Magic tricycles: efficient magic state generation with finite block-length quantum LDPC codes
中文速览 本文提出了一类名为“三轮车编码”(tricycle codes)的新型有限码长量子低密度奇偶校验码(qLDPC)。其核心贡献在于将高编码率、高纠错距离、横向CCZ非克利福德门以及“单次”(single-shot)纠错特性独特地结合在一起。这种组合实现了一种高效、确定性且无需后选择的魔法态蒸馏方案。该方案仅需一轮纠错即可完成逻辑初态的制备,并在恒定电路深度内生成高保真度的魔法态,从而显著降低了实现通用容错量子计算所需的核心资源开销,为解决当前魔法态制备的巨大时空成本问题提供了切实可行的路径。 English Research Briefing Research Briefing: Magic tricycles: efficient magic state generation with finite block-length quantum LDPC codes 1. The Core Contribution This paper introduces “tricycle codes,” a novel class of finite block-length quantum low-density parity-check (qLDPC) codes designed for efficient magic state generation. The central thesis is that by systematically constructing codes that simultaneously possess good distance and rate, admit a transversal logical Controlled-Controlled-Z (CCZ) gate, and feature an intrinsic “single-shot” error correction capability, it is possible to create a highly efficient magic state factory. The primary conclusion is that this synergy enables a deterministic, constant-depth distillation protocol that prepares high-fidelity magic states with only a single round of error correction, thereby providing a practical solution to the substantial space-time overhead that currently plagues universal fault-tolerant quantum computation. ...