| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 216068000 | Using coil to generate the plasma | 42 |
| 20080283500 | PLASMA PROCESSING APPARATUS AND PLASMA PROCESSING METHOD - A plasma processing apparatus includes a processing chamber which has a dielectric wall partly formed of a dielectric substance and in which a to-be-processed substrate is subjected to a plasma process, an induction coil which is arranged to face the dielectric wall and generates an induction electric field to generate plasma in the processing chamber, a Faraday shield which is provided to partially have openings between the dielectric wall and the induction coil to shield an electrostatic field component and pass an electromagnetic field component, and a drive mechanism which moves the Faraday shield. | 11-20-2008 |
| 20090139963 | Multiple frequency pulsing of multiple coil source to control plasma ion density radial distribution - A method is provided for processing a workpiece supported on a support surface in a chamber of a plasma reactor. A process gas is introduced into the chamber and a plasma is generated with pulse-modulated RF power. The method comprises successively repeating the following cycle: (a) concentrating the plasma in the chamber in a center-high plasma ion distribution for a first on-time duration; (b) permitting plasma to drift during a first off-time duration away from the center-high plasma ion distribution; (c) concentrating the plasma in the chamber in an edge-high plasma ion distribution for a second on-time duration; and (d) permitting plasma to drift during a second off-time duration away from the edge-high plasma ion distribution. The method further comprises adjusting a plasma process rate near a center of the workpiece by adjusting a duty cycle of the first on-time and first off-time. The method also comprises adjusting a plasma process rate near a periphery of the workpiece by adjusting a duty cycle of the second on-time and second off-time. | 06-04-2009 |
| 20090250432 | Method of controlling plasma distribution uniformity by time-weighted superposition of different solenoid fields - A method of processing a workpiece in a chamber of a plasma reactor having a set of plural electromagnet coils includes selecting plural predetermined plasma density distributions relative to a workpiece surface, the predetermined plasma density distributions corresponding to different sets of D.C. currents in the coils, and flowing a process gas into the chamber and generating a plasma in the chamber. The method further includes switching plasma in the chamber between the predetermined plasma density distributions by switching D.C. currents through the coils between the different sets of D.C. currents. | 10-08-2009 |
| 20100089870 | PLASMA PROCESSING APPARATUS AND PLASMA PROCESSING METHOD - A plasma processing apparatus includes a beam-shaped spacer | 04-15-2010 |
| 20100126964 | HIGH VOLTAGE ISOLATION AND COOLING FOR AN INDUCTIVELY COUPLED PLASMA ION SOURCE - A plasma source for processing or imaging a substrate, for ion source for proton therapy, for ion thrusters, or for high energy particle accelerators includes a coolant circuit passing adjacent to a plasma ion reactor chamber and RF antenna coils. In a method for operating the plasma ion source having an induction coil adjacent to a reaction chamber for inductively coupling power into the plasma from a radio frequency power source, the method comprises pumping a dielectric fluid into contact with induction coils of the plasma ion source along the coolant circuit. Use of the dielectric fluid both electrically insulates the plasma chamber, so that it can be biased to 30 kV and up, and efficiently transfers heat away from the plasma chamber. | 05-27-2010 |
| 20100133235 | DRY ETCHING APPARATUS AND DRY ETCHING METHOD - A dry etching apparatus having excellent in-plane uniformity and a high etching rate and a dry etching method are provided. A dry etching apparatus includes a vacuum chamber having an upper plasma generation chamber and a lower substrate processing chamber; a magnetic field coil disposed outside a sidewall of the plasma generation chamber; an antenna coil disposed between the magnetic field coil and the outside of the sidewall and connected to a high-frequency power source; and means for introducing an etching gas disposed on top of the plasma generation chamber, wherein the sidewall is formed of a material having a relative dielectric constant of 4 or more. | 06-03-2010 |
