[go: up one dir, main page]
More Web Proxy on the site http://driver.im/

JP2674147B2 - Charged beam exposure equipment - Google Patents

Charged beam exposure equipment

Info

Publication number
JP2674147B2
JP2674147B2 JP26461788A JP26461788A JP2674147B2 JP 2674147 B2 JP2674147 B2 JP 2674147B2 JP 26461788 A JP26461788 A JP 26461788A JP 26461788 A JP26461788 A JP 26461788A JP 2674147 B2 JP2674147 B2 JP 2674147B2
Authority
JP
Japan
Prior art keywords
transmission mask
pattern
collective
small
sections
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 - Lifetime
Application number
JP26461788A
Other languages
Japanese (ja)
Other versions
JPH02111012A (en
Inventor
豊隆 片岡
樹一 坂本
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Fujitsu Ltd
Original Assignee
Fujitsu Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Fujitsu Ltd filed Critical Fujitsu Ltd
Priority to JP26461788A priority Critical patent/JP2674147B2/en
Priority to DE68924122T priority patent/DE68924122T2/en
Priority to EP89119187A priority patent/EP0364929B1/en
Priority to US07/424,733 priority patent/US5036209A/en
Publication of JPH02111012A publication Critical patent/JPH02111012A/en
Application granted granted Critical
Publication of JP2674147B2 publication Critical patent/JP2674147B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Landscapes

  • Electron Beam Exposure (AREA)

Description

【発明の詳細な説明】 〔概 要〕 透過マスクを用いた荷電ビーム露光装置に関し、露光
に要する時間を短縮することによって荷電ビーム露光装
置のスループットを向上させることを目的とし、 集積回路の回路パターンの構成要素に対応する透孔を
含む小区画が複数個形成された整形用透過マスクを有す
る荷電ビーム露光装置において、該透過マスク上の全て
の小区画は複数の集合区画にグループ分けされ、該集合
区画相互の配置及び一つの集合区画内における該小区画
相互の配置は、被露光試料を露光する順序に基づいて時
間的近接して用いるものが場所的に近接するようにし、
また該透過マスクには、同一集積回路のパターン露光に
必要な小区画を設け、該透過マスクを交換することなく
該集積回路の製造に必要なパターン露光を行うように構
成する。
DETAILED DESCRIPTION OF THE INVENTION [Outline] A charged-beam exposure apparatus using a transmission mask, which aims to improve the throughput of the charged-beam exposure apparatus by shortening the time required for the exposure, has a circuit pattern of an integrated circuit. In a charged beam exposure apparatus having a shaping transmission mask in which a plurality of small sections including through-holes corresponding to the constituent elements are formed, all the small sections on the transmission mask are grouped into a plurality of collective sections, The arrangement of the collective compartments and the arrangement of the small compartments within one collective compartment are such that those used in time proximity based on the order of exposing the sample to be exposed are closely located in space,
Further, the transmission mask is provided with small sections necessary for pattern exposure of the same integrated circuit, and the pattern exposure required for manufacturing the integrated circuit is performed without replacing the transmission mask.

〔産業上の利用分野〕[Industrial applications]

本発明は荷電ビーム露光装置に係り、特に透過マスク
の改良により露光に要する時間を短縮し、スループット
の向上をはかった荷電ビーム露光装置に関する。
The present invention relates to a charged beam exposure apparatus, and more particularly, to a charged beam exposure apparatus in which the time required for exposure is shortened and throughput is improved by improving a transmission mask.

〔従来の技術〕[Conventional technology]

従来の荷電ビーム露光装置においては、矩形透孔を有
する透過マスクを用いて必要な形状の矩形ビームを形成
し、該矩形ビームにより露光される矩形パターンを組み
合わせてIC等の回路パターンを被露光試料上に露光して
いたが、回路パターンの形状によっては該矩形ビームの
組み合わせ回数が増え、従って露光回数が増えて露光に
長時間を要していた。そこで、IC等の回路パターンには
同一形状の単位パターンが繰り返して現れる場合が多い
ことに着目し、透過マスク上に可変矩形用パターンとと
もに、一度に露光され且つ繰り返し用いられる上記単位
パターン、即ち、回路パターンの構成要素、に対応する
透孔を含んだ小区画の集合体を形成しておき、この中か
ら必要な小区画を選択し露光する方法が提案されてい
る。このような方法はたとえば 特開昭和62−260322 に開示されており、露光回数を節約し荷電ビーム露光装
置のスループットを向上させることができる。
In a conventional charged beam exposure apparatus, a rectangular beam having a required shape is formed using a transmission mask having a rectangular through hole, and a rectangular pattern exposed by the rectangular beam is combined to form a circuit pattern such as an IC on an exposed sample. Although it was exposed above, the number of combinations of the rectangular beams increased depending on the shape of the circuit pattern, and therefore the number of times of exposure increased and it took a long time to perform the exposure. Therefore, paying attention to the fact that a unit pattern of the same shape often appears repeatedly in a circuit pattern such as an IC, together with a variable rectangular pattern on a transmission mask, the unit pattern that is exposed and used repeatedly at once, that is, A method has been proposed in which an assembly of small sections including through holes corresponding to the constituent elements of a circuit pattern is formed, and necessary small sections are selected from the group and exposed. Such a method is disclosed in, for example, JP-A-62-260322, and the number of times of exposure can be saved and the throughput of the charged beam exposure apparatus can be improved.

