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1

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Electron paramagnetic resonance of Ce3+ in La(CF3SO3)3⋅9H2O : The 5th Joint MMM−Intermag Conference (1991)

Petasis, D. T. ; Bellesis, G. H. ; VanderVen, N. S. ; [et al.]

[S.l.] : American Institute of Physics (AIP)

Journal of Applied Physics 70 (1991), S. 5998-6000

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ISSN: 1089-7550

Source: AIP Digital Archive

Topics: Physics

Notes: The rare-earth trifluoromethanesulfonates R(CF3SO3)3⋅9H2O (RTFMS) have a hexagonal structure similar to the ethylsulfates R(C2H5SO4)3⋅9H2O (RES). The lowest Kramers doublet in CeTFMS is ||J=5/2; Jz = ±5/2〉 separated from an excited doublet ||J=5/2; Jz= ±1/2〉 by Δ/k(approximately-equal-to)21 K. We have measured electron paramagnetic resonance on 1% and 2% Ce3+ in LaTFMS crystals at 9.214 GHz. At 4.2 K, absorption by two doublets is found yielding g(parallel)(5/2) = 3.813 ± 0.001; g⊥(5/2) = 0.262 ± 0.002; g(parallel)(1/2) = 0.977 ± 0.003; g⊥(1/2) = 2.151 ± 0.002. The temperature variation of intensities shows the ground doublet to be ||±5/2〉, as in concentrated CeTFMS, but Δ/k=9.6±0.7 K. The doublet order is opposite to that for dilute Ce:LaES but the same as in CeES or Ce:YES and Ce:EuES. In 2% Ce:LaTFMS, satellite resonances due to coupled nn Ce–Ce pairs are also observed. Analysis of the pair data indicates that virtual phonon exchange, while the dominant nondipolar contribution to intrapair coupling, is smaller than for Ce pairs in CeES. This is consistent with the fact that Δ is larger in CeTFMS or Ce:LaTFMS than in CeES.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.350073

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2

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Media for 10 Gb/in.2 hard disk storage: Issues and status (invited) : The 40th annual conference on magnetism and magnetic materials (1996)

Lambeth, D. N. ; Velu, E. M. T. ; Bellesis, G. H. ; [et al.]

[S.l.] : American Institute of Physics (AIP)

Journal of Applied Physics 79 (1996), S. 4496-4501

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ISSN: 1089-7550

Source: AIP Digital Archive

Topics: Physics

Notes: Future 10 Gb/in.2 recording densities represent submicron trackwidths and sub-100 nm bit lengths. This requires extremely small magnetic switching units and very high coercivities of the media to satisfy the signal-to-noise ratio requirements. At the same time the question of magnetic thermal stability and the lack of transducers capable of performing at these densities makes it difficult to evaluate media. An uncoupled, highly uniform magnetic grain size of about 10 nm is a compromise toward maintaining an adequately low media noise and yet maintaining magnetic stability. Here we discuss current media construction, the detrimental role of substrate roughness, the role of new media structures and alloys on microstructure and magnetic properties as well as techniques for evaluating media performance prior to the availability of the required playback heads. © 1996 American Institute of Physics.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.361876

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3

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Search for high moment soft magnetic materials: FeZrN (abstract) : The 40th annual conference on magnetism and magnetic materials (1996)

Chakraborty, A. ; Bellesis, G. H. ; Mountfield, K. R. ; [et al.]

[S.l.] : American Institute of Physics (AIP)

Journal of Applied Physics 79 (1996), S. 5011-5011

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ISSN: 1089-7550

Source: AIP Digital Archive

Topics: Physics

Notes: FeN materials exhibiting high moment, low coercivity and small magnetostriction have previously been reported. Zr has been known to reduce the magnetostriction in other Fe alloys. The criteria for an ideal recording head pole material as well as shields for magnetroresistive sensors include high moment, low coercivity, high permeability, and zero magnetostriction. We present here the properties of half micrometer thick rf sputtered FeZrN films on glass coupons. The films were deposited at a pressure of 3 mTorr using a Perkin–Elmer sputtering system. The target was composed of Fe with Zr chips covering approximately 2% of the surface area. The properties were measured as a function of the N2 partial pressure. The saturation magnetization of the as-sputtered films was approximately 20 kG. The easy axis and the hard axis coercivities show minima at approximately 7%–10% N2 partial pressure of approximately 1.8 and 0.6 G, respectively. The magnetic anisotropy is approximately 5 G yielding a dc permeability of approximately 4000 along the hard axis. X-ray data reveal a systematic change in the ratio of α-Fe and γ-Fe4N; the amount of the γ-Fe4N phase increases with increasing N2 flow rate. The magnetostriction increases with increasing N2 content crossing zero at approximately 6%. The grain size as probed by atomic force microscopy is an increasing function of the N2 partial pressure, from a few nm for a N2 partial pressure of 5% to as large as 50 nm for a N2 partial pressure of 15%. © 1996 American Institute of Physics.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.361557

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Search for high moment soft magnetic materials: FeZrN (1996)

Chakraborty, A. ; Mountfield, K. R. ; Bellesis, G. H. ; [et al.]

