Method for forming photoresist pattern and manufacturing...

Details Method for forming photoresist pattern and manufacturing... Method for forming photoresist pattern and manufacturing...

2001-07-06

2002-09-03

McPherson, John A. (Department: 1756)

Radiation imagery chemistry: process, composition, or product th

Imaging affecting physical property of radiation sensitive...

Making named article

C430S314000, C430S315000, C430S319000, C430S322000, C029S603070, C029S603160

Reexamination Certificate

active

06444406

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to a method for forming a photoresist pattern and a manufacturing method of a magnetoresistive effect (MR) thin-film magnetic head provided with an anisotropic magnetoresistive effect (AMR) element, or with a giant magnetoresistive effect (GMR) element such as a spin-valve magnetoresistive effect (SVMR) element.
DESCRIPTION OF THE RELATED ART
Such MR element in general has a sensor layer operating as a sensor (an MR layer in the AMR element, a ferromagnetic free layer in the GMR element for example), two magnetic domain control layers for applying a longitudinal bias to the sensor layer in order to make this layer in a single domain state, and two lead conductor layers laminated on the domain control layers. Both the magnetic domain control layers and the lead conductor layers are contacted with side end faces of the sensor layer.
These magnetic domain control layers and the lead conductor layers laminated each other are in general separated to have the same space between them along the track width direction, in other words, these layers are formed in the same pattern. This is because these domain control layers and the lead conductor layers are sequentially deposited by using the same photoresist pattern formed by a photolithography process including deposition of a resist film, its exposure and its development.
Recently, the track width of the magnetic head becomes narrower and thus the MR element is required to improve its output performance. In order to satisfy this requirement, a structure called as “lead overlaid structure”, in which lead conductor layers are inwardly extended from magnetic domain control layers, in other words, a space between the lead conductor layers is narrower than that of the domain control layers (the actual width of the MR layer) have been proposed (for example, U.S. Pat. No. 6,141,190 and Japanese patent publication Nos. 11031313A, 11224411A and 2000076629A).
U.S. Pat. No. 6,141,190 and Japanese patent publication No. 2000076629A disclose a lead overlaid structure fabricated by executing double photolithography processes.
FIGS. 1
a
to
1
f
show sectional views seen from an air bearing surface (ABS) of an MR element, illustrating processes for manufacturing this lead overlaid structure.
First, as shown in
FIG. 1
a,
an MR layer
11
is deposited on a shield gap layer
10
, and then a first photoresist pattern
12
is formed on the MR layer
11
by performing a first photolithography process.
Then, as shown in
FIG. 1
b,
ion milling using the first photoresist pattern
12
is performed to obtain a patterned MR layer
11
′, and thereafter a hard magnetic layer
13
for forming magnetic domain control layers is deposited using the same first photoresist pattern
12
.
Then, as shown in
FIG. 1
c,
the first photoresist pattern
12
is removed by the lift-off process to obtain patterned magnetic domain control layers
13
′.
Then, as shown in
FIG. 1
d,
a second photoresist pattern
14
provided with a width narrower than that of the first photoresist pattern
12
is formed by performing a second photolithography process.
Then, as shown in
FIG. 1
e,
a conductive layer
15
for forming lead conductor layers is deposited using the second photoresist pattern
14
.
Thereafter, as shown in
FIG. 1
f,
the second photoresist pattern
14
is removed by the lift-off process to obtain patterned lead conductor layers
15
′ and thus the lead overlaid structure is obtained.
However, according to this manufacturing method of the lead overlaid structure, since twice of photolithography processes are necessary to perform, the manufacturing processes of the MR element becomes complicated and precise alignment between these photolithography is required.
Japanese patent publication No. 11031313A discloses a method of forming a lead overlaid structure fabricated by executing a single photolithography process. In this method, a sputtering angle for forming magnetic domain control layers and a sputtering angle for forming lead conductor layers are different from each other.
However, according to this manufacturing method of the lead overlaid structure, since the pattern of the lead conductor layers is controlled only by adjusting the sputtering angle, it is quite difficult to precisely control the track width and the amount of overlap (
FIG. 1
f
).
Japanese patent publication No. 11224411A discloses a method of forming a lead overlaid structure fabricated by executing a single photolithography process. In this method, a conductive layer for forming lead conductor layers is deposited by sputtering using a photoresist pattern prepared for forming an MR layer before the MR layer is patterned. Then, the conductive layer is partially removed to form a part of lead conductor layers during the patterning of the MR layer, and thereafter magnetic domain control layers and other part of the lead conductor layers are formed by sputtering using the same photoresist pattern.
However, according to this manufacturing method of the lead overlaid structure, since the lead conductor layers are formed in stages by two sputtering processes, it is difficult to surely connect in a low resistance these parts of the lead conductor layers formed in two steps. Also, since the magnetic domain control layers and the lead conductor layers are patterned using the broad-shouldered photoresist pattern due to side wall deposition, it is difficult to make precise pattern of these layers and thus it is quite difficult to precisely control the amount of overlap.
SUMMARY OF THE INVENTION
It is therefore an object of the present invention to provide a manufacturing method of an MR thin-film magnetic head, whereby the amount of overlap can be precisely controlled without complicating its manufacturing processes.
Another object of the present invention is to provide a novel method for forming a photoresist pattern and a novel manufacturing method of an MR thin-film magnetic head, whereby a photoresist pattern with a narrow width can be easily formed.
According to the present invention, a method for forming a photoresist pattern, includes a step of forming a photoresist pattern having a certain width, and a step of performing thereafter ion milling with respect to side walls of the formed photoresist pattern by using an ion beam with a large incident angle so as to reduce the width of the formed photoresist pattern.
Since the side walls of the photoresist pattern are shaven by ion milling with a large incident angle ion beam, namely with a large milling angle, a photoresist pattern with a narrower width can be easily provided.
It is preferred that the incident angle of the ion beam is an angle larger than 40 degrees and smaller than 90 degrees.
According to the present invention, also, a manufacturing method of an MR thin-film magnetic head, includes a step of depositing a layer for forming magnetic domain control layers by using a photoresist pattern having a certain width, a step of performing thereafter ion milling with respect to side walls of the photoresist pattern by using an ion beam with a large incident angle so as to reduce the width of the photoresist pattern, and a step of depositing a layer for forming lead conductor layers by using the photoresist pattern with the reduced width.
Furthermore, according to the present invention, a manufacturing method of an MR thin-film magnetic head, includes a step of forming a photoresist pattern having a certain width on an MR layer, a step of performing ion milling with respect to the MR layer by using the photoresist pattern to form a patterned MR layer, a step of depositing a layer for forming magnetic domain control layers by using the photoresist pattern, a step of performing thereafter ion milling with respect to side walls of the photoresist pattern by using an ion beam with a large incident angle so as to reduce the width of the photoresist pattern, and a step of depositing a layer for forming lead conductor layers by using the photoresist pattern with the reduced width.
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