Detail publikačního výsledku

Low-coherence interference microscope in transmission mode

KOLMAN, P.; CHMELÍK, R.; LOVICAR, L.; SUCHOMEL, F.

Originální název

Low-coherence interference microscope in transmission mode

Anglický název

Low-coherence interference microscope in transmission mode

Druh

Stať ve sborníku v databázi WoS či Scopus

Originální abstrakt

The system is based on the Mach-Zehnder interferometer with a diffraction grating as a beam splitter. The interferometer arms intersect gently inclined to each other so the interference structure is an image-plane hologram. The hologram is recorded using a CCD camera and processed by a computer. The phase image component may be extracted from the hologram in addition to the intensity one. The latter is depth discriminated as it is in a classical confocal microscope. This effect is a consequence of the spatial incoherence of illumination (correlation effect) that, in the reflection-mode microscope, could be with benefit combined with the temporal one. The advantage of this technique is that the optical section is formed at a time without any need of scanning. The setup is build to be achromatic - the interference structure in the output plane of the interferometer is achromatic within the entire field of view. Hence a white-light (broad) source may be used which solves the problems with coherent light - image degradation by speckles or by unintended interference. Optical path difference measurement enhanced by the optical sectioning is demonstrated experimentally in the paper.

Anglický abstrakt

The system is based on the Mach-Zehnder interferometer with a diffraction grating as a beam splitter. The interferometer arms intersect gently inclined to each other so the interference structure is an image-plane hologram. The hologram is recorded using a CCD camera and processed by a computer. The phase image component may be extracted from the hologram in addition to the intensity one. The latter is depth discriminated as it is in a classical confocal microscope. This effect is a consequence of the spatial incoherence of illumination (correlation effect) that, in the reflection-mode microscope, could be with benefit combined with the temporal one. The advantage of this technique is that the optical section is formed at a time without any need of scanning. The setup is build to be achromatic - the interference structure in the output plane of the interferometer is achromatic within the entire field of view. Hence a white-light (broad) source may be used which solves the problems with coherent light - image degradation by speckles or by unintended interference. Optical path difference measurement enhanced by the optical sectioning is demonstrated experimentally in the paper.

Klíčová slova

low-coherence interferometer; interference microscopy; holographic microscopy; confocal microscopy; optical sectioning; spatial coherence; correlation effects

Klíčová slova v angličtině

low-coherence interferometer; interference microscopy; holographic microscopy; confocal microscopy; optical sectioning; spatial coherence; correlation effects

Autoři

KOLMAN, P.; CHMELÍK, R.; LOVICAR, L.; SUCHOMEL, F.

Vydáno

01.03.2005

Místo

Jena, Germany

Kniha

Focus on Microscopy 2005 - Jena, Germany. March 20-23, 2005. Appendix to the abstract book.

Strany od

60

Strany do

60

Strany počet

1

BibTex

@inproceedings{BUT21002,
  author="Pavel {Kolman} and Radim {Chmelík} and Luděk {Lovicar} and Filip {Suchomel}",
  title="Low-coherence interference microscope in transmission mode",
  booktitle="Focus on Microscopy 2005 - Jena, Germany. March 20-23, 2005. Appendix to the abstract book.",
  year="2005",
  pages="60--60",
  address="Jena, Germany"
}