Add to ORKGWe compare different strategies aimed to prepare an ensemble with a given density matrix $\rho$. Preparing the ensemble of eigenstates of $\rho$ with appropriate probabilities can be treated as `generous' strategy: it provides maximal accessible information about the state. Another extremity is the so-called `Scrooge' ensemble, which is mostly stingy to share the information. We introduce `lazy' ensembles which require minimal efforts to prepare the density matrix by selecting pure states with respect to completely random choice. We consider two parties, Alice and Bob, playing a kind of game. Bob wishes to guess which pure state is prepared by Alice. His null hypothesis, based on the lack of any information about Alice's intention, is that ...
We consider the problem of determining the mixed quantum state of a large but finite number of ident...
In quantum mechanics, states are described by density matrices. Though their probabilistic interpret...
Mixed states of a quantum system, represented by density operators, can be decomposed as a statistic...
Random quantum states are presently of interest in the fields of quantum information theory and quan...
The capabilities of a new approach towards the foundations of Statistical Mechanics are explored. Th...
The Gram matrix of a set of vectors, which encapsulates the relations between the constituent vector...
Ensembles of quantum systems, such as liquid state NMR, have been proposed as possibilities for impl...
Game-playing proofs constitute a powerful framework for classical cryptographic security arguments, ...
In quantum mechanics, the wavefunction predicts probabilities of possible measurement outcomes, but ...
We clarify different definitions of the density matrix by proposing the use of different names, the ...
volume 529, page 1700009International audienceWe numerically investigate statistical ensembles for t...
The density matrix ρ for an n-level system is decomposed into the minimum number of pure states nece...
We investigate the generation of quantum states and unitary operations that are ``random'' in certai...
13 pages in latex with 8 figures includedInternational audienceWe study various methods to generate ...
We present exact results on a novel kind of emergent random matrix universality that quantum many-b...
We consider the problem of determining the mixed quantum state of a large but finite number of ident...
In quantum mechanics, states are described by density matrices. Though their probabilistic interpret...
Mixed states of a quantum system, represented by density operators, can be decomposed as a statistic...
Random quantum states are presently of interest in the fields of quantum information theory and quan...
The capabilities of a new approach towards the foundations of Statistical Mechanics are explored. Th...
The Gram matrix of a set of vectors, which encapsulates the relations between the constituent vector...
Ensembles of quantum systems, such as liquid state NMR, have been proposed as possibilities for impl...
Game-playing proofs constitute a powerful framework for classical cryptographic security arguments, ...
In quantum mechanics, the wavefunction predicts probabilities of possible measurement outcomes, but ...
We clarify different definitions of the density matrix by proposing the use of different names, the ...
volume 529, page 1700009International audienceWe numerically investigate statistical ensembles for t...
The density matrix ρ for an n-level system is decomposed into the minimum number of pure states nece...
We investigate the generation of quantum states and unitary operations that are ``random'' in certai...
13 pages in latex with 8 figures includedInternational audienceWe study various methods to generate ...
We present exact results on a novel kind of emergent random matrix universality that quantum many-b...
We consider the problem of determining the mixed quantum state of a large but finite number of ident...
In quantum mechanics, states are described by density matrices. Though their probabilistic interpret...
Mixed states of a quantum system, represented by density operators, can be decomposed as a statistic...