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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.
Papers
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Implementing quantum gates on oriented optical isomers.
TL;DR: The role of the entanglement phase and the robustness of the pulse sequences which depend on the area theorem are discussed and possible scenarios to generalize the schemes to n-qubit systems are suggested.
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Anomalous Rabi Oscillations in Multilevel Quantum Systems.
TL;DR: It is shown that the excitation probability of a state within a manifold of levels undergoes Rabi oscillations with the frequency determined by the energy difference between the states and not by the pulse area, for sufficiently strong pulses.
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Bond lengths of diatomic molecules periodically driven by light: the p-LAMB scheme.
TL;DR: A laser scheme using a periodically changing frequency is used to induce oscillations of the internuclear motion, which are quantum analogs of classical vibrations in diatomic molecules, or p-LAMB scheme, which is called the periodic laser adiabatic manipulation of the bond.
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The time-scale of nonlinear events driven by strong fields: can one control the spin coupling before ionization runs over?
Mirjam Falge,Patricia Vindel-Zandbergen,Volker Engel,Manfred Lein,Bo Y. Chang,Ignacio R. Sola +5 more
TL;DR: In this paper, the relation between spin coupling and ionization rate was investigated and conditions for an efficient spin control via a non-resonant Stark effect by suppressing ionization were identified.
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Ultrafast Population Inversion without the Strong Field Catch: The Parallel Transfer.
TL;DR: By properly choosing the relative phases of the initial state, one can interfere in the stimulated emission process, changing the pattern of Rabi oscillations so that full population inversion to the excited electronic state can be achieved almost regardless of the pulse intensity after a minimal threshold value.