X. Gutiérrez de la Cal scite author profile

X. Gutiérrez de la Cal

4Publications

7Citation Statements Received

100Citation Statements Given

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Affiliations

University of the Basque Country

Publications

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Klein paradox for bosons, wave packets and negative tunnelling times

Cal

Alkhateeb

Pons

et al. 2020

Sci Rep

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We analyse a little known aspect of the Klein paradox. A Klein–Gordon boson appears to be able to cross a supercritical rectangular barrier without being reflected, while spending there a negative amount of time. The transmission mechanism is demonstrably acausal, yet an attempt to construct the corresponding causal solution of the Klein–Gordon equation fails. We relate the causal solution to a divergent multiple-reflections series, and show that the problem is remedied for a smooth barrier, where pair production at the energy equal to a half of the barrier’s height is enhanced yet remains finite.

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Relativistic time-dependent quantum dynamics across supercritical barriers for Klein-Gordon and Dirac particles

et al. 2021

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Speed-up and slow-down of a quantum particle

Cal

Pons

Sokolovski

2022

Sci Rep

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We study non-relativistic propagation of Gaussian wave packets in one-dimensional Eckart potential, a barrier, or a well. In the picture used, the transmitted wave packet results from interference between the copies of the freely propagating state with different spatial shifts (delays), $$x'$$ x ′ , induced by the scattering potential. The Uncertainty Principle precludes relating the particle’s final position to the delay experienced in the potential, except in the classical limit. Beyond this limit, even defining an effective range of the delay is shown to be an impracticable task, owing to the oscillatory nature of the corresponding amplitude distribution. Our examples include the classically allowed case, semiclassical tunnelling, delays induced in the presence of a virtual state, and scattering by a low barrier. The properties of the amplitude distribution of the delays, and its pole representation are studied in detail.

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Collective Tunnelling of Strongly Interacting Cold Atoms in a Double‐Well Potential

2020

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It is known that under resonance conditions, a group of strongly interacting bosonic atoms, trapped in a double‐well potential, mimics a single particle, performing Rabi oscillations between the wells. By implication, all atoms need to tunnel at roughly the same time, even though the Bose–Hubbard Hamiltonian accounts only for one‐atom‐at‐a‐time transfers. The mechanism of this collective behavior is analyzed, the Rabi frequencies in the process are evaluated, and the limitation of this simple picture is discussed. In particular, it is shown that the small rapid oscillations superimposed on the slow Rabi cycle result from splitting the transferred cluster at the sudden onset of tunnelling, and disappear if tunnelling is turned on gradually.

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