Patent application number | Description | Published |
20080214014 | ABSORBER LAYER CANDIDATES AND TECHNIQUES FOR APPLICATION - The present invention generally provides an absorber layer using carbon based materials with increased and stabled thermal absorption coefficient and economical methods to produce such an absorber layer. One embodiment of the present invention provides a method for processing a substrate comprising depositing an absorber layer on a top surface of the substrate, wherein the substrate is maintained under a first temperature, annealing the substrate in a thermal processing chamber, wherein the substrate is heated to a second temperature, and the second temperature is higher than the first temperature, and removing the absorber layer from the substrate. | 09-04-2008 |
20080217306 | Rapid detection of imminent failure in optical thermal processing of a substrate - A system for thermal processing of a substrate includes a source of radiation, optics disposed between the source and the substrate to receive light from the source of radiation at the optics proximate end, and a housing holding the optics and having a void inside the housing isolated from light emitted from the source. A light detector is disposed within the void in the housing to detect light from the optics emitted into the housing and send a deterioration signal. The system further includes a power supply for the source of radiation, and a controller to control the power supply based on the deterioration signal from the light detector. | 09-11-2008 |
20080308534 | PYROMETER FOR LASER ANNEALING SYSTEM COMPATIBLE WITH AMORPHOUS CARBON OPTICAL ABSORBER LAYER - In a laser annealing system for workpieces such as semiconductor wafers, a pyrometer wavelength response band is established within a narrow window lying between the laser emission band and a fluorescence emission band from the optical components of the laser system, the pyrometer response band lying in a wavelength region at which the optical absorber layer on the workpiece has an optical absorption coefficient as great as or greater than the underlying workpiece. A multi-layer razor-edge interference filter having a 5-8 nm wavelength cut-off edge transition provides the cut-off of the laser emission at the bottom end of the pyrometer response band. | 12-18-2008 |
20090032511 | Apparatus and method of improving beam shaping and beam homogenization - The present invention generally relates to an optical system that is able to reliably deliver a uniform amount of energy across an anneal region contained on a surface of a substrate. The optical system is adapted to deliver, or project, a uniform amount of energy having a desired two-dimensional shape on a desired region on the surface of the substrate. Typically, the anneal regions may be square or rectangular in shape. Generally, the optical system and methods of the present invention are used to preferentially anneal one or more regions found within the anneal regions by delivering enough energy to cause the one or more regions to re-melt and solidify. | 02-05-2009 |
20090034071 | METHOD FOR PARTITIONING AND INCOHERENTLY SUMMING A COHERENT BEAM - A method and apparatus for decorrelating coherent light from a light source, such as a pulsed laser, in both time and space in an effort to provide intense and uniform illumination are provided. For some embodiments employing a pulsed light source, the output pulse may be stretched relative to the input pulse width. The methods and apparatus described herein may be incorporated into any application where intense, uniform illumination is desired, such as pulsed laser annealing, welding, ablating, and wafer stepper illuminating. | 02-05-2009 |
20090034072 | METHOD AND APPARATUS FOR DECORRELATION OF SPATIALLY AND TEMPORALLY COHERENT LIGHT - A method and apparatus for decorrelating coherent light from a light source, such as a pulsed laser, in both time and space in an effort to provide intense and uniform illumination are provided. The techniques and apparatus described herein may be incorporated into any application where intense, uniform illumination is desired, such as pulsed laser annealing, welding, ablating, and wafer stepper illuminating. | 02-05-2009 |
20090046750 | INCREASED NANOSECOND LASER PULSE-TO-PULSE ENERGY REPEATABILITY USING ACTIVE LASER PULSE ENERGY CONTROL - A method and apparatus for reducing the pulse-to-pulse laser energy variation (i.e., increasing the pulse-to-pulse laser energy repeatability) from a pulsed laser source are provided. In this manner, laser pulses impingent on a processing plane, such as the surface of a wafer or other substrate, may have substantially the same energy content leading to a more controlled process when compared to conventional processing. The method may be based on in-situ detection of the pulse energy level and the subsequent active adjustment of the transmitted laser pulse energy in a closed-loop control scheme. Furthermore, the active adjustment of the laser pulse energy may occur within a few nanoseconds after the original laser pulse is generated by a pulsed laser source. | 02-19-2009 |
