Add to ORKGRandom number generators play an essential role in cryptography and key distribution. It is thus important to verify whether the random numbers generated from these devices are genuine and unpredictable by any adversary. Recently, quantum nonlocality has been identified as a resource that can be utilised to certify randomness. Although these schemes are device-independent and thus highly secure, the observation of quantum nonlocality is extremely difficult from a practical perspective. In this work, we provide a scheme to certify unbounded randomness in a semi-device-independent way based on the maximal violation of Leggett-Garg inequalities. Interestingly, the scheme is independent of the choice of the quantum state, and consequently even ...
We give a protocol for producing certifiable randomness from a single untrusted quantum device that ...
Random numbers form an intrinsic part of modern day computing with applications in a wide variety of...
We explore the fundamental origin of the quantum advantage behind random access code. We propose new...
The ultimate random number generators are those certified to be unpredictable -- including to an adv...
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...
htmlabstractThe nonlocal behavior of quantum mechanics can be used to generate guaranteed fresh rand...
The nonlocal behavior of quantum mechanics can be used to generate guaranteed fresh randomness from ...
Random numbers are central to cryptography and various other tasks. The intrinsic probabilistic natu...
The generation of certifiable randomness is one of the most promising applications of quantum techno...
We present a scheme for quantum randomness certification based on quantum steering. The protocol is ...
4+18 pages, 2 figuresInternational audienceTwo parties sharing entangled quantum systems can generat...
We give a protocol for producing certifiable randomness from a single untrusted quantum device that ...
We give a protocol for producing certifiable randomness from a single untrusted quantum device that ...
One of the striking properties of quantum mechanics is the occurrence of the Bell-type non-locality....
We give a protocol for producing certifiable randomness from a single untrusted quantum device that ...
Random numbers form an intrinsic part of modern day computing with applications in a wide variety of...
We explore the fundamental origin of the quantum advantage behind random access code. We propose new...
The ultimate random number generators are those certified to be unpredictable -- including to an adv...
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...
htmlabstractThe nonlocal behavior of quantum mechanics can be used to generate guaranteed fresh rand...
The nonlocal behavior of quantum mechanics can be used to generate guaranteed fresh randomness from ...
Random numbers are central to cryptography and various other tasks. The intrinsic probabilistic natu...
The generation of certifiable randomness is one of the most promising applications of quantum techno...
We present a scheme for quantum randomness certification based on quantum steering. The protocol is ...
4+18 pages, 2 figuresInternational audienceTwo parties sharing entangled quantum systems can generat...
We give a protocol for producing certifiable randomness from a single untrusted quantum device that ...
We give a protocol for producing certifiable randomness from a single untrusted quantum device that ...
One of the striking properties of quantum mechanics is the occurrence of the Bell-type non-locality....
We give a protocol for producing certifiable randomness from a single untrusted quantum device that ...
Random numbers form an intrinsic part of modern day computing with applications in a wide variety of...
We explore the fundamental origin of the quantum advantage behind random access code. We propose new...