TWI697955B - 基板處理裝置 - Google Patents
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Abstract
本發明提供一種可控制面間均勻性之基板處理裝置。
一實施型態之基板處理裝置具有:收納複數片基板之內管、圍繞該內管之外管、可移動地設置於該內管的內部或該內管與該外管之間之可動壁、對該基板供應處理氣體之氣體供應機構、以及將被供應至該基板之該處理氣體排氣之排氣機構;該內管的側壁係形成有第1開口部,該可動壁係形成有第2開口部,該排氣機構係透過該第1開口部及該第2開口部來將被供應至該基板之該處理氣體加以排氣。
Description
本發明關於一種基板處理裝置。
已知有一種可在將複數片基板多層地保持在基板保持具之狀態下,對複數片基板進成膜處理等之批次式的基板處理裝置。
批次式的基板處理裝置已知有一種裝置,其具有收納有基板之內管、圍繞內管之外管、設置於內管的側壁之氣體排氣口、以及將內管與外管所挾置的空間加以排氣之排氣單元(例如,參閱專利文獻1)。該裝置中,係使氣體排氣口的開口寬度隨著愈接近排氣單元則慢慢地變狹窄般,藉以調整排氣的平衡,來使被供應至基板表面之氣體的流速在基板間均勻化。
[先前技術文獻]
[專利文獻]
專利文獻1:日本專利第5284182號公報
然而,上述技術中,由於氣體排氣口的開口形狀係依每個基板處理裝置而決定,故會因製程條件或處理片數的變化,而有無法獲得期望的面間均勻性之情況。此係因為無法針對每個製程條件或處理片數來調整排氣的平衡之故。
於是,本發明之一樣態中,其目的在於提供一種可控制面間均勻性之基板處理裝置。
為達成上述目的,本發明一樣態相關之基板處理裝置係具有:收納複 數片基板之內管、圍繞該內管之外管、可移動地設置於該內管的內部或該內管與該外管之間之可動壁、對該基板供應處理氣體之氣體供應機構、以及將被供應至該基板之該處理氣體加以排氣之排氣機構;該內管的側壁係形成有第1開口部,該可動壁係形成有第2開口部,該排氣機構係透過該第1開口部及該第2開口部來將被供應至該基板之該處理氣體加以排氣。
依據所揭示之基板處理裝置,便可控制面間均勻性。
1‧‧‧基板處理裝置
41‧‧‧排氣機構
44‧‧‧內管
46‧‧‧外管
52‧‧‧第1開口部
76‧‧‧氣體噴嘴
78‧‧‧氣體噴嘴
80‧‧‧氣體噴嘴
100‧‧‧可動壁
102‧‧‧第2開口部
104‧‧‧旋轉軸
106‧‧‧馬達
110‧‧‧控制機構
W‧‧‧晶圓
圖1為第1實施型態相關之基板處理裝置的概略圖。
圖2係用以說明圖1之基板處理裝置的處理容器之橫剖視圖。
圖3係用以說明圖1之基板處理裝置的內管一例之立體圖。
圖4係用以說明圖1之基板處理裝置的可動壁一例之立體圖。
圖5係用以說明共通開口部之圖式。
圖6係用以說明使用圖4的可動壁之情況下,第1開口部與第2開口部的位置關係之圖式。
圖7係用以說明可動壁的旋轉機構一例之縱剖視圖。
圖8係用以說明第1實施型態相關之基板處理方法之圖式。
圖9為第2實施型態相關之基板處理裝置的概略圖。
圖10係用以說明圖9之基板處理裝置的內管一例之立體圖。
圖11係用以說明圖9之基板處理裝置的可動壁一例之圖式。
圖12係用以說明使用圖11的可動壁之情況下,第1開口部與第2開口部的位置關係之圖式。
圖13係用以說明第3實施型態相關之基板處理裝置的可動壁一例之圖式。
圖14係用以說明使用圖13的可動壁之情況下,第1開口部與第2開口部的位置關係之圖式。
圖15係用以說明面間均勻性之圖式。
以下,針對用以實施本發明之型態,參閱圖式來加以說明。此外,本說明書及圖式中,針對實質相同的構成,則賦予相同的符號而省略重複說明。
〔第1實施型態〕
(基板處理裝置)
針對本發明第1實施型態相關之基板處理裝置來加以說明。圖1為第1實施型態相關之基板處理裝置的概略圖。圖2係用以說明圖1之基板處理裝置的處理容器之橫剖視圖。圖3係用以說明圖1之基板處理裝置的內管一例之立體圖。圖4係用以說明圖1之基板處理裝置的可動壁一例之立體圖。