20090084986 | Multiple band pass filtering for pyrometry in laser based annealing systems - A thermal processing system includes a source of laser radiation emitting at a laser wavelength, beam projection optics disposed between the reflective surface and a substrate support capable of holding a substrate to be processed, a pyrometer responsive to a pyrometer wavelength, and a wavelength responsive optical element having a first optical path for light in a first wavelength range including the laser wavelength, the first optical path being between the source of laser radiation and the beam projection optics, and a second optical path for light in a second wavelength range including the pyrometer wavelength, the second optical path being between the beam projection optics and the pyrometer. The system can further include a pyrometer wavelength blocking filter between the source of laser radiation and the wavelength responsive optical element. | 04-02-2009 |
20090091817 | HIGH SPEED PHASE SCRAMBLING OF A COHERENT BEAM USING PLASMA - A laser beam is modulated at a very high frequency to produce uniform radiant flux densities on substrate surface processing regions during thermal processing. Beam modulation is achieved by passing the laser beam through a plasma which causes phase randomization within the laser beam. This method may be used for any application where intense, uniform illumination is desired, such as pulsed laser annealing, ablating, and wafer stepper illuminating. | 04-09-2009 |
20090289053 | Apparatus Including Heating Source Reflective Filter for Pyrometry - Methods and apparatus for processing substrates and measuring the temperature using radiation pyrometry are disclosed. A reflective layer is provided on a window of a processing chamber. A radiation source providing radiation in a first range of wavelengths heats the substrate, the substrate being transparent to radiation in a second range of wavelengths within the first range of wavelengths for a predetermined temperature range. Radiation within the second range of wavelength is reflected by the reflective layer. | 11-26-2009 |
20100023154 | COMPENSATION TECHNIQUES FOR SUBSTRATE HEATING PROCESSES - Methods for compensating for a thermal profile in a substrate heating process are provided herein. In some embodiments, a method of processing a substrate includes determining an initial thermal profile of a substrate that would result from subjecting the substrate to a process; determining a compensatory thermal profile based upon the initial thermal profile and a desired thermal profile; imposing the compensatory thermal profile on the substrate prior to performing the process on the substrate; and performing the process to create the desired thermal profile on the substrate. The initial substrate thermal profile can also be compensated for by adjusting a local mass heated per unit area, a local heat capacity per unit area, or an absorptivity or reflectivity of a component proximate the substrate prior to performing the process. Heat provided by an edge ring to the substrate may be controlled prior to or during the substrate heating process. | 01-28-2010 |
20100124248 | PYROMETRY FOR SUBSTRATE PROCESSING - A substrate processing system includes a processing chamber, a pedestal for supporting a substrate disposed within the processing chamber, and an optical pyrometry assembly coupled to the processing chamber to measure an emitted light originating substantially from a portion of the pedestal or substrate. The optical pyrometry assembly further includes a light receiver, and an optical detector. The optical pyrometry assembly receives a portion of the emitted light, and a temperature of the substrate is determined from an intensity of the portion of the emitted light near at least one wavelength. A method of measuring a temperature of a substrate during processing, includes disposing a light pipe near a portion of the pedestal supporting the substrate or pedestal, shielding the end of the light pipe from stray light so that the end of the light pipe receives light from the portion of the pedestal or substrate, purging the end of the light pipe with a gas to reduce contamination of the end of the light pipe, detecting a portion of the light emitted from the pedestal and received by the light pipe, and determining a temperature of the substrate from the intensity of the portion of the emitted light from the pedestal or the substrate near at least one wavelength. | 05-20-2010 |
20100193020 | Photovoltaic Cells Including Spaced Ramps and Methods of Manufacture - Photovoltaic cells and methods for the manufacture of photovoltaic cells are described. Operative layers of the photovoltaic cell are deposited onto a superstrate having a plurality of spaced ramps, allowing for the individual cells to be connected in series with minimal loss of the efficiency due to dead space between the cells. | 08-05-2010 |
20100264132 | METHODS AND APPARATUS FOR ALIGNING A SUBSTRATE IN A PROCESS CHAMBER - Methods and apparatus for aligning a substrate in a process chamber are provided herein. In some embodiments, an apparatus may include a process chamber having an interior volume for processing a substrate therein; and a substrate positioning system configured to determine a substrate position within the interior volume, wherein the substrate positioning system determines the substrate position in two dimensions by the interaction of a first position and a second position along an edge of a substrate with two beams of electromagnetic radiation provided by the substrate positioning system. In some embodiments, a method for aligning a substrate may include placing a substrate in the interior volume of a process chamber; directing electromagnetic radiation into the interior volume in a first beam along a first path and in a second beam along a second path; and determining the position of the substrate in two dimensions by interaction of the first and second beams of electromagnetic radiation with an edge of the substrate proximate a first position and a second position. | 10-21-2010 |
