DE1690687C - Cathode sputtering device - Google Patents

Description

35

The invention relates to a device for cathode sputtering with ring discharge in a plasma chamber, which within a recipient by a high-frequency, axially penetrating the recipient, electromagnetic field is generated, and at the cathode, anode and collector as the plasma space Enveloping electrodes are arranged according to patent 1515311.

The subject of the main patent conveys a teaching through which the coating of large-area elements, e.g. B. workpieces, is possible and their exercise does not cause any fundamental difficulties even in industrial use. The material to be pollinated can namely the cathode destruction device z. B. in the manner already known for vapor deposition devices, ie in the region of an end face of the recipient. With simultaneous dusting of large quantities of workpieces, however, the production and use of recipients made of electrically insulating material, such as ζ 3. glass or ceramics, the greater the difficulties, the larger the recipient is. Difficulties of this kind can be overcome by using metallic receptacles, ζ. Β those made of steel, bypassing, in which case the exciter coil which excites the plasma and serves to generate a high-frequency electromagnetic field must be arranged within the metallic recipient.

This gives rise to other difficulties that

are explained in more detail below: If an ^{electrical coil arranged within an ionizable, dilute gas (10 ~ 4} to 10 dead) is excited with high-frequency alternating voltage, it will not succeed. to ignite a ring discharge plasma. There they form !: namely dc in the electrostatic high-frequency field: coil directly between the respective adjacent turns of the coil discharges from leading to a, :: waste i \ it to the coil applied voltage and the coil current and thus also of the fi ,, - lead the ring discharge required induced circular field. This disadvantage is not dark either.! "Covering the coil windings with an isolate the material, since this only has the consequence that: the harmful high-frequency discharges start at the insulating jacket, which then acts as a capacitance within the harmful discharge circuit small direct discharge current between the windings of the excitation spook must, in order to ignite a ring discharge and keep it upright; the insulation must be made so thick-walled that the insulation bik'et a self-contained block in which the coil is embedded

The invention is based on the task at the subject of the main patent to enable the use of such Pezipienten that despite large dimensions produced with reasonable effort can be. According to the invention, this object is achieved in that the recipient is metallic is executed and in its interior in the area of the middle a «to generate the high-frequency, Electromagnetic field contains required excitation coil, which is electrically isolated from the recipient and is arranged in a vacuum-tight manner against the interior of the recipient, and uass the electronics the plasma space limit internally.

The excitation coil is advantageously arranged in an electrically insulating, gas-impermeable, piston-like container; for example within an Olasgefäßes, which is evacuated , for example, to a high vacuum or with air at atmospheric pressure, or higher or with an insulating material that can also be used as a coolant, e.g. B. oil is filled. In addition, there are the advantages that, despite the use of a metallic recipient, the plasma can be generated with the help of an eleklrouenlüsen ring discharge, whereby only a very low pressure of the atomizing gas and only a relatively low atomizing voltage between anode and cathode are necessary, and that between the individual turns the high-frequency coil does not ignite a discharge. In addition , the container, which separates the coil from the actual atomization chamber, cannot be coated with the atomized material, which would otherwise lead to a shielding of the high-frequency field. The recipient is advantageously at a positive potential with respect to the cathode. This prevents any undesirable atomization of the recipient wall.

It is useful to releasably connect the container used to hold the coil to the recipient wall, e.g. B. to screw vacuum-tight. With appropriate training of the preferably flange-like bottom of the container, this can be used in conventional steaming systems without the need for a large conversion. The arrangement described is also the further advantage

peculiar to the fact that the retrofitting of existing upgrades. steam systems in devices for cathode sputtering can be carried out without great effort.

At this point it should be mentioned that the device described is initially a bad one Efficiency could be expected because a circular current induced in the recipient 7 and running in the opposite direction to the errr ^ erstrom of the electricist · circular field in the plasma space, d. H. in the space between the slotted container and the recipient wall. Leads a small electrical coil is inserted into the plasma space as a probe and measured in the absence of a ring discharge at atmospheric pressure the high-frequency voltage induced in this coil probe with and without metallic recipients, the probe voltage is amplified by the recipient fixed. If, on the other hand, a probe designed as a wire loop is carried around the excitation coil for the circular field around, the result is, as expected, a weakening of the probe voltage due to the metallic Recipients. These results therefore suggest that the device according to the invention is not very suitable for generating a ring discharge.