如圖1所示,基板處理裝置1具有:收納基板(半導體晶圓,以下稱作「晶圓W」。)之處理容器34、將處理容器34下端的開口部側氣密地堵塞之蓋部36、以特定間隔保持複數片晶圓W而朝處理容器34內插拔之基板保持具38、朝處理容器34內導入特定氣體之氣體供應機構40、將處理容器34內的氣體加以排氣之排氣機構41、以及加熱晶圓W之加熱機構42。
處理容器34係具有下端部呈開放之有頂圓筒形狀的內管44,以及下端部呈開放而覆蓋內管44的外側之有頂圓筒形狀的外管46。內管44及外管46係由石英等之耐熱性材料所形成,係配置為同軸狀而成為雙重管構造。
內管44的頂部為例如平坦狀。內管44的一側係形成有沿著其長邊方向(上下方向)收納有氣體噴嘴之噴嘴收納部48。第1實施型態中,如圖2所示,係使內管44之側壁的一部分朝外側突出來形成凸部50,而使凸部50內作為噴嘴收納部48來加以形成。
又,對向於噴嘴收納部48而於內管44之相反側的側壁處,如圖3所示,係沿著其長邊方向(上下方向)而形成有寬度L1的矩形第1開口部52。
第1開口部52係可將內管44內的氣體加以排氣般所形成之氣體排氣口。第1開口部52的長度係形成為與基板保持具38的長度相同,或是較基板保持具38的長度要長,而分別朝上下方向延伸。亦即,第1開口部52 的上端係延伸而位在對應於基板保持具38的上端之位置以上的高度,第1開口部52的下端係延伸而位在對應於基板保持具38的下端之位置以下的高度。具體來說,如圖1所示,基板保持具38的上端與第1開口部52的上端之間之高度方向的距離L2為0mm~5mm左右之範圍內。又,基板保持具38的下端與第1開口部52的下端之間之高度方向的距離L3為0mm~350mm左右之範圍內。又,第1開口部52的寬度L1為10mm~400mm左右之範圍內,較佳為40mm~200mm左右之範圍內。又,第1開口部52之4個角部當中的2個角部為倒角。
處理容器34的下端係藉由例如不鏽鋼所形成之圓筒形狀的分歧管54而被加以支撐。分歧管54的上端部係形成有凸緣部56,而將外管46的下端部設置在凸緣部56上來加以支撐。凸緣部56與外管46之下端部之間係介設有O型環等的密封組件58,來使外管46內為氣密狀態。
分歧管54之上部的內壁係設置有環狀的支撐部60,而將內管44的下端部設置在支撐部60上來加以支撐。分歧管54之下端的開口部係透過O型環等密封組件62而氣密地安裝有蓋部36,來將處理容器34之下端的開口部側(即分歧管54的開口部)氣密地堵塞。蓋部36係由例如不鏽鋼所形成。
蓋部36的中央部係透過磁性流體密封部64而貫穿、設置有旋轉軸66。旋轉軸66的下部係旋轉自如地被支撐在晶舟升降機所構成之升降機構68的臂部68A,可藉由馬達69(參閱圖7)而旋轉。
旋轉軸66的上端係設置有旋轉板70,旋轉板70上係透過石英製的保溫台72而載置有用以保持晶圓W之基板保持具38。於是,藉由使升降機構68升降來讓蓋部36與基板保持具38一體地上下移動,便可使基板保持具38相對於處理容器34內作插拔。
氣體供應機構40係設置於分歧管54,會朝內管44內導入處理氣體、吹淨氣體等氣體。氣體供應機構40係具有複數根(例如3根)石英製的氣體噴嘴76、78、80。各氣體噴嘴76、78、80係於內管44內沿著其長邊方向所設置,並且其基端部係彎曲成L字狀而貫穿分歧管54般地被加以支撐。
氣體噴嘴76、78、80如圖2所示,係設置為於內管44的噴嘴收納部 48內沿著圓周方向而成一列。各氣體噴嘴76、78、80係沿著其長邊方向,以特定間隔形成有複數氣體孔76A、78A、80A,可從各氣體孔76A、78A、80A朝向水平方向來放出各氣體。特定間隔係設定為例如,與被支撐在基板保持具38之晶圓W的間隔相同。又,高度方向的位置係設定為各氣體孔76A、78A、80A會位在上下方向相鄰之晶圓W間的中間,可將各氣體有效率地供應至晶圓W間的空間部。
氣體的種類係使用原料氣體、氧化氣體及吹淨氣體,可一邊控制各氣體的流量,一邊依需要而透過各氣體噴嘴76、78、80來供應。使用含矽氣體來作為原料氣體,使用臭氧(O3)氣體來作為氧化氣體,使用氮(N2)氣體來作為吹淨氣體,便可藉由原子層沉積(ALD:Atomic Layer Deposition)法來形成矽氧化膜。此外,所使用之氣體的種類可對應於欲成膜之膜的種類來適當地選擇。