| 20100276393 | PLASMA PROCESSING APPARATUS AND METHOD - A plasma processing apparatus includes a chamber to provide an inner area in which a process is performed upon an object, and a plasma source to generate an electric field in the inner area and thereby to generate plasma from a source gas supplied in the inner area, wherein the plasma source comprises a top source provided in the top of the chamber, and a side source encompassing the side of the chamber and allowing current to flow from the one side of the chamber to the other side thereof. | 11-04-2010 |
| 20110094994 | INDUCTIVELY COUPLED PLASMA APPARATUS - Methods and apparatus for plasma processing are provided herein. In some embodiments, a plasma processing apparatus includes a process chamber having an interior processing volume; a first RF coil disposed proximate the process chamber to couple RF energy into the processing volume; and a second RF coil disposed proximate the process chamber to couple RF energy into the processing volume, the second RF coil disposed coaxially with respect to the first RF coil, wherein the first and second RF coils are configured such that RF current flowing through the first RF coil is out of phase with RF current flowing through the RF second coil. | 04-28-2011 |
| 20110094995 | PLASMA PROCESSING APPARATUS AND PLASMA PROCESSING METHOD - A plasma processing apparatus includes: a processing chamber including a dielectric window; a coil-shaped RF antenna, provided outside the dielectric window; a substrate supporting unit, provided in the chamber, for mounting thereon a target substrate; a processing gas supply unit for supplying a processing gas to the chamber; and an RF power supply unit for supplying an RF power to the RF antenna to generate a plasma of the processing gas by an inductive coupling in the chamber. The apparatus further includes a correction coil, provided at a position outside the chamber where the correction coil is to be coupled with the RF antenna by an electromagnetic induction, for controlling a plasma density distribution in the chamber; and an antenna-coil distance control unit for controlling a distance between the RF antenna and the correction coil while supporting the correction coil substantially in parallel with the RF antenna. | 04-28-2011 |
| 20110094996 | PLASMA PROCESSING APPARATUS AND PLASMA PROCESSING METHOD - A plasma processing apparatus includes a processing chamber including a dielectric window; a coil-shaped RF antenna, provided outside the dielectric window; a substrate supporting unit provided in the processing chamber; a processing gas supply unit; an RF power supply unit for supplying an RF power to the RF antenna to generate a plasma of the processing gas by an inductive coupling in the processing chamber, the RF power having an appropriate frequency for RF discharge of the processing gas; a correction coil, provided at a position outside the processing chamber where the correction coil is to be coupled with the RF antenna by an electromagnetic induction, for controlling a plasma density distribution on the substrate in the processing chamber; a switching device provided in a loop of the correction coil; and a switching control unit for on-off controlling the switching device at a desired duty ratio by pulse width modulation. | 04-28-2011 |
| 20110094997 | PLASMA PROCESSING APPARATUS AND PLASMA PROCESSING METHOD - A plasma processing apparatus includes: an evacuable processing chamber including a dielectric window; a substrate supporting unit, provided in the processing chamber, for mounting thereon a target substrate; a processing gas supply unit for supplying a desired processing gas to the processing chamber to perform a plasma process on the target substrate; a first RF antenna, provided on the dielectric window, for generating a plasma by an inductive coupling in the processing chamber; and a first RF power supply unit for supplying an RF power to the first RF antenna. The first RF antenna includes a primary coil provided on or above the dielectric window and electrically connected to the first RF power supply unit; | 04-28-2011 |
| 20110114601 | PLASMA SOURCE DESIGN - Embodiments of the present invention generally provide a plasma source apparatus, and method of using the same, that is able to generate radicals and/or gas ions in a plasma generation region that is symmetrically positioned around a magnetic core element by use of an electromagnetic energy source. In general, the orientation and shape of the plasma generation region and magnetic core allows for the effective and uniform coupling of the delivered electromagnetic energy to a gas disposed in the plasma generation region. In general, the improved characteristics of the plasma formed in the plasma generation region is able to improve deposition, etching and/or cleaning processes performed on a substrate or a portion of a processing chamber that is disposed downstream of the plasma generation region. | 05-19-2011 |
