Fabrication of quantum point contacts and quantum dots by imprint lithography

被引:9
|
作者
Martini, I
Kamp, M
Fischer, F
Worschech, L
Koeth, J
Forchel, A
机构
[1] Univ Wurzburg, D-97074 Wurzburg, Germany
[2] Nanoplus Nanosyst & Technol GmbH, D-97074 Wurzburg, Germany
来源
MICROELECTRONIC ENGINEERING | 2001年 / 57-8卷
关键词
nanoimprint; mix-and-match fabrication; quantum point contact; quantum dot;
D O I
10.1016/S0167-9317(01)00446-4
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
We demonstrate the integration of imprint lithography into nanoelectronic device fabrication. The gates of quantum point contacts and quantum dots were patterned by imprint lithography. A Si mold with the gate pattern is embossed into a PMMA film located on top of the GaAs/AlGaAs heterostructure. The Schottky gates are fabricated by metal evaporation and lift-off. The gate tip separation ranges from 120 to 600 mn for the quantum point contacts and from 100 to 1000 mn for the quantum dots. Transport studies performed at T = 4.2 K show conductance quantization with varying gate voltages for the split-gate quantum point contacts and the upper and lower split-gates of the quantum dot. (C) 2001 Elsevier Science BY All rights reserved.
引用
收藏
页码:397 / 403
页数:7
相关论文
共 50 条
  • [1] Step and flash imprint lithography for quantum dots based room temperature single electron transistor fabrication
    Cheam, Daw Don
    Karre, P. Santosh Kumar
    Palard, Marylene
    Bergstrom, Paul L.
    MICROELECTRONIC ENGINEERING, 2009, 86 (4-6) : 646 - 649
  • [2] Fabrication of Si/SiGe quantum point contacts by electron-beam lithography and shallow wet-chemical etching
    Wieser, U
    Kunze, U
    Ismail, K
    Chu, JO
    PHYSICA E-LOW-DIMENSIONAL SYSTEMS & NANOSTRUCTURES, 2002, 13 (2-4) : 1047 - 1050
  • [3] Promising electroplating solution for facile fabrication of Cu quantum point contacts
    Yang, Yang
    Liu, Junyang
    Zheng, Jueting
    Lu, Miao
    Shi, Jia
    Hong, Wenjing
    Yang, Fangzu
    Tian, Zhongqun
    NANO RESEARCH, 2017, 10 (10) : 3314 - 3323
  • [4] Promising electroplating solution for facile fabrication of Cu quantum point contacts
    Yang Yang
    Junyang Liu
    Jueting Zheng
    Miao Lu
    Jia Shi
    Wenjing Hong
    Fangzu Yang
    Zhongqun Tian
    Nano Research, 2017, 10 : 3314 - 3323
  • [5] Hole transport in p-type GaAs quantum dots and point contacts
    Grbic, B.
    Leturcq, R.
    Ihn, T.
    Ensslin, K.
    Reuter, D.
    Wieck, A. D.
    PHYSICS OF SEMICONDUCTORS, PTS A AND B, 2007, 893 : 777 - +
  • [6] Freely suspended quantum point contacts
    Roessler, C.
    Herz, M.
    Bichler, M.
    Ludwig, S.
    SOLID STATE COMMUNICATIONS, 2010, 150 (17-18) : 861 - 864
  • [7] Conductance Anomalies in Quantum Point Contacts
    Frucci, G.
    Di Gaspare, L.
    Notargiacomo, A.
    Spirito, D.
    Evangelisti, F.
    Di Gaspare, A.
    Giovine, E.
    2009 9TH IEEE CONFERENCE ON NANOTECHNOLOGY (IEEE-NANO), 2009, : 190 - 193
  • [8] In-Situ Control of Quantum Point Contacts Using Scanning Probe Microscopy Scratch Lithography
    Suda, Ryutaro
    Ohyama, Takahiro
    Tseng, Ampere A.
    Shirakashi, Jun-ichi
    2012 12TH IEEE CONFERENCE ON NANOTECHNOLOGY (IEEE-NANO), 2012,
  • [9] FABRICATION OF SILICON QUANTUM WIRES AND DOTS
    HIRAI, Y
    MORIMOTO, K
    NIWA, M
    YUKI, K
    YASUI, J
    IEICE TRANSACTIONS ON ELECTRONICS, 1994, E77C (09) : 1426 - 1430
  • [10] The influence of Coulomb interaction in quantum point contacts
    Morimoto, T.
    Hemmi, M.
    Naito, R.
    Aoki, N.
    Bird, J. P.
    Ochiai, Y.
    PHYSICA E-LOW-DIMENSIONAL SYSTEMS & NANOSTRUCTURES, 2006, 34 (1-2) : 557 - 559
12345