|
The FRT FTR bases on the superimposition of light beams reflected at the boundaries of a thin film. The evaluation of the spectral interference pattern of the superimposed light beams results in the film thickness.
This measured reflectance spectrum is compared with a calculated one, where the unknown thickness is systematically varied until both spectra match.
|
 |
 |
| |
- measurement of thin films by spectral reflectance
- non-destructive, non-contact, high-resolution measurement
(10nm – 100µm) in less than a few seconds
- measurement of single or multi-layer films
|
|
 |
| |
- measurement of thickness of oxides, nitrides, photoresist and other semiconductor process films
- measurement of antireflection coatings and antiscratch coatings
- measurement on opaque substrates e.g. aluminum, brass, ceramics, copper, steel and plastics
- measurement of thin films in the optics industry
- measurement of lacquers and thin foils
|
 |
| |
| model | VIS
| NIR
| VIS/NIR
| UV/VIS
| UV/VIS/NIR
|
|
wavelength
|
400 nm –
850 nm
|
650 nm –
1100 nm |
400 nm –
1100 nm |
250 nm –
850 nm |
250 nm –
1100 nm |
|
measuring range
|
50 nm – 20 µm
|
70 nm – 70 µm
|
50 nm – 100 µm
|
20 nm – 20 µm
|
20 nm – 70 µm
|
|
light source
|
halogen
|
deuterium halogen
|
|
resolution thickness
|
1 nm
|
|
resolution x,y
|
200 µm - 800 µm without extra optic (better than 10 µm with extra optic)
|
Technical specifications and content are subject to change.
|
|
|
