242,546 research outputs found

    Informality and the Development and Demolition of Urban Villages in the Chinese Peri-urban Area

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    The fate of Chinese urban villages (chengzhongcun) has recently attracted both research and policy attention. Two important unaddressed questions are: what are the sources of informality in otherwise orderly Chinese cities; and, will village redevelopment policy eliminate informality in the Chinese city? Reflecting on the long-established study of informal settlements and recent research on informality, it is argued that the informality in China has been created by the dual urban-rural land market and land management system and by an underprovision of migrant housing. The redevelopment of chengzhongcun is an attempt to eliminate this informality and to create more governable spaces through formal land development; but since it fails to tackle the root demand for unregulated living and working space, village redevelopment only leads to the replication of informality in more remote rural villages, in other urban neighbourhoods and, to some extent, in the redeveloped neighbourhoods. © 2012 Urban Studies Journal Limited

    Renormalization of transition matrix elements of particle number operators due to strong electron correlation

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    Renormalization of non-magnetic and magnetic impurities due to electron double occupancy prohibition is derived analytically by an improved Gutzwiller approximation. Non-magnetic impurities are effectively weakened by the same renormalization factor as that for the hopping amplitude, whereas magnetic impurities are strengthened by the square root of the spin-exchange renormalization factor, in contrast to results by the conventional Gutzwiller approximation. We demonstrate it by showing that transition matrix elements of number operators between assumed excited states and between an assumed ground state and excited states are renormalized differently than diagonal matrix elements. Deviation from such simple renormalization with a factor is also discussed. In addition, as related calculation, we correct an error in treatment of renormalization of charge interaction in the literature. Namely, terms from the second order of the transition matrix elements are strongly suppressed. Since all these results do not depend on the signs of impurity potential or charge interaction parameter, they are valid both in attractive and repulsive cases.Comment: 12 page

    Possible Weyl fermions in the magnetic Kondo system CeSb

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    Materials where the electronic bands have unusual topologies allow for the realization of novel physics and have a wide range of potential applications. When two electronic bands with linear dispersions intersect at a point, the excitations could be described as Weyl fermions which are massless particles with a particular chirality. Here we report evidence for the presence of Weyl fermions in the ferromagnetic state of the low-carrier density, strongly correlated Kondo lattice system CeSb, from electronic structure calculations and angle-dependent magnetoresistance measurements. When the applied magnetic field is parallel to the electric current, a pronounced negative magnetoresistance is observed within the ferromagnetic state, which is destroyed upon slightly rotating the field away. These results give evidence for CeSb belonging to a new class of Kondo lattice materials with Weyl fermions in the ferromagnetic state.Comment: 18 pages, 4 figures, Supplementary Information available from journal link (open access

    Orbital-resolved vortex core states in FeSe Superconductors: calculation based on a three-orbital model

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    We study electronic structure of vortex core states of FeSe superconductors based on a t2g_{2g} three-orbital model by solving the Bogoliubov-de Gennes(BdG) equation self-consistently. The orbital-resolved vortex core states of different pairing symmetries manifest themselves as distinguishable structures due to different quasi-particle wavefunctions. The obtained vortices are classified in terms of the invariant subgroups of the symmetry group of the mean-field Hamiltonian in the presence of magnetic field. Isotropic ss and anisotropic ss wave vortices have G5G_5 symmetry for each orbital, whereas dx2y2d_{x^2-y^2} wave vortices show G6G^{*}_{6} symmetry for dxz/yzd_{xz/yz} orbitals and G5G^{*}_{5} symmetry for dxyd_{xy} orbital. In the case of dx2y2d_{x^2-y^2} wave vortices, hybridized-pairing between dxzd_{xz} and dyzd_{yz} orbitals gives rise to a relative phase difference in terms of gauge transformed pairing order parameters between dxz/yzd_{xz/yz} and dxyd_{xy} orbitals, which is essentially caused by a transformation of co-representation of G5G^{*}_{5} and G6G^{*}_{6} subgroup. The calculated local density of states(LDOS) of dx2y2d_{x^2-y^2} wave vortices show qualitatively similar pattern with experiment results. The phase difference of π4\frac{\pi}{4} between dxz/yzd_{xz/yz} and dxyd_{xy} orbital-resolved dx2y2d_{x^2-y^2} wave vortices can be verified by further experiment observation

    Sustainability in design: now! Challenges and opportunities for design research, education and practice in the XXI century

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    Copyright @ 2010 Greenleaf PublicationsLeNS project funded by the Asia Link Programme, EuropeAid, European Commission
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