U.S. patent application number 14/793308 was filed with the patent office on 2016-02-11 for replacement apparatus for an optical element.
The applicant listed for this patent is Carl Zeiss SMT GmbH. Invention is credited to Thomas Ittner, Jens Kugler, Thomas Schletterer, Franz Sorg, Andreas Wurmbrand.
Application Number | 20160041475 14/793308 |
Document ID | / |
Family ID | 34673078 |
Filed Date | 2016-02-11 |
United States Patent
Application |
20160041475 |
Kind Code |
A1 |
Kugler; Jens ; et
al. |
February 11, 2016 |
REPLACEMENT APPARATUS FOR AN OPTICAL ELEMENT
Abstract
A replacement apparatus for an optical element mounted between
two adjacent optical elements in a lithography objective has a
holder for the optical element to be replaced, which holder can be
moved into the lithography objective through a lateral opening in a
housing of the same.
Inventors: |
Kugler; Jens; (Aalen,
DE) ; Sorg; Franz; (Aalen, DE) ; Wurmbrand;
Andreas; (Aalen, DE) ; Schletterer; Thomas;
(Stadtroda, DE) ; Ittner; Thomas; (Aalen,
DE) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
Carl Zeiss SMT GmbH |
Oberkochen |
|
DE |
|
|
Family ID: |
34673078 |
Appl. No.: |
14/793308 |
Filed: |
July 7, 2015 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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14499559 |
Sep 29, 2014 |
9081296 |
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14793308 |
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13920339 |
Jun 18, 2013 |
8902519 |
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14499559 |
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13170951 |
Jun 28, 2011 |
8488261 |
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13920339 |
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12830913 |
Jul 6, 2010 |
7995296 |
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13170951 |
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12400965 |
Mar 10, 2009 |
7768723 |
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12830913 |
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11895990 |
Aug 28, 2007 |
7515363 |
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12400965 |
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10966388 |
Oct 15, 2004 |
7265917 |
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11895990 |
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Current U.S.
Class: |
355/67 |
Current CPC
Class: |
G02B 13/14 20130101;
G03F 7/70258 20130101; G03F 7/70825 20130101; G03F 7/7015 20130101;
G02B 7/023 20130101; G02B 7/02 20130101; G02B 7/00 20130101; G03F
7/70191 20130101; G02B 7/14 20130101 |
International
Class: |
G03F 7/20 20060101
G03F007/20 |
Foreign Application Data
Date |
Code |
Application Number |
Dec 23, 2003 |
DE |
10361441.9 |
Claims
1. (canceled)
2. An apparatus, comprising: a holder configured to hold an optical
element, wherein: the holder is configured to move between two
adjacent optical elements within the interior of the lithography
objective; and the holder is movable between an interior of a
lithography objective and an exterior of the lithography objective
so that the holder is useable to do at least one of the following:
a) remove the optical element from the interior of lithography
objective; and b) position the optical element within the interior
of the lithography objective.
3. The apparatus of claim 2, wherein the holder is configured to
move between the interior of the lithography objective and the
exterior of the lithography objective via an opening in a housing
of the lithography objective.
4. The apparatus of claim 2, wherein the opening is closeable via a
seal.
5. The apparatus of claim 2, wherein the optical element is
arranged between two non-replaceable optical elements.
6. The apparatus of claim 2, wherein the optical element is
connected to a stiffening element.
7. The apparatus of claim 6, wherein the stiffening element
comprises the same optical material as the optical element.
8. The apparatus of claim 6, wherein the stiffening element and the
optical element are wrung together.
9. The apparatus of claim 6, wherein the stiffening element is
connected to the optical element via an adhesive.
10. The apparatus of claim 2, wherein the holder comprises a guide
for the optical element.
11. The apparatus of claim 2, wherein the optical element is a
single optical element, and the holder is configured to position
the single optical element within the interior of the housing
between two non-replaceable optical elements.
12. An apparatus, comprising: a lithography objective comprising a
housing; and a holder configured to hold an optical element,
wherein: the holder is configured to move between two adjacent
optical elements within the interior of the lithography objective;
and the holder is movable between an interior of the housing and an
exterior of the housing so that the holder is useable to do at
least one of the following: a) remove the optical element from the
interior of the housing; and b) position the optical element within
the interior of the housing.
