A Simplified Method for (Circular) Transmission Line Model Simulation and Ultralow Contact Resistivity Extraction

Author

Hao Yu ; Schaekers, Marc ; Schram, T. ; Collaert, Nadine ; De Meyer, K. ; Horiguchi, Naoto ; Thean, A. ; Barla, Kathy

Author_Institution

Imec, Leuven, Belgium

Volume

35

Issue

9

fYear

2014

fDate

Sept. 2014

Firstpage

957

Lastpage

959

Abstract

The metal resistance in the transmission line model (TLM) structures creates a serious obstacle to determine precisely the intrinsic contact resistivity. To tackle this problem, we propose a new model, the lump model, to evaluate the metal resistance influence in both TLM and circular TLM (CTLM) test structures. In this letter, we demonstrate the high simplicity, great robustness, and flexibility of the lump model. The previous reported contact resistivity values extracted with CTLM are usually above 1 χ 10^-7Ω · cm² because the metal resistance impact is commonly neglected. This is the first time that the role of the metal in CTLM is appropriately analyzed. Low contact resistivity, 3.6χ10^-8Ω · cm², of standard NiSi/n-Si contact has been extracted and this shows the high sensitivity of this method.

Keywords

contact resistance; elemental semiconductors; nickel alloys; ohmic contacts; silicon; silicon alloys; transmission lines; NiSi-Si; circular TLM test structure; intrinsic contact resistivity; lump model; metal resistance impact; robustness; transmission line model simulation; ultralow contact resistivity extraction; Conductivity; Metals; Power transmission lines; Resistance; Semiconductor device modeling; Time-domain analysis; Time-varying systems; Contact resistance; circular transmission line model; ohmic contact; simulation; transmission line model;

fLanguage

English

Journal_Title

Electron Device Letters, IEEE

Publisher

ieee

ISSN

0741-3106

Type

jour

DOI

10.1109/LED.2014.2340821

Filename

6867356