Method for fabricating an electrode of a plasma chamber

Details Method for fabricating an electrode of a plasma chamber Method for fabricating an electrode of a plasma chamber

Filed on

1999-09-14

Date issued

2002-06-04

Examiner

Kunemund, Robert (Department: 1765)

Patent Class

Semiconductor device manufacturing: process

SubClass

Chemical etching

SubSubClass

Combined with the removal of material by nonchemical means

Other Related Categories

C438S693000, C438S745000, C438S753000

Type

Reexamination Certificate

Status

active

Patent number

06399499

Description

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention generally relates to a method for fabricating an electrode of a plasma chamber, and more particularly to a method for fabricating a cathode electrode of a plasma chamber which is used for a thin film forming process or an etch process. The cathode electrode has a plurality of fine through holes formed by an ultrasonic technique and allows introduced gases to be dispersed into the chamber and additionally the surface flatness and hardness to be improved.
2. Description of the Related Art
Generally, in order to fabricate semiconductor devices using a silicon wafer as a substrate, various kinds of processes such as oxidation, diffusion, deposition, etch, photolithography, and ion implantation are essentially performed. Especially, deposition and etch processes are generally performed using plasma technologies.
When plasma technologies are applied in fabricating semiconductor devices, reaction gases within a process chamber are transformed into excited plasma gases by applying a radio frequency voltage to electrodes. The excited plasma gases react with a surface of a substrate, whereby thin film is deposited on the substrate or the surface of the substrate is etched.
With reference to
FIG. 1
, there is described a conventional plasma etch apparatus which is used for etching a surface of a silicon wafer. A cathode
14
and an anode
18
to each of which a radio frequency voltage
12
is applied are respectively disposed at an upper portion and a lower portion of a process chamber
10
. In addition to the role as electrode, the anode also functions as a chuck to fix a wafer
16
. A gas supply tube
26
for supplying an etch gas of a fluorine system and a circulation tube
20
through which cool water for cooling the heated cathode
26
circulates are respectively coupled to the cathode
14
. A vacuum pump
22
is disposed at one side of the bottom portion of the chamber
10
and controls an ambient pressure of the chamber
10
.
Gases which are supplied into the inside of the chamber
10
are ionized by a potential difference between radio frequency voltages respectively applied to the cathode
14
and the anode
18
and whereby they are transformed to plasma gases. The plasma gases react an upper surface of the wafer
16
to etch predetermined portions of the wafer
16
.
In the above constituted plasma apparatus, an ambient condition such as a vacuum pressure, of the inside of the chamber
10
depends on performance of the vacuum pump
22
and cooling of the cathode
14
is performed by concurrently supplying cool water through the circulation tubes
20
.
Referring to
FIG. 2
, the cathode
14
is made of a circular silicon plate and has a plurality of fine through holes
24
which are formed for the purposes of injecting the supply gases into the inside of the chamber
10
. The plurality of fine through holes
24
are formed by a diamond drill.
In most of the semiconductor device fabrication processes, dirt particles are one of the most significant factors that determine production yield and are a very important checking item for all equipments used in the semiconductor device fabrication. However, the conventional cathode
14
has a drawback in that the fine through holes
24
of the cathode
14
act as a generating source of particles because the fine through holes
24
have inner wall and inlet portions that are very rough. In other words, while the reaction gases are supplied into the inside of the chamber
10
through the fine through holes of the cathode, particles are generated from the inner wall and inlet portion of the fine through holes
24
and are supplied into the inside of the chamber
10
, whereby a process yield is lowered.
SUMMARY OF THE INVENTION
Accordingly, it is an object of the present invention to provide a method for fabricating an electrode of a plasma chamber capable of preventing particles from being generated from inner wall and inlet portion of the fine through holes formed in the electrode by forming the fine through holes using an ultrasonic technology.
To accomplish this object and other advantages, according to one aspect of the present invention, there is provided a method for fabricating an electrode of a plasma chamber. The method comprises the steps of: providing a circular silicon substrate facing a drilling plate having a plurality of tips projected from one surface of the drilling plate; supplying a polishing material containing a plurality of polishing particles on the circular silicon substrate and the drilling plate; and drilling a plurality of holes in the circular silicon substrate by colliding the plurality of polishing particles to selected portions of the circular silicon plate using an ultrasonic vibration of the tips of the drilling plate.
According to another aspect of the present invention, there is provided a method for fabricating an electrode of a plasma chamber comprising the steps of: providing a circular silicon substrate facing a drilling plate having a plurality of tips projected from one surface of the drilling plate; supplying a first polishing material containing a plurality of polishing particles on the circular silicon. substrate and the drilling plate; drilling a plurality of holes in the circular silicon substrate by colliding the plurality of polishing particles to selected portions of the circular silicon plate using an ultrasonic vibration of the tips of the drilling plate is performed by oscillations of an ultrasonic converter coupled to the other surface of the drilling plate; lapping the circular silicon plate to a first roughness using a lapping material; etching the circular silicon plate using an etch solution; polishing the circular silicon plate to a second roughness lower than the first roughness using a second polishing material; and cleaning the circular silicon plate.
It is preferable that the first polishing material has a roughness of 9 Moh or more.
It is preferable that the lapping material contains aplurality of lapping particles, the lapping particles having a diameter of 6-7 &mgr;m.
The lapping material is one selected from a group consisting of silica, silicon carbide, alumina or zirconium.
It is preferable that the etch solution is one selected from a group consisting of potassium hydroxide, nitric acid, and hydrochloric acid.
The second polishing material contains a plurality of polishing particles, the polishing particles having a diameter of 0.1 &mgr;m or less. The second polishing material is one selected from a group consisting of silica, silicon carbide, alumina, and zirconia.
It is preferable that the cleaning step comprises the steps of: dipping the circular silicon substrate in which the lapping step is completed in a first cleaning solution wherein oxygenated water is added to a heated ammonia water; dipping the circular silicon plate in a second cleaning solution wherein oxygenated water is added to a heated sulfuric acid; and cleaning the circular substrate by deionized water.


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patent: 5655956 (1997-08-01), Ferreira et al.
patent: 5895583 (1999-04-01), Augustine et al.
patent: 5951814 (1999-09-01), Saito et al.
patent: 6106663 (2000-08-01), Kuthi et al.
patent: 6108189 (2000-08-01), Weldon et al.
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