Used S CUBED Scene 12 #9256210 for sale

S CUBED Scene 12
Manufacturer
S CUBED
Model
Scene 12
ID: 9256210
(2) Coater / (2) Developer system (8-12) Hot plate systems.
S CUBED Scene 12 is a photoresist system that is designed to create highly precise patterns on a material using light. It is used in the semiconductor industry for a variety of applications, such as creating transistors, integrated circuits, and other electronic components. At the core of this system is a substrate, which is a material such as a silicon wafer that is coated with a photo-resist layer. This photo-resist layer is sensitive to light and when it is exposed to certain wavelengths of light, it undergoes a chemical reaction that creates a pattern on the substrate. The substrate is then placed onto Scene 12 projector, which is used to project the desired pattern onto the surface. The projector contains two components: a beam splitter and a mask. The beam splitter splits the incoming laser light into two separate beams. The beams are then directed toward the mask, which contains the pattern that will be projected onto the substrate. This mask can be designed using computer-aided design (CAD) software and is typically composed of chromium or nickel material. The projector then uses the laser light to write the desired pattern onto the substrate. The light is projected onto a cross-sectional view of the substrate which allows for precise patterns to be created. As the light passes through the mask, the photons are scattered and modulated to create a pattern on the substrate. Once the pattern has been written, it is then developed by using chemical solutions. These solutions react with the photo-resist layer, which causes it to break down and form a negative copy of the pattern on the substrate. This negative copy is then used to create transistors, integrated circuits, and other electronic components. S CUBED Scene 12 system is an essential tool for creating intricate patterns on a variety of substrates. It can be used to create extremely small and highly precise patterns that can be used for a variety of applications in the semiconductor industry. As advances in this technology are made, it will become even more essential for creating the components of the future.
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