Class / Patent application number | Description | Number of patent applications / Date published |
156345270 | For temperature detection or control | 67 |
20080202685 | HIGH YIELD PLASMA ETCH PROCESS FOR INTERLAYER DIELECTRICS - A high yield plasma etch process for an interlayer dielectric layer of a semiconductor device is provided, according to an embodiment of which a dielectric layer is etched with a nitrogen-containing plasma. In this way, the formation of polymers on a backside bevel of a substrate is avoided or substantially reduced. Remaining polymer at the backside bevel can be removed in situ by post-etch treatment. Further, a plasma etching device is provided comprising a chamber, a substrate receiving space for receiving a substrate, a plasma generator for generating a plasma in the chamber and a temperature conditioner for conditioning a temperature at an outer circumferential region of the substrate receiving space and thereby minimizing temperature gradients at a bevel of the wafer. | 08-28-2008 |
20080236748 | PLASMA PROCESSING APPARATUS - In a plasma processing apparatus including a processing chamber, a high-frequency power supply needed for plasma production, a unit that feeds a gas to the processing chamber, a shower plate, an exhausting unit that depressurizes the processing chamber, a stage on which a sample to be processed is placed, and a focus ring, the temperature of the focus ring can be regulated. A unit that measures a gas temperature distribution in the processing chamber is included. Based on the result of measurement of the gas temperature distribution, the temperature of the focus ring is controlled so that the gas temperature in the surface of the sample to be processed will be uniform. | 10-02-2008 |
20080257494 | SUBSTRATE PROCESSING APPARATUS - A substrate processing apparatus capable of rapidly raising and lowering the processing temperature of a substrate. The substrate processing apparatus has a mounting stage adapted to be mounted with a substrate and to control the processing temperature of the mounted substrate. The mounting stage comprises a temperature control device disposed in a mounting surface of the mounting stage for mounting the substrate thereon, a coolant inflow chamber into which a coolant is flowed, and a heat transmission/insulation switch-over chamber disposed between the temperature control device and the coolant inflow chamber so that a heat-transmitting gas is flowed into and vacuum-exhausted from the heat transmission/insulation switch-over chamber. The temperature control device has therein a gas inflow chamber into which a hot gas is flowed. | 10-23-2008 |
20080257495 | TEMPERATURE SETTING METHOD FOR THERMAL PROCESSING PLATE, TEMPERATURE SETTING APPARATUS FOR THERMAL PROCESSING PLATE, AND COMPUTER-READABLE STORAGE MEDIUM - In the present invention, the line widths within a substrate of an etching pattern are measured for a substrate for which photolithography processing and an etching treatment thereafter have been finished. The line width measurement results are converted into the line widths of a resist pattern using relational expressions which have been obtained in advance. From the converted line widths of the resist pattern, coefficients of a polynomial function indicating variations within the substrate are calculated. Next, a function between line width correction amounts for the resist pattern and temperature correction values is used to calculate temperature correction values for the regions of the thermal plate to bring the coefficients of the polynomial function close to zero. Based on each of the calculated temperature correction values, the temperature for each of the regions is set. | 10-23-2008 |
20080257496 | TEMPERATURE SETTING METHOD FOR THERMAL PROCESSING PLATE, TEMPERATURE SETTING APPARATUS FOR THERMAL PROCESSING PLATE, AND COMPUTER-READABLE STORAGE MEDIUM - A temperature setting method of the present invention includes the steps of: measuring states of an etching pattern within the substrate for a substrate for which a series of photolithography processing including thermal processing and an etching treatment thereafter have been finished; calculating temperature correction values for regions of a thermal processing plate from measurement result of the states of the etching pattern within the substrate using a function between correction amounts for the states of the etching pattern and the temperature correction values for the thermal processing plate; and setting the temperature for each of the regions of the thermal processing plate by each of the calculated temperature correction values. | 10-23-2008 |
20090025876 | METHODS AND APPARATUS FOR IN SITU SUBSTRATE TEMPERATURE MONITORING BY ELECTROMAGNETIC RADIATION EMISSION - A method in a plasma processing system of determining the temperature of a substrate. The method includes providing a substrate comprising a set of materials, wherein the substrate being configured to absorb electromagnetic radiation comprising a first set of electromagnetic frequencies, to convert the first set of electromagnetic frequencies to a set of thermal vibrations, and to transmit a second set of electromagnetic frequencies. The method also includes positioning the substrate on a substrate support structure, wherein the substrate support structure includes a chuck; flowing an etchant gas mixture into a plasma reactor of the plasma processing system; and striking the etchant gas mixture to create a plasma, wherein the plasma comprises the first set of electromagnetic frequencies. The method further includes processing the substrate with the plasma thereby generating the second set of electromagnetic frequencies; calculating a magnitude of the second set of electromagnetic frequencies; and converting the magnitude to a temperature value. | 01-29-2009 |
20090065145 | Plasma Processing Apparatus And Method Capable Of Adjusting Temperature Within Sample Table - A plasma processing apparatus includes a processing chamber disposed within a vacuum vessel for forming therein a plasma, a sample table disposed beneath the processing chamber for mounting on its upper surface a workpiece to be processed, an electrode disposed within the sample table for allowing application of high frequency power for adjustment of a surface potential of the workpiece, a passage disposed within the sample table for causing a refrigerant to flow therein, and a control device for adjusting a temperature of the refrigerant flowing in the passage. The workpiece is processed using a plasma created within the processing chamber under application of the high frequency power. Before application of the high frequency power, the control device starts to adjust the temperature of the refrigerant based on information of the high frequency power so that it has a predetermined value. | 03-12-2009 |
