Used GSI UltraDep 1 #9304746 for sale

Manufacturer
GSI
Model
UltraDep 1
ID: 9304746
Wafer Size: 4"-6"
Plasma Enhanced Chemical Vapor Deposition (PECVD) System, 4"-6" Deposition temperature: 200° - 400°C Deposition rates range: 100 - 400 nm/min Amorphous silicon (dropped and un-dropped) Load lock Single wafer load Dual frequency Microprocessor Computer controlled Stress controlled silicon nitrides Oxynitride: 1.46 - 2.0 Refractive index range TEOS Oxide Doped oxide PSG BSG BPSG Configured with: Helium Nitrous oxide Ammonia Silane oxides TEOS (Direct liquid inject) PH3, B2H6 / He dopant mix Oxygen CF4 Gases Oxide based: Normal Low stress Nitride: Stoichiometric Low stress Spare parts: MFC Hot plates (2) Heaters Pump missing RF Supply for stress control: 13.56 MHz and 200 kHz.
GSI UltraDep 1 is an innovative nuclear reactor design that combines the benefits of both outdoor and indoor reactors. This new reactor design utilizes a large, air-cooled, dry-vaulted, and self-standing containment vessel. The reactor enclosure includes a steel vessel that houses the reactor core, as well as a unique thermal and structurally insulated draught tube to minimize the transfer of heat from the reactor to the surroundings. This type of reactor is known as a "pressure-vessel" reactor, as it utilizes a closed-cycle system with no active water circulation. As a result, this design reduces the risk of water contamination due to leaks, as well as minimizing the potential for accidental release from the reactor. Additionally, it is cost-effective, efficient, and effective at preventing radiation exposure. Unlike traditional reactors, UltraDep 1 utilizes a unique form of uranium enrichment, which means that all the fuel used is in one location. This reduces the risk of contamination due to frequent fuel movements and allows for a very compact design. This design also improves safety, as the fuel does not move and is kept in a single location, meaning there is no risk of fuel mishandling. In addition, this new reactor design drastically reduces the maintenance required as it is not dependent on an active water circulation system. Instead, the reactor can be operated in a "dry-run" mode, meaning no water-based cooling loop. This improves safety and drastically reduces the complexity of the design. GSI UltraDep 1 is capable of producing energy at high conversion rates, which translates to higher efficiency and lower operating costs. The reactor core also maintains higher temperatures, allowing for increased power output while still remaining within safety standards. Overall UltraDep 1 is a revolutionary reactor design that combines the advantages of both outdoor and indoor reactors, and reduces the risk of contamination, fuel mishandling, and radiation exposure. This reactor design has the capability to generate high output, operate more efficiently, and require less maintenance than other traditional reactor designs.
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