Classification of quantum cryptography

dc.accession.numberT00013
dc.classification.ddc005.82 ACH
dc.contributor.advisorJadhav, Ashish
dc.contributor.authorAcharya, Jaykumari
dc.date.accessioned2017-06-10T14:36:52Z
dc.date.accessioned2025-06-28T10:19:30Z
dc.date.available2017-06-10T14:36:52Z
dc.date.issued2004
dc.degreeM. Tech
dc.description.abstractModern Classical Cryptography is divided into two parts. The first part is Asymmetric (public-key) cryptography and the second is Symmetric (private or secret-key) cryptography. In spite of its popularity public-key cryptography has major flaws. Fast factoring algorithms or computers with fast processing power can break the public-key cryptographic system. In the case of private key cryptography, it is expensive to distribute the key via a trusted carrier or personal meetings. So, to overcome these drawbacks of classical cryptography, a cryptographic scheme based on the principles of quantum physics was developed. Quantum Cryptography provides unconditional security. Quantum cryptographic systems are provably secure systems that uses public channel for the distribution of the secret key. To get unconditional security quantum cryptography uses the principles of quantum physics like No-cloning theorem, Heisenberg’s uncertainty principle and quantum entanglement. Here, Classification of Quantum Cryptography is proposed. Quantum Cryptography is an alternative for the Classical Cryptography especially to have unconditional security. Classification may help the designer for an appropriate choice of the quantum cryptographic techniques.
dc.identifier.citationAcharya, Jaykumari (2004). Classification of quantum cryptography. Dhirubhai Ambani Institute of Information and Communication Technology, x, 104 p. (Acc.No: T00013)
dc.identifier.urihttp://drsr.daiict.ac.in/handle/123456789/50
dc.publisherDhirubhai Ambani Institute of Information and Communication Technology
dc.student.id200211020
dc.subjectCiphers
dc.subjectCryptography
dc.subjectQuantum cryptography
dc.titleClassification of quantum cryptography
dc.typeDissertation

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