13. The apparatus of claim 12, wherein the lithography objective
comprises two adjacent optical elements, and the holder is
configured to move between the two adjacent optical elements.
14. The apparatus of claim 12, wherein the housing has an opening,
and the holder is configured to move between the interior of the
housing and the exterior of the housing via the opening in the
housing.
15. The apparatus of claim 14, further comprising a seal configured
to close the opening in the housing.
16. The apparatus of claim 15, wherein the seal comprises a solid
material.
17. The apparatus of claim 15, wherein the seal comprises a
gasket.
18. The apparatus of claim 15, wherein the seal is a gas seal.
19. The apparatus of claim 12, wherein the optical element is
connected to a stiffening element.
20. The apparatus of claim 12, wherein the lithography objective
comprises a mount configured to hold the optical element.
21. The apparatus of claim 12, wherein the optical element is
configured to be isostatically mounted within the interior of the
housing.
22. The apparatus of claim 12, wherein the lithography objective
comprises a mount configured to hold a second optical element, and
the mount is also configured to hold the optical element which is
holdable by the holder.
23. The apparatus of claim 12, wherein the lithography objective
comprises a holding structure configured to hold the optical
element in the housing.
24. The apparatus of claim 23, wherein the holding structure
comprises an actuator.
25. The apparatus of claim 23, wherein the lithography objective
comprises a mount configured to hold the holding structure.
26. The apparatus of claim 12, wherein the lithography objective
further comprises a spring element configured to act on the optical
element in a direction of an optical axis of the lithography
objective.
27. The apparatus of claim 12, wherein the holder is configured to
position the optical element in a pupil region of the lithography
objective.
28. The apparatus of claim 12, wherein the optical element is a
single optical element, and the holder is configured to position
the single optical element within the interior of the housing
between two non-replaceable optical elements.
29. A method, comprising: using an apparatus to make a
microstructured component, the apparatus comprising: a lithography
objective comprising a housing; and a holder configured to hold an
optical element, wherein: the holder is configured to move between
two adjacent optical elements within the interior of the
lithography objective; and the holder is movable between an
interior of a lithography objective and an exterior of the
lithography objective so that the holder is useable to do at least
one of the following: a) remove the optical element from the
interior of lithography objective; and b) position the optical
element within the interior of the lithography objective.
30. A method, comprising: providing a replacement apparatus for a
lithography objective, the replacement apparatus comprising: a
holder configured to be selectively securable to an optical
element; and an actuator configured to align the optical element
within the lithography objective.
Description
BACKGROUND OF THE INVENTION
[0001] 1. Field of the Invention
[0002] The invention relates to a replacement apparatus for an
optical element arranged between two adjacent optical elements in a
lithography objective. Furthermore, the invention relates to a
lithography objective.
[0003] 2. Description of the Prior Art
[0004] Lithography objectives are known in which the last optical
element, that is to say the one located closest to the wafer to be
exposed, is replaceable.
[0005] Furthermore, projection objectives exist in which lens
barrels are held in a support structure and can be replaced in
their entirety. In order to make this possible, it is necessary to
break down the entire structure of the objective.
[0006] With regard to the prior art relating to the invention,
reference is made to the documents US 2002/0167740 A1 and U.S. Pat.
No. 6,449,106 B1.
[0007] If the optical elements within a lithography objective, such
as lenses or mirrors, for example, change over the course of time
and impair the performance of the objective in such a way that the
intended lifetime of the same cannot be achieved, it should be
possible to remove an appropriately selected optical element within
the objective and, for this, to insert a new, appropriately
machined optical element, which compensates for the imaging errors
of, the other optical elements. The known procedures and apparatus
for replacing the last optical element are not suitable for this
purpose, however.
SUMMARY OF THE INVENTION
[0008] It is therefore an object of the present invention to
provide a replacement apparatus for an optical element mounted
between two adjacent optical elements in a lithography objective,
which permits such a replacement.
[0009] According to the invention, for this purpose, a replacement
apparatus is provided for an optical element mounted between two
adjacent optical elements in a lithography objective, having a
holder for the optical element to be replaced, which holder can be
moved into the lithography objective through a lateral opening in a
housing of the same.
