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Perfil investigador
Esp
Dr. Luis Alberto Hernández Rosas

Associate Professor
Departament of Physics

Division of Basic Sciences and Engineering


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

Physics-Mathematics and Earth Sciences



Iztapalapa Campus

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Academic Work

• ORCID
• Scopus


Sustainable Development Goals

• 4 Quality Education

• 8 Decent Work and Economic Growth

• 10 Reduced Inequalities


Research interests

• Hadronic properties in extreme conditions
• Phase diagram of the Quantum Chromodynamics
• Phenomenology of ultrarelativistic heavy-ion collisions
• Perturbative and non-perturbative aspects of QCD
• Quantum field theory at finite temperature

Profile

Dr. Luis Alberto Hernández Rosas obtained a Bachelor's degree in Physics in 2010 from the National Autonomous University of Mexico (UNAM), a Master's degree in Science from UNAM in 2013, and a Ph.D. in Theoretical Physics from the University of Cape Town (South Africa) in 2016. Dr. Hernández's doctoral thesis was awarded the Doctoral Medal of the Faculty of Science 2016 from the University of Cape Town and won the Joseph Arenow 2016 award.

Since 2017, Dr. Hernández has been a member of the National System of Researchers of CONAHCyT, level 1, and since 2020, he has been a member of the collaboration for the Nuclotron-based Ion Collider fAcillity (NICA) experiment at the Joint Institute for Nuclear Research in Dubna, Russia.

Dr. Hernández has co-authored over forty scientific articles in peer-reviewed journals, given talks at international workshops and conferences, and participated in organizing committees for such international events. He works in the field of high-energy physics or elementary particles, with interests in the study of hadronic matter under extreme conditions (high density and/or temperature, extreme magnetic fields, and high vorticity). Additionally, he focuses on the phenomenology of ultra-relativistic heavy-ion collisions, perturbative and non-perturbative aspects of Quantum Chromodynamics (QCD), the QCD phase diagram, and the foundations of thermal field theory.

From 2020 to 2023, Dr. Hernández was a member of the physics department at UAM Iztapalapa as a visiting professor, and currently, he is a full-time Associate Professor in the same department.



Information provided by the academic staff

Research interests

• Hadronic properties in extreme conditions
• Phase diagram of the Quantum Chromodynamics
• Phenomenology of ultrarelativistic heavy-ion collisions
• Perturbative and non-perturbative aspects of QCD
• Quantum field theory at finite temperature

Academic Work

On the following pages you can consult the research work:






Some examples of publications

Select the bibliographic reference to consult each publication:


Open Access References UN SDGs
OAHernández, L.A., Martínez-Sánchez, J.D., Zamora, R. (2026).Photon polarization tensor in presence of constant and arbitrary electric field. European Physical Journal C,86(1)
OAFernández, G., Hernández, L.A., Mizher, A. (2026).Inverse magnetic catalysis in the linear sigma model: a beyond mean field approach. Journal of Physics G: Nuclear and Particle Physics,53(3)
OAAbdulin, R., Abgaryan, V., Adhikary, R. and 440 more (...) (2025).MPD physics performance studies in Bi+Bi collisions at √sNN= 9.2 GeV. Revista Mexicana de Fisica,71(4)
Herrera, M., Patiño, M.E., Alvarado, M. and 15 more (...) (2025).Mechanical design concept version 2.0 for the miniBeBe subsystem of the Multi-Purpose Detector at the Nuclotron-based Ion Collider fAcility of the Joint Institute for Nuclear Research. Journal of Instrumentation,20(3)
OAHernández, L.A., Martínez-Sánchez, J.D., Zamora, R. (2025).Rho-meson screening mass in the presence of strong magnetic fields. Physical Review D,111(9)
OADominguez, C.A., Koning, M., Hernández, L.A. (2025).Magnetic catalysis of charmonium in the vector channel. Physical Review D,112(9) 0940491-0940498
OAHernández, L.A., Zamora, R. (2025).Vortical effects and the critical end point in the linear sigma model coupled to quark. Physical Review D,111(3)
OAAyala, A., Farias, R.L.S., Hernández, L.A. and 4 more (...) (2024).Magnetic field dependence of the neutral pion longitudinal screening mass in the linear sigma model with quarks. Physical Review D,109(7)
OAFernández, G., Hernández, L.A., Zamora, R. (2024).Magnetic corrections to the QCD coupling: Strong field approximation. Physical Review D,110(1)
OAAyala, A., Bandyopadhyay, A., Farias, R.L.S. and 2 more (...) (2023).QCD equation of state at finite isospin density from the linear sigma model with quarks: The cold case. Physical Review D,107(7)
OADominguez, C.A., Hernández, L.A. (2023).Hadronic contribution to the running QED coupling at the Z-boson mass scale. Revista Mexicana de Fisica,69(2)
OAGaspar, I.I., Hernández, L.A., Zamora, R. (2023).Chiral symmetry restoration in a rotating medium. Physical Review D,108(9)
OAAyala, A., Almeida Zamora, B., Cobos-Martínez, J.J. and 4 more (...) (2022).Collision energy dependence of the critical end point from baryon number fluctuations in the Linear Sigma Model with quarks. European Physical Journal A,58(5)
OAAyala, A., Castaño-Yepes, J.D., Hernández, L.A. and 3 more (...) (2022).Anisotropic photon emission from gluon fusion and splitting in a strong magnetic background: The two-gluon one-photon vertex. Physical Review C,106(6)
OAAyala, A., Hernández, J.L., Hernández, L.A. and 2 more (...) (2021).Magnetic field dependence of the neutral pion mass in the linear sigma model with quarks: The strong field case. Physical Review D,103(5)
OAAyala, A., Castaño-Yepes, J.D., Hernández, L.A. and 2 more (...) (2021).Gluon polarization tensor and dispersion relation in a weakly magnetized medium. European Physical Journal A,57(4)
OAAyala, A., Bernal-Langarica, S., Hernández-Ortiz, S. and 2 more (...) (2021).Lower bound for the neutrino magnetic moment from kick velocities induced at the birth of neutron stars. International Journal of Modern Physics E,30(5)
OAAyala, A., Hernández, L.A., Loewe, M. and 1 more (...) (2021).QCD phase diagram in a magnetized medium from the chiral symmetry perspective: the linear sigma model with quarks and the Nambu–Jona-Lasinio model effective descriptions. European Physical Journal A,57(7)
OAAyala, A., Hernández, L.A., Raya, K. and 1 more (...) (2021).Fermion propagator in a rotating environment. Physical Review D,103(7)

