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297 results on '"Spinu L"'

1. Evidence for unconventional superconductivity in Half-Heusler YPdBi and TbPdBi compounds revealed by London penetration depth measurements

Author

Radmanesh, S. M. A., Martin, C., Zhu, Yanglin, Yin, X., Xiao, H., Mao, Z. Q., and Spinu, L.

Subjects
Condensed Matter - Superconductivity
Abstract

The half-Heusler compounds YPdBi and TbPdBi, while having similar band structure, exhibit different magnetic properties. YPdBi is a diamagnet, while TbPdBi shows antiferromagnetic order below 5.5 K. Both are superconductors with T${_c}\approx$1 K for YPdBi and T${_c}\approx$1.75 K for TbPdBi. Such a contrast in properties between these two compounds opens a question about the effects of band structure or magnetic correlations on superconductivity. Using the combination of a tunnel diode oscillator (TDO) and a commercial dilution refrigerator, we measured temperature dependent magnetic penetration depth $\Delta\lambda(T)$ in single crystals of YPdBi and TbPdBi, down to temperatures as low as 0.1K. We found that penetration depths of both compounds do not show exponential temperature dependence and saturation at low temperatures, as expected for conventional BCS superconductors. Instead, in both compounds, the penetration depth can be described by a power law $\Delta\lambda(T) = A\times T^{n}$. The coefficient A was found to be about 50$\%$ smaller in TbPdBi, but the exponents are very similar, $n = 2.76\pm 0.04$ in YPdBi and $n = 2.6\pm 0.3$ in TbPdBi, respectively. Our results suggest unconventional superconductivity in both YPdBi and TbPdBi.

Published
2018
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2. Unusual interlayer quantum transport behavior caused by the zeroth Landau level in YbMnBi2

Author

Liu, J. Y., Hu, J., Graf, D., Zou, T., Zhu, M., Shi, Y., Che, S., Radmanesh, S. M. A., Lau, C. N., Spinu, L., Cao, H. B., Ke, X., and Mao, Z. Q.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Relativistic fermions in topological quantum materials are characterized by linear energy-momentum dispersion near band crossing points. Under magnetic field, relativistic fermions acquire Berry phase of {\pi} in cyclotron motion, leading to a zeroth Landau level (LL) at the crossing point. Such field-independent zeroth LL, which distinguishes relativistic fermions from conventional electron systems, is hardly probed in transport measurements since the Fermi energy (EF) is usually not right at the band crossing points in most topological materials. Here we report the observation of exotic quantum transport behavior resulting from the zeroth LL in a multiband topological semimetal YbMnBi2 which possesses linear band crossings both at and away from the Fermi level (FL). We show that the Dirac bands with the crossing points being above or below the FL leads to Shubnikov de-Haas oscillations in the in-plane magnetoresistance, whereas the Dirac bands with the crossing points being at the FL results in unusual angular dependences of the out-of-plane magnetoresistance and in-plane Hall resistivity due to the dependence of the zeroth LL's degeneracy on field orientation. Our results shed light on the transport mechanism of the zeroth LL's relativistic fermions in layered materials.

Published
2016
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3. Nearly massless Dirac fermions hosted by Sb square net in BaMnSb2

Author

Liu, Jinyu, Hu, Jin, Cao, Huibo, Zhu, Yanglin, Chuang, Alyssa, Graf, D., Adams, D. J., Radmanesh, S. M. A, Spinu, L., Chiorescu, I., and Mao, Zhiqiang

