Abstract: The main purpose of the present invention is to suppress deposition of byproducts on an inner wall of a vacuum chamber during wafer processing using plasma generated by an inductive coupling antenna and an electrostatic capacitive coupling antenna which are connected in series at a connection point. Deposition of byproducts on the inner wall of the vacuum chamber can be suppressed by grounding the connection point of the inductive coupling antenna and the electrostatic capacitive coupling antenna via a variable-impedance load and varying an impedance of the variable-impedance load, thereby controlling a ratio of plasma produced in the chamber by electrostatic capacitive coupling discharge.

Abstract: Sparking is suppressed during high-frequency sputtering by a high-frequency generator (5) which has a controlled switching unit (13) that is connected upstream in relation to the output of the generator. A high-frequency supply signal that is generated at the output of the high-frequency generator is stopped for plasma discharge (PL) for a short time, by the switching unit.

Abstract: A plasma chamber enclosure structure for use in an RF plasma reactor. The plasma chamber enclosure structure being a single-wall dielectric enclosure structure of an inverted cup-shape configuration and having ceiling with an interior surface of substantially flat conical configuration extending to a centrally located gas inlet. The plasma chamber enclosure structure having a sidewall with a lower cylindrical portion generally transverse to a pedestal when positioned over a reactor base, and a transitional portion between the lower cylindrical portion and the ceiling. The transitional portion extends inwardly from the lower cylindrical portion and includes a radius of curvature. The structure being adapted to cover the base to comprise the RF plasma reactor and to define a plasma-processing volume over the pedestal. The structure being formed of a dielectric material of silicon, silicon carbide, quartz, and/or alumina being capable of transmitting inductive power therethrough from an adjacent antenna.

Abstract: A plasma reaction chamber, particularly a DC magnetron sputter reactor, in which the plasma density and the ionization fraction of the plasma is increased by a plasma inductive loop passing through the processing space. A tube has its two ends connected to the vacuum chamber on confronting sides of the processing space. An RF coil powered by an RF power supply is positioned adjacent to the tube outside of the chamber and aligned to produce an RF magnetic field around the toroidal circumference of the tube such that an electric field is induced along the tube axis. Thereby, a plasma is generated in the tube in a loop circling through the processing space.

Abstract: A method and device applicable to HV generators and X-ray tubes, and a computer program and support for the program. In the method a determination is made of a scale of values representing the energy of the radio-frequency spectrum transmitted by radio wave over a given period in the electric discharges appearing in the system for a given test voltage, by artificially varying in the system the level of pollution of the system until dielectric failure of the system. A limiting value is chosen embracing the admissible pollution tolerances on manufacture. A measurement is made for each system of the same product type of the quantity of energy of the radio-frequency spectrum transmitted by radio wave by each of the systems under the same conditions. A comparison is made of the quantities measured with the limiting value chosen to determine a possible fluctuation of quality of the systems produced.

Abstract: The present invention provides a system, apparatus, and method for processing a wafer using a single frequency RF power in a plasma processing chamber. The plasma processing system includes a modulated RF power generator, a plasma processing chamber, and a match network. The modulated RF power generator is arranged to generate a modulated RF power. The plasma processing chamber is arranged to receive the modulated RF power for processing the wafer and is characterized by an internal impedance during the plasma processing. The plasma processing chamber includes an electrostatic chuck for holding the wafer in place with the electrostatic chuck including a first electrode disposed under the wafer for receiving the modulated RF power. The plasma processing chamber further includes a second electrode disposed over the wafer. The modulated RF power generates plasma and ion bombardment energy for processing the wafer.

Abstract: The present invention provides a method and apparatus for achieving conformal step coverage of one or more materials on a substrate using sputtered ionized material. In one embodiment, a chamber having one or more current return plates, a support member, an electromagnetic field generator and a support member is provided. The target provides a source of material to be sputtered by a plasma and then ionized by an inductive coil, thereby producing electrons and ions. During processing, a bias is applied to the support member by an RF power source. The return plates are selectively energized to provide a return path for the RF currents, thereby affecting the orientation of an electric field in the chamber.