又,分歧管54之上部的側壁,且為支撐部60的上方係形成有氣體出口82,可透過內管44與外管46之間的空間部84,來將從第1開口部52所排出之內管44內的氣體加以排氣。氣體出口82係設置有排氣機構41。排氣機構41係具有連接於氣體出口82之排氣通道86,排氣通道86係依序介設有壓力調整閥88及真空幫浦90,可將處理容器34內抽真空。第1開口部52的寬度L1係設定為10mm~400mm之範圍內的大小,可有效率地將內管44內的氣體加以排氣。
外管46的外周側係設置有覆蓋外管46般之圓筒形狀的加熱機構42,來加熱晶圓W。
又,內管44的內部係沿著內管44的內側壁而設置有可動壁100。可動壁100如圖4所示,係呈半圓筒形狀,其側壁係形成有第2開口部102。
第2開口部102係可將內管44內的氣體加以排氣般所形成之氣體排氣口。第2開口部102例如圖4所示,係形成為與第1開口部52相異之形狀,為平行四邊形。第2開口部102的上端例如圖1所示,係延伸而位在對應於第1開口部52的上端之位置的高度。第2開口部102的下端例如圖1所示,係延伸而位在對應於第1開口部52的下端之位置的高度。
可動壁100係透過磁性流體密封部64而貫穿地設置有旋轉軸104。旋 轉軸104係構成為可藉由馬達106(參閱圖7)而獨立於旋轉軸66來作移動(可旋轉)。藉由使旋轉軸104旋轉來讓可動壁100旋轉,便可改變第2開口部102相對於第1開口部52的位置。藉此,便可改變第1開口部52與第2開口部102相重疊之區域(以下稱作「共通開口部CA」。)的形狀。其結果,便可調整內管44內之氣體的排氣平衡,來控制被供應至晶圓W表面之氣體的流速。
回到圖1,上述方式所形成之基板處理裝置1的整體動作係藉由例如電腦等所構成的控制機構110而受到控制,進行該動作之電腦的程式係記憶在記憶媒體112。記憶媒體112係由例如軟碟、光碟、硬碟、快閃記憶體、DVD等所構成。
圖5係用以說明共通開口部之圖式。圖5(a)係用以說明第2開口部的一部分與第1開口部相重疊之情況的共通開口部之圖式。圖5(b)係圖5(a)中以「TOP」所示之位置處之處理容器的橫剖視圖。圖5(c)係圖5(a)中以「CTR」所示之位置處之處理容器的橫剖視圖。圖5(d)係圖5(a)中以「BTM」所示之位置處之處理容器的橫剖視圖。此外,「TOP」表示處理容器之上方側的位置,「CTR」表示處理容器之中央部的位置,「BTM」表示處理容器之下方側的位置。
如圖5(a)所示,當可動壁100係位在第2開口部102的一部分會重疊於第1開口部52般的情況,共通開口部CA的開口寬度係從TOP側朝BTM側而變得愈狹窄。
具體來說,在「TOP」之位置處,如圖5(b)所示,第2開口部102係與第1開口部52完全重疊。於是,共通開口部CA的開口寬度便會成為第1開口部52的寬度。又,在「CTR」之位置處,如圖5(c)所示,第2開口部102的一部分係與第1開口部52相重疊。於是,共通開口部CA的開口寬度便會成為第1開口部52與第2開口部102相重疊之部分的寬度,而較「TOP」的位置處之共通開口部CA的開口寬度要來得狹窄。又,在「BTM」之位置處,如圖5(d)所示,第2開口部102僅有極小一部分會與第1開口部52相重疊。於是,共通開口部CA的開口寬度便會成為第1開口部52與第2開口部102相重疊之部分的寬度,而較「CTR」的位置處之共通開口部CA 的開口寬度要來得狹窄。如此般地,共通開口部CA的開口寬度便會從TOP側朝BTM側而變得愈狹窄。
圖6係用以說明使用圖4的可動壁之情況下,第1開口部與第2開口部的位置關係之圖式。圖6(a)至圖6(f)係顯示藉由移動(旋轉)可動壁100,來改變第2開口部102相對於第1開口部52的位置時之共通開口部CA的形狀變化。
如圖6(a)至圖6(f)所示,可藉由使可動壁100旋轉,來改變共通開口部CA的形狀。
圖6(a)中,第1開口部52與第2開口部102完全未重疊,共通開口部CA的開口面積為0。藉此,則內管44內的氣體便不會被排氣,或是幾乎不會被排氣。
