磁测量与电测量之间有着密不可分的关系。磁测量仪器是伴随着磁性材料和电工测量仪器的发展而发展起来的。但是,近年来由于原子物理学、电子技术、宇宙航行技术、超导技术等的发展,已使磁测量的发展脱离了这种约束,而使测磁仪器在某些方面成为领先地位。这表现于:磁测量的内容不只包括对磁场和磁性材料的测量以及对物质磁结构和磁效应的研究,同时还由于磁测量在其他科学技术领域的应用而和不同的学科结合成一些边缘科学,这些边缘科学即构成所谓的“非磁量的磁测法”。 There is a close relationship between magnetic and electrical measurements. Magnetic measuring instruments are accompanied by the development of magnetic materials and electrical measuring instruments developed. However, in recent years, due to the development of atomic physics, electronic technology, astronautics technology and superconducting technology, the development of magnetic measurement has been deviated from such constraints, making the magnetic measuring instrument a leading position in some aspects. This is manifested in the fact that the contents of magnetic measurements include not only the measurement of magnetic fields and magnetic materials and the study of the magnetic structures and magnetic effects of materials but also the combination of various disciplines with magnetic measurements in other scientific fields These marginal sciences constitute the so-called “non-magnetic magnetic measurement method.”