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Anisotropy perpendicular

Ba hexaferrite particles usually grow as plates with their c-axis perpendicular to the plate surface. This growth habit leads to a shape anisotropy perpendicular to the magnetocrystalline anisotropy and therefore to a... [Pg.170]

C.S.3 anisotropies perpendicular to all three principal crystal axes, measured in 10 emu/mole Xb>Xc>Xa... [Pg.436]

In linear, spherical and synnnetric tops the components of a along and perpendicular to the principal axis of synnnetry are often denoted by a and respectively. In such cases, the anisotropy is simply Aa = tty -If the applied field is oscillating at a frequency w, then the dipole polarizability is frequency dependent as well a(co). The zero frequency limit of the dynamic polarizability a(oi) is the static polarizability described above. [Pg.189]

The anisotropy fiinction r t) = (/ (t) -1+ 21 t)) is detemiined by two polarized fluorescence transients / (t) and/j (t) observed parallel and perpendicular, respectively, to the plane of polarization of the excitation pulse. In tlie upconversion experiment, the two measurements are most conveniently made by rotating the plane of polarization of the excitation pulse with respect to the fixed orientation of the input plane... [Pg.1978]

Material parameters defined by Equations (1.11) and (1.12) arise from anisotropy (i.e. direction dependency) of the microstructure of long-chain polymers subjected to liigh shear deformations. Generalized Newtonian constitutive equations cannot predict any normal stress acting along the direction perpendicular to the shearing surface in a viscometric flow. Thus the primary and secondary normal stress coefficients are only used in conjunction with viscoelastic constitutive models. [Pg.6]

From the write and read process sketched so far, some requirements for MO media can be derived (/) a high perpendicular, uniaxial magnetic anisotropy K in order to enable readout with the polar Kerr effect (2) a magnetoopticady active layer with a sufficient figure of merit R 0- where R is the reflectivity and the Kerr angle (T) a Curie temperature between 400 and 600 K, the lower limit to enable stable domains at room temperature and the upper limit because of the limited laser power for writing. [Pg.143]

Change of compensation temperature with composition is Positive value of K indicates perpendicular anisotropy. [Pg.145]

In the case of Co—Cr having perpendicular anisotropy there is, in principle, a competition between the uniaxial anisotropy of a hexagonal stmcture and the demagnetizing energy of the thin film. In the case of magnetically separated Co—Cr columns (particulate morphology) then also the shape anisotropy contributes to the perpendicular anisotropy. [Pg.174]

At a field at which the particle is saturated perpendicular to the easy axis (oc = 90), = 2Kj. This field can be defined as the anisotropy... [Pg.176]

The first paper about NiFe layers evaporated under an angle was pubHshed in the early 1960s (40). The films prepared this way are often called obHque-incidence or angle-of-incidence films. It was found that these kinds of films show an anisotropy whose strength depends on the angle of incidence of the atoms (a/ during deposition (Fig. 15). If is between 0 and 65 the anisotropy Hes parallel to the film plane and perpendicular to the incidence plane. [Pg.178]

Mechanical Properties and Structural Performance. As a result of the manufacturing process, some cellular plastics have an elongated cell shape and thus exhibit anisotropy in mechanical, thermal, and expansion properties (35,36). Efforts are underway to develop manufacturing techniques that reduce such anisotropy and its effects. In general, higher strengths occur for the paraHel-to-rise direction than in the perpendicular-to-rise orientation. Properties of these materials show variabiUty due to specimen form and position in the bulk material and to uncertainty in the axes with respect to direction of foam rise. Expanded and molded bead products exhibit Httie anisotropy. [Pg.335]

PR = perpendicular recording LR = longitudinal recording HFRH = high frequency recording heads RH/HDTV = recording heads for high definition television and Pa = perpendicular perpendicular anisotropy. [Pg.393]

Cobalt—chromium films (20 at. % Cr) exhibiting strong perpendicular anisotropy, ie, hexagonal i -axis normal to the substrate surface, have been studied (53). Fifty nanometer films are composed of columnar crystaUites and the domain size was found to be a few stmctural columns in diameter. Magnetization reversal was shown to occur by domain rotation in thick films. Thinner (ca 10-nm thick) films do not show the columnar crystaUite... [Pg.393]

Radiation Effects. Alpha sihcon carbide exhibits a small degree of anisotropy in radiation-induced expansions along the optical axis and perpendicular to it (58). When diodes of sihcon carbide were compared with sihcon diodes in exposure to kradiation with fast neutrons (59), an increase in forward resistance was noted only at a flux about 10 times that at which the increase occurs in a sihcon diode. In general, it appears that sihcon carbide, having the more tightly bound lattice, is less damaged by radiation than sihcon. [Pg.465]

The specific resistance of natural graphite crystals is ca Hem (room temperature) along the a axis parallel to the network basal plane. The resistance along the c axis (perpendicular to the basal plane) is ca 1 Q. The cja axis anisotropy ratio is, therefore, ca 10 . Screw dislocations within the crystal may short-circuit the current path parallel to the c axis and cause lower anisotropic ratios separation of planes may cause higher anisotropic ratios. [Pg.572]

The widths of the narrow Lorentzians representing slow motions in the plane and perpendicular to the plane of the bilayer are compared in Ligures 11a and 11b, respectively. Lor the in-plane motion, the MD values for Q = 0.5 A agree well with the experimental results, but the increase with Q is significantly overestimated in the simulation compared to the experimental values. This suggests that the slower component of the in-plane motion in the simulation is too fast at short distances. On the other hand, the MD line widths for the slower component of the out-of-plane motion agree well with the experimental results at 30% hydration. As in the case of the LISL, the simulation predicts a slight anisotropy not seen in the experimental data. [Pg.481]

See other pages where Anisotropy perpendicular is mentioned: [Pg.425]    [Pg.940]    [Pg.583]    [Pg.43]    [Pg.214]    [Pg.425]    [Pg.940]    [Pg.583]    [Pg.43]    [Pg.214]    [Pg.201]    [Pg.1489]    [Pg.144]    [Pg.145]    [Pg.146]    [Pg.146]    [Pg.146]    [Pg.147]    [Pg.172]    [Pg.172]    [Pg.174]    [Pg.174]    [Pg.174]    [Pg.175]    [Pg.175]    [Pg.177]    [Pg.179]    [Pg.179]    [Pg.181]    [Pg.192]    [Pg.199]    [Pg.203]    [Pg.367]    [Pg.371]    [Pg.374]    [Pg.394]    [Pg.1]    [Pg.522]    [Pg.220]    [Pg.481]   
See also in sourсe #XX -- [ Pg.62 , Pg.234 , Pg.236 , Pg.262 , Pg.265 , Pg.270 , Pg.271 , Pg.276 , Pg.281 , Pg.282 , Pg.289 ]

See also in sourсe #XX -- [ Pg.17 , Pg.21 ]



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Perpendicular

Perpendicular magnetic anisotropy

Perpendicular magnetic anisotropy multilayers

Perpendicular structural anisotropy

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