Patent application number | Description | Published |
20080230518 | GAS FLOW DIFFUSER - A method and apparatus for providing flow into a processing chamber are provided. In one embodiment, a vacuum processing chamber is provided that includes a chamber body having an interior volume, a substrate support disposed in the interior volume and a gas distribution assembly having an asymmetrical distribution of gas injection ports. In another embodiment, a method for vacuum processing a substrate is provided that includes disposing a substrate on a substrate support within in a processing chamber, flowing process gas into laterally into a space defined above a gas distribution plate positioned in the processing chamber over the substrate, and processing the substrate in the presence of the processing gas. | 09-25-2008 |
20080276958 | SUBSTRATE CLEANING CHAMBER AND CLEANING AND CONDITIONING METHODS - A substrate cleaning chamber includes a contoured ceiling electrode having an arcuate surface that faces a substrate support and has a variable cross-sectional thickness to vary the gap size between the arcuate surface and the substrate support to provide a varying plasma density across the substrate support. A dielectric ring for the cleaning chamber comprises a base, a ridge, and a radially inward ledge that covers the peripheral lip of the substrate support. A base shield comprises a circular disc having at least one perimeter wall. Cleaning and conditioning processes for the cleaning chamber are also described. | 11-13-2008 |
20080314522 | APPARATUS AND METHOD TO CONFINE PLASMA AND REDUCE FLOW RESISTANCE IN A PLASMA REACTOR - An apparatus configured to confine a plasma within a processing region in a plasma processing chamber. In one embodiment, the apparatus includes a ring that has a baffle having a plurality of slots and a plurality of fingers. Each slot is configured to have a width less than the thickness of a plasma sheath contained in the processing region. | 12-25-2008 |
20080314571 | ANNULAR BAFFLE - A baffle assembly for an etching apparatus is disclosed. The baffle assembly comprises a ring and a lower baffle portion having a curved wall extending between a flange portion and a lower frame portion. A heating assembly may be present within the lower frame portion to control the temperature of the baffle. The baffle assembly may help confine the plasma within the processing space in the chamber. The ring may comprise silicon carbide and the lower baffle portion may comprise aluminum. | 12-25-2008 |
20090130856 | METHOD FOR MONITORING PROCESS DRIFT USING PLASMA CHARACTERISTICS - Methods for monitoring process drift using plasma characteristics are provided. In one embodiment, a method for monitoring process drift using plasma characteristics includes obtaining metrics of current and voltage information of a first waveform coupled to a plasma during a plasma process formed on a substrate, obtaining metrics of current and voltage information of a second waveform coupled to the plasma during the plasma process formed on the substrate, the first and second waveforms having different frequencies, determining at least one characteristic of the plasma using the metrics obtained from each different frequency waveform, and adjusting the plasma process in response to the determined at least one characteristic of the plasma. | 05-21-2009 |
20090132189 | METHOD FOR DETERMINING PLASMA CHARACTERISTICS - Methods for determining characteristics of a plasma are provided. In one embodiment, a method for determining characteristics of a plasma includes obtaining metrics of current and voltage information for first and second waveforms coupled to a plasma at different frequencies, determining at least one characteristic of the plasma using the metrics obtained from each different frequency waveform. In another embodiment, the method includes providing a plasma impedance model of a plasma as a function of frequency, and determining at least one characteristic of a plasma using model. In yet another embodiment, the method includes providing a plasma impedance model of a plasma as a function of frequency, measuring current and voltage for waveforms coupled to the plasma and having at least two different frequencies, and determining ion mass of a plasma from model and the measured current and voltage of the waveforms. | 05-21-2009 |
20090140828 | METHODS AND APPARATUS FOR CONTROLLING CHARACTERISTICS OF A PLASMA - Methods and apparatus for controlling characteristics of a plasma, such as the spatial distribution of RF power and plasma uniformity, are provided herein. In some embodiments, an apparatus for controlling characteristics of a plasma includes a resonator for use in conjunction with a plasma reactor, the resonator including a source resonator for receiving an RF signal having a first frequency; a return path resonator disposed substantially coaxially with, and at least partially within, the source resonator; and an outer conductor having the source resonator and the return path resonator disposed substantially coaxially with, and at least partially within, the outer conductor, the outer conductor for providing an RF ground connection. | 06-04-2009 |