| 20110155694 | PLASMA REACTOR AND ETCHING METHOD USING THE SAME - A plasma reactor and an etching method using the same are provided. The method includes a first changing step of changing the number or arrangement structure of inductive coils connecting to an RF source power supply unit, a step of applying RF source power and generating high density plasma, a first etching step of etching a first etch-target layer of a workpiece, a first stopping step of stopping applying the RF source power, a second changing step of changing the number or arrangement structure of the inductive coils, a step of applying RF source power to corresponding inductive coils and generating low density plasma, a second etching step of etching a second etch-target layer of the workpiece, and a second stopping step of stopping applying the RF source power. | 06-30-2011 |
| 20110174778 | PLASMA PROCESSING APPARATUS AND METHOD - A plasma processing apparatus performs a process on a substrate by using plasma. The plasma processing apparatus includes a processing chamber; a mounting table which is located in the processing chamber and on which a substrate is mounted; a gas shower head formed of a conductive material provided to face the mounting table and having at the bottom surface thereof a plurality of gas injection openings for supplying a processing gas into the processing chamber; an induction coil to which a high frequency current is supplied to generate an inductively coupled plasma in a region surrounding a space below the gas shower head; a negative voltage supplying unit for applying a negative DC voltage to the gas shower head to allow an electrical field, which is induced by the induction coil, to be drawn to a central portion of the processing region; and a unit for evacuating the processing chamber. | 07-21-2011 |
| 20110278260 | INDUCTIVE PLASMA SOURCE WITH METALLIC SHOWER HEAD USING B-FIELD CONCENTRATOR - A method and apparatus for plasma processing of substrates is provided. A processing chamber has a substrate support and a lid assembly facing the substrate support. The lid assembly has a plasma source that comprises an inductive coil disposed within a conductive plate, which may comprise nested conductive rings. The inductive coil is substantially coplanar with the conductive plate, and insulated therefrom by an insulator that fits within a channel formed in the conductive plate, or nests within the conductive rings. A field concentrator is provided around the inductive coil, and insulated therefrom by isolators. The plasma source is supported from a conductive support plate. A gas distributor supplies gas to the chamber through a central opening of the support plate and plasma source from a conduit disposed through the conductive plate. | 11-17-2011 |
| 20120074100 | PLASMA PROCESSING APPARATUS AND PLASMA PROCESSING METHOD - There is provided an inductively coupled plasma processing apparatus capable of reducing a RF power loss within a high frequency power supply unit (particularly, a matching unit) and capable of enhancing a plasma generation efficiency. In this inductively coupled plasma processing apparatus, a multiple number of closed-loop secondary circuits | 03-29-2012 |
| 20120091098 | HIGH EFFICIENCY GAS DISSOCIATION IN INDUCTIVELY COUPLED PLASMA REACTOR WITH IMPROVED UNIFORMITY - Embodiments of the present invention relate to a plasma chamber having a coil assembly which improves plasma uniformity and improves power coupling to the plasma. One embodiment provides a plasma chamber. The plasma chamber includes a chamber body having sidewalls and a lid, wherein the chamber body defines a processing volume. The plasma chamber further includes a coil assembly disposed over the lid configured to generate inductively coupled plasma within the processing volume, wherein the coil assembly comprises two or more horizontal coils arranged in a common horizontal plane. | 04-19-2012 |
| 20120152901 | INDUCTIVELY COUPLED PLASMA SOURCE FOR PLASMA PROCESSING - Plasma processing apparatus and methods are disclosed. Embodiments of the present disclosure include a processing chamber having an interior space operable to receive a process gas, a substrate holder in the interior of the processing chamber operable to hold a substrate, and at least one dielectric window. A metal shield is disposed adjacent the dielectric window. The metal shield can have a peripheral portion and a central portion. The processing apparatus includes a primary inductive element disposed external to the processing chamber adjacent the peripheral portion of the metal shield. The processing apparatus can further include a secondary inductive element disposed between the central portion of the metal shield and the dielectric window. The primary and secondary inductive elements can perform different functions, can have different structural configurations, and can be operated at different frequencies. | 06-21-2012 |