Abstract: In order to eliminate a contact hole of a semiconductor substrate, a polymer dreg after ashing of all inside of a via hole is conducted, or an oxide layer on a barrier metal surface, hydrogen gas is changed to a hydrogen radical, the radical is primarily changed to a negative hydrogen ion, and the ion is introduced onto a wafer arranged in a vacuum container. In this manner, cleaning is done by assisting a negative hydrogen ion having its less generated secondary electrons without imparting plasma damage to an element.

Abstract: In accordance with a first aspect of the invention, a plasma reactor having a chamber for containing a plasma and a passageway communicating with the chamber is enhanced with a first removable plasma confinement magnet module placed adjacent the passageway including a first module housing and a first plasma confinement magnet inside the housing. It may further include a second removable plasma confinement magnet module placed adjacent the passageway including a second module housing, and a second plasma confinement magnet. Preferably, the first and second modules are located on opposite sides of the passageway. Moreover, the first and second plasma confinement magnets have magnetic orientations which tend to oppose plasma transport or leakage through the passageway. Preferably, the module housing includes a relatively non-magnetic thermal conductor such as aluminum and is in thermal contact with said chamber body.

Abstract: The invention is embodied in an inductively coupled RF plasma reactor including a reactor chamber enclosure defining a plasma reactor chamber and a support for holding a workpiece inside the chamber, a non-planar inductive antenna adjacent the reactor chamber enclosure, the non-planar inductive antenna including inductive elements spatially distributed in a non-planar relative to a plane of the workpiece to compensate for a null in an RF inductive pattern of the antenna, and a plasma source RF power supply coupled to the non-planar inductive antenna. The planar inductive antenna may be symmetrical or non-symmetrical, although it preferably includes a solenoid winding such as a vertical stack of conductive windings. In a preferred embodiment, the windings are at a minimum radial distance from the axis of symmetry while in an alternative embodiment the windings are at a radial distance from the axis of symmetry which is a substantial fraction of a radius of the chamber.

Abstract: The uniformity of material removal, as well as contamination due to deposited particulate matter, has been reduced in single wafer sputter-etchers by providing an improved gas baffle. Said gas baffle presents a smooth surface to the incoming sputtering gas so that it disperses uniformly throughout the sputtering chamber, thereby avoiding local fluctuations in pressure which, in turn, can lead to local differences in material removal rate as well as to particulate contamination of the surface that is being etched. The design of the baffle is described along with a method for attaching it to the inside of the sputtering shield.

Abstract: There is provided by this invention a novel inductively coupled plasma source apparatus that utilizes a transformer to induce closed path secondary plasma currents in a hollow metal housing that is directly cooled by a fluid. This plasma source apparatus is particularly useful for generating a high charged particle density source of ions, electrons, and chemically active species to serve various plasma related processes that may require high power densities. A hollow metal vacuum chamber is coupled to and electrically insulated from a metal vacuum process chamber by means of dielectric gaps that are well shielded from direct exposure to the plasma body. Electrons, photons and excited gaseous species are generated within the metal hollow chamber and process chamber to serve a wide variety of material, surface and gas processing applications. There is also provided by this invention a means of ganging together several hollow metal vacuum chamber assemblies about a single vacuum process chamber.

Abstract: A plasma processing apparatus has plasma generating means including a means for generating capacitive coupled discharge and a means for radiating electromagnetic waves, so that the energy state of electrons is independently controlled by a combination of a plasma due to capacitive coupled discharge and a plasma due to radiation of electromagnetic waves of a high-frequency, to thereby control the occurrence of radical species, and thereby establishing a compatibility, for example, between high selective etching and high accuracy and high speed in etching or between film quality and film formation rate. Since the density distribution of the plasma can be controlled without any change in hardware configuration by adjusting distributions of the power for capacitive coupled discharge and the power for radiation of electromagnetic waves, the entire surface of a large-sized substrate can be etched at a high accuracy into a fine pattern.

Abstract: A discharge plasma processing device comprising a chamber with an evacuation system, a magnetic field generation system and an electric field application system with which the feature of operation is first to form a magnetic neutral line in the vacuum chamber and second to produce a plasma along the magnetic neutral line by controlling the shape of the line, its position related to an object to be processed and the plasma parameters is presented as useful device for many kinds of plasma processing like as sputtering, etching and plasma enhanced CVD as freely programmed, for instance extremely in uniform on the surface of the object.

