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Cybersecurity in the Quantum Era-A Study of Perceived Risks in Conventional Cryptography and Discussion on Post Quantum Methods

Anshika Vaishnavi, Samaya Pillai

2021Journal of Physics Conference Series35 citationsDOIOpen Access PDF

Abstract

Abstract Information security in communication networks is a persistent problem and essentially requires the usage of encryption methods. Quantum computing was first used to break encryption codes in the latter half of the 20 th century with the introduction of the SHOR algorithm. Though the recent developments in QC capabilities have increased confidentiality, integrity, and availability of networks by protecting them against passive attacks like eavesdropping yet the transformation of classical to quantum computation can bear catastrophic implications as it has the potential to put the currently secure methods of transactions in jeopardy. This paper aims at the evaluation and comparison of traditional cryptographic techniques by the application of a SWOT framework. It takes up an exploratory study of the advanced quantum computing capabilities that can pose a massive risk to network security. The various security enhancements that can be adopted in data transmission to curtail these risks post-quantum are also discussed.

Topics & Concepts

EavesdroppingComputer scienceComputer securityQuantum cryptographyEncryptionQuantum computerHackerCryptographyConfidentialityQuantum networkQuantumQuantum informationPhysicsQuantum mechanicsChaos-based Image/Signal EncryptionCryptographic Implementations and SecurityAdvanced Malware Detection Techniques
Cybersecurity in the Quantum Era-A Study of Perceived Risks in Conventional Cryptography and Discussion on Post Quantum Methods | Litcius