圖6(b)中,在第1開口部52的上方側處,第1開口部52與第2開口部102係相重疊。相對於此,在第1開口部52的下方側處,第1開口部52與第2開口部102並未重疊。藉此,則內管44內的氣體便不會從第1開口部52的下方側被排氣,而是從第1開口部52的上方側被選擇性地排氣。
圖6(c)中,在第1開口部52的上方側及下方側處,第1開口部52與第2開口部102係相重疊,該重疊的寬度係第1開口部52的上方側會較下方側要來得寬。藉此,則內管44內的氣體便會較第1開口部52的下方側而更容易從第1開口部52的上方側被排氣。
圖6(d)中,第2開口部102係完全重疊於第1開口部52。藉此,則內管44內的氣體便會從第1開口部52的整體被排氣。
圖6(e)中,在第1開口部52的上方側及下方側處,第1開口部52與第2開口部102係相重疊,該重疊的寬度係第1開口部52的下方側會較上方側要寬。藉此,則內管44內的氣體便會較第1開口部52的上方側而更容易從第1開口部52的下方側被排氣。
圖6(f)中,在第1開口部52的下方側處,第1開口部52與第2開口部102係相重疊。相對於此,在第1開口部52的上方側處,第1開口部52與第2開口部102並未重疊。藉此,則內管44內的氣體便不會從第1開口部52的上方側被排氣,而是從第1開口部52的下方側被選擇性地排氣。
如此般地,藉由使可動壁100旋轉,便可改變共通開口部CA的形狀。藉此,藉由對應於製程條件或處理片數的變化來使可動壁100的位置移動,便可對應於製程條件或處理片數來調整排氣的平衡。其結果,便可獲得期望的面間均勻性。
圖7係用以說明可動壁的旋轉機構一例之縱剖視圖。
如圖7所示,旋轉板70及可動壁100係構成為可藉由蓋部36所設置之雙軸的磁性流體密封部64而獨立地旋轉。具體來說,旋轉板70係透過旋轉軸66而與馬達69連接,藉由馬達69來調整旋轉軸66的旋轉速度及旋轉角度,藉此便會以特定的旋轉速度來僅旋轉特定的旋轉角度。可動壁100係透過旋轉軸104而與馬達106連接,藉由馬達106來調整旋轉軸104的旋轉角度及旋轉速度,藉此便會以特定的旋轉速度來僅旋轉特定的旋轉角度。
又,旋轉軸66與旋轉軸104的間隙,以及旋轉軸66與蓋部36的間隙係設置有吹淨氣體噴嘴108,可供應N2氣體等之吹淨氣體。藉此,便可防止因在處理容器34內進行基板處理而生成的物質附著在磁性流體密封件。
(基板處理方法)
針對使用上述基板處理裝置1的基板處理方法一例,依據圖8來加以說明。圖8係用以說明第1實施型態相關之基板處理方法之圖式。
第1實施型態中係舉使用基板處理裝置1且藉由ALD法,而於晶圓W的表面成膜矽氧化膜之情況為例來加以說明。此情況下,係藉由交互地供應作為原料氣體之含矽氣體與作為氧化氣體之O3氣體,來於晶圓W的表面形成矽氧化膜。又,在切換含矽氣體與O3氣體之際,係供應作為吹淨氣體之N2氣體來將處理容器34內吹淨。
首先,使載置有例如50片~150片晶圓W之狀態的基板保持具38在已預先設定為特定溫度之處理容器34內,由其下方上升而加以載置。接著,藉由蓋部36來關閉分歧管54之下端的開口部,藉此將處理容器34內密閉。
接下來,將處理容器34內抽真空而維持在特定的製程壓力,並且增加朝加熱機構42之供應電力,藉此使晶圓W的溫度上升而維持在製程溫度。
接下來,從氣體噴嘴76對處理容器34內供應含矽氣體,來使含矽氣 體吸附在晶圓W的表面(步驟S1)。此時,係移動可動壁100來使例如共通開口部CA的開口面積成為0,亦即,第1開口部52與第2開口部102不會相重疊。於是,內管44內的氣體便不會被排氣,或是幾乎不會被排氣。藉此,則從氣體噴嘴76所供應之含矽氣體的流速便會變小,可提高含矽氣體的活性度。
接下來,停止來自氣體噴嘴76之含矽氣體的供應,而從氣體噴嘴80對處理容器34內供應N2氣體,來將處理容器34吹淨(步驟S2)。此時,係移動可動壁100來使例如共通開口部CA的開口面積成為最大,亦即,第1開口部52及第2開口部102的重疊區域成為最大。藉此,便可提高吹淨效率,從而可縮短將處理容器34內吹淨的所需時間。