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Layered compounds AMnBi2 (A=Ca, Sr, Ba, or rare earth element) have been established as Dirac materials. Dirac electrons generated by the two-dimensional (2D) Bi square net in these materials are normally massive due to the presence of a spin-orbital coupling (SOC) induced gap at Dirac nodes. Here we report that the Sb square net in an isostructural compound BaMnSb2 can host nearly massless Dirac fermions. We observed strong Shubnikov-de Haas (SdH) oscillations in this material. From the analyses of the SdH oscillations, we find key signatures of Dirac fermions, including light effective mass (~0.052m0; m0, mass of free electron), high quantum mobility (1280 cm2V-1S-1) and a Pi Berry phase accumulated along cyclotron orbit. Compared with AMnBi2, BaMnSb2 also exhibits much more significant quasi two-dimensional (2D) electronic structure, with the out-of-plane transport showing nonmetallic conduction below 120K and the ratio of the out-of-plane and in-plane resistivity reaching ~670. Additionally, BaMnSb2 also exhibits an antiferromagnetic order with a weak ferromagnetic component. The combination of nearly massless Dirac fermions on quasi-2D planes with a magnetic order makes BaMnSb2 an intriguing platform for seeking novel exotic phenomena of massless Dirac electrons., Comment: crystal lattice and magnetic structure information addded; final version for publication

Published
2016
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4. Pi Berry phase and Zeeman splitting of TaP probed by high field magnetotransport measurements

Author

Hu, J., Liu, J. Y., Graf, D., Radmanesh, S. M. A, Adams, D. J., Chuang, A., Wang, Y., Chiorescu, I., Wei, J., Spinu, L., and Mao, Z. Q.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The chiral anomaly-induced negative magnetoresistance and non-trivial Berry phase are two fundamental transport properties associated with the topological properties of Weyl fermions. In this work, we report the quantum transport of TaP single crystals in magnetic field up to 31T. Through the analyses of our magnetotransport data, we show TaP has the signatures of a Weyl state, including light effective quasiparticle masses, ultrahigh carrier mobility, as well as negative longitudinal magnetoresistance. Furthermore, we have generalized the Lifshitz-Kosevich formula for Shubnikov-de Haas (SdH) oscillations with multi-frequencies, and determined the non-trivial Berry phase of Pi for multiple Fermi pockets in TaP through the direct fitting of the quantum oscillations. In high fields, we also probed signatures of Zeeman splitting, from which the Land\'e g-factor is extracted.

Published
2015
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5. A magnetic topological semimetal Sr1-yMn1-zSb2 (y, z< 0.1)

Author

Liu, J. Y., Hu, J., Zhang, Q., Graf, D., Cao, H. B., Radmanesh, S. M. A., Adams, D. J., Zhu, Y. L., Cheng, G. F., Liu, X., Phelan, W. A., Wei, J., Tennant, D. A., DiTusa, J. F., Chiorescu, I., Spinu, L., and Mao, Z. Q.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Weyl (WSMs) evolve from Dirac semimetals in the presence of broken time-reversal symmetry (TRS) or space-inversion symmetry. The WSM phases in TaAs-class materials and photonic crystals are due to the loss of space-inversion symmetry. For TRS-breaking WSMs, despite numerous theoretical and experimental efforts, few examples have been reported. In this Article, we report a new type of magnetic semimetal Sr1-yMn1-zSb2 (y,z<0.1) with nearly massless relativistic fermion behaviour (m*=0.04-0.05m0, where m0 is the free electron mass). This material exhibits a ferromagnetic order for 304K < T < 565K, but a canted antiferromagnetic order with a ferromagnetic component for T < 304K. The combination of relativistic fermion behaviour and ferromagnetism in Sr1-yMn1-zSb2 offers a rare opportunity to investigate the interplay between relativistic fermions and spontaneous TRS breaking., Comment: Accepted by Nature Materials

Published
2015
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6. Enhancing Electron Coherence via Quantum Phonon Confinement in Atomically Thin Nb3SiTe6

Author

Hu, J., Liu, X., Yue, C. L., Liu, J. Y., Zhu, H. W., He, J. B., Wei, J., Mao, Z. Q., Antipina, L. Yu., Popov, Z. I., Sorokin, P. B., Liu, T. J., Adams, P. W., Radmanesh, S. M. A, Spinu, L., Ji, H., and Natelson, D.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

