Abstract
Strained-Si n-channel metal–oxide–semiconductor field-effect transistors (MOSFETs) were fabricated on molecular-beam epitaxially grown strained Si with various Si1−xGex buffer layers. Effective electron mobility in n-MOSFETs with a Si1−xGex (x=0.2, 0.3) graded buffer layer was 60% higher than that in an unstrained-Si n-MOSFET. However, mobility of samples with a Si1−xGex buffer layer on a low-temperature grown Si buffer layer was not increased as much as that of samples on a graded buffer layer. Atomic-force microscopic observation suggests that the power spectrum of surface roughness of the strained-Si layer varies according to the buffer layer, and this variation may affect the enhancement of mobility.
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