[0010] This replacement apparatus is capable of removing the
optical element from the lithography objective and of moving
another optical element, matched specifically to the changes within
the lithography objective, into the lithography objective again. By
these means, the imaging performance of the lithography objective
can be improved considerably without any intervention in the
structure of the lithography objective. All that is necessary is a
lateral opening in the housing of the lithography objective, which
is dimensioned such that the holder can move into the housing. In
this case, the holder is capable of positioning the optical element
very accurately within the lithography objective.
[0011] The replacement apparatus according to the invention may be
used particularly advantageously in a lithography objective
comprising a plurality of optical elements. Suitable for this
purpose is a lithography objective having a plurality of optical
elements, at least one replacement apparatus for an optical element
mounted between two adjacent optical elements, and having a holder
for the optical element to be replaced, which holder can be moved
into the lithography objective through a lateral opening in a
housing of the same.
[0012] Various exemplary embodiments of the invention are
illustrated in principle below by using the drawing.
BRIEF DESCRIPTION OF THE DRAWINGS
[0013] FIG. 1 shows a lithography objective having a plurality of
optical elements and a replacement apparatus;
[0014] FIG. 2 shows a section along the line II-II from FIG. 1 with
a first embodiment of the replacement apparatus;
[0015] FIG. 3 shows the optical element with a stiffening
element;
[0016] FIG. 4 shows a second embodiment of the replacement
apparatus;
[0017] FIG. 5 shows a third embodiment of the replacement
apparatus;
[0018] FIG. 6 shows a schematic representation of the mounting of
the optical element;
[0019] FIG. 7 shows a first embodiment of a seal for the opening in
the housing of the lithography objective;
[0020] FIG. 8 shows a second embodiment of a seal for the opening
in the housing of the lithography objective;
[0021] FIG. 9 shows a fourth embodiment of the replacement
apparatus; and
[0022] FIG. 10 shows a view in accordance with the arrow from FIG.
9.
DETAILED DESCRIPTION
[0023] FIG. 1 shows lithography objective 1 with a housing 1a, in
which, in a manner known per se, a plurality of optical elements 2,
such as lenses, plates or mirrors for example, are arranged. The
arrangement of the optical elements 2 within the lithography
objective 1 should in this case be seen as purely exemplary. The
lithography objective 1 can be suitable for any type of lithography
and can be part of an exposure apparatus not shown in its, entirety
in the drawings. Using the lithography objective 1 illustrated, it
is possible, as described below, to replace an optical element 2a
which is mounted or held between two adjacent optical elements 2
preferably installed permanently in the lithography objective 1 by
means of respective mounts 3 and thus not replaceable. The
replaceable optical element 2a, which is preferably likewise a
lens, a plate or a mirror, can be seen in the sectional
illustration according to FIG. 2 and is preferably located in a
pupil region of the lithography objective 1. As a result, the
replaceable optical element 2a can be designed with a particularly
small- diameter as compared with the other optical elements 2.
However, the replaceable optical element 2a can be located at any
other point between two adjacent optical elements 2 installed in
the lithography objective 1.
[0024] In order to replace the optical element 2a, a replacement
apparatus 4 is provided, which can likewise be seen better in FIG.
2. The replacement apparatus 4 has a holder 5 for the optical
element 2a, which can be moved into the lithography objective 1
through a lateral opening 6 in the housing 1a of the lithography
objective 1. In the present embodiment, illustrated very
simplified, the opening 6 is formed by a plurality of spacer
elements 7 on the periphery of the housing 1a. If, as described
above, the replaceable optical element 2a is located in the pupil
region of the lithography objective 1, this permits a
correspondingly small size of the holder 5 and, accordingly, also
of the opening 6. It is to be preferred if the spacer elements 7
are arranged symmetrically, in order not to impair the dynamic
behavior of the lithography objective 1 in an impermissible way.
The maximum diameter of an optical element 2a to be replaced is
given by three spacer elements 7.
[0025] In order to replace or change the optical element 2a, the
holder 5 moves through the opening 6 into the lithography objective
1 and removes the optical element 2a to be replaced. After the
holder 5 has left the lithography objective 1 through the opening 6
again, the optical element 2a can be removed from the holder 5
outside the lithography objective 1. Then, with the aid of tools,
not illustrated, outside the lithography objective 1, a new optical
element 2a is inserted into the holder 5 and the holder 5 moves
through the opening 6 into the housing 1a of the lithography
objective 1. The movement of the holder 5 is in each case indicated
by the arrow designated "A".
