Please use this identifier to cite or link to this item: http://essuir.sumdu.edu.ua/handle/123456789/70816
Or use following links to share this resource in social networks: Recommend this item
Title Microwave absorption by a rigid dipole in a viscous fluid
Authors Liutyi, Taras Volodymyrovych  
Lyutyy, Taras Volodymyrovych
Reva, Vladyslav Valeriiovych
ORCID http://orcid.org/0000-0001-8651-0463
Keywords ferrofluid
rigid dipol
Fokker Planck equation
time-periodic field
power loss
Type Article
Date of Issue 2016
URI http://essuir.sumdu.edu.ua/handle/123456789/70816
Publisher IEEE
License
Citation Reva, V.V. Microwave absorption by a rigid dipole in a viscous fluid [Текст] / V.V. Reva, T.V. Lyutyy // 2016 II International Young Scientists Forum on Applied Physics and Engineering (YSF). - 2016. - DOI: 10.1109/YSF.2016.7753812.
Abstract We present a comprehensive theoretical and numerical study of the stochastic rotational motion of a high anisotropic ferromagnetic nanoparticle in a viscous carrier driven by a time-periodic field. The effects of energy absorption of circularly and linearly polarized fields are analyzed. The analytical expressions and numerical data for the probability density and the power loss are compared for different values of the system parameters. Their coincidence and divergence are discussed.
Appears in Collections: Наукові видання (ЕлІТ)

Views

Argentina Argentina
1
France France
1
Greece Greece
1
Ireland Ireland
2561
Lithuania Lithuania
1
Netherlands Netherlands
159
Singapore Singapore
1
Sweden Sweden
1
Ukraine Ukraine
41617
United Kingdom United Kingdom
12805
United States United States
422904
Unknown Country Unknown Country
522309
Vietnam Vietnam
640

Downloads

China China
1
Germany Germany
1
Lithuania Lithuania
1
Singapore Singapore
1
Ukraine Ukraine
124692
United Kingdom United Kingdom
1
United States United States
422901
Unknown Country Unknown Country
8
Vietnam Vietnam
1

Files

File Size Format Downloads
Reva_Lyutyy.pdf 1.1 MB Adobe PDF 547607

Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.