Electricity: electrical systems and devices – Electric charge generating or conducting means – Use of forces of electric charge or field
Reexamination Certificate
2002-08-07
2004-12-14
Sircus, Brian (Department: 2836)
Electricity: electrical systems and devices
Electric charge generating or conducting means
Use of forces of electric charge or field
C361S233000
Reexamination Certificate
active
06831823
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a method and apparatus for chucking a substrate, the apparatus comprising an electrostatic chuck for electrostatically chucking and holding a substrate to be processed. More particularly, the present invention relates to a method and apparatus for chucking a substrate which are capable of producing a sufficiently high chucking force during the substrate chucking operation, and making it easy to separate the substrate after the chucking operation ends. For example, the substrate chucking apparatus is used for an ion implanter, ion doping apparatus, ion beam etching apparatus, plasma CVD apparatus, thin film forming apparatus and the like.
2. Description of the Related Art
A related-art substrate chucking apparatus of this type is shown in FIG.
4
. The substrate chucking apparatus includes an electrostatic chuck
6
of the bipolar type, and a DC power supply
14
of the bipolar output type. The electrostatic chuck
6
electrostatically chucks a substrate
4
(e.g., a semiconductor wafer). The DC power supply
14
applies DC chucking voltages Vc whose polarities are opposite to each other and values are equal to two electrodes
10
and
12
of the electrostatic chuck
6
.
In this example, the electrostatic chuck
6
is constructed such that, for example, two semicircular electrodes
10
and
12
are buried in a surface region of an insulating member
8
made of ceramics, e.g., alumina, while being oppositely arrayed so as to form a circle.
In this example, the DC power supply
14
includes a positive power supply
16
of the output voltage variable type and a negative power supply
18
of the output voltage variable type. The positive power supply
16
outputs a positive chucking voltage Vc (+Vc). The negative power supply
18
outputs a negative chucking voltage Vc (−Vc). In the specification, the positive or negative chucking voltage will be referred simply to as a chucking voltage Vc where there is no need of taking the polarity into consideration. The same thing is correspondingly applied to the drawings.
When the chucking voltage Vc is applied from the DC power supply
14
to the electrostatic chuck
6
, positive and negative electric charges are accumulated between the substrate
4
and the electrodes
10
and
12
. The substrate
4
is chucked to and held with the electrostatic chuck
6
by an electrostatic force acting between the substrate
4
and the electrodes
10
and
12
. In this state, ion beams
2
, for example, are irradiated onto the substrate
4
, whereby a desired process, e.g., ion injection, may be carried out.
FIG. 5
is a graph showing various characteristics of the electrostatic chuck of each of
FIGS. 1 and 4
when the substrate
4
is chucked to the electrostatic chuck
6
while the chucking voltage is fixed. Curve A shows time-dependency of the chucking force, which ranges from the start of chucking operation, when the chucking voltage is fixed. Curve B shows elapsing time dependency (curve B) of residual chucking force , which ranges from turning off of the chucking voltage after applying the chucking voltage for 1800 seconds (chucking time=1800 seconds). Curve C shows chucking-time dependency of the residual chucking force when five seconds has elapsed after the chucking voltage is turned off.
The curve A shows that the chucking force rapidly increases immediately after the chucking operation starts, and is gradually saturated with time. The curve B shows that the residual chucking force is present after the chucking is turned off (viz., the chucking voltage Vc is turned off), and it exponentially decreases. The curve C shows that the residual chucking force becomes larger as the chucking time is longer (or substantially proportional to the chucking time) when observed at a fixed time (e.g., 5 seconds) after the chucking is turned off.
When the amplitude of the chucking voltage Vc is varied, simply the chucking voltage Vc is more increased, the chucking force and the residual chucking force are more increased. When the chucking voltage Vc is more decreased, the chucking force and the residual chucking force are more decreased. Usually, the electrostatic chuck
6
other than those shown in
FIGS. 1 and 4
has also characteristics similar to that of FIG.
5
.
In the electrostatic chuck
6
, the residual chucking force is present after the chucking voltage Vc is turned off. Accordingly, it is difficult to separate the substrate
4
from the electrostatic chuck
6
.
To cope with this, there is proposed a technique as disclosed in Japanese Patent Unexamined Publication No. Hei. 4-213854. In the technique, as shown in
FIG. 6
, the chucking voltage Vc to be applied is changed in two steps at predetermined timings.
More specifically, the chucking voltage Vc of a large value (V
1
) is applied to the electrostatic chuck when chucking of the substrate
4
to the electrostatic chuck
6
starts (time
0
to t
1
). Thereafter, when the substrate
4
is processed, the chucking voltage Vc is changed to the chucking voltage Vc of a small value (V
2
) (after time t
2
), and then the voltage of the small value V2 is maintained till the process ends (t
3
). The amplitude of the chucking voltage Vc may be gradually decreased between t
1
(e.g., 10 seconds) and t
2
(e.g., 15 seconds) or may be suddenly decreased at t
2
as indicated by two-dot chain line D.
The technique of the publication describes that by, preventing an excessive chucking force at the time of processing the substrate
4
, generation of residual charge is prevented to thereby to making it easy to separate the substrate
4
after the substrate processing.
With diversification of the substrate processing, the chucking time of the substrate
4
by the electrostatic chuck
6
sometimes is longer, and the timing of starting the substrate
4
processing sometimes is shifted. Where a measure in which the chucking voltage Vc is changed in two steps at predetermined timings, as in the publication mentioned above, is used, it is difficult to flexibly cope with the circumstance changes.
The reason for this is that in some circumstances, the time that the substrate
4
is chucked to the electrostatic chuck
6
sometimes becomes long or short before the substrate processing starts. Accordingly, it is difficult to determine the voltage change time t
2
. The same difficulty also occurs in the control of changing that timing.
Further, when the time t
2
is long (large), the chucking time is long. In addition, the chucking time by the chucking voltage Vc, which is a higher voltage (V
1
), is long, and the residual chucking force is also large as described in connection with the curve C in FIG.
5
. Accordingly, the separation of the substrate
4
after the chucking is turned off is difficult.
In some circumstances, the substrate processing time sometimes is long (viz., the time t
3
is long). Also in this case, the chucking voltage is a lower voltage V
2
, but the chucking time under a fixed chucking voltage Vc (voltage V
2
) is long. Accordingly, as described in connection with the curve C in
FIG. 5
, the residual chucking force is large, and the separation of the substrate
4
after the chucking is turned off is difficult.
SUMMARY OF THE INVENTION
Accordingly, an object of the present invention is to provide a method and apparatus which are capable of producing a sufficiently high chucking force during the substrate chucking operation irrespective of the chucking time length and the substrate processing timings, and making it easy to separate the substrate after the chucking operation ends.
In order to accomplish the object above, the following means are adopted. According to the present invention, there is provided a method for chucking a substrate used for an substrate chucking apparatus having an electrostatic chuck for electrostatically chucking the substrate and a power supply for applying a chucking voltage to the electrostatic chuck, the method comprising: controlling an amplitude of the chucking voltage
Finnegan Henderson Farabow Garrett & Dunner L.L.P.
Kitov Zeev
Nissin Electric Co. Ltd.
Sircus Brian
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