〔発明が解決しようとする課題〕[Problems to be solved by the invention]

上記のような方法で露光回数を効果的に減らすために
は、上記繰り返しの単位となる小区画の面積をできるだ
け大きくしてその中にできるだけ多くの透孔を収容して
おき、一度の露光でできるだけ多くのパターンが形成で
きるようにすることが必要である。しかし小区画の面積
を大きくし、それに応じて荷電ビームを広げると荷電ビ
ームの電荷密度が減少するため、一回の露光時間を長く
しなければならない。従って上記の露光方法によるスル
ープットの向上には一定の限界があることになる。その
ため、面積の小さな小区画を透過マスク上に数多く形成
しておき、必要に応じて該小区画の一つを選択し、露光
する方法も考えられているが、上記小区画の数が多くな
ると透過マスク自体の面積が大きくなり、その中からそ
の都度必要なものを探し出し、機械的なマスク移動・荷
電ビームの偏向という動作を繰り返すため、無駄時間が
多く、スループットを向上させる上では依然として問題
が残る。
In order to effectively reduce the number of exposures by the method as described above, the area of the small section which is the repeating unit is made as large as possible, and as many through holes as possible are accommodated therein, and the exposure is performed once. It is necessary to be able to form as many patterns as possible. However, if the area of the small section is increased and the charged beam is expanded accordingly, the charge density of the charged beam decreases, so that the exposure time for one exposure must be lengthened. Therefore, there is a certain limit in improving the throughput by the above exposure method. Therefore, a method has been considered in which a large number of small sections having a small area are formed on a transmission mask, and one of the small sections is selected and exposed as necessary, but when the number of the small sections increases. The area of the transmission mask itself becomes large, the necessary ones are searched for each time, and the mechanical movement of the mask and deflection of the charged beam are repeated, so there is a lot of dead time and there is still a problem in improving throughput. Remain.

そこで本発明は、多くの小区間が形成されている透過
マスク上から必要な小区画を選択するのに要する時間を
従来に比べて短縮することのできる荷電ビーム露光装置
を提供し、以てスループットを向上させることを目的と
する。
Therefore, the present invention provides a charged particle beam exposure apparatus capable of shortening the time required to select a necessary small section from a transmission mask on which many small sections are formed, as compared with the conventional method, and thus the throughput is improved. The purpose is to improve.

〔課題を解決するための手段〕[Means for solving the problem]

第1図(A)は本発明に係る荷電ビーム露光装置を説
明するための荷電ビーム露光手段の原理図である。同図
において、荷電ビーム生成手段1から放射された荷電ビ
ーム9は偏向手段2により偏向されて透過マスク3上に
投影され、所定の形状に整形された後、縮小露光手段6
を通って被露光試料7上に投影される。該透過マスク3
は透過マスク移動手段8a、8bによって移動可能であり、
偏向手段2及び該透過マスク移動手段8a、8bを併用する
ことによって該透過マスク3上に任意の位置に該荷電ビ
ーム9を投影することができる。第1図(B)は透過マ
スク3上に形成された小区画の配置の概念図であり、IC
等の回路パターンの構成要素に対応する透孔を含む小区
画4が複数個の集合区画5にグループ分けされて配置さ
れている様子を示したものである。
FIG. 1 (A) is a principle view of the charged beam exposure means for explaining the charged beam exposure apparatus according to the present invention. In the figure, the charged beam 9 emitted from the charged beam generating means 1 is deflected by the deflecting means 2 and projected onto the transmission mask 3, shaped into a predetermined shape, and then reduced exposure means 6 is formed.
And is projected onto the exposed sample 7. The transparent mask 3
Can be moved by the transmission mask moving means 8a, 8b,
By using the deflection means 2 and the transmission mask moving means 8a and 8b together, the charged beam 9 can be projected on the transmission mask 3 at an arbitrary position. FIG. 1 (B) is a conceptual diagram of the arrangement of the small sections formed on the transparent mask 3,
It shows a state in which the small sections 4 including through holes corresponding to the constituent elements of the circuit pattern such as are arranged in groups into a plurality of collective sections 5.

