Carrier transport in nanodevices

被引:8
|
作者
Ferry, DK
Akis, R
Udipi, S
Vasileska, D
Pivin, DP
Connolly, KM
Bird, JP
Ishibashi, K
Aoyagi, Y
Sugano, T
Ochiai, Y
机构
[1] ARIZONA STATE UNIV,DEPT ELECT ENGN,TEMPE,AZ 85287
[2] ARIZONA STATE UNIV,CTR SYST SCI & ENGN,TEMPE,AZ 85287
[3] RIKEN,FRONTIER RES PROGRAM,WAKO,SAITAMA 35101,JAPAN
[4] CHIBA UNIV,MAT RES DEPT,INAGE KU,CHIBA 263,JAPAN
来源
JAPANESE JOURNAL OF APPLIED PHYSICS PART 1-REGULAR PAPERS SHORT NOTES & REVIEW PAPERS | 1997年 / 36卷 / 3B期
关键词
inhomogeneities; device physics; quantum dots; quantum transport; device modeling; random impurities;
D O I
10.1143/JJAP.36.1841
中图分类号
O59 [应用物理学];
学科分类号
摘要
Future VLSI scaling realization of gate lengths is expected to 70 nm and below. While we do not know all the underlying physics, we are beginning to understand some limiting factors; which include quantum transport, in these structures. The discrete nature of impurities, the fact that devices have critical lengths comparable to their coherence lengths, and size quantization will all be important in these structures. These phenomena will lead to pockets of charge, which will appear as coupled quantum dots in the device transport. We review some of the physics of these dots.
引用
收藏
页码:1841 / 1845
页数:5
相关论文
共 50 条
  • [1] Carrier transport in nanodevices: revisiting the Boltzmann and Wigner distribution functions
    Brosens, Fons
    Magnus, Wim
    PHYSICA STATUS SOLIDI B-BASIC SOLID STATE PHYSICS, 2009, 246 (07): : 1656 - 1661
  • [2] Small-Signal Modeling of Dissipative Carrier Transport in Nanodevices with
    Tibaldi, Alberto
    Goano, Michele
    Bertazzi, Francesco
    PHYSICAL REVIEW APPLIED, 2023, 19 (06)
  • [3] Effect of Mixing Hopping Sites for Carrier Transport in Organic Semiconductor Nanodevices
    Pengmanayol, Surachai
    Osotchan, Tanakorn
    2009 4TH IEEE INTERNATIONAL CONFERENCE ON NANO/MICRO ENGINEERED AND MOLECULAR SYSTEMS, VOLS 1 AND 2, 2009, : 694 - +
  • [4] Calculating transport properties of nanodevices
    Darve, E
    Li, S
    Teslyar, Y
    NANOSENSING: MATERIALS AND DEVICES, 2004, 5593 : 452 - 463
  • [5] Transport in multiterminal graphene nanodevices
    Jayasekera, Thushari
    Mintmire, J. W.
    NANOTECHNOLOGY, 2007, 18 (42)
  • [6] Decoherence and quantum transport in nanodevices
    Knezevic, I.
    JOURNAL OF COMPUTATIONAL AND THEORETICAL NANOSCIENCE, 2007, 4 (04) : 749 - 760
  • [7] Ion transport in electrolytes of dielectric nanodevices
    Ma, Manman
    Xu, Zhenli
    Zhang, Liwei
    PHYSICAL REVIEW E, 2021, 104 (03)
  • [8] Electron transport in silicon-on-insulator nanodevices
    Gamiz, F.
    Godoy, A.
    Sampedro, C.
    NANOSCALED SEMICONDUCTOR-ON-INSULATOR STRUCTURES AND DEVICES, 2007, : 303 - +
  • [9] Microscopic modeling of nonlinear transport in ballistic nanodevices
    Mateos, J
    Vasallo, BG
    Pardo, D
    González, T
    Galloo, JS
    Bollaert, S
    Roelens, Y
    Cappy, A
    IEEE TRANSACTIONS ON ELECTRON DEVICES, 2003, 50 (09) : 1897 - 1905
  • [10] Geometry and charge carrier induced stability in Casimir actuated nanodevices
    R. Esquivel-Sirvent
    R. Pérez-Pascual
    The European Physical Journal B, 2013, 86
12345