Publication result detail

Three-dimensional scalar imaging in high-aperture low-coherence interference and holographic microscopes

CHMELÍK, R.

Original Title

Three-dimensional scalar imaging in high-aperture low-coherence interference and holographic microscopes

English Title

Three-dimensional scalar imaging in high-aperture low-coherence interference and holographic microscopes

Type

Peer-reviewed article not indexed in WoS or Scopus

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.

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

CONFOCAL MICROSCOPY; SCATTERING MEDIA; OPTICAL-SYSTEMS; REPRESENTATION

Key words in English

CONFOCAL MICROSCOPY; SCATTERING MEDIA; OPTICAL-SYSTEMS; REPRESENTATION

Authors

CHMELÍK, R.

Released

15.12.2006

Publisher

Taylor & Francis Ltd.

Location

Oxon

ISBN

0950-0340

Periodical

JOURNAL OF MODERN OPTICS

Volume

53

Number

18

State

United Kingdom of Great Britain and Northern Ireland

Pages from

2673

Pages to

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",
  pages="2673--2689",
  issn="0950-0340"
}