He Shikun, Panagopoulos Christos
Division of Physics and Applied Physics, School of Physical and Mathematical Sciences, Nanyang Technological University, Singapore 637371.
Rev Sci Instrum. 2016 Apr;87(4):043110. doi: 10.1063/1.4946789.
A dipper probe for broadband Ferromagnetic Resonance (FMR) operating from 4.2 K to room temperature is described. The apparatus is based on a 2-port transmitted microwave signal measurement with a grounded coplanar waveguide. The waveguide generates a microwave field and records the sample response. A 3-stage dipper design is adopted for fast and stable temperature control. The temperature variation due to FMR is in the milli-Kelvin range at liquid helium temperature. We also designed a novel FMR probe head with a spring-loaded sample holder. Improved signal-to-noise ratio and stability compared to a common FMR head are achieved. Using a superconducting vector magnet we demonstrate Gilbert damping measurements on two thin film samples using a vector network analyzer with frequency up to 26 GHz: (1) A Permalloy film of 5 nm thickness and (2) a CoFeB film of 1.5 nm thickness. Experiments were performed with the applied magnetic field parallel and perpendicular to the film plane.
描述了一种用于4.2 K至室温的宽带铁磁共振(FMR)的浸液式探头。该装置基于使用接地共面波导的双端口传输微波信号测量。波导产生微波场并记录样品响应。采用三级浸液式设计以实现快速稳定的温度控制。在液氦温度下,由于FMR引起的温度变化在毫开尔文范围内。我们还设计了一种带有弹簧加载样品架的新型FMR探头。与普通FMR探头相比,实现了更高的信噪比和稳定性。使用超导矢量磁体,我们使用频率高达26 GHz的矢量网络分析仪在两个薄膜样品上进行了吉尔伯特阻尼测量:(1)厚度为5 nm的坡莫合金薄膜和(2)厚度为1.5 nm的CoFeB薄膜。实验在施加磁场平行和垂直于薄膜平面的情况下进行。