Title :
Detection of Localized Magnetostatic Surface Resonant Spheres
Author :
Zhao Ren ; Kabiri, Ali ; Ramahi, Omar M.
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Waterloo, Waterloo, ON, Canada
Abstract :
We propose a detection scheme for localized magnetostatic surface (LMS) resonant spheres using a near-field probe. The detection is facilitated by an electrically very small probe that is highly susceptible to magnetic energy in its surroundings. In the presence of a magnetic dispersive sphere, the probe´s reflection coefficient S11 demonstrates an open circuit behavior at LMS resonance along with resonance splitting. A circuit model is presented to predict the LMS resonance, and full-wave simulation of the probe is provided to demonstrate the phenomenon and validate the circuit model. The detection mechanism can be generalized to detect LMS resonance in nonspherical shapes having low magnetic loss in low microwave frequencies.
Keywords :
magnetic resonance; magnetic sensors; magnetostatics; surface magnetism; circuit model; electrically very small probe; full-wave simulation; localized magnetostatic surface resonant sphere detection; magnetic dispersive sphere; magnetic energy; magnetic loss; microwave frequencies; near-field probe; nonspherical shapes; open circuit behavior; reflection coefficient; resonance splitting; Magnetic circuits; Magnetic resonance; Magnetometers; Magnetostatics; Probes; Superconducting magnets; Localized magnetostatic surface resonance (LMSR); magnetic sensor; magnetic sphere detection; magnetostatic resonance; plasmonics; surface plasmon (SP);
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2014.2317797