20090095422 | SEMICONDUCTOR MANUFACTURING APPARATUS AND SUBSTRATE PROCESSING METHOD - Provided are a semiconductor manufacturing apparatus and a substrate processing method that can reduce a temperature difference along the circumference of a substrate and continue substrate processing even when a temperature sensor becomes defective. The semiconductor manufacturing apparatus includes a reaction tube configured to process a wafer, a heater configured to heat the reaction tube, an exhaust pipe, a control unit configured to control a cooling gas exhaust device, the heater, and a pressure sensor that detects a pressure inside the exhaust pipe when cooling gas flows through the exhaust pipe. The control unit previously acquires an average value of second temperature detecting units that detect states of a peripheral part of a wafer, and a measure value of a first temperature detecting unit that detects a state of a center part of the wafer so as to control the heat and the cooling device based on the acquired values. | 04-16-2009 |
20090133835 | PROCESSING APPARATUS - Provided is a structure of an improved processing vessel for a processing apparatus which processes a target object, such as a semiconductor wafer, which is heated in the metal cylindrical shaped processing vessel by using a processing gas. The processing vessel ( | 05-28-2009 |
20090178762 | Substrate processing apparatus - A substrate processing apparatus includes a processing chamber, a substrate holding part that holds substrates of required numbers in the processing chamber, a gas supply/exhaust part that supplies or exhausts required gas into the processing chamber, a rotation part that rotates the substrate holding part, a first heating part provided in the substrate holding part so as to face at least an upper surface of each substrate held by the substrate holding part, and a power supply part that supplies power to the first heating part in a non-contact state by electromagnetic coupling. | 07-16-2009 |
20090308536 | METHOD AND SYSTEM FOR MANUFACTURING SEMICONDUCTOR DEVICE HAVING LESS VARIATION IN ELECTRICAL CHARACTERISTICS - A system for manufacturing a semiconductor device that has a gate electrode and a pair of diffusion layers formed in a semiconductor substrate on sides of the gate electrode, the system including structure for forming an insulating film and a gate electrode on a semiconductor substrate, obtaining a thickness of an affected layer formed in a surface of the semiconductor substrate, forming a pair of diffusion layers by injecting an impurity element into the semiconductor substrate in areas flanking the gate electrodes based on a predetermined injection parameter, performing activating heat treatment based on a predetermined heat treatment parameter, and deriving the injection parameter or heat treatment parameter in response to the obtained thickness of the affected layer such that the diffusion layers are set to a predetermined sheet resistance. | 12-17-2009 |
20090314432 | BAFFLE PLATE AND SUBSTRATE PROCESSING APPARATUS - A baffle plate, provided in a processing chamber for processing a substrate therein such that the baffle plate is disposed around a mounting table for mounting the substrate thereon, has a plurality of gas exhaust holes, through which a gas is exhausted from the processing chamber. The baffle plate has a stacked structure including a plurality of plate-shaped members. The baffle plate includes a pressure adjustment gas supply passageway to supply a pressure adjustment gas for adjusting a pressure in the processing chamber. | 12-24-2009 |
20090321017 | Plasma Processing Apparatus and Plasma Processing Method - There is disclosed a plasma processing apparatus wherein a sample placed on the top surface of the sample table located within the processing chamber contained in a vacuum vessel is processed with plasma formed in the processing chamber, comprising a set of ducts cut within the sample table through which cooling medium flows; a film-shaped heater whose heating elements are concentrically embedded in the dielectric film serving as the top surface of the sample table; plural temperature controllers which set up the temperature of the cooling medium flowing through the ducts at different values, respectively; and a control unit which switches over the circulations through the ducts of the cooling medium supplied from the plural temperature controllers. | 12-31-2009 |
20100000681 | PHASE CHANGE BASED HEATING ELEMENT SYSTEM AND METHOD - A method of and apparatus for regulating carbon dioxide using a pre-injection assembly coupled to a processing chamber operating at a supercritical state is disclosed. The method and apparatus utilize a source for providing supercritical carbon dioxide to the pre-injection assembly and a temperature control element for maintaining the pre-injection region at a supercritical temperature and pressure. | 01-07-2010 |
20100024981 | SUBSTRATE SUPPORT FOR HIGH THROUGHPUT CHEMICAL TREATMENT SYSTEM - A high throughput chemical treatment system for processing a plurality of substrates is described. The chemical treatment system is configured to chemically treat a plurality of substrates in a dry, non-plasma environment. A substrate support in the chemical treatment system is configured to support a plurality of substrates. | 02-04-2010 |
20100024982 | HIGH THROUGHPUT PROCESSING SYSTEM FOR CHEMICAL TREATMENT AND THERMAL TREATMENT AND METHOD OF OPERATING - A high throughput processing system having a chemical treatment system and a thermal treatment system for processing a plurality of substrates is described. The chemical treatment system is configured to chemically treat a plurality of substrates in a dry, non-plasma environment. The thermal treatment system is configured to thermally treat a plurality of substrates chemically treated in the chemical treatment system. | 02-04-2010 |
20100059180 | Method of manufacturing semiconductor device and cleaning apparatus - The disclosure concerns a manufacturing method of a semiconductor device includes dry-etching a semiconductor substrate or a structure formed on the semiconductor substrate; supplying a solution onto the semiconductor substrate; measuring a specific resistance or a conductivity of the supplied solution; and supplying a removal solution for removing the etching residual material onto the semiconductor substrate for a predetermined period of time based on the specific resistance or the conductivity of the solution, when an etching residual material adhering to the semiconductor substrate or the structure is removed. | 03-11-2010 |
