Yuri V. Bazhanov scite author profile

Sensors are designed and offered for determining concentrations of luminescent impurities in different technological media. The sensors consist of quartz monoblock with a replica of concave diffraction grating and joined optical fibers. This allow to combine collimating, dispersing and focusing propeties necessary for a spectral analysis in single optical element. Comparison of a signal level of a detector responding to a fluorescence intensity of a monitored substance with a signal in a comparison channel permits to monitor concentration in terms of concentration dependence determined beforehand.Nowadays devices based on fiber optics1 are successfully used for remote monitoring hardly accessible isolated objects and different media as well as for analyzing the run of different technological proccesses. An apparatus located on board of a research ship for monitoring chlorophyll content in sea water using laser-induced fluorescence for an analysis is described in the work2. A fluorescent signal is fed on board of a ship using the same light waveguide as for transmitting an exciting radiation into sea medium. A set of experiments2 has shown a possibility of recording chlorophyll concentration in real time and in the case of laser excitation the signal of water-medium Raman scattering serves as an internal standard on the basis of which the chlorophyll fluorescence may be calibrated.However, optical circuits of such devices2 are rather intricate and are a monochromator with a plane grating, two concave mirrors and additional mirror-lens systems. The usage of such devices as sensors is difficult due to the necessity of continuous control and alignment. Moreover, the intricacy of devices does not allow to launch their mass production that is necessary for realizing diagnostic and monitoring systems.We have designed and offered sensors for determining luminescent impurities in sewage water and different technological media. Sensors consist of a glass or quartz monoblock ( Fig. 1(2)) to one end of which the input and output fibers are joined ( Fig. 1(1,4,6,7)) and on the other end is located a replica of a concave diffraction grating (3) with a groove geometry ensuring minimal energy losses. The principal novelty of the offered sensors is the usage of such a grating-block allowing to combine collimating, dispersing and focusing properties necessary for a spectral analysis in a single optical element. An evident advantage of the construction is a monoblock ensuring stability to disalignment and absolute O-8194-1504-9/94/$6.OQ SPIE Vol. 2205 High-Resolution Molecular Spectroscopy (1993)! 515 Downloaded From: http://proceedings.spiedigitallibrary.org/ on 06/24/2016 Terms of Use: http://spiedigitallibrary.org/ss/TermsOfUse.aspx

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Stigmatic image formation by ruled diffraction gratings

Bazhanov

1998

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Matrix power divider with spectral selection

Bazhanov

1998

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Design of off-axial Gregory telescope design with freeform mirror corrector

Bazhanov

Vlakhko²

2017

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Yuri V. Bazhanov

<title>Aberration-free spectral image formed by a concave aspherical diffraction grating</title>

New generation of fiber-optics sensors for monitoring- and diagnostic systems

Stigmatic image formation by ruled diffraction gratings

Matrix power divider with spectral selection

Design of off-axial Gregory telescope design with freeform mirror corrector

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