The extraordinary properties of two dimensional (2D) materials, such as the extremely high carrier mobility in graphene and the large direct band gaps in transition metal dichalcogenides MX2 (M = Mo or W, X = S, Se) monolayers, highlight the crucial role quantum confinement can have in producing a wide spectrum of technologically important electronic properties. Currently one of the highest priorities in the field is to search for new 2D crystalline systems with structural and electronic properties that can be exploited for device development. In this letter, we report on the unusual quantum transport properties of the 2D ternary transition metal chalcogenide - Nb3SiTe6. We show that the micaceous nature of Nb3SiTe6 allows it to be thinned down to one-unit-cell thick 2D crystals using microexfoliation technique. When the thickness of Nb3SiTe6 crystal is reduced below a few unit-cells thickness, we observed an unexpected, enhanced weak-antilocalization signature in magnetotransport. This finding provides solid evidence for the long-predicted suppression of electron-phonon interaction caused by the crossover of phonon spectrum from 3D to 2D., Comment: Accepted by Nature Physics

Published
2015
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7. Calorimetric Evidence of Strong-Coupling Multiband Superconductivity in Fe(Te0.57Se0.43) Single Crystal

Author

Hu, J., Liu, T. J., Qian, B., Rotaru, A., Spinu, L., and Mao, Z. Q.

Subjects
Condensed Matter - Superconductivity
Abstract

We have investigated the specific heat of optimally-doped iron chalcogenide superconductor Fe(Te0.57Se0.43) with a high-quality single crystal sample. The electronic specific heat Ce of this sample has been successfully separated from the phonon contribution using the specific heat of a non-superconducting sample (Fe0.90Cu0.10)(Te0.57Se0.43) as a reference. The normal state Sommerfeld coefficient gamma_n of the superconducting sample is found to be ~ 26.6 mJ/mol K^2, indicating intermediate electronic correlation. The temperature dependence of Ce in the superconducting state can be best fitted using a double-gap model with 2Delta_s(0)/kBTc = 3.92 and 2Delta_l(0)/kBTc = 5.84. The large gap magnitudes derived from fitting, as well as the large specific heat jump of Delta_Ce(Tc)/gamma_n*Tc ~ 2.11, indicate strong-coupling superconductivity. Furthermore, the magnetic field dependence of specific heat shows strong evidence for multiband superconductivity.

Published
2011
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8. From (pi, 0) magnetic order to superconductivity with (pi, pi) magnetic resonance in Fe1.02(Te1-xSex)

Author

Liu, T. J., Hu, J., Qian, B., Fobes, D., Mao, Z. Q., Bao, W., Reehuis, M., Kimber, S. A. J., Prokes, K., Matas, S., Argyriou, D. N., Hiess, A., Rotaru, A., Pham, H., Spinu, L., Qiu, Y., Thampy, V., Savici, A. T., Rodriguez, J. A., and Broholm, C.

Subjects
Condensed Matter - Superconductivity
Abstract

The iron chalcogenide Fe1+y(Te1-xSex) is structurally the simplest of the Fe-based superconductors. Although the Fermi surface is similar to iron pnictides, the parent compound Fe1+yTe exhibits antiferromagnetic order with in-plane magnetic wave-vector (pi, 0). This contrasts the pnictide parent compounds where the magnetic order has an in-plane magnetic wave-vector (pi, pi) that connects hole and electron parts of the Fermi surface. Despite these differences, both the pnictide and chalcogenide Fe-superconductors exhibit superconducting spin resonances around (pi, pi), suggesting a common symmetry for their superconducting order parameter. A central question in this burgeoning field is therefore how (pi, pi) superconductivity can emerge from a (pi, 0) magnetic instability. Here, we report that the magnetic soft mode evolving from the (pi, 0)-type magnetic long-range order is associated with weak charge carrier localization. Bulk superconductivity occurs only as the magnetic mode at (pi, pi) becomes dominant upon doping. Our results suggest a common magnetic origin for superconductivity in iron chalcogenide and pnictide superconductors., Comment: 17 pages, 4 figures

Published
2010
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9. Charge carrier localization induced by excess Fe in the Fe1+y(Te,Se) superconductor system

Author

Liu, T. J., Ke, X., Qian, B., Hu, J., Fobes, D., Vehstedt, E. K., Pham, H., Yang, J. H., Fang, M. H., Spinu, L., Schiffer, P., Liu, Y., and Mao, Z. Q.