20100096083 | SHOWER HEAD STRUCTURE AND TREATING DEVICE - A shower head structure characterized by comprising a shower head section, opposed to the upper surface of a mounting table in an evacuable treating vessel, for injecting a processing gas into the treating vessel; a temperature observation through-hole which opens in the lower surface of the shower head so as to be opposed to the upper surface of the mounting table, a transparent observation window which hermetically seals the upper end of the temperature observation through-hole, a radiation thermometer disposed on the upper surface of the transparent observation window, an adhesion preventive gas supply path communicating with the temperature observation through-hole to prevent a film from adhering to the transparent observation window, wherein the adhesion preventive gas supply path communicates with the temperature observation through-hole through an injection nozzle for injecting the adhesion preventive gas to the transparent observation window. | 04-22-2010 |
20100126666 | PLASMA PROCESSING APPARATUS - In a plasma processing apparatus; a refrigerant flow passage being formed in the sample table and constituting an evaporator of a cooling cycle and the in-plane temperature of the sample to be processed is controlled uniformly by controlling the enthalpy of the refrigerant supplied to the refrigerant flow passage and thereby keeping the flow mode in the refrigerant flow passage, namely in the sample table, in the state of a gas-liquid two-phase. If by any chance dry out of the refrigerant occurs in the refrigerant flow passage because the heat input of plasma increases with time or by another reason, it is possible to increase speed of a compressor and inhibit the dry out from occurring in the refrigerant flow passage. Further, if the refrigerant supplied to the refrigerant flow passage is liquefied, it is kept in the gas-liquid two-phase state. | 05-27-2010 |
20100163183 | MOUNTING TABLE STRUCTURE AND HEAT TREATMENT APPARATUS - A mounting table structure includes a mounting table provided with a heating unit having heaters respectively arranged in concentrically divided heating zones and on which an object to be heat-treated is placed, a temperature measurement units respectively arranged in the heating zones, and a hollow column for supporting the mounting table in an upstanding state. The diameter of the column is gradually expanded from its bottom to its top, and the upper end of the column is bonded to the bottom surface of the mounting table. A measurement unit main body of each temperature measurement unit is inserted into the hollow column and an insertion passageway provided at a sidewall of the column. | 07-01-2010 |
20100206482 | PLASMA PROCESSING APPARATUS AND TEMPERATURE MEASURING METHOD AND APPARATUS USED THEREIN - A plasma processing apparatus includes a temperature measuring unit; airtightly sealed temperature measuring windows provided in a mounting table, for optically communicating to transmit a measurement beam through a top surface and a bottom surface of the mounting table; and one or more connection members for connecting the mounting table and a base plate, which is provided in a space between the mounting table and the base plate. In the plasma processing apparatus, a space above the mounting table is set to be maintained under a vacuum atmosphere, and a space between the mounting table and the base plate is set to be maintained under a normal pressure atmosphere, and each collimator is fixed to the base plate at a position corresponding to each temperature measuring window, thereby measuring a temperature of the substrate via the temperature measuring windows by the temperature measuring unit. | 08-19-2010 |
20100314046 | PLASMA REACTOR WITH A MULTIPLE ZONE THERMAL CONTROL FEED FORWARD CONTROL APPARATUS - A plasma reactor having a reactor chamber and an electrostatic chuck having a surface for holding a workpiece inside the chamber includes inner and outer zone backside gas pressure sources coupled to the electrostatic chuck for applying a thermally conductive gas under respective pressures to respective inner and outer zones of a workpiece-surface interface formed whenever a workpiece is held on the surface, and inner and outer evaporators inside respective inner and outer zones of the electrostatic chuck and a refrigeration loop having respective inner and cuter expansion valves for controlling flow of coolant through the inner and outer evaporators respectively. The reactor further includes inner and outer zone temperature sensors in inner and outer zones of the electrostatic chuck and a thermal model capable of simulating heat transfer through the inner and outer zones, respectively, between the evaporator and the surface based upon measurements from the inner and outer temperature sensors, respectively. Inner and outer zone agile control processors coupled to the thermal model govern the inner and outer zone backside gas pressure sources, respectively, in response to predictions from the model of changes in the respective pressures that would bring the temperatures measured by the inner and outer zone sensors, respectively, closer to a desired temperature. | 12-16-2010 |
20100319852 | CAPACITIVLEY COUPLED PLASMA REACTOR HAVING A COOLED/HEATED WAFER SUPPORT WITH UNIFORM TEMPERATURE DISTRIBUTION - A plasma reactor for processing a workpiece includes a reactor chamber, an electrostatic chuck within the chamber for supporting a workpiece, an RF plasma bias power generator coupled to apply RF power to the electrostatic chuck and a refrigeration loop having an evaporator inside the electrostatic chuck with a refrigerant inlet and a refrigerant outlet. Preferably, the evaporator includes a meandering passageway distributed in a plane beneath a top surface of the electrostatic chuck. Preferably, refrigerant within the evaporator is apportioned between a vapor phase and a liquid phase. As a result, heat transfer between the electrostatic chuck and the refrigerant within the evaporator is a constant-temperature process. This feature improves uniformity of temperature distribution across a diameter of the electrostatic chuck. | 12-23-2010 |
20110061810 | Apparatus and Methods for Cyclical Oxidation and Etching - Apparatus and methods for the manufacture of semiconductor devices suitable for narrow pitch applications and methods of fabrication thereof are described herein. Disclosed are various single chambers configured to form and/or shape a material layer by oxidizing a surface of a material layer to form an oxide layer; removing at least some of the oxide layer by an etching process; and cyclically repeating the oxidizing and removing processes until the material layer is formed to a desired shape. In some embodiments, the material layer may be a floating gate of a semiconductor device. | 03-17-2011 |