本発明をより具体的に把握するため、第1図(C)に
は一つの集合区画5内に配置された小区画4の具体的例
4a、4b、4cを示した。4aはたとえばICメモリパターンの
構成要素に対応する透孔を含む小区画であり、4bは可変
整形用の単独パターンに対応する透孔を含む小区画、4c
は位置合わせ用パターンに対応する透孔を含む小区画で
あり、いずれの小区画も一度に露光される範囲の面積を
有している。また、一つの集合区画5の大きさは、該集
合区画内の任意の小区画4の選択が透過マスク3を機械
的に移動させることなく荷電ビームの偏向手段によって
のみ可能な程度の大きさに決められる。
In order to understand the present invention more specifically, FIG. 1 (C) shows a specific example of the subdivisions 4 arranged in one collective division 5.
4a, 4b and 4c are shown. For example, 4a is a small section including through holes corresponding to the components of the IC memory pattern, 4b is a small section including through holes corresponding to a single pattern for variable shaping, and 4c.
Is a small section including a through hole corresponding to the alignment pattern, and each of the small sections has an area of a range exposed at one time. Further, the size of one collective section 5 is set such that any small section 4 in the collective section can be selected only by the deflection means of the charged beam without mechanically moving the transmission mask 3. Can be decided

従って、該透過マスク上の全ての小区画を複数の集合
区画にグループ分けし、該集合区画相互の配置及び一つ
の集合区画内における該小区画相互の配置を、被露光試
料を露光する順序に基づいて時間的近接して用いるもの
が場所的に近接するように決め、さらに該透過マスクに
は、同一集積回路のパターン露光に必要な小区画を設
け、該透過マスクを交換することなく該集積回路の製造
に必要なパターン露光を行うようにしたことを特徴とす
る荷電ビーム露光装置によって問題点を解決することが
できる。
Therefore, all the small sections on the transmission mask are grouped into a plurality of collective sections, and the arrangement of the collective sections and the arrangement of the small sections within one collective section are set in the order of exposing the sample to be exposed. On the basis of the above, it is determined that the ones to be used in time proximity are close to each other in location, and the transmission mask is provided with small sections necessary for pattern exposure of the same integrated circuit, and the integration is performed without exchanging the transmission mask. The problem can be solved by the charged particle beam exposure apparatus characterized by performing the pattern exposure required for manufacturing a circuit.

〔作 用〕(Operation)

本発明によれば、透過マスク上の小区画は一つの集合
区画内で露光する時間的順序に基づいて並べられてお
り、同様に集合区画についても露光する時間的順序に基
づいて並べられている。そのため必要な小区画を探して
露光するために要する機械的なマスク移動の時間及び荷
電ビームの偏向に要する時間は該透過マスクの大きさ、
小区画の数に依存することなく、最小限に抑えることが
できる。従って被露光試料上に必要なパターンを全て露
光するのに要する時間を従来に比べて大幅に節約するこ
とが可能となる。
According to the present invention, the small sections on the transmission mask are arranged based on the temporal order of exposure within one collective section, and similarly, the collective sections are also arranged based on the temporal order of exposure. . Therefore, the time required for mechanical movement of the mask and the time required for deflecting the charged beam in order to search for and expose the necessary small section depends on the size of the transmission mask.
It can be minimized without depending on the number of subsections. Therefore, the time required to expose all the necessary patterns on the sample to be exposed can be greatly saved as compared with the conventional case.

〔実施例〕〔Example〕

以下、図面を参照して本発明の実施例について具体的
に説明する。
Hereinafter, embodiments of the present invention will be specifically described with reference to the drawings.

第2図は、本発明の実施例に係る電子ビーム露光装置
の模式構成図である。
FIG. 2 is a schematic configuration diagram of the electron beam exposure apparatus according to the embodiment of the present invention.