| 20120211466 | PLASMA PROCESSING APPARATUS AND METHOD THEREOF - The following description relates to a plasma processing apparatus and a method thereof. The plasma processing apparatus comprises a first plasma chamber having a first plasma discharge space, a first plasma source for supplying a first activation energy to the first plasma discharge space within the first plasma chamber, a second plasma chamber which is connected to the first plasma chamber and has a second discharge space, and a second plasma source for supplying a second activation energy for inducing inductive coupled plasma to the second plasma discharge space within the second plasma chamber. | 08-23-2012 |
| 20120217222 | PLASMA PROCESSING SYSTEMS INCLUDING SIDE COILS AND METHODS RELATED TO THE PLASMA PROCESSING SYSTEMS - A plasma processing system for generating plasma to process a wafer. The plasma processing system includes a set of top coils for initiating the plasma, a set of side coils for affecting distribution of the plasma, and a chamber structure for containing the plasma. The chamber structure includes a chamber wall and a dielectric member. The dielectric member includes a top, a vertical wall, and a flange. The top is connected through the vertical wall to the flange, and is connected through the vertical wall and the flange to the chamber wall. The set of top coils is disposed above the top. The set of side coils surrounds the vertical wall. A vertical inner surface of the vertical wall is configured to be exposed to the plasma. The inner diameter of the vertical wall is smaller than the inner diameter of the chamber wall. | 08-30-2012 |
| 20120248066 | PLASMA PROCESSING APPARATUS AND PLASMA PROCESSING METHOD - An inductively coupled plasma process can effectively and properly control plasma density distribution within donut-shaped plasma in a processing chamber is provided. In an inductively coupled plasma processing apparatus, a RF antenna | 10-04-2012 |
| 20120318773 | METHODS AND APPARATUS FOR CONTROLLING PHOTORESIST LINE WIDTH ROUGHNESS WITH ENHANCED ELECTRON SPIN CONTROL - The present invention provides methods and an apparatus for controlling and modifying line width roughness (LWR) of a photoresist layer with enhanced electron spinning control. In one embodiment, an apparatus for controlling a line width roughness of a photoresist layer disposed on a substrate includes a processing chamber having a chamber body having a top wall, side wall and a bottom wall defining an interior processing region, a support pedestal disposed in the interior processing region of the processing chamber, and a plasma generator source disposed in the processing chamber operable to provide predominantly an electron beam source to the interior processing region. | 12-20-2012 |
| 20120325777 | PLASMA PROCESSING APPARATUS AND PLASMA PROCESSING METHOD - A base material is placed on a base material placement face of a base material placement table. An inductively coupled plasma torch unit is structured with a cylindrical chamber structured with a cylinder made of an insulating material and provided with a rectangular slit-like plasma jet port, and lids closing opposing ends of the cylinder, a gas jet port that supplies gas into the cylindrical chamber, and a solenoid coil that generates a high frequency electromagnetic field in the cylindrical chamber. By a high frequency power supply supplying a high frequency power to the solenoid coil, plasma is generated in the cylindrical chamber, and the plasma is emitted from the plasma jet port to the base material. While relatively shifting the plasma torch unit and the base material placement table, a base material surface can be subjected to heat treatment. | 12-27-2012 |
| 20130062311 | INDUCTIVELY COUPLED PLASMA PROCESSING APPARATUS AND METHOD FOR PROCESSING SUBSTRATE WITH THE SAME - The invention relates to an inductively-coupled plasma processing apparatus and a method for processing a substrate. By arranging a magnetic field line adjusting component made of magnetic conductive material, a quasi-closed low reluctance path is formed to serve as the path of the magnetic field line loop outside of the reaction chamber, and the path of most magnetic field lines of the induced magnetic field is constrained by the low reluctance path. In this way, most of magnetic field energy diverged previously may be gathered, and then the magnetic field is multiplied; alternatively, less energy is required to obtain the same magnetic field strength to generate plasma for performing etching, which improves utilization efficiency of energy source. | 03-14-2013 |