[0026] The newly introduced optical element 2a has previously been
machined exactly to the requirements within the lithography
objective 1 and is capable of compensating for imaging errors which
have resulted over the time of use of the lithography objective 1.
The measures taken on the optical element 2a for this purpose can
be intrinsically known and should therefore not be part of the
present application. Following the positioning of the optical
element 2a within the lithography objective 1, the holder 5 leaves
the lithography objective 1 again through the opening 6.
[0027] FIG. 3 shows the replaceable optical element 2a, which is
connected to a stiffening element 8. The stiffening element 8,
which is ring-like in the embodiment illustrated, preferably
consists of substantially the same optical material as the
replaceable optical element 2a, of SiO.sub.2 in the present case,
and is used to stiffen the optical element 2a, in particular during
the transport of the same. The stiffening element 8 is particularly
expedient in the case of flexible optical elements 2a. Of course,
the optical element 2a can also consist of CaF.sub.2 or another
suitable optical material.
[0028] The connection of the stiffening element 8 to the
replaceable optical element 2a can be made by wringing, by adhesive
bonding, by soldering or in another suitable manner. If the
stiffening element 8 does not consist of the same optical material
as the optical element 2, then it should preferably have an
approximately identical coefficient of thermal expansion to the
optical element 2a. If this is not the case either, then a
connection between the stiffening element 8 and the optical element
2a via solid-body linkages, not illustrated, can be provided.
Furthermore, it is also possible to hold the optical element 2a in
its own mount.
[0029] From FIG. 3, it is further possible to see that the holder
.5 acts both on the optical element 2a and on the stiffening
element 8. Of course, the holder 5 can also act only on the
stiffening element 8.
[0030] A second embodiment of the replacement apparatus 4 is
illustrated in FIG. 4. Once again, the replaceable optical element
2a is arranged between two optical elements 2 mounted in the
lithography objective 1 by means of respective mounts 3. In order
to hold and to mount the optical element 2a within the lithography
objective 1, use is made of a separate holding structure 9 which,
in this case, is placed on mount 3 of the adjacent optical element
2a, which is located underneath the replaceable optical element 2a.
Although this is not illustrated, the optical element 2a could also
be provided with the stiffening element 8 in this case. The
separate holding structure 9 preferably has three supports 10, of
which only two can be seen in the illustration according to FIG. 4.
To this extent, this is an isostatic mounting of the optical
element 2a within the lithography objective 1. In addition, the
separate holding structure 9 has a plurality of actuators 11, which
are capable of aligning the optical element 2a in particular in the
z-direction, that is to say in the direction of the optical axis of
the lithography objective 1, tilting of the optical element 2a also
being possible. In the present case, each support 10 is assigned to
one of the actuators 11. Of course, only one actuator 11 could also
be provided and, furthermore, it would be possible to accommodate
respective manipulators in the holding structure 9 instead of the
actuators 11.
[0031] In order to hold and to mount the optical element 2a in a
defined manner within the lithography objective 1 following its
replacement and to secure the same, plurality of spring elements 12
are provided which, in the present case, are supported on the mount
3 of the optical element 2 arranged above the replaceable optical
element 2a. The spring elements 12 can be controllable by means of
devices, not illustrated, in order, following the deposition of the
optical element 2a on the holding structure 9, to press the same
against the holding structure 9 and, in this way, to ensure
accurate positioning of the optical element 2a in the z-direction,
that is to say in the direction of the optical axis of the
lithography objective 1. If appropriate, only one spring element 12
acting on the optical element 2a could also be provided. In order
to deposit the optical element 2a on the holding structure 9, a
movement of the holder 5 in the z-direction can be necessary. Thus,
the holding structure 9, like the aforementioned mount as well, is
used to mount the optical element 2a in the lithography objective 1
during the use of the same.
[0032] FIG. 4 further reveals that the opening 6 in the housing 1a
can be closed by a seal 13. In the embodiment according to FIG. 4,
this is a solid material seal or gasket, various embodiments of the
seal 13 being explained later. The seal 13 preferably remains in
place during the operation of the lithography objective 1 and is
removed only in order to make the opening 6 accessible to the
holder 5 in order to replace the optical element 2a.
