High-power ultrafast laser source with 300 MHz repetition rate for trapped-ion quantum logic

A. Jechow, M. Petrasiunas, M. Pullen, J. Canning, M. Stevenson, P. Westbrook, K. Feder, D. Kielpinski
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引用次数: 1

Abstract

Trapped ions are a major candidate technology for scalable quantum computation. However, current methods for performing quantum logic gates with trapped ions are limited to gate times of about 10 µs. This drawback is overcome in a recently proposed scheme that uses pairs of counter-propagating π-pulses, resonant with an allowed ion transition, where the time needed for a gate operation is inversely proportional to the laser repetition rate [1]. Our MOPA architecture allows scaling to high repetition rate at constant pulse energy.
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用于捕获离子量子逻辑的300 MHz重复率高功率超快激光源
捕获离子是可扩展量子计算的主要候选技术。然而,目前用捕获离子执行量子逻辑门的方法被限制在大约10µs的门时间内。最近提出的一种方案克服了这一缺点,该方案使用一对反向传播π脉冲,与允许的离子跃迁共振,其中门操作所需的时间与激光重复率成反比[1]。我们的MOPA架构允许在恒定脉冲能量下缩放到高重复率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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