Used AMAT / APPLIED MATERIALS P5000 #9134013 for sale

AMAT / APPLIED MATERIALS P5000 reactor is a sub-atmospheric, integrated rapid thermal processing (RTP) equipment designed to provide high-yield, uniform thin-film deposition of a variety of materials. This system can be used to fabricate components in a wide range of industries including semiconductors, microelectronics, medical and special optics. AMAT P-5000 reactor is capable of processing at temperatures of up to 2000°C in a helium atmosphere, allowing for various advanced thin-film deposition techniques such as thermal oxidation, sputter ion plating, ALD, CVD and ALD-CVD processes. It includes various advanced features such as automatic recipe setting, dynamic ozone cleaning for low contamination thin-film deposition, purge shutters for controlling gas flow, a motorized wafer carrier for quickly pre-aligning wafers before deposition, as well as a custom designed susceptor-frame with cooling channels and temperature control terminals to provide uniform, repeatable temperature distribution throughout the chamber. This unit also offers flexible process options and modular upgradeability, allowing users to incorporate the latest thin-film deposition technologies. APPLIED MATERIALS P 5000 reactor features a high-resolution camera that provides quick wafer alignment and accurate positioning of the end product within the process chamber, with a vacuum level of up to 5E-5 Torr. It also has a built-in loadlock machine, which allows for loading and unloading of the wafers, while maintaining a consistent processing environment. This ensures stable and repeatable results across multiple process cycles. Finally, the tool includes a cooling fan to remove excess heat from the process chamber, ensuring uniform thin-film deposition across all substrates. AMAT / APPLIED MATERIALS P-5000 Reactor is an excellent option for anyone seeking an efficient and low-cost asset for advanced thin-film deposition. With its flexible configuration, it allows users to keep up with advancing thin-film deposition technologies, ensuring high-precision, repeatable results for a wide range of applications.