Gas baffle and distributor for semiconductor processing chamber
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C23C-016/455
C23F-001/00
H01L-021/306
C23C-016/06
C23C-016/22
출원번호
UP-0564150
(2006-11-28)
등록번호
US-7740706
(2010-07-12)
발명자
/ 주소
Park, Soonam
Ahmad, Farhan
Mungekar, Hemant P.
Kamath, Sanjay
Lee, Young S.
Lu, Siqing
출원인 / 주소
Applied Materials, Inc.
대리인 / 주소
Townsend and Townsend and Crew
인용정보
피인용 횟수 :
7인용 특허 :
37
초록▼
Apparatus and methods for distributing gas in a semiconductor process chamber are provided. In an embodiment, a gas distributor for use in a gas processing chamber comprises a body. The body includes a baffle with a gas deflection surface to divert the flow of a gas from a first direction to a secon
Apparatus and methods for distributing gas in a semiconductor process chamber are provided. In an embodiment, a gas distributor for use in a gas processing chamber comprises a body. The body includes a baffle with a gas deflection surface to divert the flow of a gas from a first direction to a second direction. The gas deflection surface comprises a concave surface. The concave surface comprises at least about 75% of the surface area of the gas deflection surface. The concave surface substantially deflects the gas toward a chamber wall and provides decreased metal atom contamination from the baffle so that season times can be reduced.
대표청구항▼
What is claimed is: 1. A gas distributor for use in a semiconductor processing chamber, the gas distributor comprising: a body including: a proximal portion including a threaded section having a first diameter, the proximal portion configured to couple the body to a wall of the semiconductor proces
What is claimed is: 1. A gas distributor for use in a semiconductor processing chamber, the gas distributor comprising: a body including: a proximal portion including a threaded section having a first diameter, the proximal portion configured to couple the body to a wall of the semiconductor processing chamber; a concave surface extending from an upper boundary to a lower boundary of the concave surface, the concave surface extending along an arc having a first radius; a shoulder extending radially outward from the proximal portion to the upper boundary of the concave surface; a gas distributor face including a central flat portion and a recessed peripheral flat portion separated from the central flat portion by a step, wherein the central flat portion extends radially from a center of the gas distributor face to the step and has a second diameter greater than the first diameter; and a flange disposed between the concave surface and the gas distributor face, the flange extending radially outward from the lower boundary of the concave surface to an outer edge of the body, wherein the concave surface and a portion of the flange form a gas deflection surface extending from the upper boundary of the concave surface and arranged to divert a flow of a gas from a first direction to a second direction, the concave surface comprising at least about 75% of a surface area of the gas deflection surface. 2. The gas distributor of claim 1 wherein the flange extends radially outward a distance from the lower boundary of concave surface to an outer edge of the body, and wherein the distance comprises no more than about 25% of a maximum width of the body. 3. The gas distributor of claim 1 wherein the concave surface comprises at least about 90% of the surface area of the gas deflection surface. 4. The gas distributor of claim 1 wherein the concave surface extends along the first direction near an upper portion of the body and extends along the second direction near a lower portion of the body and wherein the first direction is transverse to the second direction. 5. The gas distributor of claim 1 wherein the flange comprises a convex surface peripheral to the concave surface, and wherein the gas deflection surface is adapted to divert the gas from the first direction to the second direction without a flat transition surface between the concave surface and the convex surface. 6. The gas distributor of claim 1 wherein the flange extends along the second direction beyond the lower boundary of the concave surface for a distance less than a thickness of the flange. 7. The gas distributor of claim 1 wherein the proximal portion extends along an axis and the gas deflection surface is generally rotationally symmetric about the axis, and wherein the first direction is along the axis and the second direction is away from the axis. 8. The gas distributor of claim 1 wherein the body includes a gas inlet, a plurality of gas outlets disposed in the step on the gas distributor face, and a gas passage connecting the inlet to the plurality of gas outlets. 9. The gas distributor of claim 1 wherein the gas distributor comprises a single piece. 10. The gas distributor of claim 1 wherein the gas distributor comprises at least one of aluminum oxide or aluminum nitride. 