20110120649 | VACUUM PROCESSING APPARATUS - The invention provides a plasma processing apparatus for processing a wafer mounted on a sample stage placed in a vacuum processing chamber using a plasma generated in the vacuum chamber. The plasma processing apparatus comprises a plate placed in the vacuum processing vessel above and opposed to the wafer, the plate having a through hole through which a first processing gas is introduced; a first and second cylindrical member arranged vertically and adjacently; and means communicating with the gap between the first and second cylindrical member for supplying a second processing gas. The wafer is processed while the first processing gas and the second processing gas having different compositions are supplied. | 05-26-2011 |
20110120650 | SEMICONDUCTOR DEVICE MANUFACTURING METHOD AND SUBSTRATE PROCESSING SYSTEM - A semiconductor device manufacturing method includes: forming an etching mask having a predetermined circuit pattern on a surface of an etching target film disposed on a semiconductor substrate; etching the etching target film through the etching mask to form a groove or hole in the etching target film; removing the etching mask by a process including at least a process using an ozone-containing gas; and recovering damage of the etching target film caused before or in said removing the etching mask, while supplying a predetermined recovery gas. | 05-26-2011 |
20110132541 | VACUUM PROCESSING APPARATUS AND PLASMA PROCESSING APPARATUS WITH TEMPERATURE CONTROL FUNCTION FOR WAFER STAGE - A wafer stage includes a first evaporator where a refrigerant circulates. The first evaporator makes up a cooling cycle with a compressor, first condenser, expansion valve, second evaporator, refrigerant thermometer, and refrigerant flowmeter. The first condenser is supplied with a heat exchange medium. The temperature of a coolant supplied to the second evaporator is measured by an inlet refrigerant thermometer and outlet refrigerant thermometer, while the flow rate of the coolant is monitored and adjusted by a flow-rate adjuster. The temperature difference in the coolant between being at the inlet and at the outlet and flow rate can be measured. Upon complete evaporation of the refrigerant in the second evaporator, the dryness of the refrigerant discharged from the wafer stage is calculated from the amount of heat absorbed from (exchanged with) the coolant, the circulation amount of the refrigerant and the refrigerant temperature to control the rotational speed of the compressor. | 06-09-2011 |
20110186224 | METHOD AND DEVICE FOR DESCALING A METAL STRIP - A method and a device for descaling a metal strip, in which the metal strip is guided in a direction of conveyance through at least one plasma descaling unit in which it is subjected to a plasma descaling. The metal strip is subjected to an automatically controlled cooling process in a cooling unit following the plasma descaling in the one or more plasma descaling units in such a way that it has a well-defined temperature downstream of the cooling unit. | 08-04-2011 |
20110220288 | TEMPERATURE CONTROL SYSTEM, TEMPERATURE CONTROL METHOD, PLASMA PROCESSING APPARATUS AND COMPUTER STORAGE MEDIUM - There is provided a temperature control system configured to control a temperature of a temperature control target member of a processing chamber for performing a plasma process on a substrate therein. The temperature control system includes a heating unit configured to heat the temperature control target member; a cooling unit configured to cool the temperature control target member by circulating a liquid coolant; and a flow rate control unit configured to control a flow rate of the coolant into the temperature control target member by the cooling unit to a first flow rate when plasma is generated within the processing chamber and to a second flow rate lower than the first flow rate when plasma is not generated within the processing chamber. | 09-15-2011 |
20110226418 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - In a dry cleaning process, breakage of a gas supply pipe can be prevented, and maintenance efficiency can be increased. There is provided a substrate processing apparatus comprising: a process chamber configured to process a substrate; a heater configured to heat an inside of the process chamber; a gas supply pipe installed in the process chamber; a gas supply system configured to supply at least a cleaning gas to the gas supply pipe to introduce the cleaning gas into the process chamber; and a control unit configured to control the heater and gas supply system with the substrate unloaded from the process chamber to perform heating an inside of the process chamber to generate a crack in a thin film formed inside the process chamber; decreasing an inside temperature of the process chamber after the crack is generated in the thin film; and introducing the cleaning gas into the process chamber by supplying the cleaning gas to the gas supply pipe after the inside temperature of the process chamber is decreased. | 09-22-2011 |
20110315318 | FOCUS RING AND MANUFACTURING METHOD THEREFOR - There is provided a focus ring capable of preventing a part of a heat transfer sheet from adhering to and remaining on a mounting table. The focus ring is arranged to surround a periphery of a substrate mounted on the mounting table having a temperature control device. Further, the focus ring includes a flexible heat transfer sheet. Furthermore, the focus ring is in contact with the mounting table via the heat transfer sheet, and the heat transfer sheet has a contact surface in contact with the mounting table and an anti-adhesion layer formed on the contact surface. | 12-29-2011 |
20120073751 | MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE, AND SEMICONDUCTOR DEVICE - Provided is a substrate processing apparatus comprising: a processing chamber for processing a substrate; a material supply unit for supplying a Si material, an oxidation material and a catalyst into the processing chamber; a heating unit for heating the substrate; and a controller for controlling at least the material supply unit and the heating unit, wherein the controller controls the heating unit such that heating temperature of the substrate becomes a processing temperature lower than a deformation temperature of a first photoresist constituting a first photoresist pattern, and the controller controls the material supply unit to repeat an alternate supply of the Si material and the catalyst, and the oxidation material and the catalyst into the processing chamber a plurality of times. | 03-29-2012 |
