Lattice-Based Quantum Advantage from Rotated Measurements

October 18, 2022 · Declared Dead · 🏛 IACR Cryptology ePrint Archive

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Authors Yusuf Alnawakhtha, Atul Mantri, Carl A. Miller, Daochen Wang arXiv ID 2210.10143 Category quant-ph: Quantum Computing Cross-listed cs.CR, cs.ET Citations 8 Venue IACR Cryptology ePrint Archive Last Checked 4 months ago

Abstract

Trapdoor claw-free functions (TCFs) are immensely valuable in cryptographic interactions between a classical client and a quantum server. Typically, a protocol has the quantum server prepare a superposition of two-bit strings of a claw and then measure it using Pauli-$X$ or $Z$ measurements. In this paper, we demonstrate a new technique that uses the entire range of qubit measurements from the $XY$-plane. We show the advantage of this approach in two applications. First, building on (Brakerski et al. 2018, Kalai et al. 2022), we show an optimized two-round proof of quantumness whose security can be expressed directly in terms of the hardness of the LWE (learning with errors) problem. Second, we construct a one-round protocol for blind remote preparation of an arbitrary state on the $XY$-plane up to a Pauli-$Z$ correction.

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