Patent application number | Description | Published |
20090228234 | TEMPERATURE MEASUREMENT APPARATUS AND METHOD - A temperature measurement apparatus includes a light source; a first splitter that splits a light beam into a measurement beam and a reference beam; a reference beam reflector that reflects the reference beam; an optical path length adjustor; a second splitter that splits the reflected reference beam into a first reflected reference beam and a second reflected reference beam; a first photodetector that measures an interference between the first reflected reference beam and a reflected measurement beam obtained by the measurement beam reflected from a target object; a second photodetector that measures an intensity of the second reflected reference beam; and a temperature calculation unit. The temperature calculation unit calculates a location of the interference by subtracting an output signal of the second photodetector from an output signal of the first photodetector, and calculates a temperature of the target object from the calculated location of the interference. | 09-10-2009 |
20090242127 | PLASMA ETCHING APPARATUS AND METHOD, AND COMPUTER-READABLE STORAGE MEDIUM - A plasma etching apparatus includes a processing vessel; a lower electrode on which a target substrate is mounted in the processing vessel; an upper electrode disposed in the processing vessel to face the lower electrode in parallel; a processing gas supply unit configured to supply a processing gas into a processing space between the upper and the lower electrode; a first radio frequency power supply unit configured to apply, to the lower electrode, a first radio frequency power for generating plasma of the processing gas; a focus ring covering a top surface peripheral portion of the lower electrode protruding toward a radial outside of the substrate; a DC power supply configured to output a variable DC voltage; and a DC voltage supply network that connects the DC power supply to either one of the focus ring and the upper electrode or both depending on processing conditions of plasma etching. | 10-01-2009 |
20090242135 | PLASMA PROCESSING APPARATUS - A plasma processing apparatus includes: a vacuum-evacuable processing chamber; a lower central electrode; a lower peripheral electrode surrounding the lower central electrode in an annular shape; an upper electrode provided to face the lower central electrode and the lower peripheral electrode; a processing gas supply unit for supplying a processing gas into the processing chamber; an RF power supply for outputting an RF power for generating a plasma; and a power feed conductor connected to a rear surface of the lower peripheral electrode to supply the RF power to the lower peripheral electrode. The apparatus further includes a variable capacitance coupling unit for electrically connecting the lower central electrode with at least one of the power feed conductor and the lower peripheral electrode by capacitance coupling with a variable impedance in order to supply a part of the RF power from the RF power supply to the lower central electrode. | 10-01-2009 |
20090255800 | PLASMA PROCESSING APPARATUS, PLASMA PROCESSING METHOD, AND COMPUTER READABLE STORAGE MEDIUM - A plasma processing apparatus includes a vacuum evacuable processing chamber; a first electrode for supporting a substrate to be processed in the processing chamber; a processing gas supply unit for supplying a processing gas into a processing space; a plasma excitation unit for generating a plasma by exciting the processing gas in the processing chamber; a first radio frequency power supply unit for supplying a first radio frequency power to the first electrode to attract ions in the plasma to the substrate; and a first radio frequency power amplitude modulation unit for modulating an amplitude of the first radio frequency power at a predetermined interval. The plasma processing apparatus further includes a first radio frequency power frequency modulation unit for modulating a frequency of the first radio frequency power in substantially synchronously with the amplitude modulation of the first radio frequency power. | 10-15-2009 |
20100000970 | IN-CHAMBER MEMBER TEMPERATURE CONTROL METHOD, IN-CHAMBER MEMBER, SUBSTRATE MOUNTING TABLE AND PLASMA PROCESSING APPARATUS INCLUDING SAME - In a method of controlling the temperature of an in-chamber member used in a plasma processing apparatus that processes a target substrate with plasma, a plurality of power-feeding portions is provided in the in-chamber member and the in-chamber member is heated by supplying electric power thereto through the power-feeding portions. A resistance value or resistivity of the in-chamber member is measured and the electric power is controlled based on the temperature of the in-chamber member estimated from the resistance value or resistivity. The in-chamber member includes one or more annular members arranged around the target substrate. The in-chamber member is a member making contact with plasma within a chamber and existing near the target substrate. | 01-07-2010 |