20100266268 | Multi-stage Optical Homogenization - Substrate processing equipment and methods are used to improve the uniformity of illumination across an illuminated portion of a substrate by processing light with multiple optical homogenizers. The multiple optical homogenizers each include micro-lens arrays and Fourier lens. The multiple optical homogenizers are arranged so that the output numerical aperture of one of the optical homogenizers is within 5% of the input numerical aperture of another optical homogenizer. | 10-21-2010 |
20110006044 | PYROMETER FOR LASER ANNEALING SYSTEM COMPATIBLE WITH AMORPHOUS CARBON OPTICAL ABSORBER LAYER - In a laser annealing system for workpieces such as semiconductor wafers, a pyrometer wavelength response band is established within a narrow window lying between the laser emission band and a fluorescence emission band from the optical components of the laser system, the pyrometer response band lying in a wavelength region at which the optical absorber layer on the workpiece has an optical absorption coefficient as great as or greater than the underlying workpiece. A multi-layer razor-edge interference filter having a 5-8 nm wavelength cut-off edge transition provides the cut-off of the laser emission at the bottom end of the pyrometer response band. | 01-13-2011 |
20110023957 | PHOTOVOLTAIC CELLS INCLUDING PEAKS AND METHODS OF MANUFACTURE - Photovoltaic module and methods for the manufacture of photovoltaic modules are described. Operative layers of the photovoltaic cell are deposited onto a superstrate having one or more of at least one peak allowing for electrical isolation of a portion of a photovoltaic module and at least one ramp creating a series connection between individual photovoltaic cells with minimal loss of the efficiency due to dead space between the cells. | 02-03-2011 |
20110065264 | METHODS OF SOLID PHASE RECRYSTALLIZATION OF THIN FILM USING PULSE TRAIN ANNEALING METHOD - Embodiments of the present invention provide methods of solid phase recrystallization of thin film using a plurality of pulses of electromagnetic energy. In one embodiment, the methods of the present invention may be used to anneal an entire substrate surface or selected regions of a surface of a substrate by delivering a plurality of pluses of energy to a crystalline seed region or layer upon which an amorphous layer is deposited to recrystallize the amorphous layer so that it has the same grain structure and crystal orientation as that of the underlying crystalline seed region or layer. | 03-17-2011 |
20110070724 | DEFECT-FREE JUNCTION FORMATION USING OCTADECABORANE SELF-AMORPHIZING IMPLANTS - A method and apparatus for implanting a semiconductor substrate with boron clusters. A substrate is implanted with octadecaborane by plasma immersion or ion beam implantation. The substrate surface is then annealed to completely dissociate and activate the boron clusters. The annealing may take place by melting the implanted regions or by a sub-melt annealing process. | 03-24-2011 |
20110089166 | TEMPERATURE MEASUREMENT AND CONTROL OF WAFER SUPPORT IN THERMAL PROCESSING CHAMBER - The present invention provides apparatus and methods for achieving uniform heating to a substrate during a rapid thermal process. More particularly, the present invention provides apparatus and methods for controlling the temperature of an edge ring supporting a substrate during a rapid thermal process to improve temperature uniformity across the substrate. | 04-21-2011 |
20110199683 | METHOD AND APPARATUS FOR DECORRELATION OF SPATIALLY AND TEMPORALLY COHERENT LIGHT - A method and apparatus for decorrelating coherent light from a light source, such as a pulsed laser, in both time and space in an effort to provide intense and uniform illumination are provided. The techniques and apparatus described herein may be incorporated into any application where intense, uniform illumination is desired, such as pulsed laser annealing, welding, ablating, and wafer stepper illuminating. | 08-18-2011 |
20120148701 | APPARATUS AND METHOD OF IMPROVING BEAM SHAPING AND BEAM HOMOGENIZATION - The present invention generally relates to an optical system that is able to reliably deliver a uniform amount of energy across an anneal region contained on a surface of a substrate. The optical system is adapted to deliver, or project, a uniform amount of energy having a desired two-dimensional shape on a desired region on the surface of the substrate. Typically, the anneal regions may be square or rectangular in shape. Generally, the optical system and methods of the present invention are used to preferentially anneal one or more regions found within the anneal regions by delivering enough energy to cause the one or more regions to re-melt and solidify. | 06-14-2012 |
