Abstract: Broadly speaking, the embodiments of the present invention provide an improved chamber cleaning mechanism, apparatus and method. The present invention can also be used to provide additional knobs to tune the etch processes. In one embodiment, a plasma processing chamber configured to generate a plasma includes a bottom electrode assembly with an inner bottom electrode and an outer bottom electrode disposed outside of the inner bottom electrode, wherein the inner bottom electrode is configured to receive a substrate. The plasma processing chamber also includes a top electrode assembly with a top electrode, wherein the top capacitive electrode is disposed directly above the inner and outer bottom electrodes.

Abstract: A semiconductor manufacturing apparatus includes a chamber, a gas supplier, a vacuum pump, an electrode, a conductive knitted wire mesh and a radio frequency power supply. The electrode is placed outside of the chamber and fixed to the chamber. The gas supplier supplies gas into the chamber. The vacuum pump exhausts the chamber. The radio frequency power supply supplies radio frequency power to the electrode through the conductive knitted wire mesh.

Abstract: A gate valve includes a plate-shaped valve element which is rectangular-shaped to suit the shape of an opening of a processing chamber and has a size larger than the opening. A hermetically sealing member to perform hermetic sealing by abutting on and being pressed against an outer side of the processing chamber is provided in the valve element. A microwave reflecting mechanism which is formed in a groove shape so as to surround a periphery of the hermetically sealing member is provided at an outer peripheral portion of the hermetically sealing member.

Abstract: RF ground return current flow is diverted away from asymmetrical features of the reactor chamber by providing bypass current flow paths. One bypass current flow path avoids the pumping port in the chamber floor, and comprises a conductive symmetrical grill extending from the side wall to the grounded pedestal base. Another bypass current flow path avoids the wafer slit valve, and comprises an array of conductive straps bridging the section of the sidewall occupied by the slit valve.

Abstract: Plasma generating devices, systems and processes are provided in which hybrid capacitively coupled plasma (CCP) and inductively coupled plasma (ICP) sources use a plurality of primary plasma generating cells embedded into large area electrode or elsewhere in communication with a plasma processing chamber. Plasma is generated and maintained by a shaped low-inductance element within each of a plurality of locally enhanced ICP micro-cells coupled to the chamber through a CCP electrode. The source is suitable for processing large diameter (300 mm and larger) semiconductor wafers and large area panels, including plasma screen displays.

Abstract: An asymmetrically grounded susceptor used in a plasma processing chamber for chemical vapor deposition onto large rectangular panels supported on and grounded by the susceptor. A plurality of grounding straps are connected between the periphery of the susceptor to the grounded vacuum chamber to shorten the grounding paths for RF electrons. Flexible straps allow the susceptor to vertically move. The straps provide a conductance to ground which is asymmetric around the periphery. The straps may be evenly spaced but have different thicknesses or different shapes or be removed from available grounding point and hence provide different RF conductances. The asymmetry is selected to improve the deposition uniformity and other qualities of the PECVD deposited film.

Abstract: A dual zone plasma processing chamber is provided. The plasma processing chamber includes a first substrate support having a first support surface adapted to support a first substrate within the processing chamber and a second substrate support having a second support surface adapted to support a second substrate within the processing chamber. One or more gas sources in fluid communication with one or more gas distribution members supply process gas to a first zone adjacent to the first substrate support and a second zone adjacent to the second substrate support. A radio-frequency (RF) antenna adapted to inductively couple RF energy into the interior of the processing chamber and energize the process gas into a plasma state in the first and second zones. The antenna is located between the first substrate support and the second substrate support.

Abstract: An antenna assembly for forming a barrier coating on the inner surface of a tube by means of a sealed annular chemical-plasma-reaction chamber defined by the inner wall of the tube, two spaced elements slidingly and sealingly moveable inside the tube, and a quartz tube that interconnects the cylindrical elements. The coating is formed by a PE CVD process generated inside the chamber by a transversal RF antenna unit which creates a plasma column that participates in rotation simultaneously with linear motion thus providing uniform coating of the inner surface of the tube. The method of the invention consists of depositing a layer of silicon dioxide onto the inner surface of a plastic tube by means of the aforementioned antenna assembly. The plasma column is rotated by the RF magnetic field which is rotated by using two RF generators of different frequencies that energize two groups of specifically interconnected coils.

Abstract: An antenna includes excitation terminals responsive to an RF source to supply an RF electromagnetic field to a plasma that processes a workpiece in a vacuum chamber. The coil includes a transformer having a primary winding coupled to the excitation terminals and a multi-turn plasma excitation secondary winding connected in series with a capacitor.

Abstract: A plasma etching apparatus for etching semiconductor wafers. The plasma etching apparatus has a reaction tube made of a dielectric material and a high frequency antenna located around the reaction tube for generating a plasma inside the reaction tube. The high frequency antenna has a sloped segment that produces a relatively large capacitive coupling with the reaction tube. The high frequency antenna is moved by a driver around the reaction tube in a horizontal plane.

