Add to ORKGMagic is a property of a quantum state that characterizes its deviation from a stabilizer state, serving as a useful resource for achieving universal quantum computation e.g., within schemes that use Clifford operations. In this work, we study magic, as quantified by the stabilizer Renyi entropy, in a class of models known as generalized Rokhsar-Kivelson systems, i.e., Hamiltonians that allow a stochastic matrix form (SMF) decomposition. The ground state wavefunctions of these systems can be written explicitly throughout their phase diagram, and their properties can be related to associated classical statistical mechanics problems, thereby allowing powerful analytical and numerical approaches that are not usually available in conventional q...
It is known that the variance and entropy of quantum observables decompose into intrinsically quantu...
Ground states of quantum many-body systems are both entangled and possess a kind of quantum complexi...
We introduce a novel measure for the quantum property of “nonstabilizerness”—commonly known as “magi...
Magic states are key ingredients in schemes to realize universal fault-tolerant quantum computation....
We introduce a method to measure many-body magic in quantum systems based on a statistical explorati...
Magic (non-stabilizerness) is a necessary but "expensive" kind of "fuel" to drive universal fault-to...
We study a vast family of continuum Rokhsar-Kivelson (RK) states, which have their groundstate encod...
We advance the characterization of complexity in quantum many-body systems by examining $W$-states e...
International audienceIn this paper we study the transitions of entanglement complexity in an exempl...
We give a new algorithm for computing the $\textit{robustness of magic}$ - a measure of the utility ...
We show how the resource theory of magic quantifies the hardness of quantum certification protocols....
Non-stabilizerness or magic resource characterizes the amount of non-Clifford operations needed to p...
In this thesis, we explore the mathematical properties of the Clifford group, a special subgroup of ...
Magic-state distillation (or nonstabilizer state manipulation) is a crucial component in the leading...
We study different aspects of the stabilizer entropies (SEs) and compare them against known nonstabi...
It is known that the variance and entropy of quantum observables decompose into intrinsically quantu...
Ground states of quantum many-body systems are both entangled and possess a kind of quantum complexi...
We introduce a novel measure for the quantum property of “nonstabilizerness”—commonly known as “magi...
Magic states are key ingredients in schemes to realize universal fault-tolerant quantum computation....
We introduce a method to measure many-body magic in quantum systems based on a statistical explorati...
Magic (non-stabilizerness) is a necessary but "expensive" kind of "fuel" to drive universal fault-to...
We study a vast family of continuum Rokhsar-Kivelson (RK) states, which have their groundstate encod...
We advance the characterization of complexity in quantum many-body systems by examining $W$-states e...
International audienceIn this paper we study the transitions of entanglement complexity in an exempl...
We give a new algorithm for computing the $\textit{robustness of magic}$ - a measure of the utility ...
We show how the resource theory of magic quantifies the hardness of quantum certification protocols....
Non-stabilizerness or magic resource characterizes the amount of non-Clifford operations needed to p...
In this thesis, we explore the mathematical properties of the Clifford group, a special subgroup of ...
Magic-state distillation (or nonstabilizer state manipulation) is a crucial component in the leading...
We study different aspects of the stabilizer entropies (SEs) and compare them against known nonstabi...
It is known that the variance and entropy of quantum observables decompose into intrinsically quantu...
Ground states of quantum many-body systems are both entangled and possess a kind of quantum complexi...
We introduce a novel measure for the quantum property of “nonstabilizerness”—commonly known as “magi...