20120171853 | DEFECT-FREE JUNCTION FORMATION USING OCTADECABORANE SELF-AMORPHIZING IMPLANTS - A method and apparatus for implanting a semiconductor substrate with boron clusters. A substrate is implanted with octadecaborane by plasma immersion or ion beam implantation. The substrate surface is then annealed to completely dissociate and activate the boron clusters. The annealing may take place by melting the implanted regions or by a sub-melt annealing process. | 07-05-2012 |
20120190182 | DEFECT-FREE JUNCTION FORMATION USING OCTADECABORANE SELF-AMORPHIZING IMPLANTS - A method and apparatus for implanting a semiconductor substrate with boron clusters. A substrate is implanted with octadecaborane by plasma immersion or ion beam implantation. The substrate surface is then annealed to completely dissociate and activate the boron clusters. The annealing may take place by melting the implanted regions or by a sub-melt annealing process. | 07-26-2012 |
20120325784 | NOVEL THERMAL PROCESSING APPARATUS - The present invention generally relates to an optical system that is able to reliably deliver a uniform amount of energy across an anneal region contained on a surface of a substrate. The optical system is adapted to deliver, or project, a uniform amount of energy having a desired two-dimensional shape on a desired region on the surface of the substrate. An energy source for the optical system is typically a plurality of lasers, which are combined to form the energy field. | 12-27-2012 |
20120329178 | NOVEL THERMAL PROCESSING APPARATUS - The present invention generally relates to an optical system that is able to reliably deliver a uniform amount of energy across an anneal region contained on a surface of a substrate. The optical system is adapted to deliver, or project, a uniform amount of energy having a desired two-dimensional shape on a desired region on the surface of the substrate. An energy source for the optical system is typically a plurality of lasers, which are combined to form the energy field. | 12-27-2012 |
20130055731 | CRYSTALLIZATION METHODS - Apparatus and methods of treating a substrate with an amorphous semiconductor layer, or a semiconductor layer having small crystals, to form large crystals in the substrate are described. A treatment area of the substrate is identified and melted using a progressive melting process of delivering pulsed energy to the treatment area. The treatment area is then recrystallized using a progressive crystallization process of delivering pulsed energy to the area. The pulsed energy delivered during the progressive crystallization process is selected to convert the small crystals into large crystals as the melted material freezes. | 03-07-2013 |
20130087547 | PARTICLE CONTROL IN LASER PROCESSING SYSTEMS - The present invention generally relates to a laser processing systems for thermally processing substrates. The laser processing systems include a shield disposed between an energy source of the laser processing system and a substrate which is to be thermally processed. The shield includes an optically transparent window disposed adjacent to a cavity within the shield. The optically transparent window allows annealing energy to pass therethrough and to illuminate the substrate. The shield also includes one or more gas inlets and one or more gas outlets for introducing and removing a purge gas from the cavity within the shield. The purge gas is utilized to remove volatized or ablated components during thermal processing, and to provide a gas of predetermined composition, such as oxygen-free, to the thermally processed area. | 04-11-2013 |
20130141788 | METHOD AND APPARATUS FOR DECORRELATION OF SPATIALLY AND TEMPORALLY COHERENT LIGHT - A method and apparatus for decorrelating coherent light from a light source, such as a pulsed laser, in both time and space in an effort to provide intense and uniform illumination are provided. The techniques and apparatus described herein may be incorporated into any application where intense, uniform illumination is desired, such as pulsed laser annealing, welding, ablating, and wafer stepper illuminating. | 06-06-2013 |
20130163091 | MULTIPLE BEAM COMBINER FOR LASER PROCESSING APPARATUS - Apparatus and methods for combining beams of amplified radiation are disclosed. A beam combiner has a collimating optic positioned to receive a plurality of coherent radiation beams at a constant angle of incidence with respect to an optical axis of the collimating optic. The respective angles of incidence may also be different in some embodiments. The collimating optic has an optical property that collimates the beams. The optical property may be refractive or reflective, or a combination thereof. A collecting optic may also be provided to direct the plurality of beams to the collimating optic. The beam combiner may be used in a thermal processing apparatus to combine more than two beams of coherent amplified radiation, such as lasers, into a single beam. | 06-27-2013 |
