Academic Group
Sustainable Development Goals
Research interests
• 2D Dirac Materials
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Spin dynamics in semiconductors
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Lie algebraic approach to time evolution quant
Profile
Professor Alejandro Kunold Bello has worked for 25 years on various topics in condensed matter and mathematical physics. He is the author of approximately 50 publications. His main achievements are the following: In collaboration with the LPCNO at INSA Toulouse, he has developed a master equation model that correctly describes the spin dynamics in GaAsN. He has shown theoretically that the nuclear spin states in GaAsN can be controlled by optical pumping of the spin of conduction band electrons. In collaboration with IFUNAM researchers, he has developed a method based on the monodromy matrix that allows the determination of quasienergies and the time evolution operator in two-dimensional Dirac materials. He has developed a new method that uses the properties of Lie algebras to find the time evolution operator and the effective Hamiltonian of quantum dynamical systems. He has developed models that correctly reproduce the main features of microwave and Hall field induced magnetoresistance. He obtained funding from CONACyT for the Quantum Hall Effect project, which he directed for two years.
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