Title :
Two-dimensional nonlinear spin-dipole waves in the millimeter wave range
Author :
Grimalsky, V. ; Kolokoltsev, O. ; Gutierrez, E.D. ; Koshevaya, S.
Author_Institution :
National Inst. for Astrophys., Opt., & Electron., Puebla, Mexico
Abstract :
Propagation of nonlinear exchangeless spin-dipole waves in the millimeter wave range (f ∼ 35-60 GHz) in ferrite films is investigated. A method for a derivation of nonlinear equation for the wave envelope based on the general theory of excitation of waveguides has been applied. This gives a possibility to obtain rigorously the nonlinear terms including the nonlinearity dispersion. A propagation of the nonlinear spin-dipole wave along the direction of the bias magnetic field is considered (backward volume waves). The range of wave numbers where the soliton propagation and of the collapse phenomena can occur has been specified. The numerical simulations have demonstrated a possibility of strong spatial-temporal compression of the input pulse.
Keywords :
ferrites; magnetic thin films; millimetre waves; nonlinear equations; solitons; spin waves; waveguide theory; 2D nonlinear spin-dipole waves; bias magnetic field; exchangeless spin-dipole waves; ferrite films; millimeter wave range; nonlinear equation; nonlinearity dispersion; soliton propagation; spatial-temporal compression; wave collapse; waveguide excitation; Astrophysics; Dielectric substrates; Dispersion; IEEE catalog; Magnetic fields; Magnetic films; Maxwell equations; Nonlinear equations; Nonlinear optics; Optical films; Spin-dipole waves; millimeter wave range; nonlinearity; wave collapse;
Conference_Titel :
Electrical and Electronics Engineering, 2005 2nd International Conference on
Print_ISBN :
0-7803-9230-2
DOI :
10.1109/ICEEE.2005.1529609
