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.
翻译:在古典客户端和量子服务器之间的加密互动中,没有爪子功能(TCFs)极有价值。 通常, 协议让量子服务器准备一个爪子的两维字符串的叠加, 然后用保利- $X美元或$Z美元的测量来测量它。 在本文中, 我们展示了一种新技术, 使用从美元XY$- 平面上的全部量子测量方法。 我们在两个应用中展示了这种方法的优势。 首先, 在( Brakerski 等人, 2018年, Kalai 等人, 2022年)的基础上, 我们展示了一种最佳的两轮量子证据, 其安全性可以直接表现为LWE( 学习错误) 的硬性。 第二, 我们为在美元- Pauli- Z$ 平面上盲目的远程准备任意状态构建一个单轮协议, 直至 Pauli- $ Z$ 校正。
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