TY - GEN
T1 - Proposal of a new electronic structure model of ohmic contacts for the future metallic source and drain
AU - Takada, Yukihiro
AU - Muraguchi, Masakazu
AU - Endoh, Tetsuo
AU - Nomura, Shintaro
AU - Shiraishi, Kenji
PY - 2010/7/9
Y1 - 2010/7/9
N2 - Recently, metallic source and drain is widely discussed with LSIs scaling trend. For this technology, it is essential to fabricate low resistive Ohmic contact between electrodes and the channel materials. However, it is expected that precise Schottky barrier height control for obtaining Ohmic contact is technologically difficult. One of the main reasons is that Fermi level pinning phenomena takes place when a metal/semiconductor interface is formed. Recently, we have proposed a new Ohmic contact model in which resonant tunneling through the defect levels in a Schottky barrier is an origin of Ohmic characteristics. In this paper, we have considered our propose Ohmic contact model which is compatible with interface physics concepts, such as a charge neutrality level which can describe essential properties of metal/semiconductor interfaces. We calculate the current-voltage characteristics based on our proposed model up to the operating temperature of the integrated circuits. Our calculated results show that our proposed model can reproduce linear Ohmic I-V characteristics from room temperature to the operation temperature of the integrated circuits.
AB - Recently, metallic source and drain is widely discussed with LSIs scaling trend. For this technology, it is essential to fabricate low resistive Ohmic contact between electrodes and the channel materials. However, it is expected that precise Schottky barrier height control for obtaining Ohmic contact is technologically difficult. One of the main reasons is that Fermi level pinning phenomena takes place when a metal/semiconductor interface is formed. Recently, we have proposed a new Ohmic contact model in which resonant tunneling through the defect levels in a Schottky barrier is an origin of Ohmic characteristics. In this paper, we have considered our propose Ohmic contact model which is compatible with interface physics concepts, such as a charge neutrality level which can describe essential properties of metal/semiconductor interfaces. We calculate the current-voltage characteristics based on our proposed model up to the operating temperature of the integrated circuits. Our calculated results show that our proposed model can reproduce linear Ohmic I-V characteristics from room temperature to the operation temperature of the integrated circuits.
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U2 - 10.1109/IWJT.2010.5474985
DO - 10.1109/IWJT.2010.5474985
M3 - Conference contribution
AN - SCOPUS:77954298102
SN - 9781424458691
T3 - IWJT-2010: Extended Abstracts - 2010 International Workshop on Junction Technology
SP - 78
EP - 81
BT - IWJT-2010
T2 - 10th International Workshop on Junction Technology, IWJT-2010
Y2 - 10 May 2010 through 11 May 2010
ER -