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Title:
How to Delete Without a Trace: Certified Deniability in a Quantum World

Authors: Alper Çakan, Vipul Goyal, Justin Raizes

Is it possible to comprehensively destroy a piece of quantum information, so that nothing is left behind except the memory of that one had it at some point? For example, various works, most recently Morimae, Poremba, and Yamakawa (TQC '24), show how to construct a signature scheme with certified deletion where a user who deletes a signature on m cannot later produce a signature for m. However, in all of the existing schemes, even after deletion the user is still able keep irrefutable evidence that m was signed, and thus they do not fully capture the spirit of deletion.

In this work, we initiate the study of certified deniability in order to obtain a more comprehensive notion of deletion. Certified deniability uses a simulation-based security definition, ensuring that any information the user has kept after deletion could have been learned without being given the deleteable object to begin with; meaning that deletion leaves no trace behind! We define and construct two non-interactive primitives that satisfy certified deniability in the quantum random oracle model: signatures and non-interactive zero-knowledge arguments (NIZKs). As a consequence, for example, it is not possible to delete a signature/NIZK and later provide convincing evidence that it used to exist. Notably, our results utilize uniquely quantum phenomena to bypass Pass's (CRYPTO '03) celebrated result showing that deniable NIZKs are impossible even in the random oracle model.

ePrint: https://eprint.iacr.org/2024/1832

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