Abstract: The present invention relates to a plasma etching apparatus, which comprises a chamber, a substrate support disposed inside the chamber to support a substrate, a shield disposed with a gap on the substrate such that plasma is not generated therein while allowing an edge portion of the substrate to be exposed, an antenna disposed at a position on an outer wall of the chamber to apply plasma-generating power to an area between the edge portion of the substrate and an inner wall of the chamber, and a bias-applying unit for applying bias to the substrate support. According to the present invention, the shield and the substrate support prevent plasma from being generated at other portions of a substrate except an edge portion of the substrate. Inductively coupled plasma is employed to generate plasma with high density, thereby removing a thin film and particles remained at the edge portion of the substrate.

Abstract: An antenna adapted to apply uniform electromagnetic fields to a volume of gas and including radiating elements connected in parallel with evenly distributed input terminals for receiving electromagnetic energy into the antenna and output terminals for grounding. In the illustrative embodiment, the antenna has three radiating elements connected in parallel. Each radiating element is a conductor wound in a circular shape with the same diameter. Each radiating element is connected to the input terminal on one end and an output terminal on the other. The input terminal of the second element is 120° rotated counterclockwise from the first and the input terminal of the third is rotated by 120° counterclockwise from the second. The ground terminals of each radiating elements are located in the same manner as the input terminals. Each element is feed by a feeder coil.

Abstract: Provided is a plasma processing system comprising: a plasma reactor generating plasma by receiving an input gas; and a radio frequency generator supplying radio frequency. The radio frequency generator supplies radio frequency power for plasma generation to the plasma reactor, wherein upon power interruption within a predetermined time occurring during the operation of the plasma reactor, the radio frequency generator re-supplies the radio frequency power, without discontinuing the operation of the plasma reactor, after power returns. Thereby, the plasma reactor stably maintains plasma upon momentary power interruption.

Abstract: A plasma processing apparatus for a very large area using a dual frequency is provided.

Abstract: A device for inductively confining capacitively coupled RF plasma formed in a plasma processing apparatus. The apparatus includes an upper electrode and a lower electrode that is adapted to support a substrate and to generate the plasma between the substrate and the upper electrode. The device includes a dielectric support ring that concentrically surrounds the upper electrode and a plurality of coil units mounted on the dielectric support ring. Each coil unit includes a ferromagnetic core positioned along a radial direction of the dielectric support ring and at least one coil wound around each ferromagnetic core. The coil units generate, upon receiving RF power from an RF power source, electric and magnetic fields that reduce the number of charged particles of the plasma diffusing away from the plasma.

Abstract: A plasma processing apparatus of the present invention can reduce a manufacturing cost of the apparatus and a footprint by decreasing a load applied to a device for varying a distance between electrodes in comparison with a conventional apparatus and, at the same time, easily meet a scaling up of a substrate to be processed. A lower electrode and an upper electrode are installed inside a vacuum chamber. Provided at a lower electrode supporting member are openings for operating the upper electrode by using a driving mechanism installed outside the vacuum chamber. An intermediate ring is installed at bellows for air-tightly sealing the openings. Further, the intermediate ring is connected to a connecting member connected to an upper electrode supporting member and the driving mechanism.

Abstract: An RF coil assembly provides a source to generate a plasma inductively in a process chamber. The RF coil assembly includes an RF coil disposed about a perimeter of the processing chamber and a frame disposed about a perimeter of the processing chamber. The frame is adapted to support the RF coil in position. An interface material is disposed between and in thermal contact with the frame and a sidewall of the processing chamber. The interface material has a thermal conductivity of 4.0 W/mK or greater.

Abstract: A method and a device suitable for implementing this method for etching a substrate (10), a silicon body in particular, using an inductively coupled plasma (14) are proposed. For this purpose, a radio-frequency electromagnetic alternating field is generated with an ICP source (13), the alternating field generating an inductively coupled plasma (14) of reactive particles in a reactor (15). The inductively coupled plasma (14) arises by the action of the radio-frequency electromagnetic alternating field on a reactive gas. Furthermore, a device is provided with which a plasma power injected into the inductively coupled plasma (14) via the radio-frequency electromagnetic alternating field with the ICP source (13) is capable of being pulsed so that at least from time to time a pulsed radio-frequency power can be injected into the inductively coupled plasma (14) as a pulsed radio-frequency power.

Abstract: Guide members (37) extending from the microwave entrance to a ring member (34) are arranged in the direction of propagation of microwave in a radial waveguide. The guide members (37) contribute to prevention of complex electromagnetic mode due to a microwave reflected from the peripheral portion of the radial waveguide. Therefore, a uniform plasma can be produced because the radiation into the process chamber is uniform even not by disposing any electromagnetic absorbing member at the peripheral portion of the radial waveguide. Since the microwave reflected from the peripheral portion of the radial waveguide can be used to produce a plasma if any electromagnetic absorbing member is not disposed, the plasma can be produced efficiently, and excessive heat is not generated.

Abstract: A coil is provided for use in a semiconductor processing system to generate a plasma with a magnetic field in a chamber. The coil comprises a first coil segment, a second coil segment and an internal balance capacitor. The first coils segment has a first end and a second end. The first end of the coil segment is adapted to connect to a power source. The second coil segment has a first and second end. The second end of the first coil segment is adapted to connect to an external balance capacitor. The internal balance capacitor is connected in series between the second end of the first coil segment and the first end of the second coil segment. The internal balance capacitor and the coil segments are adapted to provide a voltage peak along the first coil segment substantially aligned with a virtual ground along the second coil segment.