We introduce the concept of hypergraphs to describe quantum optical experiments with probabilistic multiphoton sources. Every hyperedge represents a correlated photon source, and every vertex stands for an optical output path. Such a general graph description provides new insights for producing complex high-dimensional multiphoton quantum entangled states, which go beyond limitations imposed by pair creation via spontaneous parametric down-conversion. Furthermore, the properties of hypergraphs can be investigated experimentally. For example, the NP-complete problem of deciding whether a hypergraph has a perfect matching can be answered by experimentally detecting multiphoton events in quantum experiments. By introducing complex weights in h...
Empirical thesis.Bibliography: pages 137-145.1. Introduction -- 2. Spontaneous parametric down conve...
We present new combinatorial objects, which we call grid-labelled graphs, and show how these can be ...
Multi-level (qudit) entangled photon states are a key resource for both fundamental physics and adva...
We show a surprising link between experimental setups to realize high-dimensional multipartite quant...
Quantum entanglement plays an important role in quantum information processes, such as quantum compu...
We present an approach to describe state-of-the-art photonic quantum experiments using graph theory....
Entanglement is a crucial resource for quantum technologies ranging from quantum communication to qu...
The field of quantum information science promises incredible enhancements in computing, metrology, s...
Quantum information processing is the field of science where the underlying principles of quantum me...
Graph states are special kinds of multipartite entangled states that correspond to mathematical grap...
We propose a scheme for efficient construction of graph states using realistic linear optics, imperf...
This work was supported by the National Natural Science Foundation of China (Grants No. 11575174, No...
Hypergraph states are multiqubit states whose combinatorial descrip-tion and entanglement properties...
This thesis consolidates my research on several topics of quantum information. We start with an anal...
Graph states are versatile resources for quantum computation and quantum-enhanced measurement. Their...
Empirical thesis.Bibliography: pages 137-145.1. Introduction -- 2. Spontaneous parametric down conve...
We present new combinatorial objects, which we call grid-labelled graphs, and show how these can be ...
Multi-level (qudit) entangled photon states are a key resource for both fundamental physics and adva...
We show a surprising link between experimental setups to realize high-dimensional multipartite quant...
Quantum entanglement plays an important role in quantum information processes, such as quantum compu...
We present an approach to describe state-of-the-art photonic quantum experiments using graph theory....
Entanglement is a crucial resource for quantum technologies ranging from quantum communication to qu...
The field of quantum information science promises incredible enhancements in computing, metrology, s...
Quantum information processing is the field of science where the underlying principles of quantum me...
Graph states are special kinds of multipartite entangled states that correspond to mathematical grap...
We propose a scheme for efficient construction of graph states using realistic linear optics, imperf...
This work was supported by the National Natural Science Foundation of China (Grants No. 11575174, No...
Hypergraph states are multiqubit states whose combinatorial descrip-tion and entanglement properties...
This thesis consolidates my research on several topics of quantum information. We start with an anal...
Graph states are versatile resources for quantum computation and quantum-enhanced measurement. Their...
Empirical thesis.Bibliography: pages 137-145.1. Introduction -- 2. Spontaneous parametric down conve...
We present new combinatorial objects, which we call grid-labelled graphs, and show how these can be ...
Multi-level (qudit) entangled photon states are a key resource for both fundamental physics and adva...