User Portlet

I have over 30 years of experience conducting research on diverse topics in theoretical physics. My interests include quantum computing, the quantum physics of atoms and photons, mathematical physics, quantum evolution, Lie algebras, and spintronics in semiconductors. I am highly motivated to contribute to advancing knowledge in quantum computing and quantum technologies. Throughout my career, I have developed mathematical models and algorithms to explore the mechanisms underlying quantum phenomena in various physical systems, including quantum dots, single defects in semiconductors, and atomic systems. My work includes a quantum algorithm for determining the evolution of the density matrix based on the von Neumann equation, machine learning-assisted tools for spintronic solid-state devices, and algorithms for analyzing the dynamics of multilevel atomic systems. These efforts reflect my deep interest in blending theoretical physics with practical applications. Collaborations with INSA Toulouse and IFUNAM Mexico have significantly broadened my interdisciplinary perspective. Beyond my research activities, I take great pride and joy in mentoring underprivileged science and engineering students from UAM Azcapotzalco, teaching many hours of mathematics, physics, and computer science courses, and supervising numerous bachelor's, master's, and Ph.D. theses. Many of my former students have gone on to become promising emerging scientists. As a multilingual professional fluent in Spanish, English, and French, I thrive in collaborative, multicultural environments and am eager to contribute to impactful projects. I am particularly interested in opportunities where I can apply my expertise in quantum mechanics and computational modeling to tackle complex challenges, collaborating with experimental groups to integrate theoretical insights with practical applications. My ultimate goal is to make meaningful contributions to initiatives that bridge theoretical research with technological advancement.