US 12,279,445 B2
Field effect transistors with gate fins and method of making the same
Srinivas Pulugurtha, San Jose, CA (US); Yanli Zhang, San Jose, CA (US); Johann Alsmeier, San Jose, CA (US); and Mitsuhiro Togo, Yokkaichi (JP)
Assigned to Sandisk Technologies, Inc., Milpitas, CA (US)
Filed by SANDISK TECHNOLOGIES LLC, San Jose, CA (US)
Filed on Dec. 27, 2021, as Appl. No. 17/562,635.
Application 17/562,635 is a continuation in part of application No. 17/474,699, filed on Sep. 14, 2021, granted, now 11,967,626.
Prior Publication US 2023/0082824 A1, Mar. 16, 2023
Int. Cl. H10D 30/00 (2025.01); H10D 30/01 (2025.01); H10D 30/62 (2025.01); H10D 64/27 (2025.01)
CPC H10D 30/6211 (2025.01) [H10D 30/024 (2025.01); H10D 64/513 (2025.01)] 2 Claims
OG exemplary drawing
 
1. A semiconductor structure, comprising:
a semiconductor substrate containing a shallow trench isolation structure that laterally surrounds a transistor active region that is a portion of the semiconductor substrate; and
a field effect transistor comprising:
at least one line trench vertically extending from a planar top surface of the transistor active region into the semiconductor substrate;
a channel region comprising a portion of the transistor active region that laterally surrounds or underlies the at least one line trench;
a gate dielectric contacting all surfaces of the at least one line trench and comprising a planar gate dielectric portion that extends over a top surface of the channel region;
a gate electrode comprising a planar gate electrode portion that overlies the planar gate dielectric portion and at least one gate electrode fin portion located within the at least one line trench; and
a source region and a drain region located in the transistor active region and laterally spaced from each other by the channel region;
wherein:
the channel region comprises a contoured channel region which continuously extends from the source region to the drain region underneath the planar top surface of the transistor active region and underneath the at least one line trench;
the at least one line trench extends along a first horizontal direction;
the source region is separated from the drain region along a second horizontal direction which is perpendicular to the first horizontal direction;
the shallow trench isolation structure comprises a pair of first shallow trench isolation structure walls that laterally extend along the first horizontal direction and contacting the transistor active region and a pair of second shallow trench isolation structure walls that laterally extend along the second horizontal direction and adjoined to the pair of first shallow trench isolation structure walls and contacting the transistor active region;
the least one line trench laterally extends along the first horizontal direction from one of the second shallow trench isolation structure walls to another one of the second shallow trench isolation structure walls;
sidewalls of the at least one line trench are parallel to the first horizontal direction and perpendicular to the second horizontal direction;
the pair of second shallow trench isolation structure walls is tapered relative to a vertical plane laterally extending along the second horizontal direction;
boundaries of each of the at least one line trench comprise segments of the pair of second shallow trench isolation structure walls; and
the at least one line trench has a greater width along the first horizontal direction at a first horizontal plane including of a bottom surface of the shallow trench isolation structure than at a second horizontal plane including a top surface of the shallow trench isolation structure.