Patent ID: 9640585
Date: 2017-05-02
CPC Classifications: H01L

Claim:
1. A method for producing a semiconductor device, the method comprising: a first step of forming a first fin-shaped semiconductor layer on a semiconductor substrate, and forming a first insulating film around the first fin-shaped semiconductor layer; a second step, after the first step, of forming a second insulating film around the first fin-shaped semiconductor layer, depositing a first polysilicon on the second insulating film and planarizing the first polysilicon, forming a second resist for forming first and second gate lines, a first pillar-shaped semiconductor layer, and a second pillar-shaped semiconductor layer in a direction perpendicular to a direction in which the first fin-shaped semiconductor layer extends, and etching the first polysilicon, the second insulating film, and the first fin-shaped semiconductor layer to form a first pillar-shaped semiconductor layer, a first dummy gate derived from the first polysilicon, a second pillar-shaped semiconductor layer, and a second dummy gate derived from the first polysilicon; a third step, after the second step, of forming a fourth insulating film around the first pillar-shaped semiconductor layer, the second pillar-shaped semiconductor layer, the first dummy gate, and the second dummy gate, depositing a second polysilicon around the fourth insulating film, and etching the second polysilicon so as to remain on side walls of the first dummy gate, the first pillar-shaped semiconductor layer, the second dummy gate, and the second pillar-shaped semiconductor layer to form a third dummy gate and a fourth dummy gate; a fourth step, after the third step, of forming a second diffusion layer in an upper portion of the first fin-shaped semiconductor layer, a lower portion of the first pillar-shaped semiconductor layer, and a lower portion of the second pillar-shaped semiconductor layer, forming a fifth insulating film around the third dummy gate and the fourth dummy gate, etching the fifth insulating film so as to remain as a sidewall to form a sidewall formed of the fifth insulating film, and forming a compound of a metal and a semiconductor in an upper portion of the second diffusion layer to form a first source line; a fifth step, after the fourth step, of depositing an interlayer insulating film and performing planarization to expose upper portions of the first dummy gate, the second dummy gate, the third dummy gate, and the fourth dummy gate, removing the first dummy gate, the second dummy gate, the third dummy gate, and the fourth dummy gate, removing the second insulating film and the fourth insulating film, forming a gate insulating film which is to become first and second gate insulating films around the first pillar-shaped semiconductor layer, around the second pillar-shaped semiconductor layer, and inside the fifth insulating film, depositing a metal and performing etch-back to form a first gate line around the first pillar-shaped semiconductor layer and a second gate line around the second pillar-shaped semiconductor layer; a sixth step, after the fifth step, of depositing a second interlayer insulating film and performing planarization to expose an upper portion of the first pillar-shaped semiconductor layer and an upper portion of the second pillar-shaped semiconductor layer, and forming a first magnetic tunnel junction storage element on the first pillar-shaped semiconductor layer; and a seventh step, after the sixth step, of forming a second source line on the second pillar-shaped semiconductor layer.