Add to ORKGThis paper has two tightly intertwined aims: (i) To introduce an intuitive and universal graphical calculus for multi-qubit systems, the ZX-calculus, which greatly simplifies derivations in the area of quantum computation and information. (ii) To axiomatise complementarity of quantum observables within a general framework for physical theories in terms of dagger symmetric monoidal categories. We also axiomatize phase shifts within this framework. Using the well-studied canonical correspondence between graphical calculi and symmetric monoidal categories, our results provide a purely graphical formalisation of complementarity for quantum observables. Each individual observable, represented by a commutative special dagger Frobenius algebra, ...
We propose a new typed graphical language for quantum computation, based on compact categories with ...
We propose a new typed graphical language for quantum computation, based on compact categories with ...
We propose a new typed graphical language for quantum computation, based on compact categories with ...
This paper has two tightly intertwined aims: (i) to introduce an intuitive and universal graphical c...
This paper has two tightly intertwined aims: (i) to introduce an intuitive and universal graphical c...
Abstract. This paper has two tightly intertwined aims: (i) To introduce an intuitive and universal g...
We formalise the constructive content of an essential feature of quantum mechanics: the interaction ...
We formalise the constructive content of an essential feature of quantum mechanics: the interaction ...
Categorical Quantum Mechanics, and graphical calculi in particular, has proven to be an intuitive an...
13+15 pagesThe stabilizer ZX-calculus is a rigorous graphical language for reasoning about quantum m...
International audienceThere exist several graphical languages for quantum information processing, li...
There exist several graphical languages for quantum information processing, like quantum circuits, Z...
13+15 pagesInternational audienceThe stabilizer ZX-calculus is a rigorous graphical language for rea...
We propose a new typed graphical language for quantum computation, based on compact categories with ...
We propose a new typed graphical language for quantum computation, based on compact categories with ...
We propose a new typed graphical language for quantum computation, based on compact categories with ...
We propose a new typed graphical language for quantum computation, based on compact categories with ...
We propose a new typed graphical language for quantum computation, based on compact categories with ...
This paper has two tightly intertwined aims: (i) to introduce an intuitive and universal graphical c...
This paper has two tightly intertwined aims: (i) to introduce an intuitive and universal graphical c...
Abstract. This paper has two tightly intertwined aims: (i) To introduce an intuitive and universal g...
We formalise the constructive content of an essential feature of quantum mechanics: the interaction ...
We formalise the constructive content of an essential feature of quantum mechanics: the interaction ...
Categorical Quantum Mechanics, and graphical calculi in particular, has proven to be an intuitive an...
13+15 pagesThe stabilizer ZX-calculus is a rigorous graphical language for reasoning about quantum m...
International audienceThere exist several graphical languages for quantum information processing, li...
There exist several graphical languages for quantum information processing, like quantum circuits, Z...
13+15 pagesInternational audienceThe stabilizer ZX-calculus is a rigorous graphical language for rea...
We propose a new typed graphical language for quantum computation, based on compact categories with ...
We propose a new typed graphical language for quantum computation, based on compact categories with ...
We propose a new typed graphical language for quantum computation, based on compact categories with ...
We propose a new typed graphical language for quantum computation, based on compact categories with ...
We propose a new typed graphical language for quantum computation, based on compact categories with ...