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Perfil investigador
Esp
Dr. Alejandro Kunold Bello

Professor
Departament of Basic Sciences

Division of Basic Sciences and Engineering


Level 2
Member of the National System of Researchers
(SNII)

Physics-Mathematics and Earth Sciences

Azcapotzalco Campus

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Academic Work

• ORCID
• Google scholar
• ResearchGate
• Scopus

Sites of interest

• Academic record on campus

Academic Group

• Theoretical physics and condensed matter


Sustainable Development Goals

• 3 Good Health and Well-being

• 8 Decent Work and Economic Growth

• 9 Industry, Innovation and Infrastructure

• 10 Reduced Inequality

• 11 Sustainable Cities and Communities

• 12 Responsible Consumption and Production


Research interests

• 2D Dirac Materials
• Spin dynamics in semiconductors
• 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.



Information provided by the academic staff

Research interests

• 2D Dirac Materials
• Spin dynamics in semiconductors
• Lie algebraic approach to time evolution quant

Academic Work

On the following pages you can consult the research work:

• Google scholar
See publications
• ResearchGate
See publications
• Scopus
See publications
• ORCID
See publications


Other sites of interest

Consult the research work on other websites:


• Academic record on campus
See information


Academic Group

Consult the information provided by the Academic Group

• Theoretical physics and condensed matter
See information



Some examples of publications

Select the bibliographic reference to consult each publication:


Open Access References UN SDGs
Sandoval-Santana, J.C., Ibarra-Sierra, V.G., Carrère, H. and 7 more (...) (2022).Light helicity probed through spin dependent recombination in GaAsN alloys. Journal of Luminescence,251
OAAguirre-Perez, A., Joshya, R.S., Carrère, H. and 4 more (...) (2022).Machine learning assisted GaAsN circular polarimeter. Journal of Optics (United Kingdom),24(4)
OAIbarra-Sierra, V.G., Sandoval-Santana, J.C., Kunold, A. and 2 more (...) (2022).Dirac materials under linear polarized light: Quantum wave function time evolution and topological Berry phases as classical charged particles trajectories under electromagnetic fields. JPhys Materials,5(1)
OAJoshya, R.S., Carrère, H., Ibarra-Sierra, V.G. and 7 more (...) (2021).Chiral Photodetector Based on GaAsN. Advanced Functional Materials,31(27)
OAIbarra-Sierra, V.G., Sandoval-Santana, J.C., Joshya, R.S. and 8 more (...) (2021).Polarization-Sensitive Photodetector Based on GaAs1-x Nx. Physical Review Applied,15(6)
OASandoval-Santana, J.C., Ibarra-Sierra, V.G., Kunold, A. and 1 more (...) (2020).Floquet spectrum for anisotropic and tilted Dirac materials under linearly polarized light at all field intensities. Journal of Applied Physics,127(23)
OASandoval-Santana, J.C., Ibarra-Sierra, V.G., Carrère, H. and 8 more (...) (2020).Electron-nucleus spin-correlation conservation of spin-dependent recombination in Ga2+ centers. Physical Review B,101(7)
Ibarra-Sierra, V.G., Sandoval-Santana, J.C., Velasco-Martínez, D. and 2 more (...) (2020).Rising and lowering operator approach to the problem of a charged particle in a uniform magnetic field. European Physical Journal Plus,135(2)
OAJimenez-Trejo, G., Kunold, A. (2020).Analysis of Singularities and Internal Dynamics of Electron Beams. Journal of Physics: Conference Series,1540(1)
OAKunold, A., Sandoval-Santana, J.C., Ibarra-Sierra, V.G. and 1 more (...) (2020).Floquet spectrum and electronic transitions of tilted anisotropic Dirac materials under electromagnetic radiation: Monodromy matrix approach. Physical Review B,102(4)
OASandoval-Santana, J.C., Ibarra-Sierra, V.G., Cardoso, J.L. and 3 more (...) (2019).Method for Finding the Exact Effective Hamiltonian of Time-Driven Quantum Systems. Annalen der Physik,531(8)
OAIbarra-Sierra, V.G., Sandoval-Santana, J.C., Kunold, A. and 1 more (...) (2019).Dynamical band gap tuning in anisotropic tilted Dirac semimetals by intense elliptically polarized normal illumination and its application to 8-Pmmn borophene. Physical Review B,100(12)
Ivchenko, E.L., Kalevich, V.K., Kunold, A. and 3 more (...) (2019).Hyperfine Interaction and Shockley–Read–Hall Recombination in Semiconductors. Semiconductors,53(9) 1175-1181
OAAzaizia, S., Carrère, H., Sandoval-Santana, J.C. and 8 more (...) (2018).Electron-nuclear coherent spin oscillations probed by spin-dependent recombination. Physical Review B,97(15)
Sandoval-Santana, J.C., Ibarra-Sierra, V.G., Azaizia, S. and 8 more (...) (2018).Electron-nuclear spin dynamics of Ga centers in GaAsN dilute nitride semiconductors probed by pump-probe spectroscopy. European Physical Journal Plus,133(3)
Ibarra-Sierra, V.G., Sandoval-Santana, J.C., Azaizia, S. and 8 more (...) (2018).Spin-filtering effect in GaAsN: electron-nuclear spin dynamics of Ga3+ centers. Journal of Materials Science: Materials in Electronics,29(18) 15307-15314
OAIbarra-Sierra, V.G., Sandoval-Santana, J.C., Azaizia, S. and 8 more (...) (2017).Electron-nuclear spin dynamics of Ga2+ paramagnetic centers probed by spin-dependent recombination: A master equation approach. Physical Review B,95(19)
OASandoval-Santana, J.C., Ibarra-Sierra, V.G., Cardoso, J.L. and 1 more (...) (2016).Time evolution of two-dimensional quadratic Hamiltonians: A Lie algebraic approach. Journal of Mathematical Physics,57(4)
OAVelasco-Martínez, D., Ibarra-Sierra, V.G., Sandoval-Santana, J.C. and 2 more (...) (2016).Singularities and internal rotational dynamics of electron beams. Physical Review A,94(6)
Ibarra-Sierra, V.G., Sandoval-Santana, J.C., Cardoso, J.L. and 1 more (...) (2015).Lie algebraic approach to the time-dependent quantum general harmonic oscillator and the bi-dimensional charged particle in time-dependent electromagnetic fields. Annals of Physics,36283-117
Velasco-Martínez, D., Ibarra-Sierra, V.G., Sandoval-Santana, J.C. and 2 more (...) (2014).Constants of motion for the planar orbit of a charged particle in a static and uniform magnetic field: The magnetic Laplace-Runge-Lenz vector. European Journal of Physics,35(5)
OASandoval-Santana, C., Balocchi, A., Amand, T. and 3 more (...) (2014).Room-temperature optical manipulation of nuclear spin polarization in GaAsN. Physical Review B - Condensed Matter and Materials Physics,90(11)
OAIbarra-Sierra, V.G., Anzaldo-Meneses, A., Cardoso, J.L. and 3 more (...) (2013).Quantum and classical dissipation of charged particles. Annals of Physics,33586-107
Kunold, A., Torres, M. (2013).The role of inelastic processes in the temperature dependence of hail induced resistance oscillations. Physica B: Condensed Matter,42578-82

