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Ignacio R. Sola
Researcher at Complutense University of Madrid
Publications - 106
Citations - 2147
Ignacio R. Sola is an academic researcher from Complutense University of Madrid. The author has contributed to research in topics: Adiabatic process & Excited state. The author has an hindex of 22, co-authored 101 publications receiving 1926 citations. Previous affiliations of Ignacio R. Sola include Weizmann Institute of Science & Princeton University.
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SHARC: ab Initio Molecular Dynamics with Surface Hopping in the Adiabatic Representation Including Arbitrary Couplings
TL;DR: A semiclassical surface-hopping method which is able to treat arbitrary couplings in molecular systems including all degrees of freedom is presented, in very good agreement with those calculated from exact quantum dynamical simulations.
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Femtosecond Intersystem Crossing in the DNA Nucleobase Cytosine.
TL;DR: Intersystem crossing (ISC) is found to compete directly with internal conversion in tens of femtoseconds, thus making cytosine the organic compound with the fastest triplet population calculated so far.
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Control of ultrafast molecular photodissociation by laser-field-induced potentials
M. E. Corrales,Jesús González-Vázquez,Garikoitz Balerdi,Ignacio R. Sola,R. de Nalda,Luis Bañares +5 more
TL;DR: This work explores the transition from the weak- to the strong-field regimes of laser control for the dissociation of a polyatomic molecule, methyl iodide, and finds that the control over the yield of the photodissociation reaction proceeds through the creation of a light-induced conical intersection.
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Optimal pulse sequences for population transfer in multilevel systems
Ignacio R. Sola,Ignacio R. Sola,Vladimir S. Malinovsky,Vladimir S. Malinovsky,David J. Tannor +4 more
TL;DR: In this article, different mechanisms of adiabatic population transfer in N-level systems by means of optimal control algorithms are studied using two-dimensional topographic maps of the yield of population transfer as a function of time delay and intensity of the pulses.
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Selective excitation of vibrational states by shaping of light-induced potentials
TL;DR: A method for population transfer using intense, ultrafast laser pulses for a three-state model of the sodium dimer by careful shaping of light-induced potentials (LIPs).