Investigations have shown, however, that the degree of ionization with the device described generated ring discharge plasma through the metallic Recipient is at most only slightly weakened and that with correct adaptation of the for feeding the high-frequency alternating voltage into the excitation coil serving source, z. B. one High frequency generator, the arrangement of the er- ·. Regulator also not or at least only insignificantly is more disadvantageous than the previous use of a so-called outer coil, d. H. one around the recipient Excitation channels made of glass. This The surprising result can be interpreted if one assumes that the ring discharge current itself shields the high-frequency electromagnetic radiation emanating from the excitation coil to such an extent that that the circular current induced in the metallic recipient is only small.

The figure shows in a partially sectioned schematic representation an embodiment of the described Sputtering device. This device has one, n receptacles 7 made of metal, e.g. B. Steel, in the middle of which there is a high-frequency coil through which the electrical current flows when the device is in operation 4 is arranged. The high-frequency coil 4 is normally made of a water-cooled one Coiled pipe is formed and dips into a possibly detachable base plate 8 of the recipient 7 connected glass bulb 5, under the effect of which the high-frequency coil against the recipient interior is electrically insulated and sealed in a gas-tight manner. Coaxial to the high frequency coil 4 and to the Glass bulb 5 is a container connected as an anode. 6th arranged, to avoid shielding the high-frequency electromagnetic field at 9 ίο is slotted. Appropriately, on the jacket outer or inner surface of this container, for example Applied cooling coil through which water flows, not shown in the drawing. As a cathode is used in the area of the base plate 8 of the rice zipienten7, expediently in Scymente divided, circular disk-shaped plate 1. The cathode and its in the drawing only schematically illustrated power connection elements 13, 14 are against the bottom plate 8 of the ..iezipienten electrically isoao lated or electrically insulated through this leads. The designated with 2, to be dusted work pieces are also concentric to the glass bulb on a 5 or container 6 arranged as well as au! Circular disk-shaped at anode potential. · Π as PIaUe 3 applied. The evacuation of the recipient and the inside of the glass bulb takes place via openings 10, 11 and 12, which are marked with in c ".er drawing Vacuum pumps, not shown, are coupled "■ The wall of the container 7 and the carrier plate 8 can be lined in a manner known per se with cooling tubes, which with corresponding, in the Drawing also not shown, tubular supply and discharge lines in gas or liquid permeable Connected. By charging the pipelines with cooling or heating media, such as. B. Water, is a cooling or heating of these elements and thus an overheating of the recipient or contamination of the layers to be produced by escaping foreign atoms or molecules prevented. The high-frequency coil 4 generated during operation in the between the container 6 and the Inner wall of the recipient? trained room, the so-called plasma room, an electrodeless Ring discharge. The axial length of the high frequency coil 4, the glass bulb 5 and the slotted Container 6 can be chosen so small that the between the end face of the container 6 and the adjacent recipients wall existing space can be used for the generation of the plasma can.

1 sheet of drawings

Claims (4)

Patent claims: 1. Apparatus for cathode sputtering with ring discharge in a plasma space, which is generated inside a recipient by a high-frequency electromagnetic field axially penetrating the recipient, and in which the cathode, anode and collector are arranged as electrodes enveloping the plasma space, according to Pa - i » tent 1515311, characterized in that the recipient: (7) is made of metal and in its interior in the area of the middle contains an excitation coil (4) required to generate the high-frequency electromagnetic field, which is electrically powered by the recipient (7) insulated and open the interior of the recipient is arranged in a vacuum-tight manner, and that the electrodes (1, 3 and 6) delimit the plasma space on the inside. 2. Device according to claim 1, characterized in that that the excitation coil (4) in an electrically insulating, gas-impermeable, piston-like Container (5) is arranged. 3. Apparatus according to claim 1, characterized in that the electrodes (1, 3,6) and the for receiving the excitation coil (4) serving container (5) detachably connected to the recipient wall are. 4. Device according to claim 1, characterized in that that the subject (7) is on a positive potential with respect to the cathode (1).