Abstract
The basics for highly sensitive laser and quantum technologies of polarization-optical measurements and diagnostics of ordered structures, nonlinear interfaces and nanosystems are considered. Quantum diagnostics for a nonlinear resonant beam splitter is performed. It is shown that this beam splitter operates as an optical buffer that reduces the quantum (photon) fluctuations of the reflected light.
Highlights
The prospects for the development and application of highly sensitive laser and quantum measurement and diagnostic technologies are limited in many cases by the lack of sufficiently complete conceptions about their potential possibilities
In fig. 1, the dots show the characteristic dependence of the polarization response φ on the dimensionless parameter p for a concentration of magnetite nanoparticles in kerosene of 1% [5]
Statistical analysis showed the possibility of revealing subtle features of magnetic nanofluids from small deviations of variable dimensionless parameters
Summary
The prospects for the development and application of highly sensitive laser and quantum measurement and diagnostic technologies are limited in many cases by the lack of sufficiently complete conceptions about their potential possibilities. One of the studied objects were the systems (ensembles) of magnetic nanoparticles in a liquid matrix (magnetic nanofluids, [4,5]). 1, the dots show the characteristic dependence of the polarization response φ on the dimensionless parameter p for a concentration of magnetite nanoparticles in kerosene of 1% [5].
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