Fine structure in the electronic density of states of Al-Ni-Co decagonal quasicrystal from ultrafast time-resolved optical reflectivity

2); 2) ((1) Jozef Stefan Institute; (2) Faculty of Mathematics; (3) Geballe Laboratory for Advanced Materials; A. Oslak (1); California; Dept. of Applied Physics; D. Mihailovic (1; I. R. Fisher (3); J. Dolinsek (1

arxiv: 0809.0764 · v2 · submitted 2008-09-04 · ❄️ cond-mat.other

Fine structure in the electronic density of states of Al-Ni-Co decagonal quasicrystal from ultrafast time-resolved optical reflectivity

T. Mertelj (1 , 2) , A. Oslak (1) , J. Dolinsek (1 , I. R. Fisher (3) , V.V. Kabanov (1) , D. Mihailovic (1 , 2) ((1) Jozef Stefan Institute

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Ljubljana Slovenia (2) Faculty of Mathematics Physics University of Ljubljana (3) Geballe Laboratory for Advanced Materials Dept. of Applied Physics Stanford University California USA)

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classification ❄️ cond-mat.other

keywords relaxationstructuredecagonaldensityelectronicevidencefindfine

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We measured the temperature and fluence dependence of the time-resolved photoinduced optical reflectivity in a decagonal Al_{71.9}Ni_{11.1}Co_{17.0} quasicrystal. We find no evidence for the relaxation of a hot thermalized electron gas as observed in metals. Instead, a quick diffusion of the hot nonthermal carries ~40 nm into the bulk is detected enhanced by the presence of a broad ~1 eV pseudogap. From the relaxation dynamics we find an evidence for the presence of a fine structure in the electronic density of states around ~13 meV from the Fermi energy. The structure is related to a weak bottleneck for the carrier relaxation observed at low temperatures.

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Fine structure in the electronic density of states of Al-Ni-Co decagonal quasicrystal from ultrafast time-resolved optical reflectivity

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