Publication detail

Quantitative-phase-contrast imaging of a two-level surface described as a 2D linear filtering process

LOVICAR, L. KOMRSKA, J. CHMELÍK, R.

Original Title

Quantitative-phase-contrast imaging of a two-level surface described as a 2D linear filtering process

Type

journal article - other

Language

English

Original Abstract

The paper deals with quantitative phase imaging of two-height-level surface reliefs. The imaging is considered to be a linear system and, consequently, the Fourier transform of the image is the product of the Fourier transform of a 2D function characterizing the surface and a specific 2D coherent transfer function. The Fourier transform of functions specifying periodic surface reliefs is factorized into two functions similar to lattice and structure amplitudes in crystal structure analysis. The approach to the imaging process described in the paper enables us to examine the dependence of the phase image on the surface geometry. Theoretical results are verified experimentally by means of a digital holographic microscope.

Keywords

digital holographic microscopy, filtering, structure analysis, coherent transfer function, binary structure

Authors

LOVICAR, L.; KOMRSKA, J.; CHMELÍK, R.

RIV year

2010

Released

14. 9. 2010

ISBN

1094-4087

Periodical

OPTICS EXPRESS

Year of study

18

Number

20

State

United States of America

Pages from

20585

Pages to

20594

Pages count

10

BibTex

@article{BUT50233,
  author="Luděk {Lovicar} and Jiří {Komrska} and Radim {Chmelík}",
  title="Quantitative-phase-contrast imaging of a two-level surface described as a 2D linear filtering process",
  journal="OPTICS EXPRESS",
  year="2010",
  volume="18",
  number="20",
  pages="20585--20594",
  issn="1094-4087"
}