Effect of the displacement field on dynamic domain structures

Standard

Effect of the displacement field on dynamic domain structures: book chapter. / Rusinov, A. A.; Rusinova, E. A.
2021 International Scientific and Practical Conference on Railway Transport and Technologies, RTT 2021: book. ed. / A.G. Galkin; S.V. Bushuev. Vol. 2624 American Institute of Physics Inc., 2023. p. 050013 (AIP Conference Proceedings; Vol. 2624, No. 1).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Harvard

Rusinov, AA & Rusinova, EA 2023, Effect of the displacement field on dynamic domain structures: book chapter. in AG Galkin & SV Bushuev (eds), 2021 International Scientific and Practical Conference on Railway Transport and Technologies, RTT 2021: book. vol. 2624, AIP Conference Proceedings, no. 1, vol. 2624, American Institute of Physics Inc., pp. 050013. https://doi.org/10.1063/5.0146587

APA

Rusinov, A. A., & Rusinova, E. A. (2023). Effect of the displacement field on dynamic domain structures: book chapter. In A. G. Galkin, & S. V. Bushuev (Eds.), 2021 International Scientific and Practical Conference on Railway Transport and Technologies, RTT 2021: book (Vol. 2624, pp. 050013). (AIP Conference Proceedings; Vol. 2624, No. 1). American Institute of Physics Inc.. https://doi.org/10.1063/5.0146587

Vancouver

Rusinov AA, Rusinova EA. Effect of the displacement field on dynamic domain structures: book chapter. In Galkin AG, Bushuev SV, editors, 2021 International Scientific and Practical Conference on Railway Transport and Technologies, RTT 2021: book. Vol. 2624. American Institute of Physics Inc. 2023. p. 050013. (AIP Conference Proceedings; 1). doi: 10.1063/5.0146587

Author

Rusinov, A. A. ; Rusinova, E. A. / Effect of the displacement field on dynamic domain structures : book chapter. 2021 International Scientific and Practical Conference on Railway Transport and Technologies, RTT 2021: book. editor / A.G. Galkin ; S.V. Bushuev. Vol. 2624 American Institute of Physics Inc., 2023. pp. 050013 (AIP Conference Proceedings; 1).

BibTeX

@inproceedings{8133b9f56b4144548b17a3007b25b87d,

title = "Effect of the displacement field on dynamic domain structures: book chapter",

abstract = "The priority task of the transport complex has always been to ensure the safety of the transportation process. To solve it, cooperation of scientists and specialists in various fields of activity is required. Non-destructive testing is one of the key methods of monitoring the reliability and safety of rolling stock. There are several methods that allow you to detect defects in material or structures without violating the integrity of the objects under study: 1. Phase-contrast method of optical radiation, which is based on the transformation of the phase difference of optical radiation. 2. The magneto-optical method of optical radiation, which is based on an additional effect on the objects of control of the magnetic field; 3. Holographic interferometry is also widely used in non-destructive testing - detection of material or structural defects without violating the integrity of the objects under study. New types of interferometers on zone plates have appeared for controlling the shape of parts, determining straightness and flatness. Typically, the purpose of such studies is to detect the location and size of cracks, voids, non-adhesives, delamination, inhomogeneities in material properties, etc. In this work, we study garnet-ferrite films, in particular, the domain structures of the Leading Center, which can be considered as a zone plate on the basis of which devices for non-destructive testing are created. {\textcopyright} 2023 Author(s).",

author = "Rusinov, {A. A.} and Rusinova, {E. A.}",

year = "2023",

doi = "10.1063/5.0146587",

language = "English",

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volume = "2624",

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publisher = "American Institute of Physics Inc.",

number = "1",

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RIS

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T2 - book chapter

AU - Rusinov, A. A.

AU - Rusinova, E. A.

PY - 2023

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N2 - The priority task of the transport complex has always been to ensure the safety of the transportation process. To solve it, cooperation of scientists and specialists in various fields of activity is required. Non-destructive testing is one of the key methods of monitoring the reliability and safety of rolling stock. There are several methods that allow you to detect defects in material or structures without violating the integrity of the objects under study: 1. Phase-contrast method of optical radiation, which is based on the transformation of the phase difference of optical radiation. 2. The magneto-optical method of optical radiation, which is based on an additional effect on the objects of control of the magnetic field; 3. Holographic interferometry is also widely used in non-destructive testing - detection of material or structural defects without violating the integrity of the objects under study. New types of interferometers on zone plates have appeared for controlling the shape of parts, determining straightness and flatness. Typically, the purpose of such studies is to detect the location and size of cracks, voids, non-adhesives, delamination, inhomogeneities in material properties, etc. In this work, we study garnet-ferrite films, in particular, the domain structures of the Leading Center, which can be considered as a zone plate on the basis of which devices for non-destructive testing are created. © 2023 Author(s).

AB - The priority task of the transport complex has always been to ensure the safety of the transportation process. To solve it, cooperation of scientists and specialists in various fields of activity is required. Non-destructive testing is one of the key methods of monitoring the reliability and safety of rolling stock. There are several methods that allow you to detect defects in material or structures without violating the integrity of the objects under study: 1. Phase-contrast method of optical radiation, which is based on the transformation of the phase difference of optical radiation. 2. The magneto-optical method of optical radiation, which is based on an additional effect on the objects of control of the magnetic field; 3. Holographic interferometry is also widely used in non-destructive testing - detection of material or structural defects without violating the integrity of the objects under study. New types of interferometers on zone plates have appeared for controlling the shape of parts, determining straightness and flatness. Typically, the purpose of such studies is to detect the location and size of cracks, voids, non-adhesives, delamination, inhomogeneities in material properties, etc. In this work, we study garnet-ferrite films, in particular, the domain structures of the Leading Center, which can be considered as a zone plate on the basis of which devices for non-destructive testing are created. © 2023 Author(s).

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M3 - Conference contribution

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BT - 2021 International Scientific and Practical Conference on Railway Transport and Technologies, RTT 2021

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A2 - Bushuev, S.V.

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ER -

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