Patent ID: 9059206
Filing Date: 2015-06-16
Classification: H01L

Abstract:
1. A method to form a MOSFET, said MOSFET having a gate electrode disposed on a semiconductor substrate and over a channel region, said channel region between a pair of source drain regions, the method comprising: forming a first stack on the semiconductor substrate; forming a first and a second spacer on a first and a second sidewall of the formed first stack, wherein the first and the second spacers are substantially rectilinear in profile; forming, within the semiconductor substrate, a first recess adjacent the first spacer, wherein a sidewall of the first recess and a side wall of the first spacer are substantially vertically aligned; the entirety of the length of the bottom surface of the first recess is substantially parallel to the semiconductor substrate; the sidewalls of the first recess are substantially perpendicular to the bottom surface of the first recess; and the sidewalls of the first recess are substantially vertical; forming, within the semiconductor substrate, a second recess adjacent the second spacer, wherein a sidewall of the second recess and a side wall of the second spacer are substantially vertically aligned; the entirety of the length of the bottom surface of the first recess is substantially parallel to the semiconductor substrate; the sidewalls of the first recess are substantially perpendicular to the bottom surface of the first recess; and the sidewalls of the second recess are substantially vertical; forming a first and a second source drain region within the first recess and the second recess, respectively, wherein the first and the second source drain regions are epitaxially filled; removing the first and second spacers in their entirety selective to the first stack and a dielectric layer such that a top surface of the semiconductor substrate is exposed; forming a third recess and a fourth recess by etching the semiconductor substrate exposed between the first stack and the dielectric layer, such that the third recess and the fourth recess border the first and second source drain region respectively, and a width of the third recess and the fourth recess is substantially equal to a width of the first spacer and the second spacer; forming a first extension region by epitaxially filling the third recess, wherein the boundary formed between the first source drain region and the first extension region is substantially vertical, the sidewalls of the first extension region are substantially parallel, the bottom surface of the first extension region is substantially parallel to the semiconductor substrate, and wherein the first extension region is substantially rectilinear; forming a second extension region by epitaxially filling the fourth recess, wherein the boundary formed between the second source drain region and the second extension region is substantially vertical, the sidewalls of the second extension region are substantially parallel, the bottom surface of the second extension region is substantially parallel to the semiconductor substrate, and wherein the second extension region is substantially rectilinear; forming a gate cavity structure by etching the first stack; forming a third and a fourth spacer on a first and a second sidewall of the formed gate cavity structure; lining both the gate cavity structure and the third and fourth spacer with a gate dielectric; and forming the gate electrode by filling the gate cavity, wherein the entirety of the gate electrode is substantially rectilinear, wherein the base of the gate electrode overlaps with the first and the second extension region and, wherein a width of the gate electrode is greater than a width of the first stack.