Ignacio S. Gomez scite author profile

A noninteracting quantum-dot array side coupled to a quantum wire is studied. Transport through the quantum wire is investigated by using a noninteracting Anderson tunneling Hamiltonian. The conductance at zero temperature develops an oscillating band with resonances and antiresonances due to constructive and destructive interference in the ballistic channel, respectively. Moreover, we have found an odd-even parity in the system, whose conductance vanishes for an odd number of quantum dots while it becomes 2e 2 /h for an even number. We established an explicit relation between this odd-even parity and the positions of the resonances and antiresonances of the conductivity with the spectrum of the isolated quantum-dot array.

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Electron transport across a Gaussian superlattice

Gomez

Domı́nguez-Adame

Díez

et al. 1999

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We study the electron transmission probability in semiconductor superlattices where the height of the barriers is modulated by a Gaussian profile. Such structures act as efficient energy band-pass filters and, contrary to previous designs, it is expected to present a lower number of unintentional defects and, consequently, better performance. The j–V characteristic presents negative differential resistance with peak-to-valley ratios much greater than in conventional semiconductor superlattices.

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Towards a definition of the Quantum Ergodic Hierarchy: Kolmogorov and Bernoulli systems

Gomez

Castagnino

2014

Physica A: Statistical Mechanics and its Applications

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Universality classes for the Fisher metric derived from relative group entropy

Gomez

Portesi

Borges

2020

Physica A: Statistical Mechanics and its Applications

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κ-Deformed quantum and classical mechanics for a system with position-dependent effective mass

Costa

Gomez

Portesi

2020

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We present the quantum and classical mechanics formalisms for a particle with a position-dependent mass in the context of a deformed algebraic structure (named κ-algebra), motivated by the Kappa-statistics. From this structure, we obtain deformed versions of the position and momentum operators, which allow us to define a point canonical transformation that maps a particle with a constant mass in a deformed space into a particle with a position-dependent mass in the standard space. We illustrate the formalism with a particle confined in an infinite potential well and the Mathews-Lakshmanan oscillator, exhibiting uncertainty relations depending on the deformation.

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On the classical limit of quantum mechanics, fundamental graininess and chaos: Compatibility of chaos with the correspondence principle

Gomez

Castagnino

2014

Chaos, Solitons & Fractals

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The aim of this paper is to review the classical limit of Quantum Mechanics and to precise the well known threat of chaos (and fundamental graininess) to the correspondence principle. We will introduce a formalism for this classical limit that allows us to find the surfaces defined by the constants of the motion in phase space. Then in the integrable case we will find the classical trajectories, and in the non-integrable one the fact that regular initial cells become "amoeboid-like". This deformations and their consequences can be considered as a threat to the correspondence principle unless we take into account the characteristic timescales of quantum chaos. Essentially we present an analysis of the problem similar to the one of Omnès [10,11], but with a simpler mathematical structure.

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Electron States in a Class of One-Dimensional Random Binary Alloys

Domı́nguez-Adame

Gomez

Avakyan

et al. 2000

phys. stat. sol. (b)

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Probability density correlation for PDM-Hamiltonians and superstatistical PDM-partition functions

et al. 2021

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Ignacio S. Gomez

Transport through a quantum wire with a side quantum-dot array

Electron transport across a Gaussian superlattice

Towards a definition of the Quantum Ergodic Hierarchy: Kolmogorov and Bernoulli systems

Universality classes for the Fisher metric derived from relative group entropy

κ-Deformed quantum and classical mechanics for a system with position-dependent effective mass

On the classical limit of quantum mechanics, fundamental graininess and chaos: Compatibility of chaos with the correspondence principle

Electron States in a Class of One-Dimensional Random Binary Alloys

Probability density correlation for PDM-Hamiltonians and superstatistical PDM-partition functions

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