接下來,停止來自氣體噴嘴80之N2氣體的供應,而從氣體噴嘴78對處理容器34內供應O3氣體,來讓吸附在晶圓W的表面之含矽氣體氧化(步驟S3)。此時,係移動可動壁100而在較例如第1開口部52的下方側更靠近第1開口部52的上方側處,使第1開口部52與第2開口部102的重疊區域變大。藉此,則內管44內的氣體便會較自氣體出口82較接近之位置(即第1開口部52的下方側)而更容易從自氣體出口82較遠離之位置(即第1開口部52的上方側)被排氣。於是,便可使被供應至晶圓W表面之氣體的流速在晶圓W間均勻化。
接下來,停止來自氣體噴嘴78之O3氣體的供應,而從氣體噴嘴80對處理容器34內供應N2氣體,來將處理容器34吹淨(步驟S4)。此時,係移動可動壁100來使例如共通開口部CA的開口面積為最大,亦即,第1開口部52及第2開口部102的重疊區域為最大。藉此,便可提高吹淨效率,從而可縮短將處理容器34內吹淨的所需時間。
藉由重複特定次數以上的步驟S1至步驟S4,便可於晶圓W的表面形成具有期望的膜厚之矽氧化膜。
第1實施型態相關之基板處理方法中,係對應於製程條件來使可動壁100移動,藉此便可調整內管44內之氣體的排氣平衡,來控制被供應至晶圓W表面之氣體的流速。其結果,便可獲得期望的面間均勻性。
此外,第1實施型態相關之基板處理方法中,雖係舉每當切換供應至 處理容器34的氣體時便使可動壁100移動之情況為例來加以說明,但使可動壁100移動之時間點並未限定於此。
〔第2實施型態〕
針對本發明第2實施型態相關之基板處理裝置來加以說明。圖9為第2實施型態相關之基板處理裝置的概略圖。圖10係用以說明圖9之基板處理裝置的內管一例之立體圖。圖11係用以說明圖9之基板處理裝置的可動壁一例之圖式。
第2實施型態相關之基板處理裝置1A係具有與前述第1實施型態相關之基板處理裝置1相異的內管44A與可動壁100A。此外,有關其他點,由於係具有與第1實施型態相關之基板處理裝置1相同的構成,故針對與第1實施型態相關之基板處理裝置1相同的構成則省略說明,而僅針對相異的構成來加以說明。
如圖10所示,內管44A係藉由沿著內管44A的長邊方向(上下方向)而相距第1間隔L13來設置複數個寬度L11、長度L12的矩形開口部,而形成有第1開口部52A。
第1開口部52A係可將內管44內的氣體加以排氣般所形成之氣體排氣口。第1開口部52A當中位在最上方之矩形開口部的上端係延伸而位在對應於基板保持具38的上端之位置以上的高度。又,第1開口部52A當中位在最下方之矩形開口部的下端係延伸而位在對應於基板保持具38的下端之位置以下的高度。具體來說,如圖9所示,基板保持具38的上端與第1開口部52A當中位在最上方之矩形開口部的上端之間之高度方向的距離L2為0mm~5mm左右之範圍內。又,基板保持具38的下端與第1開口部52A當中位在最下方之矩形開口部的下端之間之高度方向的距離L3為0mm~350mm左右之範圍內。
又,內管44A的內部係沿著內管44A的內側壁而設置有可動壁100A。可動壁100A如圖11所示,係呈圓筒形狀,其側壁係形成有第2開口部102A。
第2開口部102A係可將內管44A內的氣體加以排氣般所形成之氣體排氣口。第2開口部102A例如圖11所示,係形成為藉由沿著內管44A的 長邊方向(上下方向)而相距第2間隔L23來設置有複數個寬度L21、長度L22的矩形開口部。第2開口部102A係形成為第2間隔L23會較第1間隔L13來得小。
可動壁100A係連接有升降機構(圖中未顯示),可動壁100A係構成為可藉由升降機構而升降(可移動)。藉由使升降機構動作來讓可動壁100A升降,便可改變第2開口部102相對於第1開口部52的位置。亦即,可改變共通開口部CA的位置。藉此,便可調整內管44內之氣體的排氣平衡,來控制被供應至晶圓W表面之氣體的流速。
圖12係用以說明使用圖11的可動壁之情況下,第1開口部與第2開口部的位置關係之圖式。圖12(a)及圖12(b)係顯示藉由使可動壁100A移動(升降),來改變第2開口部102A相對於第1開口部52A的位置時之共通開口部CA的位置變化。
如圖12(a)及圖12(b)所示,可藉由使可動壁100A升降,來改變共通開口部CA的位置。
