In ZYGO’s systems, interferometer is contained in the microscope objective,

which provides both magnification as well as the integrated reference; and a filtered

white light source is used to illuminate the surface through the objective.

The short coherence length of white light causes the focus depth over which

interference occurs to be quite shallow – this enables CSI to examine rough and

discontinuous surfaces just as easily as smooth ones.

To create a map of the test surface, the objective or the entire microscope head

is moved (‘scanned’) perpendicular to the sample under test. A high speed, low noise

digital camera monitors the interference signal, and the advanced signal processing

algorithms in ZYGO’s Mx software interpret this signal for each pixel in the field of

view in seconds.

CSI presents a number of advantages over other surface measurement

technologies:

• It delivers very precise nanometer or sub-nanometer height precision at all magnifications

• It is a fast, consistent measurement, typically producing – 1.9 million pixels in just a

few seconds – again, at all magnifications

• CSI can be used on surfaces of virtually any material, color, and surface conditions.

It functions just as well whether the sample is super-smooth, very rough, flat, curved,

sloped, optically transparent, translucent, or opaque.

• CSI is able to use additional signal processing to measure in the presence of transparent

optical films that confound other measurement methods.

These advantages combine to provide exceptional application versatility as the same

instrument can be used for a wide range of applications.