20090229969 | Physical vapor deposition method with a source of isotropic ion velocity distribution at the wafer surface - In a plasma enhanced physical vapor deposition of a material onto workpiece, a metal target faces the workpiece across a target-to-workpiece gap less than a diameter of the workpiece. A carrier gas is introduced into the chamber and gas pressure in the chamber is maintained above a threshold pressure at which mean free path is less than 5% of the gap. RF plasma source power from a VHF generator is applied to the target to generate a capacitively coupled plasma at the target, the VHF generator having a frequency exceeding 30 MHz. The plasma is extended across the gap to the workpiece by providing through the workpiece a first VHF ground return path at the frequency of the VHF generator. | 09-17-2009 |
20090250335 | Method of controlling plasma distribution uniformity by superposition of different constant solenoid fields - A method for processing a workpiece in a plasma reactor having a set of n coils includes constructing, for each one of the n coils, a set of plasma distributions for discrete values of coil current in a predetermined current range. The distributions are grouped, each group having one distribution for each of the n coils, and being a unique set of n distributions. A combined plasma distribution is computed from each group of distributions. The variance of each combined distribution is computed. The method further includes finding an optimum one of the combined distributions having an at least nearly minimum variance, and identifying the n coil currents associated with the optimum distribution. During plasma processing of the workpiece, currents through the coils are maintained at levels corresponding to the n coil currents associated with the one combined distribution. | 10-08-2009 |
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 |
20090294061 | PLASMA REACTOR WITH PLASMA LOAD IMPEDANCE TUNING FOR ENGINEERED TRANSIENTS BY SYNCHRONIZED MODULATION OF AN UNMATCHED LOW POWER RF GENERATOR - A plasma reactor for processing a workpiece such as a semiconductor wafer using predetermined transients of plasma bias power or plasma source power has unmatched low power RF generators synchronized to the transients to minimize transient-induced changes in plasma characteristics. | 12-03-2009 |
20090294062 | PLASMA REACTOR WITH PLASMA LOAD IMPEDANCE TUNING FOR ENGINEERED TRANSIENTS BY SYNCHRONIZED MODULATION OF A SOURCE POWER OR BIAS POWER RF GENERATOR - In a plasma reactor employing source and bias RF power generators, plasma is stabilized against an engineered transient in the output of either the source or bias power generator by a compensating modulation in the other generator. | 12-03-2009 |
20090294275 | METHOD OF PLASMA LOAD IMPEDANCE TUNING BY MODULATION OF A SOURCE POWER OR BIAS POWER RF GENERATOR - A method of processing a workpiece in a plasma reactor chamber in which plasma RF source and bias power is delivered into the chamber, by sensing fluctuations in a plasma parameter such as load impedance or reflected power at one of the generators, and modulating the output of the other generator to minimize the fluctuation. | 12-03-2009 |
20090294414 | METHOD OF PLASMA LOAD IMPEDANCE TUNING FOR ENGINEERED TRANSIENTS BY SYNCHRONIZED MODULATION OF A SOURCE POWER OR BIAS POWER RF GERERATOR - A method processing a workpiece in a plasma reactor chamber in which a first one of plural applied RF plasma powers is modulated in accordance with a time-varying modulation control signal corresponding to a desired process transient cycle. The method achieves a reduction in reflected power by modulating a second one of the plural plasma powers in response to the time-varying modulation control signal. | 12-03-2009 |
20090295295 | PLASMA REACTOR WITH HIGH SPEED PLASMA LOAD IMPEDANCE TUNING BY MODULATION OF DIFFERENT UNMATCHED FREQUENCY SOURCES - Fluctuations in a plasma characteristic such as load impedance are compensated by a controller that modulates a stabilization RF generator coupled to the plasma having a frequency suitable for stabilizing the plasma characteristic, the controller being responsive to the fluctuations in the plasma characteristic. | 12-03-2009 |
