Publicaciones Científicas

Articulos publicados

LGAC 1: Óptica y materiales.

Esparcimiento de luz por superficies rugosas, óptica no-lineal, polarimetría, espectroscopía óptica, ingeniería y caracterización de materiales.

  • 1. Angulo-Rocha, J., Velarde-Escobar, O., Yee-Rendón, C., Atondo-Rubio, G., Millan-Almaraz, R., Camarillo-García, E., ... & Ramos-Brito, F. (2017). Morphological, structural and optical properties of ZnO thin solid films formed by nanoleafs or micron/submicron cauliflowers. Journal of Luminescence, 185, 306-315.
  • 2. Campos-Meza, P., Atondo-Rubio, G., & Yee-Rendón, C. M. (2016). Dinámica lineal para el crecimiento de plantas y frutos con simetría definida. Lat. Am. J. Phys. Educ. Vol, 10(3), 3304-1.
  • 3. Avila‐Gaxiola, E., Avila‐Gaxiola, J., Velarde‐Escobar, O., Ramos‐Brito, F., Atondo‐Rubio, G., & Yee‐Rendon, C. (2017). Effect of drying temperature on Agave tequilana leaves: a pretreatment for releasing reducing sugars for biofuel production. Journal of Food Process Engineering, 40(3).
  • 4. Rodriguez, F. J., Rocha, J. N. A., Brito, F. R., Rendon, C. M. Y., Frutis, M. A. A., & Castillo, S. J. (2016). Thin films of CdS: Cu, morphological, optical, structural and electrical properties. Superficies y Vacío, 29(3), 62-69.
  • 5. Gutierrez Hernandez, D. A., Parra Michel, J. R., Atondo-Rubio, G., Tellez-Quinones, A., & Del Valle Hernandez, J. (2016). Fast phase retrieval by temporal phase shifting and double-digital fringe projection. JOURNAL OF OPTOELECTRONICS AND ADVANCED MATERIALS, 18(9-10), 750-756.
  • 6. Hamzeloui, S., Arias, N., Abediyeh, V., Martínez, D., Gutiérrez, M., Urunuela, E., ... & Valenzuela, V. M. (2016, March). Towards Precision Measurements at UASLP. In Journal of Physics: Conference Series (Vol. 698, No. 1, p. 012011). IOP Publishing.
  • 7. Kermany, A. R., Bennett, J. S., Valenzuela, V. M., Bowen, W. P., & Iacopi, F. (2016). Potential of epitaxial silicon carbide microbeam resonators for chemical sensing. physica status solidi (a).
  • 8. Hamzeloui, S., Martínez, D., Abediyeh, V., Arias, N., Gomez, E., & Valenzuela, V. M. (2016). Dual atomic interferometer with a tunable point of minimum magnetic sensitivity. Physical Review A, 94(3), 033634.
  • 9. Cortes-Mestizo, I. E., Espinosa-Vega, L. I., Espinoza-Figueroa, J. A., Cisneros-de-la-Rosa, A., Eugenio-Lopez, E., Mendez-Garcia, V. H., ... & Yee-Rendon, C. (2016). Determination of the depletion layer width and effects on the formation of double-2DEG in AlGaAs/GaAs heterostructures. Journal of Vacuum Science & Technology B, Nanotechnology and Microelectronics: Materials, Processing, Measurement, and Phenomena, 34(2), 02L110.
  • 10. Gutierrez Hernandez, D. A., Atondo-Ruiz, G., Parra Michel, J. R., Santiago-Montero, R., Romero, V. H., Del Valle Hernandez, J., & Ibarra Solis, I. (2015). Double-digital fringe projection for optical phase retrieval of a single frame. JOURNAL OF OPTOELECTRONICS AND ADVANCED MATERIALS, 17(9-10), 1248-1252.
  • 11. Alarcon-Flores, G., García-Hipolito, M., Aguilar-Frutis, M., Zaleta-Alejandre, E., Chacón, C., Ramos-Brito, F., ... & Falcony, C. (2015). Synthesis and characterization of Y 2 O 3: Pr 3+ phosphor powders by simple solvent evaporation. Ceramics International, 41(1), 743-748.
  • 12. Velarde-Escobar, O. J., Salas-Alcántara, K. M., Espinosa-Luna, R., Atondo-Rubio, G., & Torres-Gómez, I. (2014). Polarimetric parameters associated to commercial optical fibers. Revista mexicana de física, 60(6), 443-450.

LGAC 2: Estructura Electrónica y Magnetismo.

Magnetismo de pequeñas estructuras, de nanoestructuras metálicas, películas, monocapas, multicapas, interfaces, conglomerados, entre otros sistemas físicos. Cálculos de primeros principios. Estructura electrónica de materiales magnéticos.

