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A Trajectory Description of Quantum Processes. I. Fundamentals
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The article was published on 2012-03-31 and is currently open access. It has received 81 citations till now. The article focuses on the topics: Open quantum system & Quantum probability.read more
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Applied Bohmian mechanics
TL;DR: In this article, the authors present a large list of examples showing how the Bohmian formalism provides a useful solution in different forefront research fields for this kind of problems (where the Bohmanian and the quantum hydrodynamic formalisms coincide).
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Bonding, Reactivity, and Dynamics in Confined Systems
TL;DR: The current Feature Article analyzes aspects of confinement with a special emphasis on the work done by the research group, thereby affecting its reactivity as well as various response properties as compared to the cases of corresponding unconfined systems.
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Dividing line between quantum and classical trajectories in a measurement problem: Bohmian time constant
TL;DR: A generalized logarithmic nonlinear Schrödinger equation is proposed to describe the time evolution of a quantum dissipative system under continuous measurement, and a solution to this equation reveals a novel result: it displays a time constant that should represent the dividing line between the quantum and classical trajectories.
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Bohmian-trajectory analysis of high-order-harmonic generation: Ensemble averages, nonlocality, and quantitative aspects
TL;DR: Wu et al. as mentioned in this paper performed a Bohmian-trajectory analysis of high-order harmonic generation (HHG), focusing on the fact that typical HHG spectra are best reproduced by the Bohmians trajectory starting at the innermost part of the core.
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Dissipative Bohmian mechanics within the Caldirola-Kanai framework: A trajectory analysis of wave-packet dynamics in viscid media
Ángel S. Sanz,R. Martinez-Casado,H. C. Peñate-Rodríguez,G. Rojas-Lorenzo,Salvador Miret-Artés +4 more
TL;DR: In this paper, a Bohmian analysis of the associated friction dynamics is provided in order to understand how a purely quantum viscid medium would act on a wave packet from a (quantum) hydrodynamic viewpoint.