F
Fernando Flores
Researcher at Autonomous University of Madrid
Publications - 382
Citations - 10083
Fernando Flores is an academic researcher from Autonomous University of Madrid. The author has contributed to research in topics: Scanning tunneling microscope & Electron. The author has an hindex of 48, co-authored 378 publications receiving 9785 citations. Previous affiliations of Fernando Flores include Complutense University of Madrid & Spanish National Research Council.
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Model-independent theory of surface plasmons
Fernando Flores,F Garcia-Moliner +1 more
TL;DR: In this article, an electromagnetic analysis of a black-box type yields a general model-independent surface plasmon dispersion relation, which confirms and extends the validity of Harris and Griffin's formula 2 in terms of the charge density fluctuation and its dipole moment, but it shows furthermore that there is an extra term due to surface current fluctuations.
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Metal–insulator transition in one-dimensional In-chains on Si(111): combination of a soft shear distortion and a double-band Peierls instability
TL;DR: In this paper, the most stable geometries for the (4 × 1) and ( 4 × 2) phases of the In/Si(111) surface have been reanalysed using DFT-annealing.
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Theory of ballistic electron emission microscopy
TL;DR: In this paper, the authors reviewed the present status of theories for interpreting experimental ballistic electron emission microscopy (BEEM) data and discussed the importance of an accurately computed transmission coeAcient at the metal-semiconductor interface, when aiming to obtain absolute BEEM currents.
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Electrochemical-potential variations across a constriction.
TL;DR: Etude plus particuliere du cas d'une chaine unidimensionnelle joignant deux reseaux de Bethe de coordination quatre depend de l'interference entre la transmitivite de the chaine et de the reflectivite au contact chaine-reservoir.
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Blue shift of the dipolar plasma resonance in small silver particles on an alumina surface.
TL;DR: Surface reflectance spectroscopy performed on an alumina surface covered by silver particles shows a blue shift of the dipolar plasma resonance in very small silver spheres, and theoretical calculations which take into account the surface-diffuseness effect or quantum-size effect reproduce the experimental shift.