Conductance quantization of gold nanowires as a ballistic conductor

机译：金纳米线作为弹道导体的电导量化

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Electron transport in gold nanowires is studied by transmission electron microscopy (TEM) simultaneously with conductance measurement by using a scanning tunneling tip as an electrode. Conductance evolution while thinning of a gold nanowire shows sequential steps until it breaks after forming a single atomic chain. The step heights coincide the quantum unit, G₀ = 2e²/h = (12.9 kOmega)^-1, except a little deviation due to multiple reflection. Gold nanowires fabricated in the lang110rang orientation can elongate to a several nanometer in length, and show linear current-voltage relation even for the bias voltage of 0.2 V. Gold nanowires, thus, behave as a ballistic conductor, and their conductance is quantized to carry current, 1 muA per single atomic chain at the bias voltage of 13 mV.

机译：金纳米线中的电子传输通过透射电子显微镜（TEM）进行研究，同时使用扫描隧道尖端作为电极进行电导测量。金纳米线变薄时的电导率演变显示出连续的步骤，直到形成单个原子链后断裂。台阶高度与量子单位G _{0 = 2e ^{2 / h =（12.9 kOmega）^{-1 重合，除了由于多重反射。以lang110rang方向制造的金纳米线可以延长到几纳米的长度，并且即使在0.2 V的偏置电压下也显示出线性电流-电压关系。因此，金纳米线充当弹道导体，并且对其电导进行量化以携带偏置电流为13 mV时，每个单原子链1μA的电流。}}}

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《Interconnect Technology Conference, 2009. IITC 2009》|2009年|47-50|共4页
会议地点 Sapporo(JP);Sapporo(JP)
作者
Takayanagi K.; Oshima Y.; Kurui Y.;
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Dept. of Phys., Tokyo Inst. of Technol., Tokyo;

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ballistic transport; conductors (electric); elongation; gold; nanowires; scanning tunnelling microscopy; transmission electron microscopy; Au; ballistic conductor; conductance evolution; conductance measurement; conductance quantization; current 1 muA; current-voltage relation; electron transport; gold nanowires; lang110rang orientation; quantum unit; scanning tunneling tip; single atomic chain; voltage 13 mV to 2 V;

机译：弹道传输;导体（电）;伸长率;金;纳米线;扫描隧道显微镜;透射电子显微镜; Au;弹道导体;电导演化;电导测量;电导定量;电流1μA;电流-电压关系;电子传输;金纳米线； lang110rang取向；量子单位；扫描隧穿尖端；单原子链；电压13 mV至2 V;

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专利

1. Quantum transport in ballistic conductors: evolution from conductance quantization to resonant tunnelling [J] . Nikolic BK., Allen PB. Journal of Physics. Condensed Matter . 2000,第46期

机译：弹道导体中的量子传输：从电导量化到共振隧穿的演化
2. Controlling Quantized Steps in Conductance of Gold Zigzag Nanowires [J] . Yoshifumi Oshima, Yoshihiko Kurui, Kunio Takayanagi Annales de l'I.H.P . 2011,第5期

机译：控制金字形纳米线电导的量化步骤
3. Conductance quantization and dequantization in gold nanowires due to multiple reflection at the interface [J] . Yoshihiko Kurui, Yoshifumi Oshima, Masakuni Okamoto, Physical review . 2009,第16期

机译：由于界面多次反射，金纳米线中的电导率量化和反量化
4. Conductance Quantization of Gold Nanowires as a Ballistic conductor [C] . Kunio Takayanagi, Yoshifumi Oshima, Yoshihiko Kurui IEEE International Interconnect Technology Conference . 2009

机译：金纳米线作为弹道导体的电导量化
5. Lateral variation in the Schottky barrier height and ballistic electron transport characteristics of gold/(100)gallium arsenide and gold/platinum silicide/(100)silicon diodes. [D] . Talin, Albert Alec. 1995

机译：金/（100）砷化镓和金/硅化铂/（100）硅二极管的肖特基势垒高度和弹道电子传输特性的横向变化。
6. Heat conduction measurements in ballistic 1D phonon waveguides indicate breakdown of the thermal conductance quantization [O] . Adib Tavakoli, Kunal Lulla, Thierry Crozes, -1

机译：弹道一维声子波导中的热导率测量表明热导率量化的分解
7. Quantum transport in ballistic conductors: evolution from conductance quantization to resonant tunneling [O] . Nikolic, Branislav K., Allen, Philip B. 2000

机译：弹道导体中的量子输运：从电导演变量子化到共振隧穿

Conductance quantization of gold nanowires as a ballistic conductor

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