Abstract: A method and apparatus for depositing III-V material is provided. The apparatus includes a reactor partially enclosed by a selectively permeable membrane 12. A means is provided for generating source vapors, such as a vapor-phase halide of a group III element (IUPAC group 13) within the reactor volume 10, and an additional means is also provided for introducing a vapor-phase hydride of a group V element (IUPAC group 15) into the volume 10. The reaction of the group III halide and the group V hydride on a temperature-controlled substrate 18 within the reactor volume 10 produces crystalline III-V material and hydrogen gas. The hydrogen is preferentially removed from the reactor through the selectively permeable membrane 12, thus avoiding pressure buildup and reaction imbalance. Other gases within the reactor are unable to pass through the selectively permeable membrane.

Abstract: A method and apparatus for depositing III-V material is provided. The apparatus includes a reactor partially enclosed by a selectively permeable membrane 12. A means is provided for generating source vapors, such as a vapor-phase halide of a group III element (IUPAC group 13) within the reactor volume 10, and an additional means is also provided for introducing a vapor-phase hydride of a group V element (IUPAC group 15) into the volume 10. The reaction of the group III halide and the group V hydride on a temperature-controlled substrate 18 within the reactor volume 10 produces crystalline III-V material and hydrogen gas. The hydrogen is preferentially removed from the reactor through the selectively permeable membrane 12, thus avoiding pressure buildup and reaction imbalance. Other gases within the reactor are unable to pass through the selectively permeable membrane.

Abstract: A cluster tool includes a block which is formed with an inner high vacuum chamber, at least two loadlock chambers that are in fluid communication with the high vacuum chamber, and at least two slot valves for selectively isolating each loadlock chamber from the high vacuum chamber. The cluster tool also includes a high vacuum pump that is connected to the high vacuum chamber and a water pump comprising a refrigeration unit and a cryoplate. The cryoplate is cooled by the refrigeration unit and projects into the high vacuum chamber between the loadlock chambers. Selective operation of the slot valves allows a single water pump to serve a plurality of loadlock chambers. Each loadlock chamber includes a refrigerated platen that projects into the loadlock chamber, a heat lamp assembly that radiates into the loadlock chamber, and a tray for holding the wafer therein. The platen has a cooling system for selectively cooling the wafer, and selective radiation of the heat lamp assembly degasses the wafer.

Abstract: A cluster tool includes a block which is formed with an inner high vacuum chamber, at least two loadlock chambers that are in fluid communication with the high vacuum chamber, and at least two slot valves for selectively isolating each loadlock chamber from the high vacuum chamber. The cluster tool also includes a high vacuum pump that is connected to the high vacuum chamber and a water pump comprising a refrigeration unit and a cryoplate. The cryoplate is cooled by the refrigeration unit and projects into the high vacuum chamber between the loadlock chambers. Selective operation of the slot valves allows a single water pump to serve a plurality of loadlock chambers. Each loadlock chamber includes a refrigerated platen that projects into the loadlock chamber, a heat lamp assembly that radiates into the loadlock chamber, and a tray for holding the wafer therein. The platen has a cooling system for selectively cooling the wafer, and selective radiation of the heat lamp assembly degasses the wafer.

Abstract: A cluster tool includes a block which is formed with an inner high vacuum chamber, at least two loadlock chambers that are in fluid communication with the high vacuum chamber, and at least two slot valves for selectively isolating each loadlock chamber from the high vacuum chamber. The cluster tool also includes a high vacuum pump that is connected to the high vacuum chamber and a water pump comprising a refrigeration unit and a cryoplate. The cryoplate is cooled by the refrigeration unit and projects into the high vacuum chamber between the loadlock chambers. Selective operation of the slot valves allows a single water pump to serve a plurality of loadlock chambers. Each loadlock chamber includes a refrigerated platen that projects into the loadlock chamber, a heat lamp assembly that radiates into the loadlock chamber, and a tray for holding the wafer therein. The platen has a cooling system for selectively cooling the wafer, and selective radiation of the heat lamp assembly degasses the wafer.