Abstract: A method and apparatus for conditioning a surface of a ceramic body in a process chamber when the process chamber has a vacuum pump, an anode and a cathode. The conditioning method consists of pumping the process chamber down to a vacuum with the vacuum pump, introducing a gas into the chamber, energizing the anode and cathode with RF power to ignite the gas into a plasma, sputter etchinq the surface with ions from the plasma to remove contaminants therefrom. The method is accomplished either within a process chamber to condition, in situ, a ceramic chuck or within a cleaning chamber to condition any form of ceramic body or component.

Abstract: An electrode is provided which can improve the efficiency and quality of plasma-generated coatings in a plasma enhanced chemical vapor deposition coating device. The electrode comprises dual shower head faces containing in the preferred mode a plurality of magnets which are aligned so that the poles of the magnets face in the same direction to thus generate two magnetron faces for each set of magnets.

Abstract: The main purpose of the present invention is to suppress deposition of byproducts on an inner wall of a vacuum chamber during wafer processing using plasma generated by an inductive coupling antenna and an electrostatic capacitive coupling antenna which are connected in series at a connection point. Deposition of byproducts on the inner wall of the vacuum chamber can be suppressed by grounding the connection point of the inductive coupling antenna and the electrostatic capacitive coupling antenna via a variable-impedance load and varying an impedance of the variable-impedance load, thereby controlling a ratio of plasma produced in the chamber by electrostatic capacitive coupling discharge.

Abstract: The occurrence of internally-formed contaminants or negatively-charged particulates within a plasma is minimized by preventing such from becoming trapped in the plasma. The plasma is formed in a plasma chamber having control electrodes and reference electrodes. The control electrodes are biased with a negative potential. The plasma assumes a potential more positive than the control electrodes. The reference electrodes are then biased to be more positive than the plasma. Hence, negative ions or negatively-charged particulates in the plasma are attracted to the more positive reference electrodes, and thus escape the plasma without being trapped therein, and are not available to serve as nucleation or agglomeration points for contaminants. A pair of Helmholtz coils produce a magnetic field having magnetic field lines that run longitudinally between the control electrodes.

Abstract: A plasma assisted semiconductor substrate processing chamber having a plurality of electrically conductive bridges for preventing electrical arcing in the chamber. More particularly, the chamber has a plurality of electrically conductive bridges that connect a portion of a substrate support member with a portion of the chamber walls.

Abstract: Disclosed is a method and device for compensating a bias voltage on a wafer disposed over an electrostatic chuck in a processing chamber of a plasma processing system. The plasma processing system includes an electrostatic and RF power supplies that are coupled to the electrostatic chuck. The bias compensation device includes a voltage converter, a storage unit, and a voltage adjusting circuitry. The voltage converter is coupled to the electrostatic chuck for detecting a voltage Vpp of the electrostatic chuck. The voltage converter converts the detected voltage to a lower voltage Vref. The storage unit stores a predetermined slope and a predetermined offset of a calibration curve, which is derived by fitting a plurality of wafer bias voltages as a function of electrostatic chuck voltages.

Abstract: In a plasma deposition system for depositing a film of sputtered target material on a substrate, the output of an RF generator coupled to a coil for generating a plasma can be varied during the deposition process so that heating and sputtering of the RF coil can be more uniform by “time-averaging” RF voltage distributions along the RF coil.

Abstract: The invention relates to a vacuum treatment chamber for work pieces which comprises at least one induction coil for at least co-generating a treatment plasma in a discharge chamber which is located in the interior of the coil. It also comprises a screen which is arranged between the discharge chamber and the coil, and which is coaxial in relation to the axis of the coil. The screen comprises slots which have a directional component which is parallel to the coil axis. The screen is formed by a self-contained body. The slots are provided along at least the main part of the body's circumference in a slot density per circumferential length unit of S=(number of slots)/cm equaling 0.5≦S.

