Pedro L. Galindo
University of Cádiz
97 Papers
586 Citations
Pedro L. Galindo is an academic researcher from University of Cádiz. The author has contributed to research in topics: Scanning transmission electron microscopy & Quantum dot. The author has an hindex of 21, co-authored 92 publications. Previous affiliations of Pedro L. Galindo include Technical University of Madrid & Pierre-and-Marie-Curie University.
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Papers
ETLP: Event-based Three-factor Local Plasticity for online learning with neuromorphic hardware
Fernando M. Quintana,Fernando Perez-Peña,Pedro L. Galindo,Emre O. Netfci,Elisabetta Chicca,Lyes Khacef +5 more
TL;DR: In this paper , the authors propose an Event-based Three-Factor Local Plasticity (ETLP) rule that uses the pre-synaptic spike trace, the postsynaptic membrane voltage and a third factor in the form of projected labels with no error calculation, that also serve as update triggers.
STEM and EELS study of the Graphene/Bi2Se3 Interface
Demie Kepaptsoglou,D. Gilks,Leonardo Lari,Quentin M. Ramasse,Pedro L. Galindo,Michael Weinert,Lian Li,Giuseppe Nicotra,Vlado K. Lazarov +8 more
TL;DR: SuperSTEM Laboratory, STFC Daresbury Campus, Warrington, WA4 4AD, UK Department of Physics, University of York, Heslington, York, YO10 5DD, UK, York JEOL Nanocentre as discussed by the authors, University of Sheffield, Sheffield, UK.
Error Quantification in Strain Mapping Methods
TL;DR: A characterization of strain mapping error near an interface is proposed based on the analogy of real state strain to a step response and a comparison of different defocus values is carried out to obtain optimal defocusing conditions.
Distribution of bismuth atoms in epitaxial GaAsBi
David L. Sales,Elisa Guerrero,J. F. Rodrigo,Pedro L. Galindo,A. Yáñez,M. Shafi,A. Khatab,R. H. Mari,Mohamed Henini,Sergei V. Novikov,M. F. Chisholm,Sergio I. Molina +11 more
TL;DR: In this article, the distribution of Bi atoms in epitaxial GaAs(1−x)Bix is analyzed through aberration-corrected Z-contrast images, showing areas where nanoclustering is possible and evidencing the location of Bi at As-substitutional positions in the lattice.
Direct observation of a surface induced disordering process in magnetic nanoparticles.
András Kovács,Kazuhisa Sato,Vlado K. Lazarov,Pedro L. Galindo,Toyohiko J. Konno,Yoshihiko Hirotsu +5 more
TL;DR: In situ electron diffraction studies show a narrow temperature range of fully ordered L1(0) structure and the formation of unusually large strain of 20% is discussed in terms of core-shell structure formation with surface disordered layer and ordered core.