Subjects
Condensed Matter - Superconductivity
Abstract

We have investigated the effect of Fe nonstoichiometry on properties of the Fe1+y(Te, Se) superconductor system by means of resistivity, Hall coefficient, magnetic susceptibility, and specific heat measurements. We find that the excess Fe at interstitial sites of the (Te, Se) layers not only suppresses superconductivity, but also results in a weakly localized electronic state. We argue that these effects originate from the magnetic coupling between the excess Fe and the adjacent Fe square planar sheets, which favors a short-range magnetic order., Comment: 15 pages, 6 figures accepted for publication in PRB

Published
2009
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10. Superconductivity and Antiferromagnetism In Fe(Te1-xSx)y System

Author

Fang, M. H., Qian, B., Pham, H. M., Yang, J. H., Liu, T. J., Vehstedt, E. K., Spinu, L., and Mao, Z. Q.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons
Abstract

We have synthesized polycrystalline samples and single crystals of Fe(Te1-xSx)y, and characterized their properties. Our results show that the solid solution of S in this system is limited, < 30%. We observed superconductivity at ~ 9 K in both polycrystalline samples Fe(Te1-xSx)y with 0< x <= 0.3 and 0.86 <= y <= 1.0, and single crystals with the composition Fe(Te0.9S0.1)0.91, consistent with the recent report of Tc ~ 10 K superconductivity in the FeTe1-xSx polycrystalline samples with x = 0.1 and 0.2. Furthermore, our systematic studies show that the superconducting properties of this system sensitively depend on excess Fe at interstitial sites and that the excess Fe suppresses superconductivity. Another important observation from our studies is the coexistence of the superconducting phase and antiferromagnetism. Our analyses suggest that this phase coexistence may be associated with the random distribution of excess Fe and possibly occurs in the form of electronic inhomogeneity., Comment: 22 pages, 8 figures

Published
2008

11. Incommensurate magnetic order in the alpha-Fe(Te,Se) superconductor systems

Author

Bao, Wei, Qiu, Y., Huang, Q., Green, M. A., Zajdel, P., Fitzsimmons, M. R., Zhernenkov, M., Fang, M., Qian, B., Vehstedt, E. K., Yang, J., Pham, H. M., Spinu, L., and Mao, Z. Q.

Subjects
Condensed Matter - Superconductivity
Abstract

Magnetic spin fluctuations is one candidate to produce the bosonic modes that mediate the superconductivity in the ferrous superconductors. Up until now, all of the LaOFeAs and BaFe2As2 structure types have simple commensurate magnetic ground states, as result of nesting Fermi surfaces. This type of spin-density-wave (SDW) magnetic order is known to be vulnerable to shifts in the Fermi surface when electronic densities are altered at the superconducting compositions. Superconductivity has more recently been discovered in alpha-Fe(Te,Se), whose electronically active antifluorite planes are isostructural to the FeAs layers found in the previous ferrous superconductors and share with them the same quasi-two-dimensional electronic structure. Here we report neutron scattering studies that reveal a unique complex incommensurate antiferromagnetic order in the parent compound alpha-FeTe. When the long-range magnetic order is suppressed by the isovalent substitution of Te with Se, short-range correlations survive in the superconducting phase., Comment: 27 pages, 7 figures, 1 table

Published
2008
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12. Superconductivity close to magnetic instability in Fe(Se1-xTex)0.82

