Title :
Hall-magnetometry on ferromagnetic dots and dot arrays
Author :
Schuh, Dieter ; Biberger, Josef ; Bauer, Andreas ; Breuer, Werner ; Weiss, Dieter
Author_Institution :
Exp. & Angewandte Phys., Regensburg Univ., Germany
fDate :
7/1/2001 12:00:00 AM
Abstract :
The switching of electroplated Nickel-pillars with diameters smaller 170 nm and heights greater 300 nm was investigated. The nanomagnets were placed on top of the sensor either individually or in groups of 5 up to 13 in different patterns. The individual pillars show two types of hysteresis loops: one type resembles a perfect rectangular hysteresis trace over a wide temperature range, the other type shows two steps in the Hall-voltage when magnetization direction is reversed. The switching field Hsw of a pillar with rectangular hysteresis trace was measured between 1.6 K and 225 K. Hsw decreases linearly with increasing temperature. Both results as well as the variation of switching fields of different “single domain” particles suggest, that oxide layers on the surface of the pillars strongly influence the magnetization reversal. Despite this complication small arrays of Ni pillars placed on the sensor display a well defined switching behavior. Different steps in the Hall-voltage reflect the switching of the individual magnets
Keywords :
Hall effect; electroplated coatings; ferromagnetic materials; magnetic hysteresis; magnetic switching; magnetic thin films; magnetisation reversal; nickel; quantum dots; two-dimensional electron gas; 170 nm; 300 nm; 6 to 225 K; Hall-magnetometry; Ni; dot arrays; electroplated Nickel-pillars; ferromagnetic dots; hysteresis loops; magnetization direction; magnetization reversal; perfect rectangular hysteresis trace; switching; switching field; Displays; Hysteresis; Magnetic field measurement; Magnetic sensors; Magnetic switching; Magnetization reversal; Magnets; Sensor arrays; Temperature distribution; Temperature sensors;
Journal_Title :
Magnetics, IEEE Transactions on
