One of the most complex parts of this process is lithography: the step in which shapes are drawn onto a silicon wafer. There are several ways to do this, all of them rather complicated ...

Extreme ultraviolet (EUV) lithography is the next step in this trend. It uses radiation of wavelength 13.5 nm, thereby offering significant potential to extend the resolution of photolithography ...

The ability to create intricate, nano-scale patterns is at the heart of nanotechnology, and lithography techniques are the tools that make this possible. From photolithography to FIB, each technique ...

Lithography is the process of transferring a pattern onto a surface. In optical lithography, a physical mask covers a light sensitive film as it is exposed to (usually ultraviolet) radiation ...

Our Electron Beam Lithography and supporting fabrication facilities include the Raith Voyager electron beam lithography system: a high-resolution and high-throughput instrument capable of patterning ...

Lithography equipment transfers circuit or device patterns onto a substrate using a patterned mask and a beam of light or electrons to selectively expose a photo resist layer. Overlay metrology ...

Computational lithography uses various techniques of resolution enhancement technology (RET) to create more perfect images on the chip as the elements of the transistor get smaller and smaller.

The lithography machines, which print highly complex circuit patterns onto silicon wafers, “have achieved significant technological breakthroughs, own intellectual property rights but have yet t ...

Right, there are four different types of triangle. First, here's an isosceles triangle, it has two equal length sides and two equal angles. Oh! Very clever! Now we have an equilateral triangle.