Abstract: A method in a plasma processing chamber for improving etch uniformity while etching a semiconductor substrate. The method includes placing the semiconductor substrate into a sacrificial substrate holder. The sacrificial substrate holder is configured to present a sacrificial etch portion surrounding the semiconductor substrate to a plasma within the plasma processing chamber to permit the plasma to etch a first surface of the semiconductor substrate and a first surface of the sacrificial etch portion simultaneously. The first surface of the sacrificial etch portion is formed of a material capable of being etched by the plasma. The method further includes positioning the semiconductor substrate and the sacrificial substrate holder into the plasma processing chamber. There is also included striking the plasma from an etchant source gas released into the plasma processing chamber.

Abstract: A method and apparatus for conditioning a surface of a ceramic body in a process chamber when the process chamber has a vacuum pump, an anode and a cathode. The conditioning method consists of pumping the process chamber down to a vacuum with the vacuum pump, introducing a gas into the chamber, energizing the anode and cathode with RF power to ignite the gas into a plasma, sputter etching the surface with ions from the plasma to remove contaminants therefrom. The method is accomplished either within a process chamber to condition, in situ, a ceramic chuck or within a cleaning chamber to condition any form of ceramic body or component.

Abstract: A chemical vapor deposition apparatus for depositing a thin film of highly dielectric materials for giga-capacity memory devices can reliably clean reaction products formed within the deposition chamber without sacrificing the production efficiency. The apparatus comprises a hermetic deposition chamber containing a substrate holding section for supporting a substrate, and a gas supply head disposed opposite to the substrate holding section for directing a gaseous feed material onto the substrate. There are provided a trapping member supporting device for supporting a trapping member so as to be opposite to a target cleaning area inside the deposition chamber, and a plasma generation device for generating a plasma between the target cleaning area and the trapping member supported by the trapping member supporting device.

Abstract: A plasma processor for a workpiece includes a coil for supplying an r.f. exciting field through a window to a plasma in a vacuum chamber. A powered non-magnetic metal member between the coil and plasma couples the field to the plasma. In first and second embodiments, the metal member is respectively (1) a plate abutting a face of the window inside the chamber and (2) a thin film on an interior face of the window. In a third embodiment, the plate and film are both used. All embodiments help to ignite the plasma. The second embodiment increases plasma stability and prevents window clouding by ionized plasma particles. Metal from the plate is sputtered as a deposit onto the workpiece. The third embodiment enables substantially simultaneous depositing and cleaning.

Abstract: A plasma processing apparatus is provided which does not require replacement of a band eliminator according to a frequency used, which is capable of performing chamber cleaning without replacing a resonance circuit, and which is capable of performing plasma cleaning of the inside of the chamber without using a bellows. The plasma processing apparatus includes a resonance circuit (band eliminator) for causing series resonance with a microwave circuit formed of at least a susceptor electrode and a processing chamber in order to trap plasma between a plasma excitation electrode and the susceptor electrode when the surface of a workpiece placed on the susceptor electrode is processed by plasma generated between the plasma excitation electrode and the susceptor electrode, which are provided inside the processing chamber; and for causing parallel resonance with the microwave circuit in order to diffuse plasma inside the processing chamber when performing plasma cleaning.

Abstract: A combination coil and shield for a plasma chamber in a semiconductor fabrication system is provided. The coil-shield has a plurality of turns to couple energy efficiently into a plasma and also substantially blocks deposition material from reaching a second shield positioned behind the first shield.

Abstract: Variable reactances in an impedance-matching box for an RF coil, in a plasma deposition system for depositing a film of sputtered target material on a substrate, can be varied by rotating inductor cores during the deposition process so that the RF coil and substrate heating, and the film deposition, are more uniform due to “time-averaging” of the RF voltage distributions along the RF coil.

Abstract: A recessed coil for a plasma chamber in a semiconductor fabrication system is provided. Recessing the coil reduces deposition of material onto the coil which in turn leads to a reduction in particulate matter shed by the coil onto the workpiece.

Abstract: An inductive-coupled plasma apparatus employs a shield to reduce sputter contamination. A method for manufacturing the shield is included. An apparatus for generating a high-density plasma includes a process chamber having a dielectric window located along a plane, a coil located outside the process chamber proximate to the dielectric window and substantially parallel to the plane, and a shield located between the coil and the dielectric window. The shield has multiple openings, wherein the multiple openings of the shield are disposed at locations corresponding to areas between the turns of the coil.

