Laser monitors for high speed imaging of materials modification and production

M. V. Trigub, V. V. Platonov, G. S. Evtushenko, V. V. Osipov, T. G. Evtushenko

Research output: Contribution to journalArticle

6 Citations (Scopus)

Abstract

The methods for real-time visual diagnostics of high-speed processes of materials modification and production are presented. The main problem of visualization of such processes is the intense glare which blocks the investigated area. To decrease the negative effect of the glare (high intensive background light) the copper bromide vapor brightness amplifier is used. It has been shown that the imaging method with a brightness amplifier proposed in this paper proves to be the most reliable to obtain the information about objects or processes in a real time mode using high frequency copper bromide vapor brightness amplifier. The results of visualization of different processes, including nanoparticles production, are presented. The benefits and limitations of both methods used for imaging have been also demonstrated.

Original languageEnglish
Pages (from-to)486-490
Number of pages5
JournalVacuum
Volume143
DOIs
Publication statusPublished - 1 Sep 2017

Fingerprint

glare
monitors
Glare
Luminance
brightness
amplifiers
high speed
Bromides
Imaging techniques
Lasers
bromides
Copper
Visualization
Vapors
vapors
lasers
copper
Nanoparticles
nanoparticles

Keywords

  • Brightness amplifiers
  • CuBr-laser
  • High speed imaging
  • Laser monitor
  • Laser technology
  • Materials production

ASJC Scopus subject areas

  • Instrumentation
  • Condensed Matter Physics
  • Surfaces, Coatings and Films

Cite this

Laser monitors for high speed imaging of materials modification and production. / Trigub, M. V.; Platonov, V. V.; Evtushenko, G. S.; Osipov, V. V.; Evtushenko, T. G.

In: Vacuum, Vol. 143, 01.09.2017, p. 486-490.

Research output: Contribution to journalArticle

Trigub, M. V. ; Platonov, V. V. ; Evtushenko, G. S. ; Osipov, V. V. ; Evtushenko, T. G. / Laser monitors for high speed imaging of materials modification and production. In: Vacuum. 2017 ; Vol. 143. pp. 486-490.
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