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- Title
Optical modeling of recursively antiferromagnetic flux with quantum system.
- Authors
Körpinar, Talat; Körpinar, Zeliha; Sazak, Ahmet
- Abstract
In this paper, we construct equations that help us calculate the energy of vector fields representing some flows described with the help of nonlinear optical systems in S 2 spherical space. For this, we make use of energy equations of a vector fields on a surface, which we obtain by describing the flow motion as the time-dependent change of position. Geometrically, the wave propagation in an electromagnetic media can represent the help of a curve representing the trajectory of the magnetic field. Considering an antiferromagnetic flux in this manner, the Heisenberg antiferromagnet (anti-f-magnetic) spin wave equation provides soliton solutions for the electrodynamic systems, spin wave theory and optical systems. In this study, we obtain the energy equations of a magnetic flux with Heisenberg anti-ferromagnet spin wave chain, taking into account the viscosity effect. Here, we also present an example of energy calculations in recursive systems with the help of the energy equation of a chosen recursive vector field representing the magnetic flux.
- Subjects
SPIN waves; MAGNETIC flux; VECTOR fields; MAGNETIC fields; ELECTROMAGNETIC waves; ELECTROMAGNETIC pulses
- Publication
Optical & Quantum Electronics, 2023, Vol 55, Issue 14, p1
- ISSN
0306-8919
- Publication type
Article
- DOI
10.1007/s11082-023-05520-2