Abstract: A plasma etch apparatus (10) such as that for etching wafers in the manufacture of semiconductors includes a vacuum chamber (15) surrounded by a cylindrical dielectric wall (13). A coil (20) surrounds the chamber outside of the wall and is energized with medium frequency RF energy which is inductively coupled into the chamber to energize a plasma in the chamber to etch a semiconductor wafer (16) on a support (17) in the chamber. A generally cylindrical Faraday shield (30) surrounds the outside of the chamber in contact with the outside of the wall between the wall and the coil. The shield has a plurality of axially oriented slits (32) therein closely spaced around the shield and extending less than the height of the shield. One slit or gap (31) extends the full height of the shield and interrupts an otherwise continuous conductive path around the circumference of the chamber.

Abstract: A power segmented electrode useful as part of an upper electrode and/or substrate support for supporting a substrate such as a semiconductor wafer in a plasma reaction chamber such as a single wafer etcher. The power segmented electrode includes a plurality of electrodes which are supplied radiofrequency power in a manner which provides uniform processing of the substrate. The power to the electrodes can be supplied through a circuit incorporating interelectrode gap capacitance, one or more variable capacitors, one or more current sensors, a power splitter, one or more DC biasing sources, and/or power amplifier.

Abstract: In a plasma generating apparatus, RF energy applied to a coil positioned to sputter material onto a workpiece, is modulated to control the biasing of the coil. As a consequence, control of coil sputtering may be improved such that the uniformity of deposition may also be improved.

Abstract: Process for continuously stripping the surface of a substrate moving in a defined direction through a vacuum chamber past at least one counterelectrode, according to which process a plasma is created in a gas, between this counterelectrode and this surface, so as to generate radicals and/or ions which can act on the surface to be stripped, characterized in that at least one pair of successive counterelectrodes, past which the abovementioned chamber and in that an alternating potential is applied to these counterelectrodes so as to impose on the latter an alternately positive and negative potential with respect to the substrate.

Abstract: A disk gripper for gripping an insulating disk, such as a glass disk, at its edge during processing includes a contact device for contacting the edge of the insulating disk and a mechanism for moving the contact device between a contact position, in contact with the edge of the disk, and a retracted position. In a first processing station, a conductive coating is applied to a disk held by the gripper, with the contact device in the retracted position. In a second processing station, ions are generated in a plasma adjacent to the surface of the disk held by the gripper. The contact device is in the contact position in contact with the conductive coating, and a bias voltage is applied to the contact device in the second processing station. The ions are accelerated from the plasma toward the disk by the bias voltage applied to the conductive coating.

Abstract: A film deposition apparatus to which the present invention is applied comprises a vacuum chamber 11, a plasma beam generator 13, a main hearth 30 which is disposed within the vacuum chamber and which serves as an anode containing a vaporizable material Cu, and an auxiliary anode 31 surrounding the main hearth, the auxiliary anode being formed of an annular permanent magnet 35 and a coil 36. A Cu film is formed on a substrate 41 placed opposite to the main hearth.

Abstract: This invention relates to a plasma generating apparatus having a plasma generating electrode, and improves the controllability of the etching selectivity and the etching shape. In a plasma processing apparatus, an electrode is located in a processing chamber. A plasma generating RF power is supplied from a plasma generating RF power supply to the electrode. A to-be-processed object W is mounted on a lower electrode located in the processing chamber. RF powers having their phases adjusted to predetermined values are applied to the plasma generating electrode and the lower electrode. RF powers of a continuous wave or RF power pulse trains can be used as the RF powers.

Abstract: A method of applying a coating to a metallic article (10) comprises placing the metallic article within a hollow cathode (38) in a vacuum chamber (30), evacuating the vacuum chamber (30), applying a negative voltage to the hollow cathode (38) to produce a plasma and such that the material of the hollow cathode (38) is sputtered onto the metallic article (10) to produce a coating (22). A positive voltage (V1) is applied to the metallic article (10) to attract electrons from the plasma to heat the coating (22) and so inter-diffuse the elements of the metallic article (10) and the protective coating (22) and a negative voltage (V2) is applied to the metallic article (10) to attract ions from the plasma to bombard the coating (22) to minimize defects in the coating (22).