Abstract: A method for manufacturing a semiconductor device is disclosed, comprising: providing a substrate, a gate region on the substrate and a semiconductor region at both sides of the gate region; forming sacrificial spacers, which cover a portion of the semiconductor region, on sidewalls of the gate region; forming a metal layer on a portion of the semiconductor region outside the sacrificial spacers and on the gate region; removing the sacrificial spacers; performing annealing so that the metal layer reacts with the semiconductor region to form a metal-semiconductor compound layer on the semiconductor region; and removing unreacted metal layer. By separating the metal layer from the channel and the gate region of the device with the thickness of the sacrificial spacers, the effect of metal layer diffusion on the channel and the gate region is reduced and performance of the device is improved.

Abstract: A method of controlled lateral etching is disclosed. In one embodiment, the method may comprise: forming on a first material layer, which comprises a protruding structure, a second material layer; forming spacers on outer surfaces of the second material layer opposite to vertical surfaces of the protruding structure; forming a third material layer on surfaces of the second material layer and the spacers; forming on the third material layer a mask layer which extends in a direction lateral to a surface of the first material layer; and laterally etching portions of the respective layers arranged on the vertical surfaces of the protruding structure.