923 research outputs found

    The Trajectory of Warwick Junction as a Site of Inclusivity in Post-Apartheid South Africa

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    Warwick Junction, a thriving trading hub in the inner city of Durban, has long been considered one of the best examples of collaborative urban management practices between the local government and informal traders. In a post-apartheid South Africa, there was a national desire to transform the old systems of governance, which in Warwick translated to city government institutions making an effort to include informal traders in the policymaking and management processes. This paper tracks the history of Warwick Junction, using its oppressive past to frame common perspectives of informal trade. It considers the legacy of the post-apartheid era South Africa, how it led to an effective area based management initiative, and what has transpired since. Primarily relying on interviews, it will present a variety of perspectives from a variety of stakeholders: past and present City officials, formal shopkeepers, informal traders, and leaders of local non-governmental organizations. This paper will find that the spirit of collaboration from the early period of the post-apartheid period has broken down over time. While City officials and informal traders offer different accounts, a common trend is that much work remains to be done in the Warwick area, yet the processes to complete this reform are no longer collaborative. This paper will offer some explanations for the deterioration but will ultimately suggest the need for more research regarding the management of Warwick Junction after twenty years of democratic rule

    Band-filling effect on magnetic anisotropy using a Green's function method

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    We use an analytical model to describe the magnetocrystalline anisotropy energy (MAE) in solids as a function of band filling. The MAE is evaluated in second-order perturbation theory, which makes it possible to decompose the MAE into a sum of transitions between occupied and unoccupied pairs. The model enables us to characterize the MAE as a sum of contributions from different, often competing terms. The nitridometalates Li2_{2}[(Li1x_{1-x}Tx_{x})N], with TT=Mn, Fe, Co, Ni, provide a system where the model is very effective because atomic like orbital characters are preserved and the decomposition is fairly clean. Model results are also compared against MAE evaluated directly from first-principles calculations for this system. Good qualitative agreement is found

    Optimizing Tc in the (Mn,Cr,Ga)As and (Mn,Ga)(As,P) Ternary Alloys

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    We explore two possible ways to enhance the critical temperature TcT_c in the dilute magnetic semiconductor Mn0.08_{0.08}Ga0.92_{0.92}As. Within the context of the double-exchange and RKKY pictures, the ternary alloys Mnx_{x}Cr0.08x_{0.08-x}Ga0.92_{0.92}As and Mn0.08_{0.08}Ga0.92_{0.92}Asy_yP1y_{1-y} might be expected to have TcT_c higher than the pseudobinary Mn0.08_{0.08}Ga0.92_{0.92}As. To test whether the expectations from model pictures are confirmed, we employ linear response theory within the local-density approximation to search for theoretically higher critical temperatures in these ternary alloys. Our results show that neither co-doping Mn with Cr, nor alloying As with P improves TcT_c. Alloying with Cr is found to be deleterious to the TcT_c. Mn0.08_{0.08}Ga0.92_{0.92}Asy_yP1y_{1-y} shows almost linear dependence of TcT_c on yy.Comment: 10 pages, 5 figure

    Role of nematicity in controlling spin fluctuations and superconducting Tc in bulk FeSe

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    Bulk FeSe superconducts inside a nematic phase, that sets in through an orthorhombic distortion of the high temperature tetragonal phase. Bulk non-alloy tetragonal superconducting FeSe does not exist as yet. This raises the question whether nematicity is fundamental to superconductivity. We employ an advanced ab-initio ability and show that bulk tetragonal FeSe can, in principle, superconduct at almost the same Tc as the orthorhombic phase had that been the ground state. Further, we perform rigorous benchmarking of our theoretical spin susceptibilities against experimentally observed data over all energies and relevant momentum direction. We show that susceptibilities computed in both the tetragonal and orthorhombic phases already have the correct momentum structure at all energies, but not the desired intensity. The enhanced nematicity that simulates the correct spin fluctuation intensity can only lead to a maximum 10-15% increment in the superconducting Tc . Our results suggest while nematicity may be intrinsic property of the bulk FeSe, is not the primary force driving the superconducting pairing.Comment: 5 page, 4 figure

    Spin excitations in K2_{2}Fe4+x_{4+x}Se5_{5}: linear response approach

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    Using \emph{ab initio} linear response techniques we calculate spin wave spectra in K2_{2}Fe4+x_{4+x}Se5_{5}, and find it to be in excellent agreement with a recent experiment. The spectrum can be alternatively described rather well by localized spin Hamiltonian restricted to first and second nearest neighbor couplings. We confirm that exchange coupling between nearest neighbor Fe magnetic moments is strongly anisotropic, and show directly that in the ideal system this anisotropy has itinerant nature which can be imitated by introducing higher order terms in effective localized spin Hamiltonian (biquadratic coupling). In the real system, structural relaxation provides an additional source of the exchange anisotropy of approximately the same magnitude. The dependence of spin wave spectra on filling of Fe vacancy sites is also discussed

    Interfacial contributions to spin-orbit torque and magnetoresistance in ferromagnet/heavy-metal bilayers

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    The thickness dependence of spin-orbit torque and magnetoresistance in ferromagnet/heavy-metal bilayers is studied using the first-principles nonequilibrium Green’s function formalism combined with the Anderson disorder model. A systematic expansion in orthogonal vector spherical harmonics is used for the angular dependence of the torque. The dampinglike torque in Co/Pt and Co/Au bilayers can be described as a sum of the spin-Hall contribution, which increases with thickness in agreement with the spin-diffusion model, and a comparable interfacial contribution. The magnetoconductance in the plane perpendicular to the current in Co/Pt bilayers is of the order of a conductance quantum per interfacial atom, exceeding the prediction of the spin-Hall model by more than an order of magnitude. This suggests that the “spin-Hall magnetoresistance,” similarly to the dampinglike torque, has a large interfacial contribution unrelated to the spin-Hall effect

    Ab-initio Prediction of Conduction Band Spin Splitting in Zincblende Semiconductors

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    We use a recently developed self-consistent GWGW approximation to present systematic \emph{ab initio} calculations of the conduction band spin splitting in III-V and II-V zincblende semiconductors. The spin orbit interaction is taken into account as a perturbation to the scalar relativistic hamiltonian. These are the first calculations of conduction band spin splittings based on a quasiparticle approach; and because the self-consistent GWGW scheme accurately reproduces the relevant band parameters, it is expected to be a reliable predictor of spin splittings. The results are compared to the few available experimental data and a previous calculation based on a model one-particle potential. We also briefly address the widely used {\bf k}\cdot{\bf p} parameterization in the context of these results.Comment: 9 pages, 1 figur

    All-electron self-consistent GW approximation: Application to Si, MnO, and NiO

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    We present a new kind self-consistent GW approximation (scGW) based on the all-electron, full-potential LMTO method. By iterating the eigenfunctions of the GW Hamiltonian, self-consistency in both the charge density and the quasiparticle spectrum is achieved. We explain why this form of self-consistency should be preferred to the conventional one. Then some results for Si are shown as a representative semiconductor, to establish agreement with a prior scGW calculation. Finally we consider many details in the electronic structure of the antiferromagnetic insulators MnO and NiO. Excellent agreement with experiment is shown for many properties, suggesting that a Landau quasiparticle (energy band) picture of MnO and NiO provides a reasonable description of electronic structure even in these correlated materials.Comment: 5 pages, 3 figure
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