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Ohm's Law Survives to the Atomic Scale

机译:欧姆定律尚存到原子尺度

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摘要

As silicon electronics approaches the atomic scale, interconnects and circuitry become comparable in size to the active device components. Maintaining low electrical resistivity at this scale is challenging because of the presence of confining surfaces and interfaces. We report on the fabrication of wires in silicon-only one atom tall and four atoms wide-with exceptionally low resistivity (-0.3 milliohm-centimeters) and the current-carrying capabilities of copper. By embedding phosphorus atoms within a silicon crystal with an average spacing of less than 1 nanometer, we achieved a diameter-independent resistivity, which demonstrates ohmic scaling to the atomic limit. Atomistic tight-binding calculations confirm the metallicity of these atomic-scale wires, which pave the way for single-atom device architectures for both classical and quantum information processing.
机译:随着硅电子器件接近原子规模,互连和电路的尺寸已变得与有源器件组件相当。由于存在限制的表面和界面,因此在这种规模上保持低电阻率是一项挑战。我们报道了只有一个原子高和四个原子宽的硅的导线制造,具有极低的电阻率(-0.3毫欧厘米)和铜的载流能力。通过将磷原子嵌入平均间隔小于1纳米的硅晶体中,我们获得了与直径无关的电阻率,该电阻率显示出达到原子极限的欧姆定标。原子紧密结合计算证实了这些原子级导线的金属性,这为经典和量子信息处理的单原子设备体系结构铺平了道路。

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  • 来源
    《Science》 |2012年第6064期|p.64-67|共4页
  • 作者

    B. Weber; S. Mahapatra; H. Ryu; S. Lee; A. Fuhrer; T. C. G. Reusch; D. L. Thompson; W. C. T. Lee; G. Klimeck; L. C. L Hollenberg; M. Y. Simmons;

  • 作者单位

    Centre for Quantum Computation and Communication Tech-nology, School of Physics, University of New South Wales,Sydney, NSW 2052, Australia;

    Centre for Quantum Computation and Communication Tech-nology, School of Physics, University of New South Wales,Sydney, NSW 2052, Australia;

    Network for Computational Nanotechnology, Birck Nanotechnology Center, Purdue Univer-sity, West lafayette, IN 47907, USA;

    Network for Computational Nanotechnology, Birck Nanotechnology Center, Purdue Univer-sity, West lafayette, IN 47907, USA;

    Centre for Quantum Computation and Communication Tech-nology, School of Physics, University of New South Wales,Sydney, NSW 2052, Australia;

    Centre for Quantum Computation and Communication Tech-nology, School of Physics, University of New South Wales,Sydney, NSW 2052, Australia;

    Centre for Quantum Computation and Communication Tech-nology, School of Physics, University of New South Wales,Sydney, NSW 2052, Australia;

    Centre for Quantum Computation and Communication Tech-nology, School of Physics, University of New South Wales,Sydney, NSW 2052, Australia;

    Network for Computational Nanotechnology, Birck Nanotechnology Center, Purdue Univer-sity, West lafayette, IN 47907, USA;

    Centre for Quantum Com-putation and Communication Technology, School of Physics,University of Melbourne, Parkville, VIC 3010, Australia;

    Centre for Quantum Computation and Communication Tech-nology, School of Physics, University of New South Wales,Sydney, NSW 2052, Australia;

  • 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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