Coating apparatus – Gas or vapor deposition – With treating means
Reexamination Certificate
1999-10-05
2002-03-19
Mills, Gregory (Department: 1763)
Coating apparatus
Gas or vapor deposition
With treating means
C156S345420, C118S7230MW
Reexamination Certificate
active
06357385
ABSTRACT:
TECHNICAL FIELD
The present invention relates to a plasma device.
BACKGROUND OF THE INVENTION
Recently, accompanying the increase in chip size of ULSI (ultra large scale integrated circuits), there has also been a tendency to increase the diameter of a silicon substrate used as a substrate for the ULSI. Since sheet leaf processing for handling substrates one at a time has become mainstream, if the substrate is increased in diameter there is a need for high speed processing of at least 1 mm per minute in order to maintain high productivity if etching and film forming are carried out. In a plasma device for handling an increased diameter substrate enabling high speed processing, it is essential to be able to generate high density plasma having an electron density in excess of 10
11
cm
−3
and to obtain the flow of a large quantity of gas in order to efficiently remove a large amount of reaction products discharged from the substrate surface as a result of the high speed processing. In order to enable the generation of high density plasma, a parallel plate type plasma device introducing a magnetic field has been developed. As a conventional plasma device of this type, a magnetron plasma etching device using a dipole ring magnet is disclosed in, for example, Japanese Patent Laid Open No. Hei. 6-37054.
FIG. 43
is a schematic diagram of the conventional magnetron plasma etching device using a dipole ring magnet. FIG.
43
(
a
) shows the state at the time of etching, and FIG.
43
(
b
) shows the state at the time of conveying the substrate. In the drawings, reference numeral
4301
is a vacuum vessel, reference numeral
4302
is an electrode I, reference numeral
4303
is a substrate in a space
4315
, reference numeral
4304
is a gas introduction opening, reference numeral
4305
is a shower plate, reference numeral
4306
is a dipole ring magnet, reference numeral
43
j
07
is a bellows, reference numeral
4308
is a porous plate, reference numeral
4309
is a gate valve, reference numeral
4310
is a substrate conveying port, reference numeral
4311
is a gas outlet, reference numeral
4312
is a vacuum pump, reference numeral
4313
is a matching circuit and reference numeral
4314
is a high frequency power source.
At the time of etching, source material gas that has been introduced from the gas introduction opening
4304
is discharged from a plurality of small holes in the shower plate
4305
. This source material gas and reaction product gas discharged from the substrate surface as a result of the etching reaction are discharged to the outside, through a side section of the electrode I
4302
, the porous plate
4308
and the gas outlet
4311
, by the expel pump
4312
. The porous plate
4308
causes a lowering of the gas conductance between a space above the substrate
4303
and the gas outlet
4311
, and is provided so as to make the gas flow substantially uniformly in a direction of rotation of the space above the substrate
4303
. Since the gas is made to flow uniformly in a direction of rotation of the space above the substrate
4303
, the gas conductance between the space above the substrate
4303
and the gas outlet
4311
is inevitably restricted and there is a problem that a large amount of gas can not flow. As a result, in high speed etching on large diameter substrates the etching rate is lowered, and a problem arises that the etching shape degenerates.
At the time of conveying the substrate, the position of the electrode I
4302
is lowered, as in FIG.
43
(
b
), and the substrate is conveyed through the gate valve
4309
and the substrate conveying port
4310
using an external substrate conveyance machine. The bellows
4307
are required in order to cause the electrode I
4302
to move. At the time of plasma generation, power loss occurs due to high frequency current flowing in the bellows
4307
, and there is a problem that the high frequency output power of the high frequency power source
4314
can not be efficiently supplied to the plasma. There is also a problem that a complex structure is required because the electrode I
4302
is made to move.
A device using electron cyclotron resonance (ECR) is also known as a plasma device using microwaves. This device enables excitation of high density uniform plasma on a substrate, but since the method involves high density plasma being excited locally, caused to widely diffuse within the container and uniformly supplied onto a object to be treated, installation of a shower plate is difficult, and it is difficult to promptly remove gases that are reaction by-products.
As a high density plasma device using microwaves, a device using a radial line slot antenna is also known (Japanese patent laid-open No. Hei.8-111297). However, if this device is put to practical use, it is not always possible to cause high density plasma to be generated stably over a long period of time. Also, the conditions for causing the generation of plasma are not definite.
The object of the present invention is to provide a plasma processing device, within a narrow space inside a container that enables uniform formation of a high quality thin film on a large substrate at a low temperature and at high speed, by causing excitation of uniform high density plasma having a low plasma potential over a large surface area, making supply of source material gas uniform, and swiftly removing reaction by-product gases by adopting a structure equivalent to a shower plate. The invention is applicable to plasma processing other than an etching plasma process.
SUMMARY OF THE INVENTION
A plasma device of the present invention comprises:
a container, the inside of which can be internally decompressed, and part of the inside being formed of a first dielectric plate made of material capable of passing microwaves with almost no loss,
a gas supply system for supplying essential source material gas so as to cause excitation of plasma inside the container,
an exhaust system for expelling source material gas supplied into the container and decompressing the inside of the container,
an antenna, located facing an outer surface of the first dielectric plate and comprised of a slot plate and a waveguide dielectric, for radiating microwaves, and
an electrode for holding a object to be treated located inside the container, a surface of the object to be treated that is to be plasma processed and a microwave radiating surface of the antenna being arranged in parallel substantially opposite to each other, and the plasma device carrying out plasma processing for the object to be treated, wherein,
a wall section of the container outside the first dielectric plate is of a material comprising matter having a specific conductivity of 3.7×10
7
&OHgr;
−1
/m
−1
or more, or the inside of the wall section is covered with this material, and
when thickness of the material is d, the specific conductivity of the material is &sgr;, the magnetic permeability of the vacuum is &mgr;
0
, and the angular frequency of microwaves radiated from the antenna is &ohgr;, the thickness d is larger than (2/&mgr;
0
&sgr;&ohgr;)
½
.
A plasma processing method of the present invention is a method using a plasma device comprising a container, the inside of which can be internally decompressed, and part of the inside being formed of a first dielectric plate made of material capable of passing microwaves with almost no loss, a gas supply system for supplying essential source material gas so as to cause excitation of plasma inside the container, an exhaust system for expelling source material gas that has been supplied inside the container and decompressing the inside of the container, an antenna, located facing an outer surface of the first dielectric plate and comprised of a slot plate and a waveguide dielectric, for radiating microwaves, and an electrode for holding an object to be treated located inside the container, a surface of the object to be treated that is to be subject to plasma processing and a microwave radiating surface of the antenna being arranged in parallel subs
Hirayama Masaki
Kaiwara Ryu
Nitta Takahisa
Ohmi Tadahiro
Takano Haruyuki
Alejandro Luz
Knuth Randall J.
Mills Gregory
Ohmi Tadahiro
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