| 20130087531 | INDUCTIVE/CAPACITIVE HYBRID PLASMA SOURCE AND SYSTEM WITH SUCH CHAMBER - A plasma processing chamber having capacitive and inductive coupling of RF power. An RF power source is connected to an inductive coil and to a top electrode via a variable capacitor to control the ratio of power applied to the coil and electrode. The bottom electrode, which is part of the chuck holding the substrates, is floating, but has parasitive capacitance coupling to ground. No RF bias is applied to the chuck and/or the substrate, but the substrate is chucked using DC power. In a system utilizing the chamber, the chuck is movable and is loaded with substrates outside the chamber, enter the chamber from one side for processing, exit the chamber from an opposite side after the processing, and is unloaded in an unloading chamber. The chuck is then transported back to the loading chamber. Substrates are delivered to and removed from the system using conveyor belts. | 04-11-2013 |
| 20130134129 | INDUCTIVELY COUPLED PLASMA APPARATUS - Methods and apparatus for plasma processing are provided herein. In some embodiments, a plasma processing apparatus includes a process chamber having an interior processing volume; a first RF coil disposed proximate the process chamber to couple RF energy into the processing volume; and a second RF coil disposed proximate the process chamber to couple RF energy into the processing volume, the second RF coil disposed coaxially with respect to the first RF coil, wherein the first and second RF coils are configured such that RF current flowing through the first RF coil is out of phase with RF current flowing through the RF second coil. | 05-30-2013 |
| 20130146564 | PLASMA TREATMENT APPARATUS AND PLASMA TREATMENT METHOD - A plasma treatment apparatus that includes a chamber having an opening portion which serves as a plasma ejection port surrounded by a dielectric member; a gas supply pipe that introduces gas into an inside of the chamber; a solenoid coil disposed in a vicinity of the chamber; a high-frequency power supply having a pulse modulation function which is connected to the solenoid coil; and a base material mounting table disposed on a plasma ejection port side. Plasma can be stably generated using the plasma treatment apparatus. | 06-13-2013 |
| 20130168354 | MIXED MODE PULSING ETCHING IN PLASMA PROCESSING SYSTEMS - A method for processing substrate in a chamber, which has at least one plasma generating source, a reactive gas source for providing reactive gas into the interior region of the chamber, and a non-reactive gas source for providing non-reactive gas into the interior region, is provided. The method includes performing a mixed-mode pulsing (MMP) preparation phase, including flowing reactive gas into the interior region and forming a first plasma to process the substrate that is disposed on a work piece holder. The method further includes performing a MMP reactive phase, including flowing at least non-reactive gas into the interior region, and forming a second plasma to process the substrate, the second plasma is formed with a reactive gas flow during the MMP reactive phase that is less than a reactive gas flow during the MMP preparation phase. Perform the method steps a plurality of times. | 07-04-2013 |
| 20130200043 | ANTENNA UNIT FOR INDUCTIVELY COUPLED PLASMA, INDUCTIVELY COUPLED PLASMA PROCESSING APPARATUS AND METHOD THEREFOR - An antenna unit for inductively coupled plasma includes an antenna configured to generate an inductively coupled plasma used in processing a substrate within a processing chamber of a plasma processing apparatus, wherein the antenna includes planar sections which are formed to face the substrate and generate an induction electric field that contributes to generate the inductively coupled plasma, wherein a plurality of antenna segments having planar portions which form a portion of the planar sections are arranged to constitute the planar sections, wherein the antenna segments are constituted by winding an antenna line in a direction intersecting with the substrate in a longitudinal and spiral pattern. | 08-08-2013 |
| 20130220975 | HYBRID PLASMA PROCESSING SYSTEMS - A hybrid plasma processing system and methods for manufacturing and operating same are disclosed. The hybrid plasma processing system includes an RF-powered lower electrode for supporting the substrate during processing and a hybrid upper electrode disposed in a spaced-apart relationship above the lower electrode. The hybrid upper electrode may be thermally controlled and includes a first plate formed of a first material having a first electrical resistivity, a conductive grounded plate having therein a plurality of radial slots and disposed above the first plate. The conductive plate is formed of a second material having a second electrical resistivity different from the first electrical resistivity. The hybrid upper electrode also includes an RF-powered inductive coil disposed above the conductive ground plate. | 08-29-2013 |