20120103523 | PLASMA PROCESSING APPARATUS - The present disclosure provides a plasma processing apparatus capable of improving uniformity of a process on a substrate surface. The plasma processing apparatus performs a process on a substrate accommodated in a processing chamber by generating inductively coupled plasma in the processing chamber. The plasma processing apparatus includes a processing chamber main body having a top opening and formed in a container shape; an upper lid, configured to cover the top opening, having a ceiling plate formed by alternately and concentrically arranging annular dielectric members and metal members, all having different diameters, and by airtightly sealing gaps between the dielectric members and the metal members; gas introduction units provided at the metal members, for supplying a processing gas into the processing chamber; and a high frequency coil provided on an upper portion of the dielectric members and provided at the outside of the processing chamber. | 05-03-2012 |
20120186745 | PLASMA PROCESSING APPARATUS - Provided is a plasma processing apparatus in which accuracy or reliability of processing is improved. This plasma processing apparatus includes a sample stage in a processing chamber arranged in a vacuum vessel and in which plasma is generated. The sample stage has a cylindrical shape and operates as an evaporator through which a refrigerant of a refrigerating cycle flows. Further, the apparatus includes refrigerant passages which are concentrically arranged inside of the sample stage, one or more detectors which detect vibrations of the sample stage, and an control unit which controls a temperature of the refrigerant flowing into the sample stage based on detection results of a dryness of the refrigerant flowing through the passages obtained from an output of the detectors. | 07-26-2012 |
20120241089 | METHOD AND APPARATUS FOR THERMOCOUPLE INSTALLATION OR REPLACEMENT IN A SUBSTRATE SUPPORT - An apparatus and method for one or more externally mounted temperature sensors in a substrate support utilized in a chemical vapor deposition (CVD) chamber is provided. In one embodiment, a substrate support for a vacuum chamber is provided. The substrate support comprises a body having a substrate receiving surface and an opposing bottom surface, a support stem coupled to and extending away from the bottom surface, one or more thermal control devices embedded within the body, at least one temperature sensor interfaced with the bottom surface of the body, and a removable hermitic enclosure fastened to the second side of the body and covering the at least one temperature sensor. | 09-27-2012 |
20120247669 | MEASURING APPARATUS AND PLASMA PROCESSING APPARATUS - Provided a measuring apparatus includes a wavelength dispersion device which dispersed light reflected by one surface of an examination target having a thickness D and light reflected by a rear surface of the examination target, as incident light, a detector in which a plurality of photodetection elements receiving light dispersed by the wavelength dispersion device and detecting a power of the received light in are provided in an array shape, and a piezoelectric device which is attached to the detector to convert an applied voltage into a mechanical power, wherein the detector detects the power of the received light when the detector is shifted by the mechanical power converted by the piezoelectric device as much as d/m, where d is a width of each of the photodetection elements in an array direction and m is an integer equal to or greater than 2. | 10-04-2012 |
20120318455 | PASSIVE COMPENSATION FOR TEMPERATURE-DEPENDENT WAFER GAP CHANGES IN PLASMA PROCESSING SYSTEMS - Passive wafer gap compensation arrangements and methods relying on temperature-driven dimensional change of thermally expanding component(s) to counteract, substantially or partially, the change in the wafer gap due to chamber component temperature change is provided. The passive arrangements and techniques involve passively raising or lowering the substrate-facing component or the substrate support to counteract, substantially or partially, the gap-narrowing effect or gap-expanding effect of rising temperature, thereby reducing or eliminating the change in the wafer gap due to a change in the chamber component temperature. Cooling arrangement(s) and thermal break(s) are optionally provided to improve performance. | 12-20-2012 |
20130008603 | COAXIAL CABLE AND SUBSTRATE PROCESSING APPARATUS - According to one embodiment, there is provided a coaxial cable that transmits radio frequency power. The coaxial cable includes an inner tube, an outer tube, and an insulating support member. The inner tube is made of a conductor. The outer tube is disposed outside the inner tube coaxially with the inner tube and is made of a conductor. The insulating support member is disposed between the inner tube and the outer tube. Cooling gas flows into at least one of a first space inside the inner tube and a second space between the inner tube and the outer tube. | 01-10-2013 |
20130068390 | METHOD AND APPARATUS FOR CLEANING A SUBSTRATE SURFACE - Embodiments described herein provide apparatus and methods for processing a substrate. One embodiment comprises a cleaning chamber. The cleaning chamber comprises one or more walls that form a low energy processing region, a plasma generating source to deliver electromagnetic energy to the low energy processing region, a first gas source to deliver a silicon containing gas or a germanium containing gas to the low energy processing region, a second gas source to deliver a oxidizing gas to the low energy processing region, an etching gas source to deliver a etching gas to the low energy processing region, and a substrate support having a substrate supporting surface, a biasing electrode, and a substrate support heat exchanging device to control the temperature of the substrate supporting surface. | 03-21-2013 |
20130098554 | WINDOW AND MOUNTING ARRANGEMENT FOR TWIST-AND-LOCK GAS INJECTOR ASSEMBLY OF INDUCTIVELY COUPLED PLASMA CHAMBER - An improved gas injection assembly for mounting in a central bore of a dielectric window of an inductively coupled plasma chamber includes a window having a central bore and cylindrical recess configured to receive an annular insert having a bayonet opening. The gas injector assembly includes a gas injector, an RF shield surrounding the gas injector, and a faceplate surrounding the RF shield, the faceplate including projections at the bottom thereof for engaging the bayonet opening in the annular insert. The window and gas injection assembly are designed to avoid chipping of the window which is typically made of quartz and in prior mounting arrangements the window has a bayonet opening machined therein. Due to the brittle nature of the quartz material, the machined bayonet opening was subject to chipping when the gas injector assembly was inserted into the bayonet opening. | 04-25-2013 |