如圖12(a)所示,使可動壁100A往上方移動來使第1開口部52A當中位在最上方之矩形開口部的上端與第2開口部102A當中位在最上方之矩形開口部的上端一致後,由於第2間隔L23會小於第1間隔L13,故在第1開口部52A的上方側處,第1開口部52A與第2開口部102A的重疊面積便會變大,而在第1開口部52A的下方側處,第1開口部52A與第2開口部102A的重疊面積則會變小。藉此,內管44A內的氣體便會較第1開口部52A的下方側而更容易從第1開口部52A的上方側被排氣。
如圖12(b)所示,使可動壁100A往下方移動來使第1開口部52A當中位在最下方之矩形開口部的下端與第2開口部102A當中位在最下方之矩形開口部的下端為一致後,由於第2間隔L23會小於第1間隔L13,故在第1開口部52A的下方側處,第1開口部52A與第2開口部102A的重疊面積便會變大,而在第1開口部52A的上方側處,第1開口部52A與第2開口部102A的重疊面積則會變小。藉此,內管44A內的氣體便會較第1開口部52A的上方側而更容易從第1開口部52A的下方側被排氣。
如此般地,藉由使可動壁100A升降,便可改變共通開口部CA的位置。 藉此,藉由對應於製程條件或處理片數的變化來使可動壁100A的位置移動,便可對應於製程條件或處理片數來調整排氣的平衡。其結果,便可獲得期望的面間均勻性。
〔第3實施型態〕
針對本發明第3實施型態相關之基板處理裝置來加以說明。圖13係用以說明第3實施型態相關之基板處理裝置的可動壁一例之圖式。
第3實施型態相關之基板處理裝置係具有與前述第1實施型態相關之基板處理裝置1相異的可動壁100B。此外,有關其他點,由於係具有與第1實施型態相關之基板處理裝置1相同的構成,故針對與第1實施型態相關之基板處理裝置1相同的構成則省略說明,而僅針對相異的構成來加以說明。
可動壁100B如圖13所示,係呈半圓筒形狀,而形成有第2開口部102B1、102B2。
第2開口部102B1、102B2係可將內管44內的氣體加以排氣般所形成之氣體排氣口。第2開口部102B1、102B2係形成為與第1開口部52相異之形狀。又,第2開口部102B1、102B係具有相互不同的形狀,例如形成為非平行之2邊所構成的角度相異之平行四邊形。圖13中係顯示第2開口部102B1的形狀為與前述第2開口部102相同的形狀之情況。此外,第2開口部102B1、102B2的形狀並未限定於此,可為各種形狀。
針對第1開口部52與第2開口部102B1、102B2的位置關係來加以說明。
有關第1開口部52與第2開口部102B1的位置關係,由於與第1實施型態相同,故省略說明。
圖14係用以說明使用圖13的可動壁100B之情況下,第1開口部52與第2開口部102B2的位置關係之圖式。圖14(a)至圖14(f)係顯示藉由使可動壁100B移動(旋轉),來改變第2開口部102B2相對於第1開口部52的位置時之共通開口部CA的形狀變化。
如圖14(a)~圖14(f)所示,可藉由讓可動壁100B旋轉來改變共通開口部CA的形狀。
圖14(a)中,第1開口部52與第2開口部102B2完全未重疊,共通開口部CA的開口面積為0。藉此,則內管44內的氣體便不會被排氣,或是幾乎不會被排氣。
圖14(b)中,在第1開口部52的上方側處,第1開口部52與第2開口部102B2會相重疊。相對於此,在第1開口部52的下方側處,第1開口部52與第2開口部102B2並未重疊。藉此,則內管44內的氣體便不會從第1開口部52的下方側被排氣,而是從第1開口部52的上方側被選擇性地排氣。
圖14(c)中,在第1開口部52的上方側及下方側處,第1開口部52與第2開口部102B2會相重疊,該重疊的寬度係第1開口部52的上方側會較下方側要寬。又,從第1開口部52的上方側至中央部的高度中,第1開口部52與第2開口部102B2係完全重疊。亦即,較第1開口部52的中央部要上方側處,共通開口部CA係呈I型的形狀,而較第1開口部52的中央部要下方側處,共通開口部CA係呈V型的形狀。藉此,則內管44內的氣體便會較第1開口部52的下方側而更容易從第1開口部52的上方側被排氣。
圖14(d)中,第2開口部102B2係幾乎完全地重疊在第1開口部52。藉此,內管44內的氣體便會從第1開口部52的整體被排氣。
