fig. 1: lattice constant c and a vs. substrate temperature

Background: The tetrahedral coordination of Fe surrounded by 4 Se(Te) atoms is of crucial importance for the new high T C Fe pnictides superconductors with lattice parameters c and a. To reveal the essential aspects of the tetrahedron, one needs to vary the lattice parameter c and a in opposite manner, without altering the electronic properties. This can not be achieved by chemical substitution, which alters electronic properties, nor high pressure, which decreases both c and a. Control of Tetrahedral Coordination in FeSe Superconductors MRSEC (Johns Hopkins University) DMR05-20491 S. X. Huang, C. L. Chien, V. Thampy, and C. Broholm, ”Control of tetrahedral coordination and superconductivity in FeSe 0.5 Te 0.5 thin ﬁlms” Phys. Rev. Lett. 104, 217001 (2010). Fig. 1: Lattice constant c and a vs. substrate temperature for epitaxial FeSe 0.5 Te 0.5 thin ﬁlms. Fig. 2: T C of epitaxial FeSe 0.5 Te 0.5 vs. relative chalcogen height . This work: We used epitaxial thin films to achieve biaxial stress in material of the same composition but with lattice parameters c and a varying in opposite manner, as facilitated by the substrate temperature T S . We used high resolution x-ray and neutron diffraction to determine the structure details and correlate with T C . We show that the chalcogen height is the most essential quantity for T C . Neutron diffraction

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Neutron diffraction. Control of Tetrahedral Coordination in FeSe Superconductors MRSEC (Johns Hopkins University) DMR05-20491. - PowerPoint PPT Presentation

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Page 1: Fig. 1: Lattice constant c and a vs. substrate temperature

Control of Tetrahedral Coordination in FeSe Superconductors MRSEC (Johns Hopkins University) DMR05-20491

S. X. Huang, C. L. Chien, V. Thampy, and C. Broholm, ”Control of tetrahedral coordination and superconductivity in FeSe0.5Te0.5 thin films” Phys. Rev. Lett. 104, 217001 (2010).

Fig. 1: Lattice constant c and a vs. substrate temperaturefor epitaxial FeSe0.5Te0.5 thin films.

Fig. 2: TC of epitaxial FeSe0.5Te0.5 vs. relative chalcogen height .

This work: We used epitaxial thin films to achieve biaxial stress in material of the same composition but with lattice parameters c and a varying in opposite manner, as facilitated by the substrate temperature TS. We used high resolution x-ray and neutron diffraction to determine the structure details and correlate with TC. We show that the chalcogen height is the most essential quantity for TC.

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