11. The gas distributor of claim 1 wherein the gas deflection surface is adapted to divert the flow of a clean gas. 12. A substrate processing chamber, the chamber comprising: an enclosure having a ceiling and a sidewall; a substrate support adapted to support a substrate; a gas distributor positioned centrally above the substrate support, the gas distributor comprising a body including a proximal portion with a threaded section having a first diameter, the proximal portion configured to couple the body to the ceiling of the enclosure, a concave portion extending from an upper boundary to a lower boundary of the concave portion, the concave portion extending along an arc having a first radius, a shoulder extending radially outward from the proximal portion to the upper boundary of the concave portion, a lower exposed surface including a central flat portion and a recessed peripheral flat portion separated from the central flat portion by a step, wherein the central flat portion extends radially from a center of the lower exposed surface to the step and has a second diameter greater than the first diameter, and a flange disposed between the concave surface and the lower exposed surface, the flange extending radially outward from the lower boundary of the concave portion to an outer edge of the body, wherein the concave portion and a portion of the flange form an upper exposed surface extending from the upper boundary of the concave portion and adapted to outwardly direct a gas away from the body and towards the enclosure sidewall, the concave portion comprising at least about 75% of an area of the upper exposed surface, the lower exposed surface spaced apart from the substrate support and adapted to inject a deposition gas into the substrate processing chamber. 13. The substrate processing chamber of claim 12 wherein the body of the gas distributor includes a gas inlet, a plurality of gas outlets disposed in the step on the lower exposed surface, and a gas passage connecting the inlet to the plurality of gas outlets. 14. The substrate processing chamber of claim 12 further comprising an annular structure disposed around a portion of the body to define an annular gas passageway adapted to direct the gas towards the upper exposed surface. 15. A gas distributor for use in a gas processing chamber, the gas distributor comprising: a body including: a proximal portion including a threaded section having a first diameter, the proximal portion configured to couple the body to a wall of the semiconductor processing chamber; a concave surface extending from an upper boundary to a lower boundary of the concave surface, the concave surface extending along an arc having a first radius; a shoulder extending radially outward from the proximal portion to the upper boundary of the concave surface; a gas distributor face including a central flat portion and a recessed peripheral flat portion separated from the central flat portion by a step, wherein the central flat portion extends radially from a center of the gas distributor face to the step and has a second diameter greater than the first diameter; and a flange disposed between the concave surface and the gas distributor face, the flange extending radially outward from the lower boundary of the concave surface to an outer edge of the body, wherein the concave surface and a portion of the flange form a gas deflection surface extending from the upper boundary of the concave surface and arranged to deflect a gas from a first direction to a second direction, the flange including a convex surface disposed peripheral to the concave surface, and a transition surface disposed between the concave surface and the convex surface to provide a transition from the concave surface to the convex surface, wherein the convex surface comprises a maximum width across the body and the transition surface extends no more than about 20% of the maximum width. 16. The gas distributor of claim 15 wherein the transition surface extends no more than about 10% of the maximum width. 17. The gas distributor of claim 15 wherein the convex surface comprises a thickness along the first direction and the transition surface extends a distance less than the thickness of the convex surface. 18. The gas distributor of claim 15 wherein the concave surface comprises a concave toric surface and the convex surface comprises a convex toric surface, and wherein the transition surface is adapted to provide a smooth transition from the concave toric surface to the convex toric surface. 19. A gas distributor for use in a gas processing chamber, the gas distributor comprising: a body including, a baffle to divert flow of a gas from a first direction to a second direction with a gas deflection surface, the gas deflection surface comprising a concave surface, a portion of convex surface, and a transition from the convex surface to the concave surface, the concave surface comprising at least about 75% of a surface area of the gas deflection surface, the transition comprising no more than about 10% of a maximum width across the body, a neck having a first diameter disposed near an upper end of the body, a lower exposed surface adapted to dispense a deposition gas through a plurality of jets, the lower exposed surface having a central portion and a recessed peripheral portion separated from the central portion by a step surface, wherein the central portion extends radially from a center of the lower exposed surface to the step surface and has a second diameter greater than the first diameter, the baffle disposed between the neck and the lower exposed surface, wherein the concave surface extends along the first direction near the neck of the body and extends along the second direction near the lower exposed surface, a gas inlet, a plurality of gas outlets disposed in the step surface, a gas passage connecting the inlet to the plurality of gas outlets, and wherein the gas distributor comprises a single piece of at least one of aluminum oxide or aluminum nitride and the gas deflection surface is generally rotationally symmetric about an axis extending substantially parallel to the neck, the first direction being substantially parallel to the axis and the second direction being substantially away from the axis.
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