JP2643584B2 - Method for manufacturing semiconductor device - Google Patents
Method for manufacturing semiconductor deviceInfo
- Publication number
- JP2643584B2 JP2643584B2 JP2288969A JP28896990A JP2643584B2 JP 2643584 B2 JP2643584 B2 JP 2643584B2 JP 2288969 A JP2288969 A JP 2288969A JP 28896990 A JP28896990 A JP 28896990A JP 2643584 B2 JP2643584 B2 JP 2643584B2
- Authority
- JP
- Japan
- Prior art keywords
- semiconductor device
- gas
- reaction
- silicon oxide
- oxide film
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Electrodes Of Semiconductors (AREA)
- Drying Of Semiconductors (AREA)
Description
【発明の詳細な説明】 〔産業上の利用分野〕 本発明は半導体装置の製造方法に関し、特にナローギ
ャップ方式のドライエッチング方法を使用する半導体装
置の製造方法に関する。Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for manufacturing a semiconductor device, and more particularly to a method for manufacturing a semiconductor device using a narrow gap dry etching method.
従来例えば半導体素子を形成したSi基板上の層間絶縁
膜にフォトレジスタ膜によりマスクを形成しコンタクト
ホールを形成する為のドライエッチングの一方法とし
て、CnH2(n+1)-mFm,(nは1≦n≦3なる整数,mは1≦
m≦2(n+1)なる整数)等のガス及びその混合系と
不活性ガス(Ar,Heなど)との混合系からなるガス系を
平行平板電極型反応室に導入し、電極間隔を5〜20mm,1
00KHz〜20MHzの高周波電力を上部電極又は下部電極或い
は双方に印加することによる所謂ナローギャップ方式の
ドライエッチング方法が用いられている。このようなド
ライエッチング方法では通常反応面ではエッチング反応
と,反応種自身より形成されるポリマーの生成反応即ち
デポジション反応とが競合的に進行している。Conventionally, for example, as a method of dry etching for forming a mask with a photoresist film on an interlayer insulating film on a Si substrate on which a semiconductor element is formed and forming a contact hole, C n H 2 (n + 1) -m F m , (N is an integer satisfying 1 ≦ n ≦ 3, m is 1 ≦
A gas such as m ≦ 2 (n + 1)) and a mixed system thereof and a mixed system of an inert gas (Ar, He, etc.) are introduced into the parallel plate electrode type reaction chamber, and the electrode interval is set to 5 to 5. 20mm, 1
A so-called narrow gap type dry etching method by applying a high frequency power of 00 KHz to 20 MHz to the upper electrode or the lower electrode or both is used. In such a dry etching method, an etching reaction and a formation reaction of a polymer formed from the reactive species itself, that is, a deposition reaction, usually proceed competitively on the reaction surface.
従来は反応種量に対するエッチレートの安定性を向上
するため必要量に対し過剰な反応性ガスを反応系内に導
入することが一般的に行われており、例えばCF4を60scc
m,CHF3を60sccm,Arを800sccm流すというようなエッチン
グの例があり、この場合等はエッチングガスは総流量の
13%となり10%を越えている。Conventionally has it is common practice to introduce the excess reactive gas into the reaction system to the required amount for improving the stability of the etching rate for the reactive species amounts, for example 60scc the CF 4
m, CHF 3 flows at 60 sccm, and Ar flows at 800 sccm.In this case, the etching gas is the total flow rate.
13%, exceeding 10%.
このように従来のナローギャップ方式のドライエッチ
ング方法では元来必要とされる反応種の量に対し過剰な
反応種を導入する為、反応に際し余剰分となる反応種が
存在し、一部分は排気されるが、第4図に示すように、
一部の反応種はエッチング時にパターン側壁部へポリマ
ー4が付着し、半導体装置自身の特性劣化を引きおこ
す。As described above, in the conventional narrow-gap dry etching method, an excessive amount of reactive species is introduced with respect to the amount of reactive species originally required. However, as shown in FIG.
Some reactive species cause the polymer 4 to adhere to the pattern side wall during etching, causing deterioration of the characteristics of the semiconductor device itself.
更に一部の反応種は反応室内へ滞留し、反応室各部へ
デポジションを起こし、装置内発塵となり、ウェハー付
着塵の増加をひき起こしたり、連続処理において再度プ
ラズマにより活性化し反応種として反応系に作用しエッ
チングレートの変動をひきおこす。In addition, some of the reactive species stay in the reaction chamber, causing deposition in various parts of the reaction chamber, generating dust in the apparatus, causing an increase in dust adhering to the wafer, and being activated again by plasma in continuous processing to react as reactive species. Acts on the system to cause fluctuations in the etching rate.
