ...
We introduce the concept of entropic nonsignaling correlations, i.e., entropies arising from probabi...
Entanglement entropy is now widely accepted as having deep connections with quantum gravity. It is t...
In classical information theory, a causal relationship between two variables is typically modelled b...
Tsallis entropy for assessing quantum correlation with Bell-type inequalities in EPR experiment