Author

Fang, M. H., Pham, H. M., Qian, B., Liu, T. J., Vehstedt, E. K., Liu, Y., Spinu, L., and Mao, Z. Q.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons
Abstract

We report our study of the evolution of superconductivity and the phase diagram of the ternary Fe(Se1-xTex)0.82 (0<=x<=1.0) system. We discovered a new superconducting phase with Tc,max = 14 K in the 0.3 < x < 1.0 range. This superconducting phase is suppressed when the sample composition approaches the end member FeTe0.82, which exhibits an incommensurate antiferromagnetic order. We discuss the relationship between the superconductivity and magnetism of this material system in terms of recent results from neutron scattering measurements. Our results and analyses suggest that superconductivity in this new class of Fe-based compounds is associated with magnetic fluctuations, and therefore may be unconventional in nature., Comment: 18 pages, 6 figures

Published
2008
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13. Magneto-impedance of glass-coated Fe-Ni-Cu microwires

Author

Wiggins, J., Srikanth, H., Wang, K. -Y., Spinu, L., and Tang, J.

Subjects
Condensed Matter - Materials Science
Abstract

The magneto-impedance (MI) of glass-coated Fe-Ni-Cu microwires was investigated for longitudinal radio-frequency (RF) currents up to a frequency of 200 MHz using an RF lock-in amplifier method. The MI, defined as DZ/Z = [Z(H)-Z(H=0.3T)]/Z(H=0.3T), displays a peak structure (negative MI) at zero field for RF currents with frequencies less than 20MHz and this crosses over to a sharp dip (positive MI) at higher frequencies. This crossover behavior is ascribed to the skin-depth-limited response primarily governed by the field-dependence of the permeability. Large saturation fields (300 to 600 Oe) and other anomalies indicate the possible influence of giant magneto-resistance (GMR) on the MI., Comment: 3 pages, 2-column, 3 figures. To be published in J. Appl. Phys. 2000 (44th MMM conference proceedings)

Published
1999
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14. Dynamic Radio-Frequency Transverse Susceptibility in Magnetic Nanoparticle Systems

Author

Spinu, L., Srikanth, H., Carpenter, E. E., and O'Connor, C. J.

Subjects
Condensed Matter - Materials Science
Abstract

A novel resonant method based on a tunnel-diode oscillator (TDO) is used to study the dynamic transverse susceptibility in a Fe nanoparticle system. The magnetic system consists of an aggregate of nanometer-size core (Au)-shell (Fe) structure, synthesized by reverse micelle methods. Static and dynamic magnetization measurements carried out in order to characterize the system reveal a superparamagnetic behavior at high temperature. The field-dependent transverse susceptibility at radio-frequencies (RF), for different temperatures reveals distinct peak structure at characteristics fields (H_k, H_c) which changes with temperature. It is proposed that relaxation processes could explain the influence of the temperature on the field dependence of the transverse susceptibility on the MI., Comment: 3 pages, 2-column, 3 figures, To be published in J. Appl. Phys. 2000 (44th Annual MMM proceedings)

Published
1999
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25. Structural magnetic characterizations of coprecipitated Ni-Zn and Mn-Zn ferrite nanoparticles

Author

Rao, B. Parvatheeswara, Kim, Chong-Oh, Kim, CheolGi, Dumitru, I., Spinu, L., and Caltun, O.F.

Subjects
Nanotechnology -- Magnetic properties, Ferromagnetism -- Research, Magnetization -- Research, Nanoparticles -- Magnetic properties, Electromagnetism -- Research, Business, Electronics, Electronics and electrical industries
Abstract

