含钆铁钴的啁啾光子晶体中的层选择性磁化翻转

Borovkova O V, Ignatyeva D O, Belotelov V I

Faculty of Physics, Lomonosov Moscow State University, Moscow, Russia.

Russian Quantum Center, Skolkovo, Russia.

Sci Rep. 2021 Jan 26;11(1):2239. doi: 10.1038/s41598-021-81887-0.

Here we propose a magnetophotonic structure for the layer-selective magnetization switching with femtosecond laser pulses of different wavelengths. It is based on a chirped magnetophotonic crystal (MPC) containing magnetic GdFeCo and nonmagnetic dielectric layers. At each operating wavelength the laser pulses heat up to necessary level only one GdFeCo layer that leads to its magnetization reversal without any impact on the magnetization of the other layers. Moreover, magneto-optical reading of the MPC magnetization state is discussed. Lateral dimensions of the considered MPC can be made small enough to operate as a unit cell for data storage.

在此，我们提出一种磁光光子结构，用于利用不同波长的飞秒激光脉冲进行层选择性磁化切换。它基于一种啁啾磁光光子晶体（MPC），该晶体包含磁性GdFeCo层和非磁性介电层。在每个工作波长下，激光脉冲仅将一层GdFeCo加热到必要水平，从而导致其磁化反转，而不会对其他层的磁化产生任何影响。此外，还讨论了MPC磁化状态的磁光读取。所考虑的MPC的横向尺寸可以做得足够小，以用作数据存储的单元。