Title :
Flux-enhanced giant magnetoresistance head design and simulation
Author :
Zheng, Y.K. ; You, D. ; Wu, Y.H.
Author_Institution :
Data Storage Inst., Singapore, Singapore
Abstract :
Summary form only given. For a shielded GMR head, the magnetic flux penetrates into the GMR element from the ABS side of the sensor, and decays to approximately zero at the top of the element. Therefore, the efficiency of a shielded GMR head is generally low. In order to increase the efficiency of shielded GMR heads, a back flux-guide is introduced and discussed based computer modeling. Due to its small reluctance as compared to air, the flux-guide effectively increases the flux at the top of the GMR element, leading to an increment of average flux in the GMR element. This in turn results in an enhanced GMR.
Keywords :
digital simulation; finite element analysis; giant magnetoresistance; magnetic flux; magnetic heads; magnetic shielding; magnetoresistive devices; 2D FEM; GMR head simulation; back flux-guide; computer modeling; finite element method; flux distribution; flux-enhanced GMR head design; giant magnetoresistance head; shielded GMR head; two-dimensional FEM; Computational geometry; Computational modeling; Data engineering; Drives; Giant magnetoresistance; Magnetic flux; Magnetic heads; Magnetic sensors; Memory; Permeability;
Conference_Titel :
Magnetics Conference, 2002. INTERMAG Europe 2002. Digest of Technical Papers. 2002 IEEE International
Conference_Location :
Amsterdam, The Netherlands
Print_ISBN :
0-7803-7365-0
DOI :
10.1109/INTMAG.2002.1000846
