Your search keyword '"Bao, L."' showing total 2 results

1. Kondo hybridisation and the origin of metallic states at the (001) surface of SmB6

Author

Frantzeskakis, E., de Jong, N., Zwartsenberg, B., Huang, Y. K., Pan, Y., Zhang, X., Zhang, J. X., Zhang, F. X., Bao, L. H., Tegus, O., Varykhalov, A., de Visser, A., and Golden, M. S.

Subjects

Condensed Matter - Materials Science

Abstract

SmB6, a well-known Kondo insulator, has been proposed to be an ideal topological insulator with states of topological character located in a clean, bulk electronic gap, namely the Kondo hybridisation gap. Seeing as the Kondo gap arises from many body electronic correlations, this would place SmB6 at the head of a new material class: topological Kondo insulators. Here, for the first time, we show that the k-space characteristics of the Kondo hybridisation process is the key to unravelling the origin of the two types of metallic states observed directly by ARPES in the electronic band structure of SmB6(001). One group of these states is essentially of bulk origin, and cuts the Fermi level due to the position of the chemical potential 20 meV above the lowest lying 5d-4f hybridisation zone. The other metallic state is more enigmatic, being weak in intensity, but represents a good candidate for a topological surface state. However, before this claim can be substantiated by an unequivocal measurement of its massless dispersion relation, our data raises the bar in terms of the ARPES resolution required, as we show there to be a strong renormalisation of the hybridisation gaps by a factor 2-3 compared to theory, following from the knowledge of the true position of the chemical potential and a careful comparison with the predictions from recent LDA+Gutzwiler calculations. All in all, these key pieces of evidence act as triangulation markers, providing a detailed description of the electronic landscape in SmB6, pointing the way for future, ultrahigh resolution ARPES experiments to achieve a direct measurement of the Dirac cones in the first topological Kondo insulator., Comment: 9 pages, 4 Figures and supplementary material (including Movies and CORPES13 "best prize" poster)

Published

2013

2. Study of beta-delayed 3-body and 5-body breakup channels observed in the decay of ^11Li

Author

Madurga, M., Borge, M. J. G., Angelique, J. C., Bao, L., Bergmann, U., Bută, A., Cederkäll, J., Diget, C. Aa., Fraile, L. M., Fynbo, H. O. U., Jeppesen, H. B., Jonson, B., Maréchal, F., Marqués, F. M., Nilsson, T., Nyman, G., Perrot, F., Riisager, K., Tengblad, O., Tengborn, E., Turrión, M., and Wilhelmsen, K.

Subjects

Nuclear Experiment

Abstract

The beta-delayed charged particle emission from ^11Li has been studied with emphasis on the three-body n+alpha+^6He and five-body 2alpha+3n channels from the 10.59 and 18.15 MeV states in ^11Be. Monte Carlo simulations using an R-matrix formalism lead to the conclusion that the ^AHe resonance states play a significant role in the break-up of these states. The results exclude an earlier assumption of a phase-space description of the break-up process of the 18.15 MeV state. Evidence for extra sequential decay paths is found for both states., Comment: 16 pages, 9 figures. Submitted to Nuclear Physics A

Published

2008