Study of micro-cavities formed by optical breakdown under the influence of a magnetic field

This article describes the change in geometric parameters of the quasi-periodic structure of the micro cavities inside the optical fiber. The quasi-periodic structure is a chain of localized cavities filled with oxygen. This structure is produced by the melting of the core of the fiber with a moving...

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Bibliographic Details
Published inOptics communications Vol. 517; p. 128242
Main Authors Konin, Yu.A., Scherbakova, V.A., Perminov, A.V., Petuhova, A.Yu
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.08.2022
Subjects
Cavities
Laser
Magnetic field
Optical breakdown
Optical fiber
Plasma
Cavities
Plasma
Optical breakdown
Magnetic field
Laser
Optical fiber
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Summary:This article describes the change in geometric parameters of the quasi-periodic structure of the micro cavities inside the optical fiber. The quasi-periodic structure is a chain of localized cavities filled with oxygen. This structure is produced by the melting of the core of the fiber with a moving plasma spark, which appeared because of optical breakdown. While the quasi-periodic structure is being recorded, the fiber sample is placed between the poles of a permanent magnet with a magnetic field induction of 11.7 T. As a result of the effect of the magnetic field on the moving plasma, there is a change in the parameters of the quasi-periodic structure of the micro cavities. In the region with the highest magnetic field gradient, a 7% increase in the transverse dimensions of the cavities and a 9% increase in the longitudinal dimensions were observed. It was depending on the direction of plasma propagation. In the magnetic field, the effect of dividing the cavities into two unequal parts was observed. The main cavity was located at the axis of the fiber, an additional smaller cavity-satellite appeared at some distance from it in the radial direction. •The periodic structure in a fiber resulting from the plasma spark propagation.•The magnetic field affects the periodic structure of the micro-cavities.•The geometric parameters of the internal structure were measured.•The spatial instability of the plasma spark is observed.•The magnetic field affects the shape and size of the cavities.
ISSN:0030-4018
1873-0310
DOI:10.1016/j.optcom.2022.128242