20090295296 | METHOD OF PLASMA LOAD IMPEDANCE TUNING BY MODULATION OF AN UNMATCHED LOW POWER RF GENERATOR - A workpiece is processed in a plasma reactor chamber using stabilization RF power delivered into the chamber, by determining changes in load impedance from RF parameters sensed at an RF source or bias power generator and resolving the changes in load impedance into first and second components thereof, and changing the power level of the stabilization RF power as a function one of the components of changes in load impedance. | 12-03-2009 |
20090297404 | PLASMA REACTOR WITH HIGH SPEED PLASMA IMPEDANCE TUNING BY MODULATION OF SOURCE POWER OR BIAS POWER - A plasma reactor, having source and bias RF power generators of different frequencies, is provided with a controller responsive to fluctuations in plasma load impedance measured at one of the generators to modulate the output of the other generator to compensate for the fluctuations. | 12-03-2009 |
20090298287 | METHOD OF PLASMA LOAD IMPEDANCE TUNING FOR ENGINEERED TRANSIENTS BY SYNCHRONIZED MODULATION OF AN UNMATCHED LOW POWER RF GENERATOR - A method is provided in plasma processing of a workpiece for stabilizing the plasma against engineered transients in applied RF power, by modulating an unmatched low power RF generator in synchronism with the transient. | 12-03-2009 |
20090314433 | CATHODE WITH INNER AND OUTER ELECTRODES AT DIFFERENT HEIGHTS - An apparatus for generating uniform plasma across and beyond the peripheral edge of a substrate has a dielectric body with an upper electrode and an annular electrode embedded therein. The outer perimeter of the upper electrode overlaps the inner perimeter of the annular electrode. In one embodiment, the upper electrode and the annular electrode are electrically coupled by molybdenum vias. In one embodiment, the upper electrode is coupled to a DC power source to provide electrostatic force for chucking the substrate. In one embodiment, the upper electrode is coupled to an RF source for exciting one or more processing gasses into plasma for substrate processing. | 12-24-2009 |
20100012029 | APPARATUS FOR CONTROLLING RADIAL DISTRIBUTION OF PLASMA ION DENSITY AND ION ENERGY AT A WORKPIECE SURFACE BY MULTI-FREQUENCY RF IMPEDANCE TUNING - In a physical vapor deposition plasma reactor, a multi-frequency impedance controller is coupled between RF ground and one of (a) the bias electrode, (b) the sputter target, the controller providing adjustable impedances at a first set of frequencies, said first set of frequencies including a first set of frequencies to be blocked and a first set of frequencies to be admitted. The first multi-frequency impedance controller includes a set of band pass filters connected in parallel and tuned to said first set of frequencies to be admitted, and a set of notch filters connected in series and tuned to said first set of frequencies to be blocked. | 01-21-2010 |
20100012480 | METHOD FOR CONTROLLING RADIAL DISTRIBUTION OF PLASMA ION DENSITY AND ION ENERGY AT A WORKPIECE SURFACE BY MULTI-FREQUENCY RF IMPEDANCE TUNING - The method of performing physical vapor deposition on a workpiece includes performing at least one of the following: (a) increasing ion density over a workpiece center while decreasing ion density over a workpiece edge by decreasing impedance to ground at a target source power frequency f | 01-21-2010 |
20100089748 | CONTROL OF EROSION PROFILE ON A DIELECTRIC RF SPUTTER TARGET - The present invention generally includes a sputtering target assembly that may be used in an RF sputtering process. The sputtering target assembly may include a backing plate and a sputtering target. The backing plate may be shaped to have one or more fins that extend from the backing plate towards the sputtering target. The sputtering target may be bonded to the fins of the backing plate. The RF current utilized during a sputtering process will be applied to the sputtering target at the one or more fin locations. The fins may extend from the backing plate at a location that corresponds to a magnetic field produced by a magnetron that may be disposed behind the backing plate. By controlling the location where the RF current is coupled to the sputtering target to be aligned with the magnetic field, the erosion of the sputtering target may be controlled. | 04-15-2010 |
20100096261 | PHYSICAL VAPOR DEPOSITION REACTOR WITH CIRCULARLY SYMMETRIC RF FEED AND DC FEED TO THE SPUTTER TARGET - In a PVD reactor having a sputter target at the ceiling, a conductive housing enclosing the rotating magnet assembly has a central port for the rotating magnet axle. A conductive hollow cylinder of the housing surrounds an external portion of the spindle. RF power is coupled to a radial RF connection rod extending radially from the hollow cylinder. DC power is coupled to another radial DC connection rod extending radially from the hollow cylinder. | 04-22-2010 |