電子銃10より放射された電子ビームは第1の透過マス
ク板11で絞られた後、コンデンサレンズ12で集束させら
れ、偏向器13へ入って静電偏向され、投影レンズ14を通
って透過マスク3上に投影される。該透過マスク3をマ
スク移動手段8a、8bにより機械的に移動させることによ
って該透過マスク3上の任意の位置に該電子ビームを投
影することが可能である。ここで所定の形状に成形され
た電子ビームは縮小レンズ16、対物レンズ17を通ってウ
ェーハ19上に投影される。このとき、整形された電子ビ
ームのウェーハ19上の位置は静電偏向器15、電磁偏向器
18によって決められる。
The electron beam emitted from the electron gun 10 is focused by the first transmission mask plate 11, focused by the condenser lens 12, enters the deflector 13 and electrostatically deflected, and passes through the projection lens 14 to pass through the transmission mask. 3 is projected on. It is possible to project the electron beam at an arbitrary position on the transmission mask 3 by mechanically moving the transmission mask 3 by the mask moving means 8a and 8b. Here, the electron beam shaped into a predetermined shape is projected onto the wafer 19 through the reduction lens 16 and the objective lens 17. At this time, the position of the shaped electron beam on the wafer 19 is determined by the electrostatic deflector 15 and the electromagnetic deflector.
Determined by 18.

上記のような構成の装置を用いて、ICメモリチップの
パターン形成を行う方法を以下に説明する。
A method of forming a pattern on an IC memory chip using the apparatus having the above configuration will be described below.

第3図(A)はメモリセル部と周辺回路部とからなる
ICメモリチップを模式的に示したものである。ICメモリ
等のパターンは通常数〜十数層のパターンを重ね合わせ
て形成されるが、これら全ての層パターンの中から、層
パターンの構成要素となるパターンを含む小区画を抽出
し、露光する時間的順序に基づいてこれらの小区画を透
過マスク上に形成していく。第3図(B)において、イ
〜トはICメモリを構成する層パターンの内、配線層パタ
ーンについてメモリセル部とその周辺回路部のパターン
のなかから抽出した小区画をし示したものである。これ
らの小区画を、透過マスク上の一つの集合区画5内でた
とえば第3図(C)に示したような順序で配置し、その
露光をたとえば、イ・・ロハ・・ニ(ホ・・ロホ・・
ニ)ヘ・・ロト・・の順序で行う。ここで( )内は、
必要に応じて繰り返し用いられることを示す。集合区画
5の大きさは、該集合区画5内の任意の小区画の選択が
透過マスク3を機械的に移動することなく荷電ビームの
偏向手段によってのみ可能な程度の大きさに決められる
が、抽出された小区画の数が多く、一つの集合区画内に
収容することが出来ない場合には、近接した次の集合区
画に形成する。また、透過マスクの機械的な移動の回数
を減らすため、必要に応じて同一パターンをを含む小区
画を異なった集合区画に重複して配置することもでき
る。
FIG. 3A is composed of a memory cell section and a peripheral circuit section.
1 schematically shows an IC memory chip. The pattern of an IC memory or the like is usually formed by stacking patterns of several to ten or more layers. From all of these layer patterns, a small section containing the pattern that is a component of the layer pattern is extracted and exposed. These subsections are formed on the transmission mask based on the temporal order. In FIG. 3 (B), a to i show small sections extracted from the patterns of the memory cell section and its peripheral circuit section in the wiring layer pattern among the layer patterns constituting the IC memory. . These sub-sections are arranged in one collective section 5 on the transmission mask in the order as shown in FIG. 3 (C), and the exposure is performed by, for example, i. Rojo ...
D) Perform the following steps in the order of: Here, () is
Indicates that it can be used repeatedly as necessary. The size of the collective section 5 is determined to a size such that any small section in the collective section 5 can be selected only by the deflection means of the charged beam without mechanically moving the transmission mask 3. If the number of extracted small sections is large and cannot be accommodated in one collective section, they are formed in the next adjacent collective section. Further, in order to reduce the number of mechanical movements of the transmission mask, it is possible to arrange small sections including the same pattern in different collective sections, if necessary.

以上のようにして形成された透過マスクを、第2図に
示した構成の電子ビーム露光装置に装着した後、透過マ
スク移動手段、偏向器等によって小区画を順々に選択
し、露光していくと同図(B)に示すような配線層パタ
ーンを得ることができる。
After mounting the transmission mask formed as described above on the electron beam exposure apparatus having the configuration shown in FIG. 2, the small sections are sequentially selected by the transmission mask moving means, the deflector, etc. and exposed. As a result, the wiring layer pattern as shown in FIG.