20130105081 | DUAL ZONE COMMON CATCH HEAT EXCHANGER/CHILLER | 05-02-2013 |
20130220545 | SUBSTRATE MOUNTING TABLE AND PLASMA ETCHING APPARATUS - A substrate mounting table and a plasma etching apparatus can supply a power to a temperature controlling heater electrode effectively while preventing atmosphere from being leaked and preventing processing uniformity in a surface of a substrate from being deteriorated. The substrate mounting table and the plasma etching apparatus include an insulating member having therein an electrostatic chuck electrode and a temperature controlling heater electrode; a plate-shaped temperature controlling member having therein a temperature controlling medium path through which a temperature controlling medium is circulated; a cylindrical member made of an insulating material and provided within a through hole formed in the plate-shaped temperature controlling member; and a lead line, provided within the cylindrical member, having one end connected to the temperature controlling heater electrode and the other end connected to a connecting terminal provided at a bottom surface side of the cylindrical member. | 08-29-2013 |
20130228283 | Temperature Control in RF Chamber with Heater and Air Amplifier - Systems, methods, and computer programs are presented for controlling the temperature of a window in a semiconductor manufacturing chamber. One apparatus includes an air amplifier, a plenum, a heater, a temperature sensor, and a controller. The air amplifier is coupled to pressurized gas and generates, when activated, a flow of air. The air amplifier is also coupled to the plenum and the heater. The plenum receives the flow of air and distributes the flow of air over a window of the plasma chamber. When the heater is activated, the flow of air is heated during processing, and when the heater is not activated, the flow of air cools the window. The temperature sensor is situated about the window of the plasma chamber, and the controller is defined to activate both the air amplifier and the heater based on a temperature measured by the temperature sensor. | 09-05-2013 |
20130240144 | FAST RESPONSE FLUID TEMPERATURE CONTROL SYSTEM - A plasma processing apparatus and method to control a temperature of a chamber component therein. A process chamber may include a temperature controlled chamber component and at least one remote heat transfer fluid loop comprising a first heat exchanger having a primary side in fluid communication with a heat sink or heat source, and a local heat transfer fluid loop placing the chamber component in fluid communication with a secondary side of the first heat exchanger. The local loop may be of significantly smaller fluid volume than the remote loop(s) and circulated to provide thermal load of uniform temperature. Temperature control of heat transfer fluid in the local loop and temperature control of the chamber component may be implemented with a cascaded control algorithm. | 09-19-2013 |
20130248113 | SUBSTANTIALLY NON-OXIDIZING PLASMA TREATMENT DEVICES AND PROCESSES - Non-oxidizing plasma treatment devices for treating a semiconductor workpiece generally include a substantially non-oxidizing gas source; a plasma generating component in fluid communication with the non-oxidizing gas source; a process chamber in fluid communication with the plasma generating component, and an exhaust conduit centrally located in a bottom wall of the process chamber. In one embodiment, the process chamber is formed of an aluminum alloy containing less than 0.15% copper by weight; In other embodiments, the process chamber includes a coating of a non-copper containing material to prevent formation of copper hydride during processing with substantially non-oxidizing plasma. In still other embodiments, the process chamber walls are configured to be heated during plasma processing. Also disclosed are non-oxidizing plasma processes. | 09-26-2013 |
20130340937 | PLASMA PROCESSING APPARATUS - A plasma processing apparatus includes at least one asymmetry member that causes a non-uniformity of plasma density around the high frequency electrode; and a plasma density distribution controller that is arranged depending on arrangement of the at least one asymmetry member to suppress the non-uniformity of plasma density around the high frequency electrode in the azimuthal direction. The plasma density distribution controller includes a first conductor which has first and second surfaces facing opposite directions to each other and is electrically connected with the rear surface of the high frequency electrode with respect to the first high frequency power; and a second conductor which includes a first connecting portion(s) electrically connected with a portion of the second surface of the first conductor and a second connecting portion electrically connected with a conductive grounding member electrically grounded around the high frequency electrode with respect to the first high frequency power. | 12-26-2013 |
20140110059 | ATMOSPHERIC-PRESSURE PLASMA PROCESSING APPARATUS FOR SUBSTRATES - An Atmospheric-Pressure Plasma processing apparatus used for Atmospheric-Pressure Plasma processing of substrates, comprises a radio-frequency generator and two electrode plates disposed vertically and opposing each other. The two electrode plates have two surface opposing to each other, one of which is a flat surface, and the other is a stepped surface, such that a gap is provided between the two electrode plates and said gap comprising a narrower gap part at an upper side and a wider gap part at a lower side. The radio-frequency generator is connected to the two electrode plates, and applies radio-frequency signals to the two electrode plates so as to generate plasma within the gap. | 04-24-2014 |
20140110060 | ADJUSTING SUBSTRATE TEMPERATURE TO IMPROVE CD UNIFORMITY - A plasma etching system having a substrate support assembly with multiple independently controllable heater zones. The plasma etching system is configured to control etching temperature of predetermined locations so that pre-etch and/or post-etch non-uniformity of critical device parameters can be compensated for. | 04-24-2014 |
20140138029 | PLASMA GENERATOR AND CLEANING AND PURIFYING APPARATUS INCLUDING THE SAME - A cleaning and purifying apparatus | 05-22-2014 |
