Synthesis and crystal growth

Critical behavior in single-crystalline La0.67 Sr0.33 CoO3

Physical Review B - Condensed Matter and Materials Physics 82:6 (2010)

Authors:

N Khan, A Midya, K Mydeen, P Mandal, A Loidl, D Prabhakaran

Abstract:

The critical behavior of La0.67 Sr0.33 CoO 3 single crystal has been investigated from the bulk magnetization measurements around the Curie temperature (TC). The detailed analysis of the magnetization indicates the occurrence of a continuous ferromagnetic to paramagnetic phase transition at 223.0 K. The critical exponents β=0.361±0.007, γ=1.31±0.001, and δ=4.64±0. 01 characterizing this second order phase transition, have been estimated using different techniques such as the Kouvel-Fisher plot, the Arrott-Noaks plot, and critical isotherm analysis. With these values of TC, β, and γ, one can scale the magnetization below and above TC following a single equation of state. The consistency in the values of the critical exponents obtained from different methods and the well-obeyed scaling behavior confirm that the calculated exponents are unambiguous and purely intrinsic to the system. These values of the exponents match well with those theoretically predicted for the three-dimensional Heisenberg model with nearest-neighbor interaction. © 2010 The American Physical Society.

Antiferromagnetically spin polarized oxygen observed in magnetoelectric TbMn2O5.

Phys Rev Lett 105:8 (2010) 087203

Authors:

TAW Beale, SB Wilkins, RD Johnson, SR Bland, Y Joly, TR Forrest, DF McMorrow, F Yakhou, D Prabhakaran, AT Boothroyd, PD Hatton

Abstract:

We report the direct measurement of antiferromagnetic spin polarization at the oxygen sites in the multiferroic TbMn2O5, through resonant soft x-ray magnetic scattering. This supports recent theoretical models suggesting that the oxygen spin polarization is key to the magnetoelectric coupling mechanism. The spin polarization is observed through a resonantly enhanced diffraction signal at the oxygen K edge at the commensurate antiferromagnetic wave vector. Using the fdmnes code we have accurately reproduced the experimental data. We have established that the resonance arises through the spin polarization on the oxygen sites hybridized with the square based pyramid Mn3+ ions. Furthermore we have discovered that the position of the Mn3+ ion directly influences the oxygen spin polarization.

Resonant x-ray scattering from the 4p quadrupole moment in YVO3

Physical Review B - Condensed Matter and Materials Physics 82:2 (2010)

Authors:

TAW Beale, RD Johnson, Y Joly, SR Bland, PD Hatton, L Bouchenoire, C Mazzoli, D Prabhakaran, AT Boothroyd

Abstract:

We show that resonant scattering signals at the Bragg forbidden positions in YVO3 originate from the anisotropic nature of the atomic scattering factor. The E1-E1 scattering from the electric-quadrupole moment is explained entirely through the crystal structure and does not require sensitivity to 3d orbital order. Simulations of the resonance using the FDMNES code suggest that the Jahn-Teller distortion provides an insignificant contribution to the intensity of the forbidden reflection. Thus we show that resonant x-ray diffraction at the vanadium K -edge in YVO3 is largely insensitive, even indirectly, to 3d orbital order through Jahn-Teller distortions. © 2010 The American Physical Society.

The effects of attrition and ball milling on the properties of magnesium diboride

Superconductor Science and Technology 23:6 (2010)

Authors:

CEJ Dancer, D Prabhakaran, A Crossley, RI Todd, CRM Grovenor

Abstract:

Commercially produced magnesium diboride powder was modified by attrition milling and ball milling in propan-2-ol for various durations. These powders were characterized by means of particle size distribution measurements using laser diffraction, impurity analysis using x-ray diffraction, energy dispersive spectroscopy and x-ray photoelectron spectroscopy, and scanning electron microscopy, and were then used to produce magnesium diboride samples through pressureless heat treatment at peak temperatures up to 1100 °C. X-ray diffraction, scanning electron microscopy, Vickers hardness measurements, and density measurements using the Archimedes method were used to characterize the properties of the samples, and a determination of their superconducting properties using the magnetization method was carried out. Magnesium diboride produced from powder milled under certain conditions had a higher J c, mag than samples produced from as-purchased powder, but the relationship between the milling duration or energy and the superconducting performance is a complex one, affected by both the particle size and the impurity content of the starting powder. © 2010 IOP Publishing Ltd.

Effect of pressure on temperature-induced spin-state transition in La 1-xSrxCoO3 single crystals

Journal of Physics: Conference Series 215 (2010)

Authors:

K Mydeen, P Mandal, CQ Jin, D Prabhakaran

Abstract:

The temperature dependence of magnetization (M) and resistivity (ρ) of La1-xSrxCoO3(x=0.10, 0.33) single crystals have been analyzed. For x=0.10, the temperature dependence of field-cooled magnetization (MFC) and zero-field-cooled magnetization (M ZFC) is similar to that expected for a canonical spin-glass system. The thermal response of MZFC for x=0.33 indicates a glassy ferromagnetic state. We observe that the ferromagnetic transition temperature TC decreases and ρ increases rapidly with increasing pressure (P) for the metallic sample (x=0.33), while the dependence of ρ on P for the insulating sample (x=0.10) is quite complicated; the pressure coefficient of resistivity (dρ/dT) is sensitive to temperature and applied pressure due to the strong interplay between the pressure-induced band broadening and spin-state transition phenomenon. dρ/dT is large and negative at low-pressure and low-temperature regime while small and positive at high pressures (P>5.4 GPa) and high temperatures (T>110 K). © 2010 IOP Publishing Ltd.