In this Letter,we report an Airy-like beam of magnetostatic surface spin wave(Ai BMSSW)supported on the ferromagnetic film,which is transferred from the optical field.The propagation properties of Ai BMSSW were verifi...In this Letter,we report an Airy-like beam of magnetostatic surface spin wave(Ai BMSSW)supported on the ferromagnetic film,which is transferred from the optical field.The propagation properties of Ai BMSSW were verified with micromagnetic simulation.From simulation results,the typical parabolic trajectory of the Airy-type beam was observed with an exciting source encoding 3/2 phase pattern.The simulation results coincide well with design parameters.Furthermore,simulated results showed that the trajectories of the Ai BMSSW could be tuned readily with varied external magnetic fields.This work can extend the application scenario of spin waves.展开更多
In this paper,a specially designed Pancharatnam–Berry(PB)phase is used to fuse two-dimensional Airy-like beams to adjust and construct a new nano-interferometric field structure.The calculation results show that this...In this paper,a specially designed Pancharatnam–Berry(PB)phase is used to fuse two-dimensional Airy-like beams to adjust and construct a new nano-interferometric field structure.The calculation results show that this nano-interferometric structure is highly dependent on the PB phase parameterγand the ratio of pupil radius to beam waistβ.The flexible setting of the nano-field with adjustable size,spacing and internal details can be realized.In addition,we found that the longitudinal field components always keep a clear pattern.Hence,it is expected that the longitudinal field components can be applied to each application scene separately.展开更多
基金supported in part by the National Natural Science Foundation of China(Nos.61975148 and 11535008)。
文摘In this Letter,we report an Airy-like beam of magnetostatic surface spin wave(Ai BMSSW)supported on the ferromagnetic film,which is transferred from the optical field.The propagation properties of Ai BMSSW were verified with micromagnetic simulation.From simulation results,the typical parabolic trajectory of the Airy-type beam was observed with an exciting source encoding 3/2 phase pattern.The simulation results coincide well with design parameters.Furthermore,simulated results showed that the trajectories of the Ai BMSSW could be tuned readily with varied external magnetic fields.This work can extend the application scenario of spin waves.
文摘In this paper,a specially designed Pancharatnam–Berry(PB)phase is used to fuse two-dimensional Airy-like beams to adjust and construct a new nano-interferometric field structure.The calculation results show that this nano-interferometric structure is highly dependent on the PB phase parameterγand the ratio of pupil radius to beam waistβ.The flexible setting of the nano-field with adjustable size,spacing and internal details can be realized.In addition,we found that the longitudinal field components always keep a clear pattern.Hence,it is expected that the longitudinal field components can be applied to each application scene separately.
