A. V. Sachenko, A. E. Belyaev, V. A. Pilipenko, T. V. Petlitskaya, V. A. Anischik, N. S. Boltovets, R. V. Konakova, Ya. Ya. Kudryk, A. O. Vinogradov, V. N. Sheremet, “Current flow through metal shunts in ohmic contacts to <nobr>$n^+$</nobr>-Si”, Fizika i Tekhnika Poluprovodnikov, 2014, Volume 48, Issue 4,Pages <nobr>509

This article is cited in 3 papers

Semiconductor physics

Current flow through metal shunts in ohmic contacts to $n^+$-Si

A. V. Sachenko^a, A. E. Belyaev^a, V. A. Pilipenko^b, T. V. Petlitskaya^b, V. A. Anischik^c, N. S. Boltovets^d, R. V. Konakova^a, Ya. Ya. Kudryk^a, A. O. Vinogradov^a, V. N. Sheremet^a

^a Institute of Semiconductor Physics NAS, Kiev
^b State Center "Belmicroanalysis", Branch of the Scientific-Technical Center "Belmicrosystems" of the Public Corporation "INTEGRAL", Minsk, 220108, Belarus
^c Belarusian State University, Minsk
^d "Orion" Research Institute, ul. Eugene Pottier 8a, Kyiv, 03057, Ukraine

Abstract: It is experimentally found that an ohmic contact based on Au-Pt-Ti-Pd–$n^+$-Si metallization is formed due to nanoscale metal shunts containing Si, Au, and Pt in the region of the interface with $n^+$-Si, which appears during heat treatment at $T$ = 450$^\circ$C for 10 min in a vacuum chamber with a residual pressure of 10$^{-6}$ Torr. The high density of shunts adjoining dislocations and other imperfections is confirmed by the temperature dependence of the specific contact resistance $\rho_c(T)$. The density of conductive dislocations, calculated from the temperature dependence of $\rho_c$ is $\sim$ 5 $\times$ 10$^9$ cm$^{-2}$ which correlates with the density of structural defects, determined by the etch pits after removal of the metallization layers.

Received: 23.05.2013
Accepted: 04.06.2013