[S.l.] : American Institute of Physics (AIP)

Journal of Applied Physics 80 (1996), S. 1012-1014

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ISSN: 1089-7550

Source: AIP Digital Archive

Topics: Physics

Notes: FeN materials exhibiting high moment, low coercivity and small magnetostriction have previously been reported. Zr has been known to reduce the magnetostriction in other Fe alloys. The criteria for an ideal recording head pole material as well as shields for magnetoresistive sensors include high moment, low coercivity, high permeability, and zero magnetostriction. We present here the properties of 0.3 μm thick rf sputtered FeZrN films measured as a function of the N2 partial pressure. The films were deposited at a pressure of 3 mT using a Perkin Elmer sputtering system. The target was composed of Fe with Zr chips covering approximately 2% of the surface area. The easy axis and hard axis coercivities show minima of 1.8 and 0.6 Oe, respectively, at 7–10 % N2 partial pressure with a saturation magnetization of about 18 kG. The magnetic anisotropy field is approximately 5 Oe yielding a dc permeability of approximately 4000 along the hard axis. X-ray data reveal a systematic change in the ratio of α–Fe and γ–Fe4 N; the amount of the γ–Fe4N phase increasing with increasing N2 partial pressure. The magnetostriction increases with increasing N2 content crossing zero at approximately 6%. The grain size, as probed by atomic force microscopy, is an increasing function of the N2 partial pressure; from a few nm for N2 partial pressures of 5% to being as large as 50 nm for a partial pressure of 15%. The surface roughness is about 1 nm. © 1996 American Institute of Physics.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.362833

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5

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Magnetism of rare-earth salts R(CF3SO3)3⋅ 9H2O with R=Tb, Dy, and Ce (1987)

Bellesis, G. H. ; Simizu, Satoru ; Friedberg, S. A.

[S.l.] : American Institute of Physics (AIP)

Journal of Applied Physics 61 (1987), S. 3283-3285

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ISSN: 1089-7550

Source: AIP Digital Archive

Topics: Physics

Notes: Magnetic susceptibilities have been measured between 0.05 and 20 K for three rare-earth trifluoromethanesulfonate nonahydrates R(CF3SO3)3⋅ 9H2O or RTFMS whose hexagonal crystal structure is very similar to that of the rare-earth ethylsulfate nonahydrates R(C2H5SO4)3⋅ 9H2O or RES. TbTFMS and DyTFMS order ferromagnetically at TC=0.240 K and TC=0.111 K, respectively. CeTFMS remains paramagnetic down to 0.089 K. All three compounds show extreme Ising-type anisotropy with g⊥∼0. g(parallel) of each RTFMS compound compares favorably with that of the corresponding RES as expected from crystalline field theories based on a point-charge model. In each case, the Weiss constant is close to what is expected for a system with predominantly dipolar interactions. The ferromagnetic ordering in TbTFMS and DyTFMS is essentially that of a dipolar Ising system. The splitting Δ of the ground quasi-doublet in TbTFMS is only ∼0.5 K and the ordering appears to be largely explained by electronic models although substantial ordering of nuclear spins is indicated in our preliminary heat capacity data.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.338882

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Electron paramagnetic resonance of Er3+, Dy3+, and Gd3+ in Y(CF3SO3)3⋅9H2O (1987)

Bellesis, G. H. ; Simizu, Satoru ; Friedberg, S. A.

[S.l.] : American Institute of Physics (AIP)

Journal of Applied Physics 61 (1987), S. 3286-3288

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ISSN: 1089-7550

Source: AIP Digital Archive

Topics: Physics

Notes: The paramagnetic resonance spectra of 1% Er3+ and 1% Dy3+ substituted in hexagonal Y(CF3SO3)3⋅9H2O (YTFMS) single crystals have been measured at 4.2 K and 9.215 GHz. Resonances due to Gd3+ impurities were identified and studied at 77 K. In each case, the results strongly resemble those for the given ion in an Y(C2H5SO4)3⋅9H2O (YES) or La(C2H5SO4)3⋅9H2O (LaES) host suggesting that R3+ site symmetry in YTFMS is also C3h. For Er3+, the spin Hamiltonian parameters are found to be g(parallel) =1.62, g⊥ =8.67, A=0.006 cm−1, B=0.030 cm−1, and P=0.001 cm−1. For Gd3+ we find g=1.988, b02 =0.010 88 cm−1, b04 =−0.000 418 cm−1, and b06 =0.000 058 cm−1. In the case of Dy3+, resonance is observed for ions whose major g-tensor axis coincides with the YTFMS c axis and have g(parallel) =10.90 and g⊥ ≈0. Another resonance, which splits into a six line pattern when the field is rotated away from the c axis, is attributed to ions whose g tensors are tipped by 20° from that axis by the perturbing effect of lattice imperfections. These have gx =3.79, gy =2.41, and gz =10.84 and are believed to be relatively few in number. Similar tipping is seen for Dy3+ in YES.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.338883

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7

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Magnetic ordering in Ho(CF3SO3)3⋅9H2O and Ho(C2H5SO4)3⋅9H2O (1990)

Bellesis, G. H. ; Simizu, Satoru ; Friedberg, S. A.

[S.l.] : American Institute of Physics (AIP)

Journal of Applied Physics 67 (1990), S. 5850-5852

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ISSN: 1089-7550

Source: AIP Digital Archive

Topics: Physics

Notes: The magnetic susceptibilities χ(parallel) and χ⊥, both ac (80 Hz) and static, of hexagonal crystals of the structurally similar Ho(C2H5SO4)3⋅9H2O, HoES, and Ho(CF3SO3)3⋅9H2O, HoTFMS, have been measured down to ∼0.1 K. Both order ferromagnetically along the c axis at Tc=0.23 K. Analysis of the susceptibilities above Tc shows g(parallel)≈15.5 and g⊥≈0, ground doublet-excited singlet separation 8.4 K in HoES and 15 K in HoTFMS, and dipolar interionic interactions. Cp for both salts was also measured and found to exhibit similar sharp cooperative λ peaks at 0.23 K due to ordering of the Ho3+ moments. This peak sits atop the rounded Schottky anomaly of a system of nuclear spins in a fixed hyperfine field. The independence of the electron and nuclear contributions to Cp is associated with the Ising character of the Ho3+ ground non-Kramers doublet.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.345986

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