Tamper Detection against Unitary Operators

Author:

Boddu Naresh Goud1,Kapshikar Upendra2

Affiliation:

1. NTT Research, Sunnyvale, USA

2. Center for Quantum Technologies, National University of Singapore, Singapore

Abstract

Security of a storage device against a tampering adversary has been a well-studied topic in classical cryptography. Such models give black-box access to an adversary, and the aim is to protect the stored message or abort the protocol if there is any tampering.In this work, we extend the scope of the theory of tamper detection codes against an adversary with quantum capabilities. We consider encoding and decoding schemes that are used to encode a k-qubit quantum message |m⟩ to obtain an n-qubit quantum codeword |ψm⟩. A quantum codeword |ψm⟩ can be adversarially tampered via a unitary U from some known tampering unitary family UAdv (acting on C2n).Firstly, we initiate the general study of quantum tamper detection codes, which detect if there is any tampering caused by the action of a unitary operator. In case there was no tampering, we would like to output the original message. We show that quantum tamper detection codes exist for any family of unitary operators UAdv, such that |UAdv|<22αn for some constant α∈(0,1/6); provided that unitary operators are not too close to the identity operator. Quantum tamper detection codes that we construct can be considered to be quantum variants of classical tamper detection codes studied by Jafargholi and Wichs ['15], which are also known to exist under similar restrictions.Additionally, we show that when the message set M is classical, such a construction can be realized as a non-malleable code against any UAdv of size up to 22αn.

Publisher

Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften

Subject

Physics and Astronomy (miscellaneous),Atomic and Molecular Physics, and Optics

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