Using magneto-optical measurements for the evaluation of a hybrid magnetic shape memory (MSM)-based microactuator

authored by: B. Spasova, M. C. Wurz, C. Ruffert, J. Norpoth, Ch Jooss, H. H. Gatzen
Abstract: Magnetic shape memory (MSM) materials present a new class of alloys, which can be used for creating electromagnetic microactuators facilitating a linear motion. The concept of the hybrid MSM microactuator pursued is using a pair of discrete MSM strips sandwiched between microstators. For the microstator fabrication, MEMS technology is applied. The two MSM strips are elongated alternatively, with one strip showing strain when exposed to a magnetizing field, while the other one is mechanically collapsed by its elongating counterpart, and vice versa. For inducing the elongation in the MSM strips, a critical field strength H_crit has to be exceeded in vertical direction within the MSM strip. For analyzing what magnetic field strength is reached by the microstators and if it is greater than the critical field strength H_crit required to inducing a reorientation of the twin variants in the MSM material, magneto-optical measurements were carried out.
Organisation(s): Institute of Microtechnology
External Organisation(s): University of Göttingen
Type: Article
Journal: IEEE transactions on magnetics
Volume: 46
Pages: 2256-2259
No. of pages: 4
ISSN: 0018-9464
Publication date: 06.2010
Publication status: Published
Peer reviewed: Yes
ASJC Scopus subject areas: Electronic, Optical and Magnetic Materials, Electrical and Electronic Engineering
Electronic version(s): https://doi.org/10.1109/TMAG.2010.2040719 (Access: Unknown)

BibTeX

@article{57e5ea38697b4e3fa3c0e43ac1868fba,
title = "Using magneto-optical measurements for the evaluation of a hybrid magnetic shape memory (MSM)-based microactuator",
abstract = "Magnetic shape memory (MSM) materials present a new class of alloys, which can be used for creating electromagnetic microactuators facilitating a linear motion. The concept of the hybrid MSM microactuator pursued is using a pair of discrete MSM strips sandwiched between microstators. For the microstator fabrication, MEMS technology is applied. The two MSM strips are elongated alternatively, with one strip showing strain when exposed to a magnetizing field, while the other one is mechanically collapsed by its elongating counterpart, and vice versa. For inducing the elongation in the MSM strips, a critical field strength Hcrit has to be exceeded in vertical direction within the MSM strip. For analyzing what magnetic field strength is reached by the microstators and if it is greater than the critical field strength Hcrit required to inducing a reorientation of the twin variants in the MSM material, magneto-optical measurements were carried out.",
keywords = "Magnetic microelectromechanical systems, Magnetic shape memory (MSM) material, Magneto-optical measurements, Microactuator",
author = "B. Spasova and Wurz, {M. C.} and C. Ruffert and J. Norpoth and Ch Jooss and Gatzen, {H. H.}",
note = "Funding Information: This work was sponsored in part by the DFG (German Research Foundation) within the Priority Program SPP 1239: “Magnetic Shape Memory.”",
year = "2010",
month = jun,
doi = "10.1109/TMAG.2010.2040719",
language = "English",
volume = "46",
pages = "2256--2259",
journal = "IEEE transactions on magnetics",
issn = "0018-9464",
publisher = "Institute of Electrical and Electronics Engineers Inc.",
number = "6",
}