Abstract: A method and system using spectral interference of light from plasma emissions collected at near grazing incidence to in-situ monitor and control the film thickness of a non-opaque film. Embodiments of this invention are particularly useful to all substrate processing chambers equipped to form an in-situ plasma within the chamber and which are used to deposit or etch non-opaque films. One embodiment of the method of the present invention forms a plasma within a substrate processing chamber to deposit a non-opaque film on a wafer substrate within the chamber. During the plasma deposition process, a plurality of wavelengths of radiation including those reflected from the top and bottom layer of the film being deposited upon a wafer surface are collected through an existing viewport, and conveyed to a spectrometer for measurements via an optical fiber attached near this viewport. These measurements are analyzed to determine the film's thickness.

Abstract: A method of cleaning a semiconductor fabrication processing chamber involves recirculation of cleaning gas components. Consequently, input cleaning gas is utilized efficiently, and undesirable emissions are reduced. The method includes flowing a cleaning gas to an inlet of a processing chamber, and exposing surfaces of the processing chamber to the cleaning gas to clean the surfaces, thereby producing a reaction product. The method further includes removing an outlet gas including the reaction product from an outlet of the processing chamber, separating at least a portion of the reaction product from the outlet gas, and recirculating a portion of the outlet gas to the inlet of the processing chamber.

Abstract: An apparatus for preventing particulate matter and residue build-up within a vacuum exhaust line of a semiconductor processing device. The apparatus uses RF energy to excite the constituents of particulate matter exhausted from a semiconductor processing chamber into a plasma state such that the constituents react to form gaseous products that may be pumped through the vacuum line. The apparatus may include a collection chamber structured and arranged to collect particulate matter flowing through the apparatus and inhibiting egress of the particulate matter from the apparatus. The apparatus may further include an electrostatic collector to enhance particle collection in the collection chamber and to further inhibit egress of the particulate matter.

Abstract: A substrate processing apparatus has a process chamber and an effluent treatment reactor. The process chamber has a substrate support, a process gas supply, a gas energizer, and an exhaust conduit. The effluent treatment reactor has an effluent inlet to receive effluent from the exhaust conduit of the process chamber, a plasma cell having one or more electrodes electrically connected to a voltage source adapted to electrically bias the electrodes to couple energy to effluent received in the plasma cell, a scrubbing cell coaxially exterior to the plasma cell, the scrubbing cell having a scrubbing fluid inlet to introduce scrubbing fluid into effluent in the scrubbing cell and a scrubbing fluid outlet, and an effluent outlet to release the treated effluent.

Abstract: A method and system using spectral interference of light from plasma emissions collected at near grazing incidence to in-situ monitor and control the film thickness of a non-opaque film. Embodiments of this invention are particularly useful to all substrate processing chambers equipped to form an in-situ plasma within the chamber and which are used to deposit or etch non-opaque films. One embodiment of the method of the present invention forms a plasma within a substrate processing chamber to deposit a non-opaque film on a wafer substrate within the chamber. During the plasma deposition process, a plurality of wavelengths of radiation including those reflected from the top and bottom layer of the film being deposited upon a wafer surface are collected through an existing viewport, and conveyed to a spectrometer for measurements via an optical fiber attached near this viewport. These measurements are analyzed to determine the film's thickness.

Abstract: A method of cleaning a semiconductor fabrication processing chamber involves recirculation of cleaning gas components. Consequently, input cleaning gas is utilized efficiently, and undesirable emissions are reduced. The method includes flowing a cleaning gas to an inlet of a processing chamber, and exposing surfaces of the processing chamber to the cleaning gas to clean the surfaces, thereby producing a reaction product. The method further includes removing an outlet gas including the reaction product from an outlet of the processing chamber, separating at least a portion of the reaction product from the outlet gas, and recirculating a portion of the outlet gas to the inlet of the processing chamber.