[0033] In the embodiment of the replacement apparatus 4 according
to FIG. 5, the replaceable optical element 2a is again provided
with the stiffening element 8. In a way similar to that in the
embodiment according to FIG. 4, the holding structure 9 is also
provided here, and is again supported on the mount 3 of that
optical element 2 which is located underneath the replaceable
optical element 2a. Instead of the supports 10, the holding
structure 9 is in this case provided with a mount 14 which rests on
the mount 3. Of course, the spring elements 12 or the at least one
spring element 12 could act On the optical element 2a in this
embodiment as well.
[0034] In an embodiment which is not illustrated, the replaceable
optical element 2a could also rest directly on the mount 3 of the
optical element 2 located underneath. In this case, attracting the
optical element 2a by means of vacuum, and therefore corresponding
fixing, is possible.
[0035] FIG. 6 shows an illustration of the principle of one
possible way of mounting the optical element 2a within the housing
1a of the lithography objective 1. The optical element 2a is again
provided with the stiffening element 8 and, via the stiffening
element 8, is mounted with respect to the housing 1a by means of a
loose bearing 15 and a fixed bearing 16 with the effect of an
isostatic mounting. Both the loose bearing 15 and the fixed bearing
16 can consist of hard metal, of hardened steel or of a precious
stone, for example of ruby.
[0036] A first embodiment of the seal 13 for sealing the opening 6
of the housing 1a is illustrated in FIG. 7. In this case, a cover
plate 17 is provided, which is sealed with respect to the housing
is via an O-ring 18. In this way, contamination of the interior of
the housing 1a of the lithography objective 1 is prevented, at the
same time the accessibility of the opening 6 being ensured. Instead
of the solid material seal, an elastic gasket or a metal seal or a
Viton seal can also be used. If a metal seal is used, its material
can for example be copper.
[0037] The embodiment of the seal 13 according to FIG. 8 is a gas
seal or a gas-dynamic restrictor, which is based on the principle
that, by means of the pressure p.sub.i within the housing 1a of the
lithography objective 1, which is increased by comparison with the
pressure P.sub.a outside the housing 1a, no gaseous substances or
other contaminants can penetrate into the housing 1a. For this
purpose, the cover plate 17 is again provided to be fastened
opposite the housing 1a with a slit 19 which has a width from about
1 to 10 .mu.m. In order to prevent contaminating substances being
able to get into the interior of the lithography objective 1, care
must merely be taken that the pressure p.sub.i in the interior of
the housing 1a is greater than the pressure p.sub.a outside the
housing 1a and, in this way, a directed flow takes place from the
interior of the lithography objective 1 to the outside.
[0038] FIGS. 9 and 10 show a further embodiment of the replacement
apparatus 4 for replacing the optical element 2a. In this case, the
holder 5 of the replacement apparatus 4 has a guide 20 in the form
of two lateral grooves 21, into which respective lateral
protrusions 22 belonging to the optical element 2a engage. The
lateral protrusions 22 are not absolutely necessary, however. In
the case of a planar plate, the optical element 2a can be guided
with its edge in the grooves 21. In the present case, as can be
seen in FIG. 10, the grooves 21 and the protrusions 22 are
rectangular, but could also have any other suitable cross section.
The movement of the optical element 2a into the holder 5 is limited
by a spring bearing 23 which, together with a fixed bearing 24 on
the open side of the holder 5, ensures exact positioning of the
optical element 2a inside the holder 5. At the same time, the fixed
bearing 24 serves as a closure for the holder 5. To this extent,
the grooves 21 serve only to guide the optical element 2a during
the replacement, whereas the position of the optical element 2a is
determined by the spring bearing 23 and the fixed bearing 24. Of
course, the fixed bearing 24 can be provided with a suitable seal
similar to the seal 13 in order to close the opening 6 when the
holder 5 is located inside the lithography objective 1.
Furthermore, a spring element 25 is provided which, similarly to
the spring elements 12 according to the embodiment of FIG. 4,
ensures accurate positioning of the optical element 2a in the
z-direction.
[0039] In this embodiment, provision is made for the holder 5 to
remain within the lithography objective 1 during the transport and
during the operation of the same and hence, in addition to the
possibility of replacing the optical element 2a, also forms a mount
for the same. If appropriate, the holder 5 could also remain within
the lithography objective 1 in the other embodiments, if measures
suitable for this purpose are taken.
[0040] The lithography objective 1 described above can be part of
an exposure apparatus and is provided for manufacturing
microstructured components such as wafers.
* * * * *