Jose Alejandro Amaya Palacio scite author profile

Jose Alejandro Amaya Palacio

4Publications

21Citation Statements Received

104Citation Statements Given

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Affiliations

The University of Texas Rio Grande Valley, Universidade de São Paulo, Association of the Technological Integrated Systems Laboratory

Publications

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On persistence of superoscillations for the Schrödinger equation with time‐dependent quadratic Hamiltonians

Hight

Oraby

Palacio

et al. 2019

Math Methods in App Sciences

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In this work, we prove the persistence in time of superoscillations for the Schrödinger equation with time-dependent coefficients. In order to prove the persistence of superoscillations, we have conditioned the coefficients to satisfy a Riccati system, and we have expressed the solution as a convolution operator in terms of solutions of this Riccati system. Further, we have solved explicitly the Cauchy initial value problem with three different kinds of superoscillatory initial data. The operator is defined on a space of entire functions. Particular examples include Caldirola-Kanai and degenerate parametric harmonic oscillator Hamiltonians, and other examples could include Hamiltonians not self-adjoint. For these examples, we have illustrated numerically the convergence on real and imaginary parts. KEYWORDS closed and approximate solutions to the Schrödinger equation, evolution of superoscillations, Fourier and Fourier-Stieltjes transforms and other transforms of Fourier type, operators on function spaces, superoscillating functions MSC CLASSIFICATION 81Q05; 47B38; 42A38n (x, 0) = (cos(x∕n) + ia sin(x∕n)) n *Aharonov is also well-known by the Aharonov-Bohm effect.

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CMMSE on explicit and numerical solutions for stochastic PDEs: Fisher and Burgers equations

Suazo

Oraby

Palacio

2020

Comp and Math Methods

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Area optimized CORDIC-based numerically controlled oscillator for electrical bio-impedance spectroscopy

Carvalho

Palacio

Noije

2016

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Exact and numerical solution of stochastic Burgers equations with variable coefficients

Flores¹,

Hight²,

Olivares-Vargas³

et al. 2020

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