Measurement of Fast Electron Spin Relaxation Times with Atomic Resolution

Sebastian Loth; rnMarkus Etzkorn; rnChristopher P. Lutz; rnD. M. Eigler; rnAndreas J. Heinrich

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Measurement of Fast Electron Spin Relaxation Times with Atomic Resolution

机译：用原子分辨率测量快速电子自旋弛豫时间

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Single spins in solid-state systems are often considered prime candidates for the storage of quantum information, and their interaction with the environment the main limiting factor for the realization of such schemes. The lifetime of an excited spin state is a sensitive measure of this interaction, but extending the spatial resolution of spin relaxation measurements to the atomic scale has been a challenge. We show how a scanning tunneling microscope can measure electron spin relaxation times of individual atoms adsorbed on a surface using an all-electronic pump-probe measurement scheme. The spin relaxation times of individual Fe-Cu dimers were found to vary between 50 and 250 nanoseconds. Our method can in principle be generalized to monitor the temporal evolution of other dynamical systems.

机译：固态系统中的单自旋通常被认为是存储量子信息的主要候选者，它们与环境的相互作用是实现此类方案的主要限制因素。激发自旋态的寿命是这种相互作用的敏感度量，但是将自旋弛豫测量的空间分辨率扩展到原子尺度一直是一个挑战。我们展示了扫描隧道显微镜如何使用全电子泵浦探针测量方案测量吸附在表面上的单个原子的电子自旋弛豫时间。发现单个Fe-Cu二聚体的自旋弛豫时间在50到250纳秒之间变化。原则上，我们的方法可以推广到监视其他动力学系统的时间演变。

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来源
《Science》 |2010年第5999期|P.1628-1630|共3页
作者
Sebastian Loth; rnMarkus Etzkorn; rnChristopher P. Lutz; rnD. M. Eigler; rnAndreas J. Heinrich;
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作者单位

IBM Research Division, Almaden Research Center, 650 Harry Road, San Jose, CA 95120, USA;

rnInstitut de Physique de la Matiere Condensee, Ecole Polytechnique Federale de Lausanne, CH-1015 Lausanne, Switzerland;

rnIBM Research Division, Almaden Research Center, 650 Harry Road, San Jose, CA 95120, USA;

rnIBM Research Division, Almaden Research Center, 650 Harry Road, San Jose, CA 95120, USA;

rnIBM Research Division, Almaden Research Center, 650 Harry Road, San Jose, CA 95120, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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正文语种 eng
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入库时间 2022-08-18 02:54:43

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Measurement of Fast Electron Spin Relaxation Times with Atomic Resolution

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