4. Determination of the effective magnetic moment Me is by the formula (5.16)Me=TA2km. The coefficient km is obtained from the known values of θ and β in Table 5.7. 5. Localization of the epicenter (the origin
The magnetic response of a materials is largely determined by the magnetic dipole moment associated with the intrinsic angular momentum, or spin, of its electrons. A material’s response to an applied magnetic field can be characterized as diamagnetic, paramagnetic, ferromagnetic or antiferromagnetic. ...
Nd2InNi2 can absorb up to 7 H atoms per formula unit at room temperature, which leads to expansion of the unit cell along the a- and c-axes and compression along the b-axis (orthorhombic structure with space group Pbam)33. The Nd magnetic moment of 3.55 μB resembles that of a free...
Figure 3 shows the room temperature (300K) magnetization of CoFe2-xGdxO4 expressed in the magnetic moment per formula unit (nB=Ms×Mw5585) plotted against the applied field. The obtained nB values are tabulated in Table 5, where Ms and Mw represent the saturation magnetization and molecular ...
When an electron in an atom or ion is unpaired, the magnetic moment due to its spin makes the entire atom or ion paramagnetic. The size of the magnetic moment of a system containing unpaired electrons is related directly to the number of such electrons: the greater the number of un...
Electron magnetic resonance occurs when an electromagnetic wave of suitable frequency (usually in the microwave region) interacts with the sample immersed in an applied magnetic field and causes the inversion of the spin (and thus of the magnetic moment) of the unpaired electrons so that a certain...
www.nature.com/scientificreports OPEN received: 06 June 2016 accepted: 05 September 2016 Published: 26 September 2016 Magnetic moment collapse induced axial alternative compressibility of Cr2TiAlC2 at 420 GPa from first principle Yang Ze-Jin1,2, Linghu Rong-Feng3, Gao Qing-He4,5, ...
Figure 10. Magnetic moment per formula unit (f. u.) of Mn2FeAl at different pressures. athlwanTayhtshelacatarolgcfeurFlateht2eMadnnzteAhraol ti-nporftehFseesu2pMrreenmsAsuolmraeteranantnsygaperreoe2fs.s02u–5r4ea0.n0Hd Go−wP0ae..1v2er5 ent with the other calculations (2.62...
Generally, the ability to easily turn correlated magnetic structures such that they disengage is a function of the torque easily created by a person's hand by the moment arm of the structure. The larger it is, the larger the moment arm, which acts as a lever. When two separate structures...
Generally, the ability to easily turn correlated magnetic structures such that they disengage is a function of the torque easily created by a person's hand by the moment arm of the structure. The larger it is, the larger the moment arm, which acts as a lever. When two separate structures...