Listar Artículos por autor "Lobo Checa, Jorge"
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A chemically inert Rashba split interface electronic structure of C-60, FeOEP and PTCDA on BiAg2/Ag(111) substrates
Cottin, Maren C.; Lobo Checa, Jorge; Schaffert, Johannes; Bobisch, Christian A.; Mölle, Rolf; Ortega Conejero, José Enrique ; Walter, Andrew L. (IOP Publishing, 2014-04-04)The fields of organic electronics and spintronics have the potential to revolutionize the electronics industry. Finding the right materials that can retain their electrical and spin properties when combined is a technological ... -
Metallic thin films on stepped surfaces: lateral scattering of quantum well states
Schiller, Frederik; Abd El-Fattah, Z. M.; Schirone, S.; Lobo Checa, Jorge; Urdanpilleta Landaribar, Marta; Ruiz-Osés, M.; Cordón Velaz, Javier; Corso, Martina; Sánchez-Portal, D.; Mugarza, Aitor; Ortega Conejero, José Enrique (IOP Publishing, 2014-12-10)Quantum well states of Ag films grown on stepped Au(111) surfaces are shown to undergo lateral scattering, in analogy with surface states of vicinal Ag(111). Applying angle resolved photoemission spectroscopy we observe ... -
Searching for kagome multi-bands and edge states in a predicted organic topological insulator
Hernández López, Leyre; Piquero Zulaica, Ignacio; Downing, Charles A.; Piantek, Marten; Fujii, Jun; Serrate, David; Ortega Conejero, José Enrique ; Bartolomé, Fernando; Lobo Checa, Jorge (Royal Society of Chemistry, 2021-03-18)Recently, mixed honeycomb-kagome lattices featuring metal-organic networks have been theoretically proposed as topological insulator materials capable of hosting nontrivial edge states. This new family of so-called "organic ... -
Surface state tunable energy and mass renormalization from homothetic quantum dot arrays
Piquero Zulaica, Ignacio; Li, Jun; Abd El-Fattah, Z. M.; Solianyk, Leonid; Gallardo Arrieta, Iker; Monjas, Leticia; Hirsch, Anna K. H.; Arnau Pino, Andrés ; Ortega Conejero, José Enrique ; Stohr, Meike; Lobo Checa, Jorge (Royal Society of Chemistry, 2019-12-28)Quantum dot arrays in the form of molecular nanoporous networks are renowned for modifying the electronic surface properties through quantum confinement. Here we show that, compared to the pristine surface state, the band ...