INVESTIGADORES
SANCHEZ Francisco Homero
congresos y reuniones científicas
Título:
Mossbauer magnetic scans: basic principles, experimental layout and data analysis
Autor/es:
G.A. PASQUEVICH,P. MENDOZA ZELIS, A.G. LENCINA, M.B. FERNANDEZ VAN RAAP, AND F.H. SANCHEZ
Lugar:
La Plata
Reunión:
Conferencia; Latin American Conference on the Applications of the Mössbauer Effect; 2008
Institución organizadora:
UNLP-CONICET
Resumen:
Mossbauer Magnetic Scans (MMS) allow to study the response of magnetic moments to an external applied eld. In the case of ferromagnetic samples, studies of domain dynamics can be performed. The important advantage o ered by the MMS methodology in comparison with conventional techniques is that responses from di erent phases or sites can be distinguished. MMS are performed by precisely selecting Doppler velocities with a constant velocity drive [1], and measuring the transmission rate while a magneticexternal eld is modulated. A multiescaler is used, synchronically with the exciting ac eld, to record enough magnetic sweeps as to attain the required statistics. To understand the patterns observed in previous MMS [2] and de ne an analysis methodology, two -Fe samples are studied, with thicknesses of 12 m and of less than 1 m. The thin absorber results can be analysed within the well known thin absorber approach. For the thicker one, both polarization and thickness e ects must be taken into account. However, more information can be retrieved in the second case. For thin absorbers, only the eld dependence of the mean square projection (MSP) of the magneticmoments in the gamma rays direction is obtained. For thick samples, the asymetry on the MSP over the plane orthogonal to the gamma direction is also obtained. For the 12m -Fe sample, the MSP along the gamma ray direction and the MSP asymmetry in the orthogonal plane, are presented as quasi-continuous functions of the applied eld for a complete quasi-static magnetic cycle. It is shown that MSP goes slowerto saturation in the sample plane than in its normal direction, reecting the magnetic shape anysotropy of the sample. The MMS experimental layout and experimental details are also presented.[1] A. Veiga, N. Martnez, P. Mendoza Zelis, G. A. Pasquevich, F. H. Sanchez, Hyper-ne Interact. 167 (2006), pp 905.[2] G.A. Pasquevich, P. Mendoza Zelis, F.H. Sanchez, M.B. Fernandez van Raap, A.L.Veiga, N. Martinez, Physica B, 384 (2006), pp 348.