WebWe performed ferromagnetic domain control in Erbium orthoferrite by excitation of the terahertz free electron laser. The magnetic domain structure, which was monitored by faraday microscopy, changes permanently by the irradiation of high-intensity terahertz pulses near the domain edges. The mechanism of the change of the magnetic domain … WebJan 9, 2024 · 2.1.1 Basic Properties of Orthoferrite. Sample material used in the study is erbium orthoferrite (ErFeO 3), which belongs to the series of rare-earth orthoferrite RFeO 3, where R = rare earth ions . From chemical composition they can be categorized as …
On the character of phase transitions in ErFeO 3 - Wiley Online …
WebSep 1, 2012 · We performed terahertz time domain spectroscopy on erbium orthoferrite. The spin reorientation transition was observed as switching of magnetic radiation mode between F and AF mode, and the... WebJan 12, 2024 · It can be demonstrated, that such a system can be implemented and that the sample system of Samarium-Erbium-Orthoferrite (SmErFeO³) shows a response around the spatial and temporal overlap of the pulses stemming from the unique magnetic behaviour of the material. Furthermore, it can be shown, that this response depends on … shocked steve png
arXiv:1611.01814v3 [physics.optics] 11 Feb 2024
WebJan 15, 2024 · Since orthoferrite is a crystalline material in which iron atom is bonded with oxygen in its unit cell structure and it is one of the most intensively studied material by many researchers because of its intrinsic electromagnetic coupling effect which was reported … Web(001) erbium orthoferrite (ErFeO 3). The LiNbO 3 sam-ple was an MgO-doped stoichiometric melt single crys-tal grown by the Czochralski method and high-quality laser grade polished down to 53 m and diced to dimen-sions of 11 10 mm. The ErFeO3 sample was a single crystal grown by the oating-zone method. The sample WebThe unit cell structure of Erbium substituted orthoferrite nano-crystallite is stu- died by using experimental results and computational techniques by simulating the orthorhombic phase. raben vom tower of london