Claims
- 1. A method for determining target values for the translation, rotation, and magnification of a layer to be formed on a substrate with layers which have been formed on the substrate, said method comprising the steps of:
- measuring the positions of marks formed on each of at least two layers which have been formed on the substrate;
- determining translation, rotation, and magnification errors of the layer to be formed on the substrate with respect to the at least two layers based on the positions measured in said measuring step: and
- determining target values for the translation, rotation, and magnification of the layer to be formed on the substrate based on the determined translation, rotation, and magnification errors.
- 2. A method according to claim 1, wherein the layers comprise an A layer, a B layer, and a C layer, wherein the position of the layer C to be formed on the substrate is denoted by c, the position of layer A is denoted by a, the position of layer B is denoted by b, the values of required alignment accuracy between layers C and A, and between layers C and B are denoted by Ca and Cb, respectively, the alignment error between layers A and C is denoted by ea, and the alignment error between layers A and B is denoted by .epsilon..sub.b, and wherein said determining step determines position c according to the following equation:
- c=Ma/(Ma+Mb).times.a+Mb/(Ma+Mb).times.b,
- where
- Ma=1/(Ca-.epsilon.a), and Mb=1/(Cb-.epsilon.b).
- 3. A method for aligning a wafer on which a plurality of layers are laminated with a mask, said method comprising the steps of:
- measuring the positions of marks formed on each of at least two layers from among the plurality of layers;
- determining translation, rotation, and magnification errors of a pattern on the mask to be formed on the wafer with respect to the at least two layers based on the positions measured in said measuring step:
- determining target values for the translation, rotation, and magnification of the pattern to be formed on the wafer based on the determined errors: and aligning the wafer with the mask based on the determined target values.
- 4. A method according to claim 3, wherein the layers comprise an A layer, a B layer, and a C layer, wherein the position of the layer C, to be formed on the substrate is denoted by c, the position of layer A is denoted by a, the position of layer B is denoted by b, the values of required alignment accuracy between layers C and A, and between layers C and B are denoted by Ca and Cb, respectively, the alignment error between layers A and C is denoted by .epsilon.a, and the alignment error between layers A and B is denoted by .epsilon.b, and wherein said aligning step determines position c according to the following equation:
- c=Ma/(Ma+Mb).times.a+Mb/(Ma+Mb).times.b),
- where
- Ma=1/(Ca-.epsilon.a) and Mb=1/(Cb-.epsilon.b).
- 5. A method for manufacturing devices comprising the steps of:
- coating a resist on a wafer on which a plurality of layers are laminated, wherein marks are formed on each of at least two of the plurality of layers;
- measuring the positions of marks formed on each of the at least two layers from among the plurality of layers;
- determining translation, rotation, and magnification errors of a pattern of a mask to be formed on the wafer with respect to the at least two layers based on the measured positions:
- determining target values for the translation, rotation, and magnification of the pattern of the mask to be formed on the wafer based on the determined translation, rotation, and magnification errors;
- aligning the wafer with the mask based on the determined target values
- transferring the pattern on a mask onto the resist on the surface of the wafer by forming an image of the pattern on the surface of the wafer; and
- developing the resist on the wafer to form a layer on the surface of the wafer.
- 6. A method according to claim 5, wherein the layers comprise an A layer, a B layer and a C layer, wherein the position of the layer C, to be formed on the substrate in said transferring and developing steps is denoted by c, the position of layer A is denoted by a, the position of layer B is denoted by b, the values of required alignment accuracy between layers C and A, and between layers C and B are denoted by Ca and Cb, respectively, the alignment error between layers A and C is denoted by .epsilon.a, and the alignment error between layers A and B is denoted by .epsilon.b, and wherein said aligning step determines position c according to the following equation:
- c=Ma/(Ma+Mb).times.a+Mb/(Ma+Mb).times.b,
- where
- Ma=1/(Ca-.epsilon.a) and Mb=1/(Cb-.epsilon.b).
- 7. A method for determining target values for the translation, rotation, and magnification of a layer C, to be formed on a substrate, with layers A and B which have been formed on the substrate, wherein the translation error between layers A and C is denoted by .epsilon..sub.a and the translation error between layers A and B is denoted by .epsilon..sub.b, said method comprising the steps of:
- measuring the positions of marks formed on each of layers A and B which have been formed on the substrate;
- determining rotation and magnification errors of the layer C to be formed on the substrate with respect to layers A and B based on the measured positions;
- determining the translation error E.sub.b-c between layers B and C according to the equation:
- E.sub.b-c =(1/2(.epsilon..sup.2.sub.a +.epsilon..sup.2.sub.a +.epsilon..sup.2.sub.b)).sup.1/2 ;
- and
- determining target values for the translation, rotation, and magnification of the layer C to be formed on the substrate based on the determined translation, rotation, and magnification errors.
- 8. A method for aligning a wafer on which a plurality of layers A and B, are laminated with a mask and on which a layer C will formed with the mask, wherein the translation error between layers A and C and between layers A and B are denoted by .epsilon..sub.a and .epsilon..sub.b, respectively, said method comprising the steps of:
- measuring the positions of marks formed on each of layers A and B;
- determining rotation and magnification errors of the layer C to be formed on the substrate with respect to layers A and B based on the measured positions;
- determining the translation error E.sub.b-c, between layers B and C according to the equation:
- E.sub.b-c =(1/2(.epsilon..sup.2.sub.a +.epsilon..sup.2.sub.a +.epsilon..sup.2.sub.b)).sup.1/2 ;
- determining target values for the translation, rotation, and magnification of the layer C to be formed on the wafer based on the determined translation, rotation, and magnification errors; and
- aligning the wafer with the mask based on the results of the determined target values.
- 9. A method for manufacturing devices comprising the steps of:
- coating a resist on a wafer on which a plurality of layers A and B, are laminated and on which a layer C will be formed, wherein the translation error between layers A and C and between layers A and B are denoted by .epsilon..sub.a and .epsilon..sub.b, respectively,
- measuring the positions of marks formed on each of layers A and B;
- determining rotation and magnification errors of the layer C to be formed on the wafer with respect to layers A and B based on the measured positions:
- determining the translation error E.sub.b-c between layers B and C according to the equation:
- E.sub.b-c =(1/2(.epsilon..sup.2.sub.a +.epsilon..sup.2.sub.a +.epsilon..sup.2.sub.b)).sup.1/2 ;
- determining target values for the translation, rotation, and magnification of the layer C to be formed on the wafer based on the determined translation, rotation, and magnification errors:
- aligning the wafer with the mask based on the determined target values;
- transferring a pattern on a mask onto the resist on the surface of the wafer by forming an image of the pattern on the surface of the wafer; and
- developing the resist on the wafer to form the layer C on the surface of the wafer.
Priority Claims (1)
Number |
Date |
Country |
Kind |
6-111021 |
May 1994 |
JPX |
|
Parent Case Info
This application is continuation of application Ser. No. 08/445,717 filed May 22, 1995, now abandoned.
US Referenced Citations (5)
Continuations (1)
|
Number |
Date |
Country |
Parent |
445717 |
May 1995 |
|