ANALYTICAL TEST STRUCTURE MODEL FOR DETERMINING LATERAL EFFECTS OF TRI-LAYER OHMIC CONTACT BEYOND THE CONTACT EDGE

Neelu Shrestha, Geoffrey K. Reeves, Patrick W. Leech, Yue Pan, Anthony S. Holland

DOI Number
10.2298/FUEE1702257S
First page
257
Last page
265

Abstract


Contact test structures where there is more than one non-metal layer, are significantly more complex to analyse compared to when there is only one such layer like active silicon on an insulating substrate. Here, we use analytical models for complex test structures in a two contact test structure and compare the results obtained with those from Finite Element Models (FEM) of the same test structures. The analytical models are based on the transmission line model and the tri-layer transmission line model in particular, and do not include vertical voltage drops except for the interfaces. The comparison shows that analytical models for tri-layer contacts to dual active layers agree well with FEM when the Specific Contact Resistances (SCR) of the contact interfaces is a significant part of the total resistance. Overall, there is a broad range of typical dual-layer-to-TLTLM contacts where the analytical model works. The insight (and quantifying) that the analytical model gives on the effect of the presence of the contact, on the distribution of current away from the contact is shown.


Keywords

Ohmic contact, specific contact resistance, transfer length, Transmission Line Model

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References


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ISSN: 0353-3670 (Print)

ISSN: 2217-5997 (Online)

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