20100136261 | MODULATION OF RF RETURNING STRAPS FOR UNIFORMITY CONTROL - Embodiments of the present invention generally relates to a method and apparatus for processing substrates using plasma. More particularly, embodiments of the present invention provide a plasma processing chamber having an electrode coupled to a plurality of RF returning straps, wherein impedance of the RF returning straps are set and/or adjusted to tune the plasma distribution during processing. In one embodiment, impedance of RF returning straps varies by changing length of the RF returning straps, by changing width of the RF returning straps, by changing spacing of the RF returning straps, by changing location of the RF returning straps, by adding a capacitor to the RF returning straps, or by combinations thereof. | 06-03-2010 |
20100300621 | METHOD OF COOLING A WAFER SUPPORT AT A UNIFORM TEMPERATURE IN A CAPACITIVELY COUPLED PLASMA REACTOR - A method of transferring heat from or to a workpiece support in an RF coupled plasma reactor includes placing coolant in an internal flow channel that is located inside the workpiece support and transferring heat from or to the coolant by circulating the coolant through a refrigeration loop in which the internal flow channel of the workpiece support constitutes an evaporator of the refrigeration loop. The method further includes maintaining thermal conditions of the coolant inside the evaporator within a range in which heat exchange between the workpiece support and the coolant is primarily or exclusively through the latent heat of vaporization of the coolant. | 12-02-2010 |
20100303680 | CAPACITIVELY COUPLED PLASMA REACTOR HAVING VERY AGILE WAFER TEMPERATURE CONTROL - A plasma reactor for processing a workpiece includes a reactor chamber, an electrostatic chuck within the chamber having a top surface for supporting a workpiece and having indentations in the top surface that form enclosed gas flow channels whenever covered by a workpiece resting on the top surface. The reactor further includes thermal control apparatus thermally coupled to the electrostatic chuck, an RF plasma bias power generator coupled to apply RF power to the electrostatic chuck, a pressurized gas supply of a thermally conductive gas, a controllable gas valve coupling the pressurized gas supply to the indentations to facilitate filling the channels with the thermally conductive gas for heat transfer between a backside of a workpiece and the electrostatic chuck at a heat transfer rate that is a function of the pressure against the backside of the workpiece of the thermally conductive gas. The reactor further includes an agile workpiece temperature control loop including (a) a temperature probe in the electrostatic chuck, and (b) a backside gas pressure controller coupled to an output of the temperature probe and responsive to a specified desired temperature, the controller governing the gas valve in response to a difference between the output of the temperature probe and the desired temperature. | 12-02-2010 |
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 |
20100314244 | Ionized Physical Vapor Deposition for Microstructure Controlled Thin Film Deposition - Methods of processing a substrate in a PVD chamber comprising a target, a substrate and a process gas at a pressure sufficient to cause ionization of a substantial portion of species sputtered from the target are described. A capacitively coupled high density plasma is maintained by applying very high frequency power to the target. Sputtered material is ionized in the plasma and accelerated toward the substrate by a high frequency bias power applied to the substrate. The microstructure of the resultant film is controlled by modifying one or more of the pressure and the high frequency bias power. | 12-16-2010 |
20100314245 | Ionized Physical Vapor Deposition for Microstructure Controlled Thin Film Deposition - Methods of processing a substrate in a PVD chamber comprising a target, a substrate and a process gas at a pressure sufficient to cause ionization of a substantial portion of species sputtered from the target are described. A capacitively coupled high density plasma is maintained by applying very high frequency power to the target. Sputtered material is ionized in the plasma and accelerated toward the substrate by a high frequency bias power applied to the substrate. The microstructure of the resultant film is controlled by modifying one or more of the pressure and the high frequency bias power. | 12-16-2010 |