Abstract: An apparatus for converting PFC gases exhausted from semiconductor processing equipment to less harmful, non-PFC gases. One embodiment of the apparatus includes a silicon filter and a plasma generation system. The plasma generation system forms a plasma from the effluent PFC gases. Constituents from the plasma react with silicon and/or oxygen in the filter and convert the effluent PFC gases to less harmful, non-PFC gaseous products and byproducts. Another embodiment includes a plasma generation system and a particle trapping and collection system. The particle trapping and collection system traps silicon containing residue from deposition processes that produces such residue, and the plasma generation system forms a plasma from the effluent PFC gases. Constituents from the plasma react with the collected residue to convert the effluent PFC gases to less harmful, non-PFC gaseous products and byproducts.

Abstract: A method for improving the corrosion resistance of ceramic parts in a substrate processing chamber by implanting the parts with rare-earth ions. The implanted ceramic parts are highly resistant to corrosive environments that can be formed in semiconductor manufacturing equipment including those found in high temperature applications and high density plasma applications. In a preferred embodiment of the method of the present invention, the ceramic parts are implanted with rare-earth ions using an implantation technique based on a metal vapor vacuum arc (MEVVA™) ion source. The implanted ions are then reacted with fluorine radicals in a highly corrosive environment to form a layer of rare-earth fluoride material, RE:F3, at the surface of the ceramic component. The sublimation temperature of such a RE:F3 layer is much higher than that of layers such as AlF3 that are formed on standard ceramic chamber components in such environments (e.g., up to 1100° C. as compared to 600° C.).

Abstract: A method and apparatus for determining the composition of an effluent stream from a vacuum processing chamber. A cell placed in the effluent stream from the vacuum processing chamber creates a glow discharge from the constituents in the effluent stream. An optical detector measures a particular wavelength corresponding to the presence of a particular species. In one embodiment the output from the optical detector is used to determine the endpoint of a chamber cleaning process.

Abstract: A substrate processing system that includes a ceramic substrate holder having an RF electrode embedded within the substrate holder and a gas inlet manifold spaced apart from the substrate holder. The gas inlet manifold supplies one or more process gases through multiple conical holes to a reaction zone of a substrate processing chamber within the processing system and also acts as a second RF electrode. Each conical hole has an outlet that opens into the reaction zone and an inlet spaced apart from the outlet that is smaller in diameter than said outlet. A mixed frequency RF power supply is connected to the substrate processing system with a high frequency RF power source connected to the gas inlet manifold electrode and a low frequency RF power source connected to the substrate holder electrode. An RF filter and matching network decouples the high frequency waveform from the low frequency waveform.

Abstract: An apparatus and method for preventing particulate matter and residue build-up within a vacuum exhaust line of a semiconductor-processing device. The apparatus includes a vessel chamber having an inlet, an outlet and a fluid conduit between the two that fluidly couples the outlet with the inlet. The fluid conduit includes first and second collection sections. The first collection section includes a first plurality of electrodes aligned parallel to a first plane and the second collection section includes a second plurality of electrodes aligned parallel to a second plane that is substantially perpendicular to the first plane. The electrodes are connected to a voltage differential to form an electrostatic particle collector that traps electrically charged particles and particulate matter flowing through the fluid conduit. Particles are collected on the electrodes within the fluid conduit during substrate processing operations such as CVD deposition steps.

Abstract: An apparatus for preventing particulate matter and residue build-up within a vacuum exhaust line of a semiconductor processing device. The apparatus uses RF energy to form excite the constituents of particulate matter exhausted from a semiconductor processing chamber into a plasma state such that the constituents react to form gaseous products that may be pumped through the vacuum line. The apparatus may include a collection chamber structured and arranged to collect particulate matter flowing through the apparatus and inhibiting egress of the particulate matter from the apparatus. The apparatus may further include an electrostatic collector to enhance particle collection in the collection chamber and to further inhibit egress of the particulate matter.

Abstract: An apparatus for preventing particulate matter and residue build-up within a vacuum exhaust line of a semiconductor processing device. The apparatus uses RF energy to form excite the constituents of particulate matter exhausted from a semiconductor processing chamber into a plasma state such that the constituents react to form gaseous products that may be pumped through the vacuum line. The apparatus may include a collection chamber structured and arranged to collect particulate matter flowing through the apparatus and inhibiting egress of the particulate matter from the apparatus. The apparatus may further include an electrostatic collector to enhance particle collection in the collection chamber and to further inhibit egress of the particulate matter.

