Publication detail
Three-dimensional scalar imaging in high-aperture low-coherence interference and holographic microscopes
CHMELÍK, R.
Czech title
Trojrozměrné skalární zobrazení v interferenčních a holografických mikroskopech s vysokou aperturou a nízkou koherencí světla
English title
Three-dimensional scalar imaging in high-aperture low-coherence interference and holographic microscopes
Type
journal article - other
Language
en
Original abstract
In this paper we derive the three-dimensional scalar theory of the overall imaging process in a high-aperture interference, holographic, and correlation (heterodyne) microscope. The influence of low spatial and temporal coherence of light is completely described by means of a coherent transfer function. The results are compared with those for an ideal confocal microscope.
Czech abstract
V článku odvozujeme trojrozměrnou skalární teorii zobrazovacího procesu v interferenčním, holografickém a korelačním mikroskopu s vysokou aperturou. Vliv nízké prostorové a časové koherence světla je zcela popsán pomocí koherentní funkce přenosu. Výsledky jsou porovnány s ideálním konfokálním mikroskopem.
English abstract
In this paper we derive the three-dimensional scalar theory of the overall imaging process in a high-aperture interference, holographic, and correlation (heterodyne) microscope. The influence of low spatial and temporal coherence of light is completely described by means of a coherent transfer function. The results are compared with those for an ideal confocal microscope.
Keywords in English
CONFOCAL MICROSCOPY; SCATTERING MEDIA; OPTICAL-SYSTEMS; REPRESENTATION
RIV year
2006
Released
15.12.2006
Publisher
Taylor & Francis Ltd.
Location
Oxon
ISSN
0950-0340
Journal
Journal of Modern Optics
Volume
53
Number
18
Pages from–to
2673–2689
Pages count
16
BIBTEX
@article{BUT43797,
author="Radim {Chmelík},
title="Three-dimensional scalar imaging in high-aperture low-coherence interference and holographic microscopes",
journal="Journal of Modern Optics",
year="2006",
volume="53",
number="18",
month="December",
pages="2673--2689",
publisher="Taylor & Francis Ltd.",
address="Oxon",
issn="0950-0340"
}