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Effect of magnetism

Mechanism of action of nanosized (0.005 - 0.02 p.m) powders of ferromagnetics on biological systems is based on effect of magnetic fields created by ferromagnetic microcrystal assemblies and on specific action of every metal added which determined the field of practical application. [Pg.449]

Fahidy, T.Z. The Effect of Magnetic Fields on Electrochemical Processes 32... [Pg.602]

A study of the effect of magnetic nanoparticle size on the monolayer behavior aimed to examine the balance between magnetic dipole forces and van der Waals interactions... [Pg.97]

Fig. 5. Effect of magnet current on electrical resistivity and transmittance of SnOj film. Microwave power of 1600 W. Fig. 5. Effect of magnet current on electrical resistivity and transmittance of SnOj film. Microwave power of 1600 W.
Figure 2.2 Effect of 180 pulse on phase imperfections resulting from magnetic field inhomogeneities. Spin-echo generated by 180 refocusing pulse removes the effects of magnetic field inhomogeneities. Figure 2.2 Effect of 180 pulse on phase imperfections resulting from magnetic field inhomogeneities. Spin-echo generated by 180 refocusing pulse removes the effects of magnetic field inhomogeneities.
The theory of the effect of magnetic relaxation on the shape of MSssbauer spectra has been discussed at length by Wickmann (6). Wickmann wrote the MSssbauer absorption intensities 1(E) as a function of energy (E) for a pair of equivalent, allowed transitions to be ... [Pg.519]

Effects of Magnetic Processing on the Morphological, Electrochemical, and Photoelectrochemical Properties of Electrodes Modified with Cgo-Phenothiazine Nanoclusters... [Pg.264]

We examined the effects of magnetic processing on the morphological, electrochemical, and photoelectrochemical properties of electrodes modified with nanoclusters of CfioN and MePH (Figure 15.4) using a strong magnetic field [49]. [Pg.264]

Figure 15.6 Effects of magnetic processing on (a) DPV curves (b) potential dependences of photocurrents of QqN " -MePH clusters on ITO electrodes. Figure 15.6 Effects of magnetic processing on (a) DPV curves (b) potential dependences of photocurrents of QqN " -MePH clusters on ITO electrodes.
We prepared monolayered films with Q-Zni xMnxS and examined the effects of magnetic processing during their preparation on their luminescence properties [59]. [Pg.268]

Table 15.1 Effect of magnetic processing on polarization degrees (p-values) of luminescence for monolayer films consisting of Q-Zni xMnxS (x = 0.10). Table 15.1 Effect of magnetic processing on polarization degrees (p-values) of luminescence for monolayer films consisting of Q-Zni xMnxS (x = 0.10).
Yonemura, H., Noda, M., Hayashi, K, Tokudome, H., Moribe, S. andYamada, S. (2002) Photoinduced intramolecular electron transfer reactions in fiillerene-phenothiazine linked compounds effects of magnetic field and spacer chain length. Mol. Phys., 100, 1395-1403. [Pg.275]

Yonemura, H., Wakita, Y, Kuroda, N., Yamada, S., Fujiwara, Y. and Tanimoto, Y. (2008) Effects of magnetic processing on electrochemical and photoelectrochemical properties of electrodes modified with C )-phenothiazine nanoclusters. ]pn. J. Appl. Phys., 47, 1178-1183. [Pg.277]

Fig. 7.3 Effect of magnetic dipole interaction (7/m), electric quadmpole interaction (Hq), and combined interaction// = Hu + //q, Em> q on the Mossbauernuclear levels of Ni. The larger spacings between the sublevels of the ground state are due to the somewhat larger magnetic dipole moment of the nuclear ground state as compared to the excited state. The relative transition probabilities for a powder sample as well as the relative positions of the transition lines are indicated by the stick spectra below... Fig. 7.3 Effect of magnetic dipole interaction (7/m), electric quadmpole interaction (Hq), and combined interaction// = Hu + //q, Em> q on the Mossbauernuclear levels of Ni. The larger spacings between the sublevels of the ground state are due to the somewhat larger magnetic dipole moment of the nuclear ground state as compared to the excited state. The relative transition probabilities for a powder sample as well as the relative positions of the transition lines are indicated by the stick spectra below...
S. Handa, F. Okada, K. Kose 2005, (Effects of Magnetic Circuits on Magnetic Field Gradients Produced by Planar Gradient Coils, Proc 13th ISMRM, 851). [Pg.89]

Possible Effects of Magnetic Field on Free Radical Formation References... [Pg.14]

POSSIBLE EFFECTS OF MAGNETIC FIELD ON FREE RADICAL FORMATION... [Pg.711]

Figure 1. Effect of magnetic huperfine interaction on ground state and first excited state of Fe. The allowed transitions between the two states and the angular dependence of their intensities are indicated. Figure 1. Effect of magnetic huperfine interaction on ground state and first excited state of Fe. The allowed transitions between the two states and the angular dependence of their intensities are indicated.

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See also in sourсe #XX -- [ Pg.20 ]




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