20140216657 | PLASMA PROCESSING APPARATUS AND SAMPLE STAGE THEREOF - There is disclosed a plasma processing apparatus for processing a wafer put on a sample stage disposed in a processing chamber within a vacuum vessel by the use of a plasma generated in the processing chamber after mounting the wafer on the sample stage. The apparatus has heaters in areas of the interior of the sample stage which are divided radially and circumferentially. At least those of the heaters which are arranged in the areas located in the radially outer position include circumferentially arranged heater portions that are connected in series. The amounts of heat generated by these circumferentially arranged heater portions are adjusted. | 08-07-2014 |
20140262030 | FAST RESPONSE FLUID CONTROL SYSTEM - A plasma processing apparatus and method to control a temperature of a chamber component therein are described. A process chamber may include a temperature controlled chamber component and at least one remote heat transfer fluid loop comprising a first heat exchanger having a primary side in fluid communication with a heat sink or heat source, and a local heat transfer fluid loop placing the chamber component in fluid communication with a secondary side of the first heat exchanger. The local loop may be of significantly smaller fluid volume than the remote loop(s) and circulated to provide thermal load of uniform temperature. Temperature control of heat transfer fluid in the local loop and temperature control of the chamber component may be implemented with a cascaded control algorithm. The plasma processing apparatus further includes an AC heated electrostatic chuck (ESC) assembly. | 09-18-2014 |
20140332161 | APPARATUS FOR SPATIAL AND TEMPORAL CONTROL OF TEMPERATURE ON A SUBSTRATE - An apparatus for control of a temperature of a substrate has a temperature-controlled base, a heater, a metal plate, a layer of dielectric material. The heater is thermally coupled to an underside of the metal plate while being electrically insulated from the metal plate. A first layer of adhesive material bonds the metal plate and the heater to the top surface of the temperature controlled base. This adhesive layer is mechanically flexible, and possesses physical properties designed to balance the thermal energy of the heaters and an external process to provide a desired temperature pattern on the surface of the apparatus. A second layer of adhesive material bonds the layer of dielectric material to a top surface of the metal plate. This second adhesive layer possesses physical properties designed to transfer the desired temperature pattern to the surface of the apparatus. | 11-13-2014 |
20140345801 | APPARATUS FOR PROCESSING SUBSTRATE FOR SUPPLYING REACTION GAS HAVING PHASE DIFFERENCE - Provided is a substrate processing apparatus. The substrate processing apparatus in which processes with respect to substrates are performed includes a lower chamber having an opened upper side, the lower chamber including a passage allowing the substrates to pass therethrough in a side thereof, an external reaction tube closing the opened upper side of the lower chamber to provide a process space in which the processes are performed, a substrate holder on which the one ore more substrates are vertically stacked, the substrate holder being movable between a stacking position in which the substrates are stacked within the substrate holder and a process position in which the processes with respect to the substrates are performed, and a gas supply unit disposed inside the external reaction tube to supply a reaction gas into the process space, the gas supply unit forming a flow of the reaction gas having different phase differences in a vertical direction. | 11-27-2014 |
20140367042 | SYSTEMS FOR AUTOMATICALLY CHARACTERIZING A PLASMA - A system includes a probe arranged in a plasma processing chamber of the plasma processing system. A capacitor has one end connected to the probe. An RF source is configured to selectively supply an RF signal including RF bursts to another end of the capacitor. A plasma characterizing computing device is configured to collect a set of process data from the probe by measuring current supplied to the capacitor and voltage at the capacitor; identify a relevancy range for the set of process data, wherein the relevancy range includes process data collected after the capacitor begins discharging and before the capacitor is fully discharged; determine a set of seed values based on the process data in the relevancy range; and employ the relevancy range and the set of seed values as initial values for curve fitting corresponding to the one of the RF bursts to reduce a number of curve-fitting iterations. | 12-18-2014 |
20150013907 | MICROWAVE PLASMA PROCESSING APPARATUS, SLOT ANTENNA, AND SEMICONDUCTOR DEVICE - Disclosed is a microwave plasma processing apparatus. The microwave plasma processing apparatus includes a cooling plate. In addition, the microwave plasma processing apparatus includes an intermediate metal body installed on a processing container side of the cooling plate to be spaced apart from the cooling plate so that a spacing between the intermediate metal body and the cooling plate forms a waveguide of microwaves. The intermediate metal body is in contact with the cooling plate at one or plural convex portions arranged to block a portion of the waveguide. Further, the microwave plasma processing apparatus includes a coaxial waveguide configured to supply microwaves to the waveguide, a slot antenna plate configured to radiate microwaves via the waveguide, a dielectric window installed on the processing container side of the slot antenna plate, and a processing container installed to be sealed by the dielectric window. | 01-15-2015 |
20150053347 | CONTROLLING CD AND CD UNIFORMITY WITH TRIM TIME AND TEMPERATURE ON A WAFER BY WAFER BASIS - Exemplary embodiments are directed to controlling CD uniformity of a wafer by controlling trim time on temperature in a plasma processing system. The plasma processing system has a wafer support assembly including a plurality of independently controllable temperature control zones across a chuck and a controller that controls each temperature control zone. The controller receives process control and temperature data associated with at least one wafer previously processed in a plasma chamber of the plasma processing system. The controller also receives critical device parameters of a current wafer to be processed in the plasma chamber. The controller calculates a target trim time and a target temperature profile of the current wafer based on the process control and temperature data of the at least one previously processed wafers and the critical device parameters of the current wafer. The current wafer as subjected to a trimming operation for a duration of the target trim time while controlling temperatures in the temperature control zones to thereby control temperature of each device die location based on the target temperature profile. | 02-26-2015 |