| 20130256271 | METHODS AND APPARATUSES FOR CONTROLLING PLASMA IN A PLASMA PROCESSING CHAMBER - Methods and apparatus for controlling plasma in a plasma processing system having at least an inductively coupled plasma (ICP) processing chamber are disclosed. The ICP chamber employs at least a first/center RF coil, a second/edge RF coil disposed concentrically with respect to the first/center RF coil, and a RF coil set having at least a third/mid RF coil disposed concentrically with respect to the first/center RF coil and the second/edge RF coil in a manner such that the third/mid RF coil is disposed in between the first/center RF coil and the second/edge RF coil. During processing, RF currents in the same direction are provided to the first/center RF coil and the second/edge RF coil while RF current in the reverse direction (relative to the direction of the currents provided to the first/center RF coil and the second/edge RF coil) is provided to the third/mid RF coil. | 10-03-2013 |
| 20140008325 | METHOD OF ETCHING - A method is for etching successive substrates on a platen in an inductively coupled plasma chamber in which the etching process results in carbonaceous deposits in the chamber. The method includes (a) interrupting the etching processing of substrates, (b) running an oxygen or oxygen containing plasma within the chamber and removing gaseous by-products, and (c) resuming the etch processing of substrates. The method is characterised in that it further includes the step of running an argon plasma in the chamber after step (b) with the platen biased. | 01-09-2014 |
| 20140175055 | ADJUSTABLE COIL FOR INDUCTIVELY COUPLED PLASMA - Systems, methods and apparatus for fabricating devices use an inductively-coupled plasma. An inductively coupled plasma system includes a reaction chamber including a reaction space and a coil chamber. The system includes a workpiece support within the reaction space. The system includes a first inductive coil section and a second inductive coil section, the first and second inductive coil sections being independently movable. At least one power source is coupled to the first and second inductive coil sections. The first and second inductive coil sections and the at least one power source are configured to induce an inductively coupled plasma (ICP) in the reaction space. An adjustment mechanism is configured to move the first inductive coil section relative to the second inductive coil section. | 06-26-2014 |
| 20140197136 | High Efficiency Plasma Source - A plasma reactor and method for improved gas injection for an inductive plasma source for dry strip plasma processing are disclosed. According to embodiments of the present disclosure, gas is fed into a plasma chamber through a gas injection channel located adjacent to the side wall of the plasma chamber, rather than from the center, so that the process gas enters the plasma chamber in a close proximity to the induction coil. In particular embodiments, the process gas that enters the chamber is forced to pass through a reactive volume or active region adjacent the induction coil where efficient heating of electrons occurs, providing increased efficiency of the reactor by improving process gas flow and confinement in the heating area. | 07-17-2014 |
| 20140263181 | METHOD AND APPARATUS FOR GENERATING HIGHLY REPETITIVE PULSED PLASMAS - A pulsed radio frequency inductive plasma source and method are provided. The source may generate plasma at gas pressures from 1 torr to 2000 torr. By utilizing high power RF generation from fast solid state switches such as Insulated-Gate Bipolar Transistor (IGBT) combined with the resonance circuit, large inductive voltages can be applied to RF antennas to allow rapid gas breakdown from 1-100 μs. After initial breakdown, the same set of switches or an additional rf pulsed power systems are utilized to deliver large amount of rf power, between 10 kW to 10 MW, to the plasmas during the pulse duration of 10 μs-10 ms. In addition, several methods and apparatus for controlling the pulse power delivery, timing gas and materials supply, constructing reactor and substrate structure, and operating pumping system and plasma activated reactive materials delivery system will be disclosed. When combined with the pulsed plasma generation, these apparatuses and the methods can greatly improve the applicability and the efficacy of the industrial plasma processing. | 09-18-2014 |