Abstract: An apparatus for minimizing deposition in an exhaust line of a substrate processing chamber. The apparatus includes first and second electrodes having opposing surfaces that define a fluid conduit between them. The fluid conduit includes an inlet, an outlet and a collection chamber between the inlet and the outlet. The apparatus is connected at its inlet to receive the exhaust of the substrate processing chamber. The collection chamber is structured and arranged to collect particulate matter flowing through the fluid conduit and to inhibit egress of the particulate matter from the collection chamber. A plasma generation system supplies power to the electrodes to form a plasma from etchant gases within the fluid conduit. Constituents from the plasma react with the particulate matter collected in the collection chamber to form gaseous products that may be pumped out of the fluid conduit.

Abstract: An apparatus for converting PFC gases exhausted from semiconductor processing equipment to less harmful, non-PFC gases. One embodiment of the apparatus includes a silicon filter and a plasma generation system. The plasma generation system forms a plasma from the effluent PFC gases. Constituents from the plasma react with silicon and/or oxygen in the filter and convert the effluent PFC gases to less harmful, non-PFC gaseous products and byproducts. Another embodiment includes a plasma generation system and a particle trapping and collection system. The particle trapping and collection system traps silicon containing residue from deposition processes that produces such residue, and the plasma generation system forms a plasma from the effluent PFC gases. Constituents from the plasma react with the collected residue to convert the effluent PFC gases to less harmful, non-PFC gaseous products and byproducts.

Abstract: A substrate processing system that includes a deposition chamber having a reaction zone, first and second electrodes, a mixed frequency RF power supply including a low frequency RF power source and a high frequency RF power source. The high frequency RF power supply provides enough power to form a plasma from a process gas introduced into the reaction zone and the low frequency RF power supply is configured to supply an asymmetrical waveform to either said first or second electrodes to bias the plasma toward the substrate.

Abstract: A substrate processing system that includes a deposition chamber having a reaction zone, a plasma power source for forming a plasma within the reaction zone and an impedance tuner electrically coupled to the deposition chamber. When initially formed, the plasma has a first impedance level that can be adjusted by the impedance tuner to a second impedance level. In a preferred embodiment, the impedance tuner is a variable capacitor.

Abstract: A substrate processing system that includes a ceramic substrate holder having an RF electrode embedded within the substrate holder and a gas inlet manifold spaced apart from the substrate holder. The gas inlet manifold supplies one or more process gases through multiple conical holes to a reaction zone of a substrate processing chamber within the processing system and also acts as a second RF electrode. Each conical hole has an outlet that opens into the reaction zone and an inlet spaced apart from the outlet that is smaller in diameter than said outlet. A mixed frequency RF power supply is connected to the substrate processing system with a high frequency RF power source connected to the gas inlet manifold electrode and a low frequency RF power source connected to the substrate holder electrode. An RF filter and matching network decouples the high frequency waveform from the low frequency waveform.

Abstract: An apparatus for minimizing deposition in an exhaust line of a substrate processing chamber. The apparatus includes first and second members having opposing surfaces that define a fluid conduit between them. The fluid conduit includes an inlet, an outlet and a collection chamber between the inlet and the outlet. The apparatus is connected at its inlet to receive the exhaust of the substrate processing chamber, and the collection chamber is structured and arranged to collect particulate matter flowing through the fluid conduit and to inhibit egress of the particulate matter from the collection chamber. A microwave plasma generation system supplies microwave energy within the fluid conduit to form a plasma from etchant gases within the fluid conduit. Constituents from the plasma react with the particulate matter collected in the collection chamber to form gaseous products that may be pumped out of the fluid conduit.

Abstract: A substrate processing system that includes a deposition chamber having a reaction zone, first and second electrodes, a mixed frequency RF power supply including a low frequency RF power source and a high frequency RF power source. The high frequency RF power supply provides enough power to form a plasma from a process gas introduced into the reaction zone and the low frequency RF power supply is configured to supply an asymmetrical waveform to either said first or second electrodes to bias the plasma toward the substrate.