The goal of randomness extraction is to distill (almost) perfect randomness from a weak source of randomness. When the source yields a classical string X, many extractor constructions are known. Yet, when considering a physical randomness source, X is itself ultimately the result of a measurement on an underlying quantum system. When characterizing the power of a source to supply randomness, it is hence natural to ask how much classical randomness we can extract from a quantum system. To tackle this question, we here take on the study of quantum-to-classical randomness extractors (QC-extractors). We provide constructions of QC-extractors based on measurements in a full set of mutually unbiased bases (MUBs), and certain single qubit measurem...
Abstract Randomness extraction involves the processing of purely classical information and is theref...
Information-theoretically provable unique true random numbers, which cannot be correlated or control...
The generation of random numbers via quantum processes is an efficient and reliable method to obtain...
In this work we initiate the question of whether quantum devices can provide us with an almost perfe...
An extractor is a function ${ssr E}$ that is used to extract randomness. Given an imperfect random ...
Randomness extractors, widely used in classical and quantum cryptography and other fields of compute...
Quantum-proof randomness extractors are an important building block for classical and quantum crypto...
Randomness extractors are an important building block for classical and quantum cryptography. Howeve...
Device-independent randomness expansion protocols aim to expand a short uniformly random string into...
We give a protocol for producing certifiable randomness from a single untrusted quantum device that ...
Randomness extraction is of fundamental importance for information-theoretic cryptography. It allow...
We study the problem of constructing multi-source extractors in the quantum setting, which extract a...
Randomness is a defining element of mixing processes in nature and an essential ingredient to many p...
Measurements on entangled quantum systems necessarily yield outcomes that are intrinsically unpredic...
Abstract. Randomness extractors are an important building block for classical and quantum cryp-togra...
Abstract Randomness extraction involves the processing of purely classical information and is theref...
Information-theoretically provable unique true random numbers, which cannot be correlated or control...
The generation of random numbers via quantum processes is an efficient and reliable method to obtain...
In this work we initiate the question of whether quantum devices can provide us with an almost perfe...
An extractor is a function ${ssr E}$ that is used to extract randomness. Given an imperfect random ...
Randomness extractors, widely used in classical and quantum cryptography and other fields of compute...
Quantum-proof randomness extractors are an important building block for classical and quantum crypto...
Randomness extractors are an important building block for classical and quantum cryptography. Howeve...
Device-independent randomness expansion protocols aim to expand a short uniformly random string into...
We give a protocol for producing certifiable randomness from a single untrusted quantum device that ...
Randomness extraction is of fundamental importance for information-theoretic cryptography. It allow...
We study the problem of constructing multi-source extractors in the quantum setting, which extract a...
Randomness is a defining element of mixing processes in nature and an essential ingredient to many p...
Measurements on entangled quantum systems necessarily yield outcomes that are intrinsically unpredic...
Abstract. Randomness extractors are an important building block for classical and quantum cryp-togra...
Abstract Randomness extraction involves the processing of purely classical information and is theref...
Information-theoretically provable unique true random numbers, which cannot be correlated or control...
The generation of random numbers via quantum processes is an efficient and reliable method to obtain...