20100012274 | FOCUS RING, SUBSTRATE MOUNTING TABLE AND PLASMA PROCESSING APPARATUS HAVING SAME - A focus ring is placed on a substrate mounting table for mounting a target substrate thereon to surround the target substrate. The focus ring converges plasma on the target substrate when the target substrate is subjected to plasma processing. The focus ring is configured to create a temperature difference in its radial direction and over its full circumference during the plasma-processing of the target substrate. The focus ring also includes a radial outer region as a higher temperature region and a radial inner region as a lower temperature region. A groove is formed between the radial outer region and the radial inner region to extend over the full circumference of the focus ring. | 01-21-2010 |
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 |
20100213171 | FOCUS RING HEATING METHOD, PLASMA ETCHING APPARATUS, AND PLASMA ETCHING METHOD - There are provided a method of heating a focus ring and a plasma etching apparatus, capable of simplifying a structure of a heating mechanism without a dummy substrate. The plasma etching apparatus includes a vacuum processing chamber; a lower electrode serving as a mounting table for mounting a substrate thereon; an upper electrode provided to face the lower electrode; a gas supply unit for supplying a processing gas; a high frequency power supply for supplying a high frequency power to the lower electrode to generate a plasma of the processing gas; and a focus ring provided on the lower electrode to surround a periphery of the substrate. In the plasma etching apparatus, the focus ring is heated by irradiating a heating light thereto from a light source provided outside the vacuum processing chamber. | 08-26-2010 |
20100243606 | PLASMA PROCESSING APPARATUS AND PLASMA PROCESSING METHOD - A plasma processing apparatus includes a vacuum evacuable processing chamber; a lower electrode for mounting a target substrate in the processing chamber; a focus ring attached to the lower electrode to cover at least a portion of a peripheral portion of the lower electrode; an upper electrode disposed to face the lower electrode in parallel in the processing chamber; a processing gas supply unit for supplying a processing gas to a processing space; and a radio frequency (RF) power supply for outputting an RF power. Further, the plasma processing apparatus includes a plasma generating RF power supply section for supplying the RF power to a first load for generating a plasma of the processing gas; and a focus ring heating RF power supply section for supplying the RF power to a second load for heating the focus ring. | 09-30-2010 |
20100243620 | PLASMA PROCESSING APPARATUS - A plasma processing apparatus performs plasma processing on a processing target in a processing chamber. The apparatus includes: an object to be heated provided near a periphery of a mounting table disposed in the processing chamber; and a heating electrode disposed adjacent to the periphery of the mounting table, for heating the object to be heated. A first coil having a first path and a second coil having a second path are wired close to each other in the heating electrode along the periphery of the mounting table. | 09-30-2010 |
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 |
20110104902 | 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, for mounting thereon a target substrate to be processed; a processing gas supply unit for supplying a desired processing gas to the processing chamber to perform a desired plasma process on the target substrate; 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 processing chamber. The apparatus further includes a floating coil electrically floated and arranged at a position outside the processing chamber where the floating coil is to be coupled with the RF antenna by an electromagnetic induction; and a capacitor provided in a loop of the floating coil. | 05-05-2011 |
20120062870 | PHYSICAL STATE MEASURING APPARATUS AND PHYSICAL STATE MEASURING METHOD - The physical state measuring apparatus includes: a light source; a transmitting unit which transmits a light from the light source to a measurement point of an object to be measured; a nonlinear optical device which changes a wavelength of the light reflected by the measurement point to a wavelength that is different from the wavelength before the changing; a light receiving unit which receives the light whose wavelength has been changed; and a measuring unit which measures a physical state of the object to be measured at the measurement point based on a waveform of the light received by the light receiving unit. | 03-15-2012 |
