Self-Switching in Single-Heterojunction Injection Lasers

Ivanov, L. P.; Логгинов, А. С.; Samoilov, V P; Senatorov, K Ya

doi:10.1070/qe1973v002n05abeh004491

Cited by 6 publications

(2 citation statements)

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“…For an isotropic material such as permalloy, K 1 4 µ 0 M 2 s [35]. In particular, for permalloy, M s 800 kA/m [36], so that the threshold is given approximately by 1 4 µ 0 M s 0.25 T. We note that early experiments on domain-wall motion in iron-garnet films at applied fields above the anisotropy threshold [37,38] indicate a sublinear velocity response compatible with (16). Radiation damping at high fields is discussed in a related theoretical work [39].…”

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confidence: 88%

Dynamics of ferromagnetic domain walls under extreme fields

et al. 2020

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We report the existence of a new regime for domain wall motion in uniaxial and near-uniaxial ferromagnetic nanowires, characterised by applied magnetic fields sufficiently strong that one of the domains becomes unstable. There appears a new stable solution of the Landau-Lifshitz-Gilbert equation, describing a nonplanar domain wall moving with constant velocity and precessing with constant frequency. Even in the presence of thermal noise, the new solution can propagate for distances on the order of 500 times the field-free domain wall width before fluctuations in the unstable domain become appreciable. arXiv:1902.04968v3 [cond-mat.mes-hall]

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confidence: 88%

Dynamics of ferromagnetic domain walls under extreme fields

et al. 2020

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“…In the present paper, the motion of isolated VBLs along straight walls of the parallel stripe array in response to a pulsed magnetic in-plane field, H i p r (parallel to the wall) is studied by the methods of laser high-speed photography [9] and anisotropic dark field observation.…”

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confidence: 99%

Direct optical observation of vertical Bloch lines propagation by in-plane field pulses

1993

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Abatract -Vertical Bloch line (VBL) motion in response to the in-plane fleld pulses was studied by the methods of polarized anisotropic dark fleld observation (PADO) and high-speed photography in bubble garnets. The mobility of VBLs and their velocities were measured. New types of PADO pictures which are connected with the dynamic changes of VBL and domain wall structures were observed in nonlinear region of Bloch line motion. Difference in the dynamic behavior of VBLs of different types was observed. A qualitative discussion of the origin of PADO contrast features and VBLs behavior difference is proposed.

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