本発明は、単結晶Si基板上に酸化シリコン膜を形成し
たのち前記酸化シリコン膜にナローギャップ方式のドラ
イエッチング方法で開口を設ける工程を有する半導体装
置の製造方法において、前記ナローギャップ方式のドラ
イエッチング方法は、C2F6とCHF3とを混合した反応ガス
を3%以上、10%以下にArガスで希釈して電極間隔5〜
20mmの平行平板電極型反応室に導入してエッチングを行
なうというものである。The present invention provides a method for manufacturing a semiconductor device, comprising the steps of: forming a silicon oxide film on a single crystal Si substrate and then forming an opening in the silicon oxide film by a narrow gap dry etching method; The method is to dilute the reaction gas obtained by mixing C 2 F 6 and CHF 3 to 3% or more and 10% or less with Ar gas,
The etching is performed by introducing into a 20 mm parallel plate electrode type reaction chamber.
次に本発明について図面を参照して説明する。 Next, the present invention will be described with reference to the drawings.
第1図は本発明の一実施例として単結晶Si基板(以下
単にSi基板と記す)1上に層間絶縁膜を形成し、コンタ
クトホールを開孔した場合の半導体チップの断面図であ
る。FIG. 1 is a cross-sectional view of a semiconductor chip when an interlayer insulating film is formed on a single-crystal Si substrate (hereinafter simply referred to as a Si substrate) 1 and a contact hole is opened as an embodiment of the present invention.
半導体素子を形成したSi基板1上に層間絶縁膜として
化学的気相成長法により酸化シリコン膜2を成形しフォ
トレジスト膜3によるマスクが形成された半導体チップ
に対しC2F65sccm,CHF310sccm,Ar500sccmからなるガス系
を10mmの電極間隔の平行平板電極よりなる反応室内に導
入し反応圧力を500mTorrに保ち、アノード側へ13.56MHz
の高周波電力を500W印加することにより酸化シリコン膜
2の開孔部側壁にポリマーの付着のないコンタクトホー
ルを開孔し得る。C 2 F 6 5 sccm to the semiconductor chip mask of photoresist film 3 by forming a silicon oxide film 2 is formed by chemical vapor deposition as an interlayer insulating film on the Si substrate 1 formed with the semiconductor element, CHF 3 A gas system consisting of 10 sccm and 500 sccm Ar was introduced into a reaction chamber consisting of parallel plate electrodes with an electrode spacing of 10 mm, the reaction pressure was maintained at 500 mTorr, and 13.56 MHz to the anode side.
By applying the high-frequency power of 500 W, a contact hole free of polymer can be formed on the side wall of the opening of the silicon oxide film 2.
第2図は酸化シリコン膜のエッチレート指数及び酸化
シリコン膜Si基板のエッチレートの選択比指数を反応ガ
ス流量/総ガス流量に対して示す特性図であり、反応ガ
スとしてはC2F6とCHF3を1:2で混合したもの、希釈ガス
としてはArを使用し、平行平板電極の間隔は10mm、アノ
ードへ13.56MHzの高周波電力を500W印加した場合を示し
ている。なお、反応室圧力は500mTorrである。上述の一
実施例は第2図のa領域に該当している。エッチングレ
ートは従来例の60%程度であるが、選択比は約3.5倍に
向上している。Figure 2 is a characteristic diagram showing the selectivity of index of etch rate of the etch rate index and a silicon oxide film Si substrate of the silicon oxide film to the reaction gas flow rate / total gas flow rate, as the reaction gas C 2 F 6 This shows a case where CHF 3 is mixed at a ratio of 1: 2, Ar is used as a diluent gas, the interval between parallel plate electrodes is 10 mm, and 500 W of 13.56 MHz high frequency power is applied to the anode. The reaction chamber pressure was 500 mTorr. The above embodiment corresponds to the area a in FIG. Although the etching rate is about 60% of the conventional example, the selectivity is improved to about 3.5 times.
第3図は一実施例における酸化シリコン膜のエッチン
グレート指数及びウェハー付着塵量指数と処理回数との
関係を示す特性図であり、エッチングレート指数の低下
及び付着塵量指数の増加の双方とも従来例の約50%に改
善されている。FIG. 3 is a characteristic diagram showing the relationship between the etching rate index of the silicon oxide film, the index of the amount of dust adhering to the wafer, and the number of treatments in one embodiment. About 50% of cases have been improved.
なお、本発明をLDD型MOSトランジスタ形成時にゲート
電極に設けるサイドウォール(酸化シリコン)を形成す
るためのエッチバックに適用すると選択比がよいのでSi
基板に与えるダメージを低減することができ、歩留り向
上がもたらされる。When the present invention is applied to an etch-back for forming a side wall (silicon oxide) provided on a gate electrode at the time of forming an LDD type MOS transistor, the selectivity is good, so that Si
Damage to the substrate can be reduced, and the yield is improved.
本発明において、反応ガスを3%未満に希釈するとエ
ッチングレートの低下が大きく実用的でない。従来例の
13%では選択比指数が2より小さく、10%では2より大
きくなり、従来例との差異は明確である。In the present invention, if the reaction gas is diluted to less than 3%, the etching rate is greatly reduced, which is not practical. Conventional example
At 13%, the selectivity index is smaller than 2, and at 10%, it is larger than 2, indicating a clear difference from the conventional example.