配線層以外の層パターンについても上記と同様な方法
で小区画を抽出し、これらを透過マスク上に上記と同様
な方法で配置することにより、ICメモリの製造に必要な
全てのパターン露光を一枚の透過マスクで行うことがで
きる。
For layer patterns other than the wiring layer, small sections are extracted by the same method as above, and these are arranged on the transmission mask in the same manner as described above, so that all the pattern exposures necessary for manufacturing the IC memory are made uniform. This can be done with a single transparent mask.

また、該透過マスク上に非繰り返し用パターンを含む
小区画を上記小区画とともに形成しておき、第1の透過
マスク上の矩形パターンと組み合わせて用いることによ
って、可変矩形パターンも同時に得ることができる。
Further, a variable rectangular pattern can be obtained at the same time by forming a small section including a non-repeating pattern on the transmission mask together with the small section and using it in combination with the rectangular pattern on the first transmission mask. .

〔発明の効果〕〔The invention's effect〕

以上説明したように、本発明によれば透過マスクの移
動距離、移動回数及び荷電ビームの偏向距離を必要最小
限に抑えることができるため露光に要する時間を従来に
比べて節約することが可能となり、荷電ビーム露光装置
のスループットの向上に大きな効果がある。
As described above, according to the present invention, the movement distance of the transmission mask, the number of movements, and the deflection distance of the charged beam can be suppressed to the necessary minimum, so that the time required for exposure can be saved as compared with the conventional case. It has a great effect on improving the throughput of the charged beam exposure apparatus.

【図面の簡単な説明】[Brief description of the drawings]

第1図(A)〜(C)は本発明の原理説明図、 第2図は本発明の実施例に係る電子ビーム露光装置の模
式構成図、 第3図(A)〜(C)は本発明の実施例を説明するため
の図である。 図において、 1は荷電ビーム生成手段、 2は偏向手段、 3は透過マスク、 4は小区画、 4a、4b、4cは小区画の具体例、 5は集合区画、 6は縮小露光手段、 7は被露光試料、 8a、8bは透過マスク移動手段、 9は荷電ビーム、 10は電子銃、 11は第1の透過マスク、 12はコンデンサレンズ、 13は偏向器、 14は投影レンズ、 15は偏向器、 16は縮小レンズ、 17は対物レンズ、 18は電磁偏向器、 19はウェーハ、 イ〜トはICメモリパターンから抽出された小区画、であ
る。
1 (A) to (C) are explanatory views of the principle of the present invention, FIG. 2 is a schematic configuration diagram of an electron beam exposure apparatus according to an embodiment of the present invention, and FIGS. 3 (A) to (C) are main drawings. It is a figure for demonstrating the Example of invention. In the figure, 1 is a charged beam generating means, 2 is a deflecting means, 3 is a transmission mask, 4 is a small section, 4a, 4b and 4c are specific examples of small sections, 5 is a collective section, 6 is a reduction exposure section, and 7 is Sample to be exposed, 8a and 8b are transmission mask moving means, 9 is a charged beam, 10 is an electron gun, 11 is a first transmission mask, 12 is a condenser lens, 13 is a deflector, 14 is a projection lens, and 15 is a deflector. , 16 is a reduction lens, 17 is an objective lens, 18 is an electromagnetic deflector, 19 is a wafer, and is a small section extracted from the IC memory pattern.

Claims (2)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】集積回路の回路パターンの構成要素に対応
する透孔を含む小区画が複数個形成された整形用透過マ
スクを有する荷電ビーム露光装置において、 該透過マスク上の全ての小区画は複数の集合区画にグル
ープ分けされ、該集合区画相互の配置及び一つの集合区
画内における該小区画相互の配置は、被露光試料を露光
する順序に基づいて時間的近接して用いるものが場所的
に近接するように決められていることを特徴とする荷電
ビーム露光装置。
1. A charged particle beam exposure apparatus having a shaping transmissive mask in which a plurality of small sections including through holes corresponding to components of a circuit pattern of an integrated circuit are formed. The groups are grouped into a plurality of collective sections, and the arrangement of the collective sections and the arrangement of the small sections in one collective section are spatially close to each other based on the order of exposing the sample to be exposed. The charged particle beam exposure apparatus is characterized in that it is determined so as to be close to.
【請求項2】請求項(1)記載の透過マスクには、同一
集積回路のパターン露光に必要な小区画を設け、 該透過マスクを交換することなく該集積回路の製造に必
要なパターン露光を行うようにしたことを特徴とする荷
電ビーム露光装置。
2. The transmission mask according to claim 1 is provided with a small section necessary for pattern exposure of the same integrated circuit, and the pattern exposure required for manufacturing the integrated circuit can be provided without replacing the transmission mask. A charged beam exposure apparatus characterized by being performed.
JP26461788A 1988-10-20 1988-10-20 Charged beam exposure equipment Expired - Lifetime JP2674147B2 (en)