  • 1. Molina-Duarte, J. J., Delgado-Nieblas, F. C., Félix-Medina, R. E., Leyva-Lucero, M. A., Meza-Aguilar, S., & Demangeat, C. (2015). Magnetism of Mn single atom and dimer on Co (0001) hcp surface: Density functional calculations. Surface Science, 642, 39-44.
  • 2. Zierau, W., Leyva-Lucero, M. A., & Maradudin, A. A. (2015). Surface waves on two-dimensional rough Neumann surfaces. Wave Motion, 59, 29-41.
  • 3. Félix-Medina, R. E., Leyva-Lucero, M. A., Meza-Aguilar, S., & Demangeat, C. (2014). Magnetism of Fe clusters embedded in Cu, Ag, and Au fcc matrices: density functional calculations. The European Physical Journal B, 1(87), 1-9.
  • 4. Zazueta, J. U. G., Medina, R. E. F., Lucero, M. A. L., Alberto, R., López, G., & Aguilar, S. M. Magnetism of Cr Impurities Embedded in Cu fcc Matrix: Density Functional Calculations.

LGAC 3: Partículas y Campos.

Gravitación, Física matemática, supercuerdas, detectores, instrumentación y altas energías. Física del quark B, física de jets, física más allá del modelo estándar, supercómputo, rayos cósmicos.

  • 1. ALICE Collaboration. (2017). Enhanced production of multi-strange hadrons in high-multiplicity proton-proton collisions. Nature Physics.
  • 2. Nieto, J. A. (2016). Remarks on the (1+ 1)-Matrix-Branes, qubit theory and non-compact Hopf maps. Revista mexicana de física, 62(3), 251-256.
  • 3. Nieto, J. A., & Espinoza, M. (2017). Dirac equation in four time and four space dimensions. International Journal of Geometric Methods in Modern Physics, 14(01), 1750014.
  • 4. Ayala, A., Dominguez, I., Jalilian-Marian, J., & Tejeda-Yeomans, M. E. (2015). Jet asymmetry and momentum imbalance from 2→ 2 and 2→ 3 partonic processes in relativistic heavy-ion collisions. Physical Review C, 92(4), 044902.
  • 5. de Florian, D., Sassot, R., Epele, M., Hernández-Pinto, R. J., & Stratmann, M. (2015). Parton-to-pion fragmentation reloaded. Physical Review D, 91(1), 014035.
  • 6. Nieto, J. A., & Beltrán, L. A. (2015). Towards an alternative gravitational theory. Modern Physics Letters A, 30(13), 1550068.
  • 7. Avila, G., Castillo, S. J., & Nieto, J. A. (2016). Geometric structure of higher-dimensional spheres. Journal of Interdisciplinary Mathematics, 19(5-6), 955-975.
  • 8. Nieto, J. A. (2014). Higher dimensional Elko theory. Revista mexicana de física, 60(5), 371-375.
  • 9. Nieto, J. A. (2014). Phirotopes, super p-branes and qubit theory. Nuclear Physics B, 883, 350-372.
  • 10. ALICE collaboration. (2014). Suppression of $\psi $(2S) production in p-Pb collisions at $\sqrt {s_ {\rm NN}} $= 5.02 TeV. arXiv preprint arXiv:1405.3796.
  • 11. Abelev, B., Wikne, J., Zhu, X., Garcia-Solis, E., Haake, R., Lattuca, A., ... & Zhang, H. (2015). Multiplicity dependence of jet-like two-particle correlation structures in p–Pb collisions at sNN= 5.02 TeV. Physics letters B, 741, 38-50.
  • 12. Abelev, B., Adam, J., Adamová, D., Aggarwal, M. M., Rinella, G. A., Agnello, M., ... & Ahmed, I. (2014). Exclusive J/ψ Photoproduction off Protons in Ultraperipheral p-Pb Collisions at s NN= 5.02 TeV. Physical review letters, 113(23), 232504.
  • 13. ALICE collaboration. (2015). Production of inclusive ϒ (1S) and ϒ (2S) in p–Pb collisions at. Physics Letters B, 740, 105-117.
  • 14. ALICE collaboration. (2014). Measurement of visible cross sections in proton-lead collisions at√ sNN= 5.02 TeV in van der Meer scans with the ALICE detector. Journal of Instrumentation, 9(11), P11003.

LGAC 4: Ingeniería Física, Instrumentación y Aceleradores.

Aplicaciones de ingeniería física, detectores de radiación, sistemas de alta velocidad/alta precisión, instrumentación nuclear, aplicaciones con hardware reconfigurable, diseño y desarrollo de fuentes de partículas cargadas para aceleradores lineales.