Two mixed ferrite systems, namely [Ni.sub.0.65][Zn.sub.035][Fe.sub.2][O.sub.4] (Ni-Zn) and [Mn.sub.075][Zn.sub.0.18][Fe2.07][O.sub.4] (Mn-Zn) have been prepared by coprecipitation method, and then the resulting ultrafine powders were heat treated at different temperatures from 200 to 800 [degrees]C for improved crystallinity and magnetic properties. The samples were characterized by X-ray diffraction, vibrating sample magnetometry, and ferromagnetic resonance spectrometry. As a result of the heat treatment, the average particle size has been found to increase from 9.9 to 15.7 nm for Ni-Zn ferrites and from 2.4 to 10.2 nm for Mn-Zn ferrites, and the corresponding magnetization values have increased from 9.1 to 23 emu/g for Ni-Zn ferrites and from 7.9 to 11.7 emu/g for Mn-Zn ferrites, respectively. The results are discussed in the light of changes in particle size and inversion degree parameter for cationic distribution at nanoscales. Index Terms--Coercivity, coprecipitation, ferromagnetic resonance linewidth and magnetic materials, magnetization, Ni-Zn and Mn-Zn ferrite nanoparticles.

Published
2006

33. Micromagnetic calculation of the transverse susceptibility of patterned media

Author

Spinu, L., Cimpoesu, D., Stoleriu, L., and Stancu, A.

Subjects
Electromagnetism -- Research, Business, Electronics, Electronics and electrical industries
Abstract

A micromagnetic model based on the Landau-Lifshitz--Gilbert (LLG) equation for the transverse susceptibility (TS) of particulate media is presented. The model is able to take into account virtually any type of anisotropy including uniaxial, cubic, and unidirectional (exchange anisotropy), or any combinations of these anisotropies. The magnetostatic interaction between particles is also considered using a fast Fourier technique. The model is used to calculate the TS signal for two-dimensional arrays of particles (patterned media) with uniaxial and cubic anisotropy. It is shown that the effect of interaction strongly affects the TS signal for these magnetic systems. Index Terms--Cubic anisotropy, patterned media, transverse susceptibility, uniaxial anisotropy.

Published
2003

35. RF dynamics in nanoparticle systems with tuned strength of interactions

Author

Spinu, L., Tung, L.D., Kolesnichenko, V., Fang, J., Stancu, A., and O'Connor, C.J.

Subjects
Cobalt -- Research, Magnetism -- Research, Platinum compounds, Particles, Business, Electronics, Electronics and electrical industries
Abstract

The dynamic response in a large experimental time window ([10.sup.-6]-[10.sup.2] s) of Co and CoPt nanoparticle systems is reported. In order to reveal the dynamics effects, along with classic experiments as a.c. susceptibility and static magnetic measurements, a rf temperature dependent transverse susceptibility experiment is used. To study the effect of interaction between particles, samples of Co and CoPt nanoparticles dispersed in an insulated matrix in different volume fractions were investigated. Index Terms--Dynamic properties, interparticle interactions, magnetic nanoparticles, transverse susceptibility.

Published
2002

36. Phase transition and magnetotransport properties of ball-milled half-metallic CrO2

Author

K.-Y. Wang, Spinu, L., J. He, W. Zhou, W. Wang, and J. Tang

Subjects
Magnetoresistance -- Analysis, Chromium dioxide -- Electric properties, Phase transformations (Statistical physics) -- Analysis, Physics
Abstract

The effects of ball milling on the size and structure of CrO2 nanoparticles are examined. The increased milling reduces low-field magnetoresistance due to the expansion of the lattice parameters of CrO2 and results in the decline of its spin polarization.

Published
2002

37. Vortex dynamics and magnetic anisotropy in RuSr2GdCu2O8

Author

Srikanth, H., Spinu, L., Kodenkandath, T., Wiley, J.B., and Tallon, J.

Subjects
Polycrystalline semiconductors -- Research, Physics
Abstract

Research into the synthesis and characterization of polycrystalline RuSr2GdCu2O8 materials is presented. It is concluded that flux lattice dynamics dominate the response in the superconducting state.

Published
2001

42. Dynamic radio-frequency transverse susceptibility in magnetic nanoparticle systems

Author

Spinu, L., Srikanth, H., Carpenter, E.E., and O'Connor, C.J.