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Courses offered

*Courses are conducted in spanish

Num.Trim.Course NameLevel
1
22O
ÓpticaLicenciatura
2
22O
Dinámica del Cuerpo RígidoLicenciatura
3
22O
ÓpticaPosgrado
4
22P
ÓpticaLicenciatura
5
22P
Temas Selectos de Ingeniería Física IIILicenciatura
6
22P
Fundamentos de Física de MaterialesPosgrado
7
22I
ElectromagnetismoLicenciatura
8
22I
Física CuánticaPosgrado
9
21O
ElectromagnetismoLicenciatura
10
21O
ÓpticaLicenciatura
11
21P
Dinámica del Cuerpo RígidoLicenciatura
12
21P
Propiedades Eléctricas y Magnéticas de los MaterialesLicenciatura
13
21P
ÓpticaLicenciatura
14
21I
ElectromagnetismoLicenciatura
15
21I
Dinámica del Cuerpo RígidoLicenciatura
16
21I
Propiedades Eléctricas, Magnéticas y Ópticas de los MaterialesPosgrado
17
20O
Cálculo DiferencialLicenciatura
18
20O
Propiedades Eléctricas, Magnéticas y Ópticas de los MaterialesPosgrado
19
20P
ElectromagnetismoLicenciatura
20
20P
Temas Selectos de Ingeniería Física IIILicenciatura
21
20P
Propiedades Eléctricas, Magnéticas y Ópticas de los MaterialesPosgrado
22
20I
Dinámica del Cuerpo RígidoLicenciatura
23
20I
ÓpticaPosgrado
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Rectoría
Azcapotzalco
Cuajimalpa
Iztapalapa
Lerma
Xochimilco

Universidad Autónoma Metropolitana, 2024.