20150114562 | SUBSTRATE PROCESSING APPARATUS - Any particle adhesion onto the surface of a substrate to be processed is prevented. There is provided a substrate processing apparatus characterized by including a transfer chamber for, via a gate to which a substrate accommodating container for accommodation of the substrate is set, performing transfer of the substrate between the same and the substrate accommodating container, a processing chamber for applying a specific process to the substrate, a load-lock chamber for linking the processing chamber with the transfer chamber, and a temperature control unit for at the stage of transferring the substrate into at least one of the transfer chamber and the load-lock chamber, so as for the temperature of the substrate just before the transfer thereof to be higher than the temperature of the interior of the chamber, into which the substrate will be transferred, controlling at least one of the temperature of the substrate and the temperature of the interior of the chamber. | 04-30-2015 |
20150303038 | Non-Contact Physical Etching System - The present invention provides a non-contact physical etching system mainly consisting of a main body, a hollow chamber, a plasma generating device, a first mask, and a target carrying platform. Particularly, this non-contact physical etching system can be used for executing a non-contact etching process to a target put on the target carrying platform, without using any lithography processes. Moreover, when the non-contact etching process is operated, the plasma in the hollow chamber would produce a spontaneous electric field near the surface of the first mask for maintaining the electrical neutrality thereof; therefore, by the action of the spontaneous electric field perpendicular to the surface of the first mask, the charged ions in the plasma would be accelerated and then pass through at least one first pattern formed on the first mask, such that the charged ions would etch or cut the target by way of bombarding the target. | 10-22-2015 |
20150314313 | DRY NON-PLASMA TREATMENT SYSTEM - A dry non-plasma treatment system for removing material is described. The treatment system is configured to provide chemical treatment of one or more substrates, wherein each substrate is exposed to a gaseous chemistry under controlled conditions including surface temperature and gas pressure. Furthermore, the treatment system is configured to provide thermal treatment of each substrate, wherein each substrate is thermally treated to remove the chemically treated surfaces on each substrate. | 11-05-2015 |
20160035544 | WAFER CARRIER WITH INDEPENDENT ISOLATED HEATER ZONES - A wafer carrier is described with independent isolated heater zones. In one example, the carrier has a puck to carry a workpiece for fabrication processes, a heater plate having a plurality of thermally isolated blocks each thermally coupled to the puck, and each having a heater to heat a respective block of the heater plate, and a cooling plate fastened to and thermally coupled to the heater plate, the cooling plate having a cooling channel to carry a heat transfer fluid to transfer heat from the cooling plate. | 02-04-2016 |
20160035605 | Support Structure, Method of Controlling the Temperature Of The Same, and Apparatuses Including the Same - Disclosed are support structure apparatuses for holding a substrate or patterning device, for example in a lithographic apparatus, and apparatuses comprising such support structure apparatuses. The support structure apparatus comprises a temperature regulation system for controlling the temperature of the support structure and one or more temperature sensors located on the periphery of said support structure being operable to measure the temperature of the support structure at said periphery. The temperature regulation system may be operable to calculate an average temperature of the substrate holder from temperature values measured by said temperature sensors and position dependent correlation factors, which depend upon the position of an applied heat load on a substrate or patterning device mounted upon the support structure. | 02-04-2016 |
20160042926 | PLASMA PROCESSING APPARATUS AND FOCUS RING - Disclosed is a plasma processing apparatus including a focus ring installed outside a substrate mounted on a mounting table including a temperature control mechanism. The focus ring is configured to be in contact with the mounting table via a heat transfer sheet. A heat insulating layer having a heat conductivity lower than that of the focus ring is provided on a surface of the focus ring at a side of the heat transfer sheet among surfaces of the focus ring. | 02-11-2016 |
20160104604 | Plasma Processing Device - A plasma processing device is provided. The plasma processing device includes a plate formed between a window covering a top portion of a chamber where plasma processing is performed and an antenna generating a magnetic field, and a fluid supply unit supplying a fluid for controlling temperatures of the window and the antenna, wherein the plate includes first and second regions supplied with the fluid, and the fluid supply unit independently controls the first and second regions. | 04-14-2016 |
20160155612 | FEEDFORWARD TEMPERATURE CONTROL FOR PLASMA PROCESSING APPARATUS | 06-02-2016 |
20160155617 | PLASMA PROCESSING APPARATUS AND SAMPLE STAGE THEREOF | 06-02-2016 |
20160196960 | Temperature Control Device | 07-07-2016 |
20220139670 | APPARATUSES AND METHODS FOR AVOIDING ELECTRICAL BREAKDOWN FROM RF TERMINAL TO ADJACENT NON-RF TERMINAL - An isolation system includes an input junction coupled to one or more RF power supplies via a match network for receiving radio frequency (RF) power. The isolation system further includes a plurality of channel paths connected to the input junction for distributing the RF power among the channel paths. The isolation system includes an output junction connected between each of the channel paths and to an electrode of a plasma chamber for receiving portions of the distributed RF power to output combined power and providing the combined RF power to the electrode. Each of the channel paths includes bottom and top capacitors for blocking a signal of the different type than that of the RF power. The isolation system avoids a risk of electrical arcing created by a voltage difference between an RF terminal and a non-RF terminal when the terminals are placed proximate to each other. | 05-05-2022 |