Subjects
Oscillators (Electronics) -- Research, Diodes -- Thermal properties, Nanotechnology -- Research, Physics
Abstract

A novel resonant method based on a tunnel-diode oscillator is used to study the dynamic transverse susceptibility in a Fe nanoparticle system. Characteristic peaks at anisotropy fields are observed and their temperature evolution shows a systematic trend.

Published
2000

44. Synthesis, structure, and magnetic properties of [variant_greek_epsilon]-Co nanocrystalline thin films and annealing effects.

Author

Nie, X., Jiang, J. C., Meletis, E. I., Tung, L. D., and Spinu, L.

Subjects
THIN films, AMORPHOUS substances, COBALT
Abstract

Cobalt (Co) nanocrystalline thin films consisting of Co nanocrystals (NCs) embedded in an amorphous carbon matrix were directly synthesized at ambient temperature by codeposition of Co and carbon using high vacuum dual electron-beam evaporation. In the as-deposited films, Co was identified to have a cubic ε-Co structure (with a controllable particle size). After annealing at 360°C for 2 h, the Co NCs with a particle size of 5 nm in the as-deposited film were transformed into hexagonal α-Co (8 nm in size), whereas, the as-deposited Co NCs of 3 nm in size had a tendency to coalesce and interconnect to each other, forming a face-centered-cubic β-Co network. While the ε-Co NCs of 3 nm in size showed superparamagnetism at room temperature, the ε-Co NCs of 5 nm in size exhibited a ferromagnetic state due to coupling interaction or local interparticle connections. The saturation magnetization and coercivity substantially increased after annealing compared to the as-deposited films due to coarsening of Co NCs. [ABSTRACT FROM AUTHOR]

Published
2003
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48. Structural, magnetic, and electronic transport properties of [([Sr.sub.0.9][Ca.sub.0.1]).sub.3][Ru.sub.2][O.sub.7] single crystal

Author

Bin Qian, Zhe Qu, Jin Peng, Tijiang Liu, Xiaoshan Wu, Spinu, L., and Mao, Z.Q.

Subjects
Ruthenium -- Magnetic properties, Ruthenium -- Electric properties, Strontium -- Magnetic properties, Strontium -- Electric properties, Calcium compounds -- Magnetic properties, Calcium compounds -- Electric properties, Ferromagnetism -- Analysis, Physics
Abstract

The structural, magnetic, and electronic transport properties of [([Sr.sub.0.9][Ca.sub.0.1]).sub.3][Ru.sub.2][O.sub.7] are studied by using single crystals grown by a floating-zone technique. The results have shown that lattice, spin and charge degrees of freedom are coupled in this system and the band width narrowing caused by the structure distortion is responsible for the increase in the ferromagnetic correlations and the change of transport properties.

Published
2009

49. The temperature dependence of hysteretic processes in Co nanowires arrays

Author

Astefanoaei, I., Dumitru, I., Diaconu, A., Spinu, L., and Stancu, A.

Subjects
Aluminum oxide -- Thermal properties, Cobalt -- Thermal properties, Cobalt -- Electric properties, Hysteresis -- Analysis, Nanotechnology -- Research, Physics
Abstract

The temperature dependence of the hysteretic processes of Co nanowires, which is squarely ordered in an array prepared by electrodeposition in nanopores of alumina membranes, is studied. The results have shown that the thermal stress has affected the temperature dependence of the major hysteresis loop of the nanowire arrays.

Published
2008

50. Generalized reversible susceptibility tensor

Author

Dumitru, I., Stancu, A., Cimpoesu, D., and Spinu, L.

Subjects
Molecular dynamics -- Research, Magnetization -- Research, Chemical equations -- Research, Physics
Abstract

A theory of reversible susceptibility tensor based on magnetization vector dynamics as described by the Landau-Lifshitz equation of motion is presented. It is shown that the reversible transverse susceptibility is the zero frequency limit of the ferromagnetic resonance.

Published
2005

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