| 20140291290 | PLASMA PROCESSING APPARATUS AND METHOD THEREOF - In an inductive coupling type plasma torch unit, a solenoid coil is arranged in the vicinity of a first quartz block and a second quartz block, and a space inside a long chamber is annular. Plasma generated in the space inside the long chamber is jetted toward a base material from a plasma jetting port) as a slit-shaped opening in the long chamber. The base material is processed by relatively moving the long chamber and a base material holding mechanism holding the base material inside the annular chamber in a direction perpendicular to the longitudinal direction of the plasma jetting port. | 10-02-2014 |
| 20150014276 | PLASMA PROCESSING METHOD - A plasma processing method for performing a plasma process on a processing target substrate is provided. The plasma processing method includes: segmenting a RF antenna into an inner coil, an intermediate coil, and an outer coil with gaps therebetween in a radial direction, respectively, the inner coil, the intermediate coil and the outer coil being electrically connected to one another in parallel between a first node and a second node; providing a variable intermediate capacitor and a variable outer capacitor between the first node and the second node, the variable intermediate capacitor being electrically connected in series to the intermediate coil, the variable outer capacitor being electrically connected in series to the outer coil, no reactance device being connected to the inner coil; and controlling plasma density distribution on the processing target substrate by selecting or variably adjusting electrostatic capacitances of the intermediate capacitor and the outer capacitor. | 01-15-2015 |
| 20150053645 | PLASMA PROCESSING APPARATUS AND PLASMA PROCESSING METHOD - The plasma processing apparatus includes a dielectric member for defining a chamber, a gas introducing part for introducing a gas into the chamber, a discharge coil disposed on one side of the dielectric member and supplied with AC power to generate a plasma in the chamber into which the gas has been introduced, a conductor member disposed on the other side of the dielectric member and facing the discharge coil with the chamber of the dielectric member interposed therebetween, an AC power source for supplying AC voltage to the discharge coil, an opening communicating with the chamber and serving for applying the plasma to a substrate to be processed, and a moving mechanism for moving the substrate relative to the chamber so that the substrate passes across a front of the opening. The discharge coil is grounded or connected to the conductor member via a voltage generating capacitor or a voltage generating coil. | 02-26-2015 |
| 20150136735 | PLASMA PROCESSING DEVICE AND PLASMA PROCESSING METHOD - To provide a plasma processing device and a plasma processing method capable of performing high-speed processing. In an inductively-coupled plasma torch unit, a coil, a lid and a first ceramic block are bonded together, and a long chamber has an annular shape. Plasma generated in the chamber is ejected from an opening in the chamber toward a substrate. The substrate is processed by moving the long chamber and the substrate mounting table relatively in a direction perpendicular to a longitudinal direction of the opening. The first ceramic block is cooled efficiently by allowing a refrigerant to flow in a refrigerant flow path. | 05-21-2015 |
| 20150348756 | INTEGRATED INDUCTION COIL & MICROWAVE ANNTENNA AS AN ALL-PLANAR SOURCE - This disclosure relates to a plasma processing system that can use a single power source assembly to generate inductively coupled plasma (ICP) and surface wave plasma using the same physical hardware. The power source assembly may include an antenna plate that may include a conductive material be used an ICP coil for a radio frequency (RF) power source and as a slot antenna for a microwave source. | 12-03-2015 |
| 20160049917 | SYSTEMS AND METHODS FOR IMPROVED RADIO FREQUENCY MATCHING NETWORKS - Systems and methods are provided for matching the impedance of a load to an impedance of a power generator. Embodiments include a matching network with a dynamically configurable component assembly array couplable to the variable impedance load and the RF power generator, wherein the component assembly array includes one or more tune and load electrical components. The component assembly array is adapted to be configured for each recipe step, and at least one of the electrical components is a variable impedance component adjustable to reduce RF energy reflected from the variable impedance load for each recipe step. Numerous other aspects are provided. | 02-18-2016 |
| 20160254123 | SHIELDED LID HEATER ASSEMBLY | 09-01-2016 |