圖14(e)中,在第1開口部52的上方側及下方側處,第1開口部52與第2開口部102B2會相重疊,該重疊的寬度係第1開口部52的下方側會較上方側要寬。又,從第1開口部52的下方側至中央部的高度中,第1開口部52與第2開口部102B2會完全重疊。亦即,較第1開口部52的中央部要上方側處,共通開口部CA係呈V型的形狀,而較第1開口部52的中央部要下方側處,共通開口部CA係呈I型的形狀。藉此,則內管44內的氣體便會較第1開口部52的上方側而更容易從第1開口部52的下方側被排氣。
圖14(f)中,在第1開口部52的下方側處,第1開口部52與第2開口部102B2係相重疊。相對於此,在第1開口部52的上方側處,第1開口部52與第2開口部102B2並未重疊。藉此,內管44內的氣體便不會從第1 開口部52的上方側被排氣,而是從第1開口部52的下方側被選擇性地排氣。
如此般地,第3實施型態相關之基板處理裝置中,藉由使可動壁100B旋轉,便可使第2開口部102B1或第2開口部102B2的其中一者與第1開口部52相重疊。藉此,便可增加共通開口部CA的形狀樣態。從而,便可較第1實施型態而更仔細地調整排氣平衡。其結果,便可以更高的精確度來控制面間均勻性。
此外,第3實施型態中,雖係舉於內管44形成有1個第1開口部52之情況為例來加以說明,但,第1開口部52亦可形成為複數個。此情況下,較佳地,各個複數第1開口部52的形狀係互為不同。藉此,便可更加增加藉由第1開口部52與第2開口部102B1、102B2的重疊所形成之共通開口部CA的形狀樣態。此情況下,第2開口部可為1個或複數個。
(實施例)
針對改變共通開口部CA的形狀時,形成於晶圓W表面之膜的膜厚面間均勻性來加以說明。圖15係用以說明面間均勻性之圖式。圖15(a)係用以說明第1開口部的形狀之圖式。圖15(b)係顯示晶圓W的位置與形成於晶圓W之矽氧化膜的膜厚之關係。圖15(b)中,橫軸表示晶圓W的位置,縱軸表示形成於晶圓W的表面之矽氧化膜的膜厚(nm)。又,圖15(b)中,「TOP」表示處理容器之上方側的位置,「CTR」表示處理容器之中央部的位置,「BTM」表示處理容器之下方側的位置。又,圖15中,「T-C」表示「TOP」與「CTR」之間的位置,「C-B」表示「CTR」與「BTM」之間的位置。
圖15中,作為一例,係舉使用六氯二矽甲烷(HCD)氣體作為原料氣體,使用O3氣體作為氧化氣體,而形成矽氧化膜之情況為例來加以說明。此外,實施例中,係藉由改變第1開口部52的形狀,來模擬地形成改變共通開口部CA的形狀時之狀態。具體來說,係將第1開口部52的形狀改變為V型(顯示於圖15(a)中的左側。),或I型(顯示於圖15(a)中的右側。)。
如圖15(b)所示,可得知第1開口部52的形狀為V型的情況與為I型的情況中,形成於晶圓W之矽氧化膜的膜厚面間均勻性會大為不同。具體來說,第1開口部52的形狀為V型的情況,「BTM」的位置處之形成於晶 圓W之矽氧化膜的膜厚會變薄。此被認為係因為被供應至BTM側之HCD氣體會在內管44內流向第1開口部52的開口面積較大之TOP側的緣故。相對於此,第1開口部52的形狀為I型的情況,「BTM」的位置處之形成於晶圓W之矽氧化膜的膜厚則較第1開口部52的形狀為V型的情況要變厚,且面間均勻性提高。此被認為係因為相較於第1開口部52的形狀為V型的情況,由於「TOP」的位置處之開口寬度狹窄,故被供應至BTM側之HCD氣體在內管44內會變得不會流向TOP側的緣故。
如此般地,被認為由於藉由改變第1開口部52的形狀,便可控制形成於晶圓W表面之膜的膜厚面間均勻性,故藉由改變共通開口部CA的形狀,便可控制形成於晶圓W表面之膜的膜厚面間均勻性。
以上,雖已針對用以實施本發明之型態來加以說明,但上述內容並非用來限定發明的內容,可在本發明之範圍內做各種變化及改良。
上述實施型態中,雖已針對可動壁100係沿著內管44的內側壁所設置之型態加以說明,但並未限定於此,亦可設置於例如內管44與外管46之間。此情況係沿著內管44的外側壁來設置可動壁100。
又,上述實施型態中,雖係舉成膜矽氧化膜之情況為例來加以說明,但無關於欲成膜之膜的種類仍可應用本發明。又,上述實施型態中,雖係舉使用ALD法之情況為例來加以說明,但並未限定於此,而亦可將本發明應用於使用例如CVD法之情況。
