Add to ORKGWe introduce a protocol through which a pair of quantum mechanical devices may be used to generate n bits of true randomness from a seed of O(log n) uniform bits. The bits generated are certifiably random based only on a simple statistical test that can be performed by the user, and on the assumption that the devices obey the no-signaling principle. No other assumptions are placed on the devices' inner workings. A modified protocol uses a seed of O(log^3 n) uniformly random bits to generate n bits of true randomness even conditioned on the state of a quantum adversary who may have had prior access to the devices, and may be entangled with them
Quantum random number generators can provide genuine randomness by appealing to the fundamental prin...
An approach to quantum random number generation based on unambiguous quantum state discrimination is...
We give a protocol for producing certifiable randomness from a single untrusted quantum device that ...
We introduce a protocol through which a pair of quantum mechanical devices may be used to generate n...
We introduce a protocol through which a pair of quantum mechanical devices may be used to generate n...
We introduce a protocol through which a pair of quantum mechanical devices may be used to generate n...
We introduce a protocol through which a pair of quantum mechanical devices may be used to generate n...
We introduce a protocol through which a pair of quantum mechanical devices may be used to generate n...
International audienceThe intrinsic non-locality of correlations in Quantum Mechanics allow us to ce...
Measurements on entangled quantum systems necessarily yield outcomes that are intrinsically unpredic...
Quantum theory allows for randomness generation in a device-independent setting, where no detailed d...
The concept of randomness plays an important part in many disciplines. On the one hand, the question...
Randomness is a fundamental concept, with implications from security of modern data systems, to fund...
Device-independent randomness generation and quantum key distribution protocols rely on a fundamenta...
The generation of random number sequences, that is, of unpredictable sequences free from any structu...
Quantum random number generators can provide genuine randomness by appealing to the fundamental prin...
An approach to quantum random number generation based on unambiguous quantum state discrimination is...
We give a protocol for producing certifiable randomness from a single untrusted quantum device that ...
We introduce a protocol through which a pair of quantum mechanical devices may be used to generate n...
We introduce a protocol through which a pair of quantum mechanical devices may be used to generate n...
We introduce a protocol through which a pair of quantum mechanical devices may be used to generate n...
We introduce a protocol through which a pair of quantum mechanical devices may be used to generate n...
We introduce a protocol through which a pair of quantum mechanical devices may be used to generate n...
International audienceThe intrinsic non-locality of correlations in Quantum Mechanics allow us to ce...
Measurements on entangled quantum systems necessarily yield outcomes that are intrinsically unpredic...
Quantum theory allows for randomness generation in a device-independent setting, where no detailed d...
The concept of randomness plays an important part in many disciplines. On the one hand, the question...
Randomness is a fundamental concept, with implications from security of modern data systems, to fund...
Device-independent randomness generation and quantum key distribution protocols rely on a fundamenta...
The generation of random number sequences, that is, of unpredictable sequences free from any structu...
Quantum random number generators can provide genuine randomness by appealing to the fundamental prin...
An approach to quantum random number generation based on unambiguous quantum state discrimination is...
We give a protocol for producing certifiable randomness from a single untrusted quantum device that ...