I-V characteristics of single electron tunneling from symmetric and asymmetric double-barrier tunneling junctions

R. Negishi; T. Hasegawa; K. Terabe; M. Aono; H. Tanaka; T. Ogawa; H. Ozawa

doi:10.1063/1.2745252

I-V characteristics of single electron tunneling from symmetric and asymmetric double-barrier tunneling junctions

R. Negishi^*, T. Hasegawa, K. Terabe, M. Aono, H. Tanaka, T. Ogawa, H. Ozawa

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

31 Citations (Scopus)

Abstract

I-V characteristics of single electron tunneling from a symmetric and an asymmetric double-barrier tunneling junction (DBTJ) were examined. A single Au nanoparticle was trapped in nanogap whose size was precisely controlled using a combination of electron beam lithography and molecular ruler technique. Though the symmetric junction showed a monotonic rise with a bias beyond the Coulomb gap voltage, the asymmetric junction showed Coulomb staircases. The capacitance of the junction estimated from the fitting curves using the Coulomb conventional theory was consistent with the capacitance calculated from the observed structure. The authors quantitatively found the correlation between the electrical and structural properties of DBTJ.

Original language	English
Article number	223112
Journal	Applied Physics Letters
Volume	90
Issue number	22
DOIs	https://doi.org/10.1063/1.2745252
Publication status	Published - 2007
Externally published	Yes

ASJC Scopus subject areas

Physics and Astronomy (miscellaneous)

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title = "I-V characteristics of single electron tunneling from symmetric and asymmetric double-barrier tunneling junctions",

abstract = "I-V characteristics of single electron tunneling from a symmetric and an asymmetric double-barrier tunneling junction (DBTJ) were examined. A single Au nanoparticle was trapped in nanogap whose size was precisely controlled using a combination of electron beam lithography and molecular ruler technique. Though the symmetric junction showed a monotonic rise with a bias beyond the Coulomb gap voltage, the asymmetric junction showed Coulomb staircases. The capacitance of the junction estimated from the fitting curves using the Coulomb conventional theory was consistent with the capacitance calculated from the observed structure. The authors quantitatively found the correlation between the electrical and structural properties of DBTJ.",

author = "R. Negishi and T. Hasegawa and K. Terabe and M. Aono and H. Tanaka and T. Ogawa and H. Ozawa",

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T1 - I-V characteristics of single electron tunneling from symmetric and asymmetric double-barrier tunneling junctions

AU - Negishi, R.

AU - Hasegawa, T.

AU - Terabe, K.

AU - Aono, M.

AU - Tanaka, H.

AU - Ogawa, T.

AU - Ozawa, H.

N1 - Funding Information: A part of this work was supported by the Nanotechnology Support Project of the Ministry of Education, Culture, Sports, Science and Technology (MEXT), Japan and the Mitsubishi Foundation.

PY - 2007

Y1 - 2007

N2 - I-V characteristics of single electron tunneling from a symmetric and an asymmetric double-barrier tunneling junction (DBTJ) were examined. A single Au nanoparticle was trapped in nanogap whose size was precisely controlled using a combination of electron beam lithography and molecular ruler technique. Though the symmetric junction showed a monotonic rise with a bias beyond the Coulomb gap voltage, the asymmetric junction showed Coulomb staircases. The capacitance of the junction estimated from the fitting curves using the Coulomb conventional theory was consistent with the capacitance calculated from the observed structure. The authors quantitatively found the correlation between the electrical and structural properties of DBTJ.

AB - I-V characteristics of single electron tunneling from a symmetric and an asymmetric double-barrier tunneling junction (DBTJ) were examined. A single Au nanoparticle was trapped in nanogap whose size was precisely controlled using a combination of electron beam lithography and molecular ruler technique. Though the symmetric junction showed a monotonic rise with a bias beyond the Coulomb gap voltage, the asymmetric junction showed Coulomb staircases. The capacitance of the junction estimated from the fitting curves using the Coulomb conventional theory was consistent with the capacitance calculated from the observed structure. The authors quantitatively found the correlation between the electrical and structural properties of DBTJ.

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I-V characteristics of single electron tunneling from symmetric and asymmetric double-barrier tunneling junctions

Abstract

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