20130340495 | APERTURE CONTROL OF THERMAL PREOCESSING RADIATION - Device for processing a substrate are described herein. Devices can include a radiation source and an aperture positioned to receive radiant energy from the radiation source. The aperture can include one or more members, and one or more interfering areas, wherein the interfering areas surround a transmissive area. The one or more structures can affect transmission of radiant energy through a portion of the transmissive area of the aperture. Structures disposed on the aperture can reduce or redirect transmission to provide for more uniform overall transmission of radiant energy through the aperture. | 12-26-2013 |
20140009829 | METHOD FOR PARTITIONING AND INCOHERENTLY SUMMING A COHERENT BEAM - A method and apparatus for decorrelating coherent light from a light source, such as a pulsed laser, in both time and space in an effort to provide intense and uniform illumination are provided. For some embodiments employing a pulsed light source, the output pulse may be stretched relative to the input pulse width. The methods and apparatus described herein may be incorporated into any application where intense, uniform illumination is desired, such as pulsed laser annealing, welding, ablating, and wafer stepper illuminating. | 01-09-2014 |
20140138362 | NOVEL THERMAL PROCESSING APPARATUS - The present invention generally relates to an optical system that is able to reliably deliver a uniform amount of energy across an anneal region contained on a surface of a substrate. The optical system is adapted to deliver, or project, a uniform amount of energy having a desired two-dimensional shape on a desired region on the surface of the substrate. An energy source for the optical system is typically a plurality of lasers, which are combined to form the energy field. | 05-22-2014 |
20140148017 | THERMAL TREATMENT METHODS AND APPARATUS - Embodiments described herein provide methods and apparatus for thermally treating a substrate. A first radiant energy source that delivers a first radiation at a first fluence and a second radiant energy source that delivers a second radiation at a second fluence are disposed to direct energy toward a substrate support positioned to receive the first radiation at a first location and the second radiation at a second location, wherein the first fluence is 10 to 100 times the second fluence and the first radiation cannot reach the second location. The first radiant energy source may be a laser, and the second radiant energy source may be a plurality of lasers, for example a pulsed laser assembly with a plurality of pulsed lasers. The second radiant energy source may also be a flash lamp. The first and second radiant energy sources may be in the same chamber or different chambers. | 05-29-2014 |
20140254022 | APPARATUS FOR SPECKLE REDUCTION, PULSE STRETCHING, AND BEAM HOMOGENIZATION - Embodiments described herein relate to thermal processing of semiconductor substrates. More specifically, embodiments described herein relate to laser thermal processing of semiconductor substrates. In certain embodiments, a uniformizer is provided to spatially and temporally decorrelate a coherent light image. | 09-11-2014 |
20140255862 | PYROMETRY FILTER FOR THERMAL PROCESS CHAMBER - Embodiments of the invention generally relate to pyrometry during thermal processing of semiconductor substrates. More specifically, embodiments of the invention relate to a pyrometry filter for a thermal process chamber. In certain embodiments, the pyrometry filter selectively filters selected wavelengths of energy to improve a pyrometer measurement. The pyrometry filter may have various geometries which may affect the functionality of the pyrometry filter. | 09-11-2014 |
20140256161 | PROCESS SHEET RESISTANCE UNIFORMITY IMPROVEMENT USING MULTIPLE MELT LASER EXPOSURES - Embodiments described herein relate to apparatus and methods of thermal processing. More specifically, apparatus and methods described herein relate to laser thermal treatment of semiconductor substrates by increasing the uniformity of energy distribution in an image at a surface of a substrate. | 09-11-2014 |
20150048062 | DYNAMIC OPTICAL VALVE FOR MITIGATING NON-UNIFORM HEATING IN LASER PROCESSING - Embodiments of the present invention generally relate to an optical valve that modifies a laser beam to allow more energy to be irradiated onto less absorbing areas on a substrate and less energy to be irradiated onto more absorbing areas on the substrate, thus creating a more uniform heating field. The optical valve is a layered structure comprising a reflective switch layer, an absorbing layer, a thermal resistor and a thermal bath. | 02-19-2015 |
20150053658 | APPARATUS AND METHOD OF IMPROVING BEAM SHAPING AND BEAM HOMOGENIZATION - The present invention generally relates to an optical system that is able to reliably deliver a uniform amount of energy across an anneal region contained on a surface of a substrate. The optical system is adapted to deliver, or project, a uniform amount of energy having a desired two-dimensional shape on a desired region on the surface of the substrate. Typically, the anneal regions may be square or rectangular in shape. Generally, the optical system and methods of the present invention are used to preferentially anneal one or more regions found within the anneal regions by delivering enough energy to cause the one or more regions to re-melt and solidify. | 02-26-2015 |
20150069028 | ANNEALING APPARATUS USING TWO WAVELENGTHS OF RADIATION - A thermal processing apparatus and method in which a first laser source, for example, a CO | 03-12-2015 |