Mark M. Scott scite author profile

The self-generation of single, fundamental, stable, spin-wave-envelope black and gray dark solitons has been realized for the first time. These solitons were generated from microwave magnetostatic surface waves (MSSWs) propagated in an in-plane magnetized yttrium iron garnet film MSSW delay line in a resonant ring. These fundamental dark solitons were made possible by a new and general filtering technique for a high gain nonlinear resonant ring. The amplitude and phase profiles together with the power spectra of the self-generated microwave pulses confirm their fundamental dark soliton nature.

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Excitation of bright and dark envelope solitons for magnetostatic waves with attractive nonlinearity

Scott

Kostylev

Kalinikos

et al. 2005

Phys. Rev. B

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Dark and bright envelope solitons have been generated from a single magnetostatic carrier wave with attractive nonlinearity. The solitons were formed through the mode beating of two microwave input signals with frequency separations of 3-30 MHz for an in-plane magnetized single crystal yttrium-iron-garnet film in the magnetostatic backward volume wave configuration. Numerical modeling based on the Ginzburg-Landau equation model gave good agreement with the data.

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Nonlinear damping of high-power magnetostatic waves in yttrium–iron–garnet films

Scott¹,

Patton²,

Kostylev³

et al. 2004

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Nondispersive magnetostatic forward volume wave propagation in a double-layered yttrium-iron-garnet film structure with dielectric spacer J. Appl. Phys. 85, 4862 (1999); 10.1063/1.370046Propagation properties of microwave magnetic envelope solitons in thin yttrium-iron-garnet films at 5 GHz (abstract) Effect of higher order magnetostatic forward volume wave modes on Bragg diffraction of laser light in a layered yttrium iron garnet film geometryThe nonlinear decay of continuous-wave magnetostatic surface wave and backward volume wave signals has been measured for propagation in a narrow 6.9 m thick yttrium-iron-garnet film strip, with excitation frequencies and wave numbers between 5470 and 5630 MHz and 47 and 216 rad/cm, respectively. The results show: ͑1͒ that the onset of nonlinear damping is a threshold effect, and ͑2͒ that a nonlinear decay model with two damping terms, one linear and one quadratic in the wave power, are needed to model the measured response.

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Self-generation of bright microwave magnetic envelope soliton trains in ferrite films through frequency filtering

Scott

Kalinikos

Patton

2001

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Resonant ring feedback with frequency filtering has been used for the self-generation of bright soliton trains. The solitons were produced from magnetostatic backward volume spin waves propagated in an in-plane magnetized magnetic film delay line as part of the resonant ring structure. The amplitude and phase time profiles, together with the power spectra of the self-generated pulses, confirm their bright soliton nature.

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Biaxial Permittivity Determination for Electrically Small Material Specimens of Complex Shape Using Shorted Rectangular Waveguide Measurements

Scott

Faircloth

Bean

et al. 2014

IEEE Trans. Instrum. Meas.

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Mark M. Scott

Self-Generation of Fundamental Dark Solitons in Magnetic Films

Excitation of bright and dark envelope solitons for magnetostatic waves with attractive nonlinearity

Nonlinear damping of high-power magnetostatic waves in yttrium–iron–garnet films

Self-generation of bright microwave magnetic envelope soliton trains in ferrite films through frequency filtering

Biaxial Permittivity Determination for Electrically Small Material Specimens of Complex Shape Using Shorted Rectangular Waveguide Measurements

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