20120063486 | TEMPERATURE MEASURING APPARATUS AND TEMPERATURE MEASURING METHOD - The temperature measuring apparatus includes: a light source; a first wavelength-dividing unit which wavelength-divides a light from the light source into m lights whose wavelength bands are different from one another; m first dividing units which divides each of the m lights from the first wavelength-dividing unit into n lights; a transmitting unit which transmits lights from the m first dividing unit to measurement points of an object to be measured; a light receiving unit which receives a light reflected by each of the measurement points; and a temperature calculating unit which calculates a temperature of each of the measurement points based on a waveform of the light received by the light receiving unit. | 03-15-2012 |
20120073781 | TEMPERATURE CONTROL SYSTEM - The temperature control system includes: a susceptor which allows an object to be processed to be held on a top surface thereof and includes a flow path, through which a temperature adjusting medium flows, formed therein; a temperature measuring unit which measures a temperature of the object to be processed held on the top surface of the susceptor; a first temperature adjusting unit which adjusts a temperature of the temperature adjusting medium flowing through the flow path; and a second temperature adjusting unit which is disposed between the susceptor and the first temperature adjusting unit, and adjusts a temperature of the temperature adjusting medium based on a result of the measurement of the temperature measuring unit. | 03-29-2012 |
20120084045 | TEMPERATURE MEASURING METHOD, STORAGE MEDIUM, AND PROGRAM - Provided is a temperature measuring method which can accurately measure a temperature of an object to be measured compared to a conventional method, even if a thin film is formed on the object. The temperature measuring method includes: transmitting a light from a light source to a measurement point of an object to be measured, the object being a substrate on which a thin film is formed; measuring a first interference wave caused by a reflected light from a surface of the substrate, and a second interference wave caused by reflected lights from an interface between the substrate and the thin film and from a rear surface of the thin film; calculating an optical path length from the first interference wave to the second interference wave; calculating a film thickness of the thin film based on an intensity of the second interference wave; calculating an optical path difference between an optical path length of the substrate and the calculated optical path length, based on the calculated film thickness of the thin film; compensating for the optical path length from the first interference wave to the second interference wave based on the calculated optical path difference; and calculating a temperature of the object at the measurement point based on the compensated optical path length. | 04-05-2012 |
20120175063 | SUBSTRATE PROCESSING APPARATUS - A substrate processing apparatus capable of removing deposits attached on a component of a lower temperature in a gap between two components, temperatures of which are greatly different from each other, without degrading a working ratio of the substrate processing apparatus. In the substrate processing apparatus, a chamber receives a wafer, a focus ring surrounds the wafer disposed in the chamber, a side surface protective member transmits a laser beam, a laser beam irradiating apparatus irradiates the laser beam to the side surface protective member, an inner focus ring of the focus ring is disposed adjacent to the wafer and is cooled down and an outer focus ring surrounds the inner focus ring and is not cooled down in a focus ring, and a facing surface of the side surface protective member faces a gap between the inner focus ring and the outer focus ring. | 07-12-2012 |
20120207189 | TEMPERATURE MEASUREMENT APPARATUS AND METHOD - A temperature measurement apparatus includes a light source; a first splitter that splits a light beam into a measurement beam and a reference beam; a reference beam reflector that reflects the reference beam; an optical path length adjustor; a second splitter that splits the reflected reference beam into a first reflected reference beam and a second reflected reference beam; a first photodetector that measures an interference between the first reflected reference beam and a reflected measurement beam obtained by the measurement beam reflected from a target object; a second photodetector that measures an intensity of the second reflected reference beam; and a temperature calculation unit. The temperature calculation unit calculates a location of the interference by subtracting an output signal of the second photodetector from an output signal of the first photodetector, and calculates a temperature of the target object from the calculated location of the interference. | 08-16-2012 |