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Courses taught by the professor in recent trimesters

*Courses are conducted in spanish

Num.Trim.Course NameLevel
1
26I
Introducción a la Investigación IPosgrado
2
26I
Introducción a la Electrodinámica CuánticaPosgrado
3
26I
Temas Selectos de Mecánica CuánticaPosgrado
4
26I
Proyecto Terminal I Investigación TeóricaLicenciatura
5
26I
Introducción a la Investigación IIIPosgrado
6
26I
Introducción a la Investigación IIIPosgrado
7
26I
Introducción a Las Partículas ElementalesLicenciatura
8
25O
Física Moderna ILicenciatura
9
25O
Introducción a la Investigación IIPosgrado
10
25O
Introducción a la Investigación IIPosgrado
11
25O
Introducción al Medio ContinuoLicenciatura
12
25P
Introducción a la Investigación IPosgrado
13
25P
Relatividad EspecialLicenciatura
14
25P
Proyecto Terminal II Investigación TeóricaLicenciatura
15
25P
Proyecto Terminal II Investigación TeóricaLicenciatura
16
25P
Proyecto Terminal II Investigación TeóricaLicenciatura
17
25P
Mecánica Cuántica RelativistaLicenciatura
18
25P
Introducción a la Investigación IPosgrado
19
25P
Cosmología IPosgrado
20
25I
Proyecto Terminal I Investigación TeóricaLicenciatura
21
25I
Proyecto Terminal I Investigación TeóricaLicenciatura
22
25I
Proyecto Terminal I Investigación TeóricaLicenciatura
23
25I
Mecánica Estadística Fuera de Equilibrio IPosgrado
24
25I
Introducción a Las Partículas ElementalesLicenciatura
25
25I
Introducción a la Investigación IIIPosgrado
26
25I
Introducción a la Electrodinámica CuánticaPosgrado
27
25I
Mecánica Elemental IILicenciatura
28
24O
Ecuaciones Diferenciales Parciales y Funciones EspecialesLicenciatura
29
24O
Introducción a la Investigación IIPosgrado
30
24O
Introducción a la Investigación IIIPosgrado
31
24O
Proyecto Terminal II Investigación TeóricaLicenciatura
32
24O
Seminario de Física TeóricaLicenciatura
33
24P
Introducción a la Investigación IIPosgrado
34
24P
Temas Selectos de Mecánica CuánticaPosgrado
35
24P
Proyecto Terminal II Investigación ExperimentalLicenciatura
36
24P
Proyecto Terminal I Investigación TeóricaLicenciatura
37
24P
Proyecto Terminal I Investigación TeóricaLicenciatura
38
24P
Mecánica Cuántica IILicenciatura
39
24P
Introducción a la Investigación IIPosgrado
40
24P
Introducción a la Investigación IPosgrado
41
24P
ElectrodinámicaPosgrado
42
24I
Proyecto Terminal II Investigación ExperimentalLicenciatura
43
24I
Mecánica Estadística Fuera de Equilibrio IPosgrado
44
24I
Mecánica Cuántica ILicenciatura
45
24I
Introducción a la Investigación IPosgrado
46
24I
Introducción a la Investigación IPosgrado
47
24I
Electricidad y Magnetismo Elemental ILicenciatura
48
24I
Cosmología IPosgrado
49
24I
Introducción a la Investigación IIIPosgrado
50
23O
Ecuaciones Diferenciales Parciales y Funciones EspecialesLicenciatura
51
23O
Física Moderna ILicenciatura
52
23O
Introducción a la Electrodinámica CuánticaPosgrado
53
23O
Introducción a la Investigación IIPosgrado
54
23O
Proyecto Terminal I Investigación TeóricaLicenciatura
55
23O
Proyecto Terminal III (Teórico)Licenciatura
56
23P
Introducción al Medio ContinuoLicenciatura
57
23P
Temas Selectos de Mecánica CuánticaPosgrado
58
23P
Seminario de Física TeóricaLicenciatura
59
23P
Proyecto Terminal III (Teórico)Licenciatura
60
23P
Proyecto Terminal II Investigación TeóricaLicenciatura
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Universidad Autónoma Metropolitana, 2026.