20100319851 | PLASMA REACTOR WITH FEED FORWARD THERMAL CONTROL SYSTEM USING A THERMAL MODEL FOR ACCOMMODATING RF POWER CHANGES OR WAFER TEMPERATURE CHANGES - A plasma reactor having a reactor chamber and an electrostatic chuck with a surface for holding a workpiece inside the chamber includes a backside gas pressure source coupled to the electrostatic chuck for applying a thermally conductive gas under a selected pressure into a workpiece-surface interface formed whenever a workpiece is held on the surface and an evaporator inside the electrostatic chuck and a refrigeration loop having an expansion valve for controlling flow of coolant through the evaporator. The reactor further includes a temperature sensor in the electrostatic chuck and a memory storing a schedule of changes in RF power or wafer temperature. The reactor further includes a thermal model capable of simulating heat transfer between the evaporator and the surface based upon measurements from the temperature sensor, and a control processor coupled to the thermal model and to the memory and governing the backside gas pressure source in response to a prediction from the model of a change in the selected pressure that would compensate for the next scheduled change in RF power or implement the next scheduled change in wafer temperature. | 12-23-2010 |
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 |
20110024047 | SUBSTRATE SUPPORT HAVING FLUID CHANNEL - A support for a substrate processing chamber comprises a chuck having a substrate receiving surface, and a base comprising an upper wall comprising a recessed trench having (i) an attachment face at a first depth, and (ii) a fluid channel at a second depth. A lower wall is seated in the recessed trench and attached to the attachment face of the upper wall, to close the fluid channel. A fluid inlet is provided to supply a heat transfer fluid to the fluid channel and a fluid outlet provided to discharge the heat transfer fluid from the fluid channel. | 02-03-2011 |
20110065279 | METHOD OF PROCESSING A WORKPIECE IN A PLASMA REACTOR USING FEED FORWARD THERMAL CONTROL - A method of processing a workpiece in a plasma reactor having an electrostatic chuck for supporting the workpiece within a reactor chamber, the method including circulating a coolant through a refrigeration loop that includes an evaporator inside the electrostatic chuck, while pressurizing a workpiece-to-chuck interface with a thermally conductive gas, sensing conditions in the chamber including temperature near the workpiece and simulating heat flow through the electrostatic chuck in a thermal model of the chuck based upon the conditions. The method further includes obtaining the next scheduled change in RE heat load on the workpiece and using the model to estimate a change in thermal conditions of the coolant in the evaporator that would hold the temperature nearly constant by compensating for the next scheduled change in RF heat load, and making the change in thermal conditions of the coolant in the evaporator prior to the time of the next scheduled change by a head start related to the thermal propagation delay through the electrostatic chuck. | 03-17-2011 |
20110068085 | METHOD OF PROCESSING A WORKPIECE IN A PLASMA REACTOR USING MULTIPLE ZONE FEED FORWARD THERMAL CONTROL - A method of controlling wafer temperature in a plasma reactor by obtaining the next scheduled change in RF heat load on the workpiece, and using thermal modeling to estimate respective changes in wafer backside gas pressure and in coolant flow through a wafer support pedestal that would compensate for the next scheduled change in RF heat load, and making the respective changes in the backside gas pressure or in the coolant flow prior to the time of the next scheduled change. | 03-24-2011 |
20110201134 | CAPACITIVELY COUPLED PLASMA REACTOR WITH MAGNETIC PLASMA CONTROL - A plasma reactor includes a vacuum enclosure including a side wall and a ceiling defining a vacuum chamber, and a workpiece support within the chamber and facing the ceiling for supporting a planar workpiece, the workpiece support and the ceiling together defining a processing region between the workpiece support and the ceiling. Process gas inlets furnish a process gas into the chamber. A plasma source power electrode is connected to an RF power generator for capacitively coupling plasma source power into the chamber for maintaining a plasma within the chamber. The reactor further includes at least a first overhead solenoidal electromagnet adjacent the ceiling, the overhead solenoidal electromagnet, the ceiling, the side wall and the workpiece support being located along a common axis of symmetry. A current source is connected to the first solenoidal electromagnet and furnishes a first electric current in the first solenoidal electromagnet whereby to generate within the chamber a magnetic field which is a function of the first electric current, the first electric current having a value such that the magnetic field increases uniformity of plasma ion density radial distribution about the axis of symmetry near a surface of the workpiece support. | 08-18-2011 |