Channel saturation and conductance quantization in single-atom gold constrictions

Jason N. Armstrong; R. M. Schaub; Susan Z. Hua; Harsh Deep Chopra

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Channel saturation and conductance quantization in single-atom gold constrictions

机译：单原子金颈缩中的通道饱和和电导量化

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It is shown that the finite elasticity of atomic-sized gold constrictions allows for a continuous and reversible change in conductance. This is achieved by superposition of atomic-scale or subatomic-scale mechanical oscillations on a steadily retracting/approaching gold tip against a gold substrate. Through these perturbation studies, we report the direct observation of channel saturation and conductance quantization in stable, single-atom gold constrictions. In addition, the origin of peaks in conductance histograms is explained, and the peaks alone are shown to be insufficient in evaluating the stability of atomic configurations.

机译：结果表明，原子大小的金颈缩的有限弹性允许电导的连续和可逆变化。这是通过将原子级或亚原子级机械振荡叠加在稳定地向金基材上缩进/接近的金针尖上实现的。通过这些扰动研究，我们报告了在稳定的单原子金颈缩中对通道饱和度和电导量化的直接观察。另外，解释了电导直方图中的峰的起源，并且仅示出这些峰不足以评估原子构型的稳定性。

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来源
《Physical review》 |2010年第19期|p.195416.1-195416.11|共11页
作者
Jason N. Armstrong; R. M. Schaub; Susan Z. Hua; Harsh Deep Chopra;
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作者单位

Laboratory for Quantum Devices, Materials Program, Mechanical and Aerospace Engineering Department,The State University of New York at Buffalo, Buffalo, New York 14260, USA;

Laboratory for Quantum Devices, Materials Program, Mechanical and Aerospace Engineering Department,The State University of New York at Buffalo, Buffalo, New York 14260, USA;

Laboratory for Quantum Devices, Materials Program, Mechanical and Aerospace Engineering Department,The State University of New York at Buffalo, Buffalo, New York 14260, USA;

Laboratory for Quantum Devices, Materials Program, Mechanical and Aerospace Engineering Department,The State University of New York at Buffalo, Buffalo, New York 14260, USA;

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nanoscale contacts; scanning tunneling microscopy (including chemistry induced with STM); metal-to-metal contacts;

机译：纳米级触点;扫描隧道显微镜（包括用STM诱导的化学反应）;金属对金属触点;

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7. Channel saturation and conductance quantization in single-atom gold constrictions [O] . Armstrong, Jason N., Schaub, R. M., Hua, Susan Z., 2010

机译：单原子金中的通道饱和度和电导量化收缩

Channel saturation and conductance quantization in single-atom gold constrictions

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