又,上述實施型態中,雖已針對未使用電漿之成膜處理來加以說明,但並未限定於此,而亦可將本發明應用於使用電漿來進行成膜處理之情況。此情況係於區劃出例如噴嘴收納部48之凸部50之區劃壁的外側,沿著其長邊方向而設置有施加電漿產生用高頻電力的電力板來產生電漿。
又,上述實施型態中,雖係舉以半導體晶圓作為基板之例來加以說明,但半導體晶圓亦包含有矽基板或GaAs、SiC、GaN等之化合物半導體基板。再者,不限於該等基板,而亦可將本發明應用於液晶顯示裝置所使用之玻璃基板或陶瓷基板等。
L2、L3‧‧‧距離
W‧‧‧晶圓
1‧‧‧基板處理裝置
34‧‧‧處理容器
36‧‧‧蓋部
38‧‧‧基板保持具
40‧‧‧氣體供應機構
41‧‧‧排氣機構
42‧‧‧加熱機構
44、44A‧‧‧內管
46‧‧‧外管
48‧‧‧噴嘴收納部
50‧‧‧凸部
52‧‧‧第1開口部
54‧‧‧分歧管
56‧‧‧凸緣部
58‧‧‧密封組件
60‧‧‧支撐部
62‧‧‧密封組件
64‧‧‧磁性流體密封部
66‧‧‧旋轉軸
68‧‧‧升降機構
68A‧‧‧臂部
70‧‧‧旋轉板
72‧‧‧保溫台
76、78、80‧‧‧氣體噴嘴
76A‧‧‧氣體孔
82‧‧‧氣體出口
84‧‧‧空間部
86‧‧‧排氣通道
88‧‧‧壓力調整閥
90‧‧‧真空幫浦
100‧‧‧可動壁
102‧‧‧第2開口部
104‧‧‧旋轉軸
110‧‧‧控制機構
112‧‧‧記憶媒體
Claims (10)
- 一種基板處理裝置,具有:內管,係設置為可收納複數片基板,而具有第1開口部;外管,係圍繞該內管;可動壁,係設置於該內管的內部或該內管與該外管之間,而具有第2開口部;旋轉軸,係結合於該可動壁來讓該可動壁移動般地旋轉;氣體供應機構,係對該基板供應處理氣體;排氣機構,係設置於較該可動壁要外側之位置處,來將被供應至該基板之該處理氣體加以排氣;以及控制機構,係控制該旋轉軸的動作;該控制機構係控制該旋轉軸的動作,來改變藉由該第1開口部及該第2開口部相重疊所形成之開口部的形狀。
- 如申請專利範圍第1項之基板處理裝置,其中該排氣機構係透過該第1開口部及該第2開口部來將被供應至該基板之該處理氣體加以排氣。
- 如申請專利範圍第1或2項之基板處理裝置,其中該可動壁係沿著該內管的側壁所設置。
- 如申請專利範圍第3項之基板處理裝置,其中該可動壁為半圓筒形狀。
- 如申請專利範圍第3項之基板處理裝置,其中該可動壁為圓筒形狀。
- 如申請專利範圍第1或2項之基板處理裝置,其中該第2開口部係具有與該第1開口部相異之形狀。
- 如申請專利範圍第1項之基板處理裝置,其中該旋轉軸係使該可動壁沿著該內管的圓周方向而移動。
- 如申請專利範圍第7項之基板處理裝置,其中該第1開口部為矩形,該第2開口部為平行四邊形。
- 如申請專利範圍第1項之基板處理裝置,其中該旋轉軸係使該可動壁沿著該內管的上下方向而移動。
- 如申請專利範圍第9項之基板處理裝置,其中該第1開口部係具有沿著該內管的長邊方向而相距第1間隔所設置之複數開口部; 該第2開口部係具有沿著該內管的長邊方向而相距第2間隔所設置之複數開口部;該第1間隔與該第2間隔係相異。
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CN112962084B (zh) | 2023-06-02 |
US10475641B2 (en) | 2019-11-12 |
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TW201820470A (zh) | 2018-06-01 |
JP2018046114A (ja) | 2018-03-22 |
KR20180029915A (ko) | 2018-03-21 |
US20180076021A1 (en) | 2018-03-15 |
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CN107815667A (zh) | 2018-03-20 |
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