Priority Applications (4)

Application Number Priority Date Filing Date Title
JP26461788A JP2674147B2 (en) 1988-10-20 1988-10-20 Charged beam exposure equipment
DE68924122T DE68924122T2 (en) 1988-10-20 1989-10-16 Manufacturing process for semiconductor devices and transparent mask for the charged particle beam.
EP89119187A EP0364929B1 (en) 1988-10-20 1989-10-16 Fabrication method of semiconductor devices and transparent mask for charged particle beam
US07/424,733 US5036209A (en) 1988-10-20 1989-10-20 Fabrication method for semiconductor devices and transparent mask for charged particle beam

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP26461788A JP2674147B2 (en) 1988-10-20 1988-10-20 Charged beam exposure equipment

Publications (2)

Publication Number Publication Date
JPH02111012A JPH02111012A (en) 1990-04-24
JP2674147B2 true JP2674147B2 (en) 1997-11-12

Family

ID=17405820

Family Applications (1)

Application Number Title Priority Date Filing Date
JP26461788A Expired - Lifetime JP2674147B2 (en) 1988-10-20 1988-10-20 Charged beam exposure equipment

Country Status (1)

Country Link
JP (1) JP2674147B2 (en)

Also Published As

Publication number Publication date
JPH02111012A (en) 1990-04-24

Similar Documents

Publication Publication Date Title
US5036209A (en) Fabrication method for semiconductor devices and transparent mask for charged particle beam
KR100225335B1 (en) Electron beam exposure apparatus and method, and device manufacturing method
US6914252B2 (en) Charged beam exposure apparatus having blanking aperture and basic figure aperture
EP1160824A2 (en) Illumination system for charged-particle lithography apparatus
JPH09245708A (en) Electron beam exposure device and exposure method thereof
US5256881A (en) Mask and charged particle beam exposure method using the mask
US7269819B2 (en) Method and apparatus for generating exposure data
JP2830854B2 (en) Electron beam mask and exposure method
US6546544B1 (en) Method of producing mask data for partial one-shot transfer exposure and exposure method
JP2674147B2 (en) Charged beam exposure equipment
KR100379290B1 (en) Mask for electron beam exposure and method of manufacturing semiconductor device using the same
JP2004079792A (en) Method for generating charged particle beam exposure data, method for manufacturing semiconductor device and its program
US6610988B1 (en) Charged particle beam drawing apparatus and charged particle beam drawing method
JP3913250B2 (en) Electron beam exposure apparatus and exposure method therefor
JP2007188951A (en) Charged particle beam lithography apparatus and method therefor
JP2677292B2 (en) Method for manufacturing semiconductor device and transmission mask for charged particle beam
JP2002305141A (en) Apparatus and method for electron beam exposure
CN106019821A (en) Electron-Beam Lithography Process with Multiple Columns
JPH1074682A (en) Electron beam drawing device
JP2002252158A (en) Charged beam drawing method and plotting data preparing method
JP2594660B2 (en) Charged particle beam exposure method
KR100453016B1 (en) Pattern transfer and transfer device by charged particle beam
JP2783447B2 (en) Charged particle beam drawing method
JPS5856966B2 (en) Electron beam exposure equipment
JPH06163383A (en) Drawing method by charged particle beam

Legal Events

Date Code Title Description
FPAY Renewal fee payment (prs date is renewal date of database)

Year of fee payment: 11

Free format text: PAYMENT UNTIL: 20080718

S111 Request for change of ownership or part of ownership

Free format text: JAPANESE INTERMEDIATE CODE: R313111

R350 Written notification of registration of transfer

Free format text: JAPANESE INTERMEDIATE CODE: R350

FPAY Renewal fee payment (prs date is renewal date of database)

Free format text: PAYMENT UNTIL: 20090718

Year of fee payment: 12

EXPY Cancellation because of completion of term
FPAY Renewal fee payment (prs date is renewal date of database)

Free format text: PAYMENT UNTIL: 20090718

Year of fee payment: 12