Magnetic moment, also known as magnetic dipole moment, is the measure of the object's tendency to align with a magnetic field. The objects have a tendency to place themselves in such a way that the magnetic moment vector becomes parallel to the magnetic
A magnetic moment refers to the magnetic properties of a material, which are caused by the motion of electrons in atoms. The motion can be either spin or orbital, and it results in a magnetic moment associated with the electron. The magnetic moment is expressed in terms of the Bohr magneton...
It allows us to determine the magnetic moment of the particle in the low-field region, and then the effective anisotropy from the approach to the ... Respaud,M. - 《Journal of Applied Physics》 被引量: 107发表: 1999年 Magnetic anisotropy of two trinuclear and tetranuclear Cr(III)Ni(II...
Givord, D., Laforest, J., Lemaire, R.: Magnetic transition in ThCo5 due to change of Co-moment. Phys. B. 86–88, Part 1, 204–206 (1977) Article Google Scholar Ballou, R., Shimizu, M., Voiron, J.: Pressure effects on the metamagnetic transition of ThCo 5. J. Magn. Magn...
L. Electric multipole moments, topological multipole moment pumping, and chiral hinge states in crystalline insulators. Phys. Rev. B 96, 245115 (2017). Article ADS Google Scholar Schindler, F. et al. Higher-order topological insulators. Science Advances (2018). http://advances.sciencemag....
The proton relaxivity value depends on the size, magnetic moment, spatial arrangement of nanoparticles, especially in the tissue environment that is infected. The framework of the nanoparticle needs to be controlled as an optimal arrangement for a significant increase in the proton relaxivity value. ...
We also calculate the distribution of the second moment of LCM \sqrt{\langle {C}^{2}\rangle } over 500 disorder configurations in both the CMP and LP (Fig. 4b, d), where 〈⋅〉 means averaging over all the cells. In the CMP (LP), ...
The response of the magnetic moment to the microwave application is strengthened by the exchange coupling established between soft and hard magnetic phases, resulting in an enhanced RL above 10 GHz frequency and magnetic permeability exchange resonances [201]. As stated above, the exchange coupling ...
become an important research direction due to their two advantages in enhancing the energy barrier Ueff: first, rare earth ions can increase the magnetic anisotropy; second, the magnetic exchange between d and f ions can lead to a large magnitude of the magnetic moment in the ground state24. ...
The utilization of IONPs offered a novel strategy for treating drug-resistant illnesses due to their distinct characteristics, such as size, magnetic moment, and surface features (Figure 10A–E). These nanoparticles engaged with free-floating bacteria and bacteria entrenched in a biofilm structure [...