Abstract: A device to ensure planarity of a semiconductor wafer during growth at an increased temperature in a growth chamber arranged in a reactor housing where the device includes a growth chamber having a port to allow the deposition of at least one wafer on a rotating susceptor in the growth chamber and the withdrawal of the wafer. The growth chamber has an inlet channel for a supply of process gases and an outlet channel for a discharge of not consumed process gases to create a process gas flow between said channels. Separate heaters are adjacent to the growth chamber to heat the rotating wafer with individually controlled heating zones both above and under the wafer. An instrument measures the bending of the wafer, and an automatic control circuit uses data from temperature sensors or measured data of power supplied to the heaters and the instrument measuring bending of the wafer to change the temperature in said temperature zones so that bending of the wafer is minimized.
Abstract: A silicon carbide growth method for growing a silicon carbide crystal on a substrate in a hot wall reaction chamber heated to a temperature between 1600° C. and 2000° C. Process gases enter the reaction chamber utilizing at least a primary gas flow, a secondary gas flow, and a shower gas flow. The shower gas flow is fed substantially perpendicularly to the primary and secondary gas flows and is directed towards the substrate. The primary and secondary gas flows are oriented substantially parallel to the surface of the substrate. A silicon precursor gas is entered by the primary gas flow. A hydrocarbon precursor gas is entered in at least one of the primary gas flow, the secondary gas flow, or the shower gas flow. Hydrogen is entered primarily in the secondary flow and the shower head flow. A CVD reactor chamber for use in processing the method.