Pattern formation method

Radiation imagery chemistry: process – composition – or product th – Imaging affecting physical property of radiation sensitive... – Forming nonplanar surface

Reexamination Certificate

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Details

C430S326000, C430S907000, C430S945000

Reexamination Certificate

active

06673523

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention relates to a pattern formation method, and more particularly, it relates to a pattern formation method of forming a resist pattern used for forming a semiconductor device or a semiconductor integrated circuit on a semiconductor substrate by using exposing light of a wavelength of a 1 nm through 180 nm band.
As exposing light used in forming a resist pattern through pattern exposure of a resist film formed on a semiconductor substrate, KrF excimer laser has been put to practical use. Also, a device including a semiconductor device or a semiconductor integrated circuit formed by using a resist pattern obtained by the pattern exposure using the KrF excimer laser is almost commercially available.
In this case, a resist material including a phenol resin is mainly used as a resist material to be pattern-exposed with the KrF excimer laser.
For further refinement of a semiconductor device or a semiconductor integrated circuit, ArF excimer laser with a shorter wavelength than the KrF excimer laser is used as the exposing light. A resist material including an acrylic acid type resin is mainly under examination as a resist material used in the pattern exposure with the ArF excimer laser.
In order to realize further refinement of a semiconductor device or a semiconductor integrated circuit, however, it is necessary to use, as the exposing light, a laser beam with a wavelength shorter than that of the ArF excimer laser, such as a Xe
2
laser beam (with a wavelength of a 172 nm band), a F
2
laser beam (with a wavelength of a 157 nm band), a Kr
2
laser beam (with a wavelength of a 146 nm band), an ArKr laser beam (with a wavelength of a 134 nm band), an Ar
2
laser beam (with a wavelength of a 126 nm band) or a soft X-ray beam (with a wavelength of a 13, 11 or 5 nm band).
Therefore, the present inventors have formed a resist pattern from a resist film of a known resist material through pattern exposure using a F
2
laser beam. Now, a method of forming a resist pattern from a known resist material will be described with reference to FIGS.
6
(
a
) through
6
(
d
).
First, a resist material having the following composition is prepared:
Base polymer:
poly((2-methyl-2-adamantylmethacrylate) (30 mol %) -
2
g
(t-butylmethacrylate) (30 mol %) - (methylmethacrylate) (30 mol
%) - (methacrylic acid) (10 mol %)
Acid generator:
triphenylsulfonium triflate
0.4
g
Solvent:
diglyme
20
g
Then, as is shown in FIG.
6
(
a
), the resist material having the aforementioned composition is applied by spin coating on a semiconductor substrate 1, thereby forming a resist film 2 with a thickness of 0.5 &mgr;m.
Next, as is shown in FIG.
6
(
b
), the resist film
2
is irradiated with a F
2
laser beam
4
through a mask
3
for pattern exposure. In this manner, an acid is generated from the acid generator in an exposed portion
2
a
of the resist film
2
while no acid is generated in an unexposed portion
2
b
of the resist film
2
.
Then, as is shown in FIG.
6
(
c
), the semiconductor substrate
1
is heated with a hot plate, for example, at 100° C. for 60 seconds.
Thereafter, the resist film
2
is developed with an alkaline developer, such as a 2.38 wt % tetramethylammonium hydroxide developer. Thus, the resist pattern is formed.
The resultant resist pattern
5
has, however, a defective pattern shape as is shown in FIG.
6
(
d
).
The resist pattern
5
similarly has a defective pattern shape not only when the F
2
laser beam is used as the exposing light but also when light of a wavelength of a 1 nm through 180 nm band is used.
SUMMARY OF THE INVENTION
In consideration of the aforementioned conventional problem, an object of the invention is forming a resist pattern in a good pattern shape through pattern exposure using light of a wavelength of a 1 nm through 180 nm band as exposing light.
The present inventors have concluded that the resist pattern has a defective pattern shape because the resist film has a high absorbing property against light of a wavelength of a 1 nm through 180 nm band, and examined various means for decreasing the absorbing property against light of a wavelength of a 1 nm through 180 nm band. As a result, it has been found that the absorbing property of the resist film against light of a wavelength of a 1 nm through 180 nm band can be decreased when the resist material includes a halogen atom, a cyano group, a nitro group, an alkoxy group, an amino group, an alkyl group, a trifluoromethyl group or a mercapto group.
Then, the inventors have examined the reason why the absorbing property against light of a wavelength of a 1 nm through 180 nm band can be decreased when the resist material includes a halogen atom, a cyano group, a nitro group, an alkoxy group, an amino group, an alkyl group, a trifluoromethyl group or a mercapto group. As a result, it has been found that such an atom or a group has a property to shift the absorption wavelength band against the exposing light inherent in the resist material or to decrease the absorbing property of the resist material against light of a short wavelength band.
Now, referring to
FIG. 1
, an example to verify that the peak of a light absorption wavelength of a resist material against exposing light is shifted toward a longer wavelength when a base polymer of the resist material includes an amino group will be described.
FIG. 1
is a graph for explaining that the absorption zone of the exposing light is shifted by substituting an amino group for an aromatic ring of poly(vinyl phenol). In the graph of
FIG. 1
, a broken line indicates the absorption wavelength of poly(vinyl phenol) in which an amino group is not substituted for the aromatic ring; and a solid line indicates the absorption wavelength of an o,o-2 substitution product obtained by substituting an amino group for the aromatic ring of poly(vinyl phenol). As is understood from
FIG. 1
, the peak of the absorption wavelength, which is a 190 nm band when an amino group is not substituted, is shifted toward a longer wavelength by approximately 30 nm when an amino group is substituted.
When the peak of the absorption wavelength zone of the resist film is a 190 nm band, the resist film has poor transmittance against a F
2
laser beam with a wavelength of a 157 nm band. However, when the peak of the absorption wavelength zone is shifted from a 190 nm band toward a longer wavelength by approximately 30 nm, the transmittance against the F
2
laser beam is increased.
Also Japanese Laid-Open Patent Publication No. 60-254041 discloses a resist material including fluorine, that is, one of halogen atoms, in its base polymer. This resist material includes, in the polymer, &agr;-trifluoromethyl acrylic acid and an ester of alcohol having an electron attractive group as one repeating unit. The publication describes that the sensitivity of the resist material against an electron beam can be thus improved.
However, while an electron beam is used as exposing light in the description of Japanese Laid-Open Patent Publication No. 60-254041, the exposing light is light of a wavelength of a 1 nm through 180 nm band in this invention, and thus, the exposing light is completely different in the wavelength band. Furthermore, while the base polymer includes a halogen atom for the purpose of improving the sensitivity against an electron beam in the description of Japanese Laid-Open Patent Publication No. 60-254041, the polymer includes a halogen atom for the purpose of improving the transmittance against exposing light of a wavelength of a 1 nm through 180 nm band in this invention. Thus, these techniques are completely different in the technical idea.
Specifically, the pattern formation method of this invention comprises a resist film forming step of forming a resist film by applying, on a substrate, a resist material including at least one atom or group selected from the group consisting of a halogen atom, a cyano group, a nitro group, an alkoxy group, an amino group, an alkyl group, a trifluoromethyl group and a mercapto group; and a pattern forming step of formin

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