20120227955 | SUBSTRATE TEMPERATURE CONTROL METHOD AND PLASMA PROCESSING APPARATUS - Provided are a substrate temperature control method and a plasma processing apparatus using the method. The method includes: disposing a substrate on a placing table provided in a vacuum processing chamber; supplying a heat conduction gas between a rear surface of the substrate and the placing table; detecting a pressure of the heat conduction gas; comparing the detected pressure value with a set pressure value; controlling the supply of the heat conduction gas so that the detected pressure value becomes the set pressure value; and alternately repeating a first period where the set pressure value is set to be a first set pressure value that is higher than a low pressure value and equal to or higher than the lowest limit pressure value and a second period where the set pressure value is set to be a second set pressure value that is lower than the low pressure value. | 09-13-2012 |
20120243572 | TEMPERATURE MEASURING APPARATUS AND TEMPERATURE MEASURING METHOD - A temperature measuring apparatus and a temperature measuring method that may simultaneously measure temperatures of objects in processing chambers. The temperature measuring apparatus includes a first light separating unit which divides light from the light source into measurement lights; second light separating units which divide the measurement lights from the first light separating unit into measurement lights and reference lights; third light separating units which further divide the measurement lights into first to n-th measurement lights; a reference light reflecting unit which reflects the reference lights; an light path length changing unit which changes light path lengths of the reference lights reflected by the reference light reflecting unit; and photodetectors which measure interference between the first to n-th measurement lights reflected by the objects to be measured and the reference lights reflected by the reference light reflecting unit. | 09-27-2012 |
20120247954 | PLASMA PROCESSING APPARATUS - Disclosed is a capacitively-coupled plasma etching apparatus, in which a focus ring is provided surrounding a substrate placing area of a placing table for adjusting a state of plasma. A ring type insulating member is installed along the focus ring between the top surface of the placing table and the bottom surface of the focus ring, and a heat transfer member is installed between the top surface of the placing table and the bottom surface of the focus ring to be closely attached to the top surface and the bottom surface at a position adjacent to the insulating member in a diameter direction of a wafer. During the plasma processing, the heat in the focus ring is transferred to the placing table through the heat transfer member to be cooled down and the amount of sediment attached to the rear surface of the wafer can be reduced. | 10-04-2012 |
20120251759 | COMPONENT IN PROCESSING CHAMBER OF SUBSTRATE PROCESSING APPARATUS AND METHOD OF MEASURING TEMPERATURE OF THE COMPONENT - A component in a processing chamber of a substrate processing apparatus, where a temperature may be accurately measured by using a temperature measuring apparatus using an interference of a low-coherence light, even when a front surface and a rear surface are not parallel due to abrasion, or the like. A focus ring used in a vacuum atmosphere and of which a temperature is measured includes an abrasive surface exposed to an abrasive atmosphere according to plasma, a nonabrasive surface not exposed to the abrasive atmosphere, a thin-walled portion including a top surface and a bottom surface that are parallel to each other, and a coating member coating the top surface of the thin-walled portion, wherein a mirror-like finishing is performed on each of the top and bottom surfaces of the thin-walled portion. | 10-04-2012 |
20130308681 | METHOD OF MEASURING TEMPERATURE OF COMPONENT IN PROCESSING CHAMBER OF SUBSTRATE PROCESSING APPARATUS - A component in a processing chamber of a substrate processing apparatus, where a temperature may be accurately measured by using a temperature measuring apparatus using an interference of a low-coherence light, even when a front surface and a rear surface are not parallel due to abrasion, or the like. A focus ring used in a vacuum atmosphere and of which a temperature is measured includes an abrasive surface exposed to an abrasive atmosphere according to plasma, a nonabrasive surface not exposed to the abrasive atmosphere, a thin-walled portion including a top surface and a bottom surface that are parallel to each other, and a coating member coating the top surface of the thin-walled portion, wherein a mirror-like finishing is performed on each of the top and bottom surfaces of the thin-walled portion. | 11-21-2013 |