用于可扩展量子信息处理的微纳加工表面电极离子阱
Microfabricated surface-electrode ion trap for scalable quantum information processing.
作者信息
Seidelin S, Chiaverini J, Reichle R, Bollinger J J, Leibfried D, Britton J, Wesenberg J H, Blakestad R B, Epstein R J, Hume D B, Itano W M, Jost J D, Langer C, Ozeri R, Shiga N, Wineland D J
机构信息
Time and Frequency Division, NIST, Boulder, Colorado 80305, USA.
出版信息
Phys Rev Lett. 2006 Jun 30;96(25):253003. doi: 10.1103/PhysRevLett.96.253003.
Individual laser-cooled 24Mg+ ions are confined in a linear Paul trap with a novel geometry where gold electrodes are located in a single plane and the ions are trapped 40 microm above this plane. The relatively simple trap design and fabrication procedure are important for large-scale quantum information processing (QIP) using ions. Measured ion motional frequencies are compared to simulations. Measurements of ion recooling after cooling is temporarily suspended yield a heating rate of approximately 5 motional quanta per millisecond for a trap frequency of 2.83 MHz, sufficiently low to be useful for QIP.
单个激光冷却的24Mg+离子被限制在一个具有新颖几何结构的线性保罗阱中,其中金电极位于单个平面内,离子被捕获在该平面上方40微米处。相对简单的阱设计和制造过程对于使用离子的大规模量子信息处理(QIP)很重要。将测量的离子运动频率与模拟结果进行比较。在冷却暂时停止后对离子再冷却的测量表明,对于2.83 MHz的阱频率,加热速率约为每毫秒5个运动量子,足够低,可用于QIP。
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