平行平板電極の間隔は5〜20mm、周波数100KHz〜20MH
zの高周波を上部電極又は下部電極のいずれか一方もし
くは双方に印加しても同様の効果をあげることができ
る。Parallel plate electrode spacing is 5-20mm, frequency 100KHz-20MH
The same effect can be obtained by applying a high frequency of z to one or both of the upper electrode and the lower electrode.
以上説明したように本発明は反応にあずかる反応種
(C2F6とCHF3)をArガスで希釈して反応系に導入してド
ライエッチングを行うことにより、反応系内での余分な
ポリマー生成を減少せしめるため、半導体装置製造工程
における汚染の低減、ドライエッチング反応の安定性の
向上、ウェハー付着塵量の低減等の効果がある。また、
条件によっては絶縁膜と下地基板との選択比の向上も期
待できる。As described above, according to the present invention, the reactive species (C 2 F 6 and CHF 3 ) participating in the reaction are diluted with Ar gas and introduced into the reaction system to perform dry etching, whereby excess polymer in the reaction system is obtained. Since the generation is reduced, there are effects such as a reduction in contamination in a semiconductor device manufacturing process, an improvement in stability of a dry etching reaction, and a reduction in the amount of dust adhering to a wafer. Also,
Depending on the conditions, an improvement in the selectivity between the insulating film and the underlying substrate can be expected.
第1図は本発明の一実施例を説明するための半導体チッ
プの断面図、第2図は反応ガス流量/総ガス流量と酸化
シリコン膜のエッチングレート及び、酸化シリコン膜と
Si基板のエッチングレートの選択比との関係を示す特性
図、第3図は本発明の効果を説明する為に従来例と比較
した酸化シリコン膜エッチングレートとウェハー付着塵
との処理回数に対する変化を示す特性図、第4図は従来
例による半導体チップの断面図である。 1……Si基板、2……酸化シリコン膜、3……フォトレ
ジスト膜、4……ポリマー。FIG. 1 is a sectional view of a semiconductor chip for explaining an embodiment of the present invention, and FIG. 2 is a diagram showing a reaction gas flow rate / total gas flow rate and an etching rate of a silicon oxide film.
FIG. 3 is a characteristic diagram showing the relationship between the selectivity of the etching rate of the Si substrate and FIG. 3 is a graph showing the change in the etching rate of the silicon oxide film and the number of treatments of the dust adhering to the wafer as compared with the conventional example in order to explain the effect of the present invention. FIG. 4 is a sectional view of a conventional semiconductor chip. 1 ... Si substrate, 2 ... Silicon oxide film, 3 ... Photoresist film, 4 ... Polymer.
Claims (2)
たのち前記酸化シリコン膜にナローギャップ方式のドラ
イエッチング方法で開口を設ける工程を有する半導体装
置の製造方法において、前記ナローギャップ方式のドラ
イエッチング方法は、C2F6とCHF3とを混合した反応ガス
を3%以上、10%以下にArガスで希釈して電極間隔5〜
20mm平行平板電極型反応室に導入してエッチングを行う
ことを特徴とする半導体装置の製造方法。A method of manufacturing a semiconductor device, comprising the steps of: forming a silicon oxide film on a single crystal Si substrate; and then forming an opening in the silicon oxide film by a narrow gap dry etching method. The etching method is to dilute the reaction gas obtained by mixing C 2 F 6 and CHF 3 to 3% or more and 10% or less with Ar gas,
A method for manufacturing a semiconductor device, wherein the semiconductor device is introduced into a 20 mm parallel plate electrode type reaction chamber and etched.
2で混合したものであり、電極間隔は10mmである請求項
1記載の半導体装置の製造方法。2. A reaction gas comprising C 2 F 6 gas and CHF 3 gas in a volume ratio of 1:
2. The method for manufacturing a semiconductor device according to claim 1, wherein the electrodes are mixed in the step (2) and the electrode interval is 10 mm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2288969A JP2643584B2 (en) | 1990-10-26 | 1990-10-26 | Method for manufacturing semiconductor device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2288969A JP2643584B2 (en) | 1990-10-26 | 1990-10-26 | Method for manufacturing semiconductor device |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH04162721A JPH04162721A (en) | 1992-06-08 |
JP2643584B2 true JP2643584B2 (en) | 1997-08-20 |
Family
ID=17737146
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP2288969A Expired - Fee Related JP2643584B2 (en) | 1990-10-26 | 1990-10-26 | Method for manufacturing semiconductor device |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP2643584B2 (en) |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2603989B2 (en) * | 1988-03-18 | 1997-04-23 | 株式会社日立製作所 | Method for manufacturing semiconductor device |
-
1990
- 1990-10-26 JP JP2288969A patent/JP2643584B2/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
JPH04162721A (en) | 1992-06-08 |
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Legal Events
Date | Code | Title | Description |
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LAPS | Cancellation because of no payment of annual fees |