Coherence scanning interferometry
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Coherence scanning interferometry (CSI) is any of a class of optical surface measurement methods wherein the localization of interference fringes during a scan of optical path length provides a means to determine surface characteristics such as topography, transparent film structure, and optical properties. CSI is currently the most common interference microscopy technique for areal surface topography measurement.[1] The term "CSI" was adopted by the International Organization for Standardization (ISO).[2]
The technique encompasses but is not limited to instruments that use spectrally broadband, visible sources (white light) to achieve interference fringe localization. CSI uses either fringe localization alone or in combination with interference fringe phase, depending on the surface type, desired surface topography repeatability and software capabilities. The table below compiles alternative terms that conform at least in part to the above definition.
| Acronym | Term | Reference |
|---|---|---|
| CSI | Coherence scanning interferometry | [3] |
| CPM | Coherence probe microscope | [4] |
| CSM | Coherence scanning microscope | [5] |
| CR | Coherence radar | [6] |
| CCI | Coherence correlation interferometry | [7] |
| MCM | Mirau correlation microscope | [8] |
| WLI | White light interferometry | [9] |
| WLSI | White light scanning interferometry | [10] |
| SWLI | Scanning white light interferometry | [11] |
| WLS | White Light Scanner | |
| WLPSI | White light phase shifting interferometry | [12] |
| VSI | Vertical scanning interferometry | [13] |
| RSP | Rough surface profiler | [14] |
| IRS | Infrared scanning | [15] |
| OCT | Full-field optical coherence tomography | [16] |
References
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