Abstract: A high flow rate bubbler system and method are provided for producing a stable, easily controllable source of chemical vapors to a downstream process. The bubbler system is equipped with a vaporizer unit connected to its gas outlet tube. This vaporizer unit slows the gas velocity to enhance settling of entrained droplets and contacts the exiting gas with a high thermal mass, heated surfaces to promote heat transfer and evaporation of the entrained droplets.

Abstract: A system and method of minimizing stress related to the ramp rate of a variable by limiting the ramp rate as a function of the current value of the variable is provided. More specifically, the present invention provides a system and method of maintaining the radial delta temperature of a semiconductor substrate or other heated body below the crystal slip curve by dynamically controlling the temperature ramp rate during processing.

Abstract: A semiconductor wafer processing system including a multi-chamber module having vertically-stacked semiconductor wafer process chambers and a loadlock chamber dedicated to each semiconductor wafer process chamber. Each process chamber includes a chuck for holding a wafer during wafer processing. The multi-chamber modules may be oriented in a linear array. The system further includes an apparatus having a dual-wafer single-axis transfer arm including a monolithic arm pivotally mounted within said loadlock chamber about a single pivot axis. The apparatus is adapted to carry two wafers, one unprocessed and one processed, simultaneously between the loadlock chamber and the process chamber. A method utilizing the disclosed system is also provided.

Abstract: An apparatus for heat treatment of a wafer. The apparatus includes a heating chamber having a heat source. A cooling chamber is positioned adjacent to the heating chamber and includes a cooling source. A wafer holder is configured to move between the cooling chamber and the heating chamber through a passageway and one or more shutters defines the size of the passageway. The one or more shutters are movable between an open position where the wafer holder can pass through the passageway and an obstructing position which defines a passageway which is smaller than the passageway defined when the shutter is in the open position.

Abstract: A heating system, a method for heating a deposition reactor or an oxidation reactor, and a reactor utilizing the heating system are particularly suited for low-pressure chemical vapor deposition or oxidation. A heating system is particularly useful for heating a reactor in which a plurality of wafers is held perpendicularly to the reactant gas flowing direction that is parallel to the longitudinal axis of the reactor, to enable a deposition or oxidation reaction. The heating system is adapted to change the reactor temperature during the process. In addition, a method heats a reactor to enable a reaction. Preferably, each of a plurality of reactor zones, into which the reactor is divided in a direction parallel to the reactant gas flowing direction, is heated at a different temperature profile indicating the temperature of this specific zone versus time. Thereby, the in-plane uniformity of deposited or oxidized layers can be largely improved.

Abstract: A method and apparatus for providing in-situ monitoring of the removal of materials in localized regions on a semiconductor wafer or substrate during chemical mechanical polishing (CMP) is provided. In particular, the method and apparatus of the present invention provides for detecting the differences in reflectance between the different materials within certain localized regions or zones on the surface of the wafer. The differences in reflectance are used to indicate the rate or progression of material removal in each of the certain localized zones.

Abstract: The present invention relates generally to semiconductor fabrication. More particularly, the present invention relates to system and method of selectively oxidizing one material with respect to another material formed on a semiconductor substrate. A hydrogen-rich oxidation system for performing the process are provided in which innovative safety features are included to avoid the dangers to personnel and equipment that are inherent in working with hydrogen-rich atmospheres.

Abstract: An atmospheric pressure wafer processing system for delivering at least one gas is provided, having an exhaust control feedback system that utilizes sensors to measure the pressure within the system and adjusts control units to maintain the desired set pressures within the system. In particular the sensors measure the small differential pressures inside a muffle, and specifically the load, bypass center and unload sections of the muffle, relative to the chase ambient pressure. Controlling the muffle pressures directly within the atmospheric system yields a more stable pressure balance for processing wafers less subject to changes in the external environment and allows for compensation of varying input gas flows as occurs when the supply pressure to the system may vary. This system and method of pressure control is particularly advantageous for chemical vapor deposition application yielding improved process repeatability over an extended period of runtime.

Abstract: A new multilayer dielectric film for improving dielectric constant and thermal stability of gate dielectrics is provided. The multilayer dielectric film comprises a first layer formed of a metal oxide material having a high dielectric constant, and a second layer formed on the first layer. The second layer is formed of a metal silicate material having a dielectric constant lower than the dielectric constant of the first layer. A semiconductor transistor incorporating the multilayer dielectric film is also provided.