  • 1. ALICE collaboration. (2016). Elliptic flow of muons from heavy-flavour hadron decays at forward rapidity in Pb–Pb collisions at. Physics Letters B, 753, 41-56.
  • 2. ALICE collaboration. (2016). Study of cosmic ray events with high muon multiplicity using the ALICE detector at the CERN Large Hadron Collider. Journal of Cosmology and Astroparticle Physics, 2016(01), 032.
  • 3. Noguera-Marín, D., Moraila-Martínez, C. L., Cabrerizo-Vílchez, M., & Rodríguez-Valverde, M. A. (2016). Impact of the collective diffusion of charged nanoparticles in the convective/capillary deposition directed by receding contact lines. European Physical Journal E--Soft Matter, 39(2).
  • 4. Chavez, O., Amezquita-Sanchez, J. P., Valtierra-Rodriguez, M., Cruz-Abeyro, J. A., Kotsarenko, A., Millan-Almaraz, J. R., ... & Rojas, E. (2016). Novel ST-MUSIC-based spectral analysis for detection of ULF geomagnetic signals anomalies associated with seismic events in Mexico. Geomatics, Natural Hazards and Risk, 7(3), 1162-1174.
  • 5. Fernandez-Jaramillo, A. A., de Jesus Romero-Troncoso, R., Duarte-Galvan, C., Torres-Pacheco, I., Guevara-Gonzalez, R. G., Contreras-Medina, L. M., ... & Millan-Almaraz, J. R. (2015). FPGA-based chlorophyll fluorescence measurement system with arbitrary light stimulation waveform using direct digital synthesis. Measurement, 75, 12-22.
  • 6. Chavez, O., Millan-almaraz, J. R., Cruz-abeyro, J. A. L., & Rojas, E. (2016). Electromagnetic attenuation of eight earthquakes registered in Mexico using FFT-based spectrum and t-test statistical analysis for ULF QR ratios signals. Geomatics, Natural Hazards and Risk, 7(4), 1207-1218.
  • 7. Noguera-Marín, D., Moraila-Martínez, C. L., Cabrerizo-Vílchez, M. A., & Rodríguez-Valverde, M. A. (2015). In-plane particle counting at contact lines of evaporating colloidal drops: effect of the particle electric charge. Soft Matter, 11(5), 987-993.
  • 8. Noguera-Marín, D., Moraila-Martínez, C. L., Cabrerizo-Vílchez, M. A., & Rodríguez-Valverde, M. A. (2015). Particle Segregation at Contact Lines of Evaporating Colloidal Drops: Influence of the Substrate Wettability and Particle Charge–Mass Ratio. Langmuir, 31(24), 6632-6638.
  • 9. Valerio-Lizarraga, C. A., Leon-Monzon, I., & Scrivens, R. (2015). Negative ion beam space charge compensation by residual gas. Physical Review Special Topics-Accelerators and Beams, 18(8), 080101.
  • 10. Fink, D. A., Lettry, J., Midttun, Ø., Scrivens, R., Steyaert, D., & Valerio-Lizarraga, C. A. (2015, April). Optimization of the beam extraction systems for the Linac4 H− ion source. In AIP Conference Proceedings (Vol. 1655, No. 1, p. 030006). AIP Publishing.
  • 11. Noguera-Marín, D., Moraila-Martínez, C. L., Cabrerizo-Vílchez, M. A., & Rodríguez-Valverde, M. A. (2014). Transition from Stripe-like Patterns to a Particulate Film Using Driven Evaporating Menisci. Langmuir, 30(25), 7609-7614.
  • 12. Duarte-Galvan, C., Romero-Troncoso, R. D. J., Torres-Pacheco, I., Guevara-Gonzalez, R. G., Fernandez-Jaramillo, A. A., Contreras-Medina, L. M., ... & Millan-Almaraz, J. R. (2014). FPGA-Based Smart Sensor for Drought Stress Detection in Tomato Plants Using Novel Physiological Variables and Discrete Wavelet Transform. Sensors, 14(10), 18650-18669.
  • 13. Scrivens, R., Bellodi, G., Crettiez, O., Dimov, V., Gerard, D., Granemann Souza, E., ... & Lombardi, A. (2014). Linac4 low energy beam measurements with negative hydrogen ions a. Review of Scientific Instruments, 85(2), 02A729.
  • 14. Valerio-Lizarraga, C. A., Lallement, J. B., Leon-Monzon, I., Lettry, J., Midttun, Ø., & Scrivens, R. (2014). Space charge compensation in the Linac4 low energy beam transport line with negative hydrogen ions a. Review of Scientific Instruments, 85(2), 02A505.

Misión

Formar profesionales de la Física que posean valores de excelencia, iniciativa, responsabilidad y alto sentido crítico;que les permitan llevar a cabo la aplicación, la investigación y la divulgación de la Física; con el propósito de impulsar el desarrollo científico, tecnológico, económico y social de la región y del país.

Objetivos

Generar recursos humanos que posean, como resultado de la formación, amplios conocimientos teóricos y practicos en la Física en general. Igualmente tiene por objetivo desarrollar habilidades metodológicas básicas de divulgación, docencia, innovación tecnológica e investigación.