作者： | N. L. Guo, N. Bo, X. H. Wang, M. Li, P. Sun |
作者单位： |
^{1}National Institute of Measurement and Testing Technology ^{2}Officers College of PAP |
刊名： | Journal of Superconductivity and Novel Magnetism, 2017, Vol.30 (10), pp.2835-2840 |
来源数据库： | Springer Journal |
DOI： | 10.1007/s10948-017-4038-0 |
关键词： | Trilayers; Hysteresis loop; Maximum energy product; Simplified calculation method; |
英文摘要： | Energy products of the hard/soft/hard trilayer system with the directions of easy axes and applied field parallel to the plane have been calculated by a simplified method. The simplified calculation of the maximum energy product (BH) \(_{\max }\) has been concluded, which indicates that (BH) \(_{\max }\) for a given trilayer system can be calculated though solving the maximum value of energy product in the domain of the applied field. Energy products of systems with the infinite hard and the finite hard phases calculated by the simplified method have been compared with those calculated by the traditional method, which shows that the simplified method is applicable. The maximum energy product of trilayer system as a function of L ^{ h }has been calculated systematically by the... |
原始语种摘要： | Energy products of the hard/soft/hard trilayer system with the directions of easy axes and applied field parallel to the plane have been calculated by a simplified method. The simplified calculation of the maximum energy product (BH) \(_{\max }\) has been concluded, which indicates that (BH) \(_{\max }\) for a given trilayer system can be calculated though solving the maximum value of energy product in the domain of the applied field. Energy products of systems with the infinite hard and the finite hard phases calculated by the simplified method have been compared with those calculated by the traditional method, which shows that the simplified method is applicable. The maximum energy product of trilayer system as a function of L ^{ h }has been calculated systematically by the... |