Surface Strained Ge-Cz Wafers by Sn-Implantation For High Electron and Hole Mobility

Abstract

Ge-epi on Si wafers contain >1E7/cm2 TDD which degrades junction leakage and potentially also degrade mobility. Therefore we investigated using Ge-Cz wafers as an alternative free of Ge-epi TDD and observed that surface Sn implantation up to 16% can induce surface tensile strain-Ge measured by XRD enhancing top 30nm n-well surface layer mobility (μe) by 2.5x from 500cm²/Vs up to 1250cm²/Vs but the surface tensile strain-Ge degraded top 30nm p-well surface layer mobility (μh) by 73% from 3000cm²/Vs to 800cm²/Vs and surface bulk mobility by 74% from 1850cm²/Vs to 480cm²/Vs.

Topic

Surface Strained Ge-Cz Wafers By Sn-Implantation For High Electron And Hole Mobility

Author

J. Borland, M. Sugitani, S.S. Chaung, Y.J. Lee, K. Huet, A. Joshi, A. Wan, L. Wong, P. Horvath, A. Finley

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