Año
Autores / Publicación
Segovia Olvera, P., Sotelo, L., Esqueda Barrón, Y., Plata Sánchez, M. A., Ramos Camacho, N., & Camacho López, S. (2022). Femtosecond large-area fabrication of multi-phase titanium oxide LIPSS on thin films. Applied Surface Science, 606, 154762. doi: 10.1016/j.apsusc.2022.154762. (ID: 28080)
Segovia Olvera, P., Wong Gutiérrez, A., Santillán Díaz, J. R., Camacho Lopez, M., & Camacho López, S. (2021). Multi-phase titanium oxide LIPSS formation under fs laser irradiation on titanium thin films in ambient air. Optical Materials Express, 11(9), 2892-2906. doi: 10.1364/OME.431210. (ID: 27079)
Santillán Díaz, J. R., Wong Gutiérrez, A., Segovia Olvera, P., Camacho López, M., & Camacho López, S. (2020). Femtosecond laser-induced periodic surface structures formation on bismuth thin films upon irradiation in ambient air. Optical Materials Express, 10(2), 674-681. doi: 10.1364/OME.384019. (ID: 25756)
Raygoza Sánchez, K. Y., Rocha Mendoza, I., Segovia Olvera, P., Krasavin, A., Marino, G., Cesca, T., Michieli, N., Mattei, G., Zayats, A., & Rangel Rojo, R. (2019). Polarization dependence of second harmonic generation from plasmonic nanoprism arrays. Scientific Reports, 9, 11514 . doi: 10.1038/s41598-019-47970-3. (ID: 25017)
Segovia Olvera, P., Krasavin, A., Dubrovka, R., Olivier, N., Wurtz, G., Ginzburg, P., & Zayats, A. (2018). Generalization of the optical theorem: experimental proof for radially polarized beams. Revista temporal DEP, 7(36), 10. doi: 10.1038/s41377-018-0025-x. (ID: 24548)
Segovia Olvera, P., Marino, G., Krasavin, A., Ginzburg, P., Olivier, N., Wurtz, G., & Zayats, A. (2018). Second-Harmonic Generation from Hyperbolic Plasmonic Nanorod Metamaterial Slab. Revista temporal DEP, 8(12), 9. doi: 10.1002/lpor.201700189. (ID: 24552)
Ginzburg, P., ROTH, D., NASIR, M., Segovia Olvera, P., Krasavin, A., levitt, J., Hirvonen, L., WELLS, B., Suhling, K., Richards, D., Podolskiy, V., & Zayats, A. (2017). Spontaneous emission in non-local materials. Light: Science & Applications, 6(e16273). doi: 10.1038/lsa.2016.273. (ID: 22967)
Li, J. J., Krasavin, A., Webster, L., Segovia Olvera, P., Zayats, A., & Richards, D. (2016). Spectral variation of fluorescence lifetime near single metal nanoparticles. Scientific Reports, 6. doi: 10.1038/srep21349. (ID: 21506) (E)
Segovia Olvera, P., Marino, G., Krasavin, A., Olivier, N., Wurtz, G., Belov, P., Ginzburg, P., & Zayats, A. (2015). Hyperbolic metamaterial antenna for second-harmonic generation tomography. Optics Express, 23(24), 30730-30738. doi: 10.1364/OE.23.030730. (ID: 21507) (E)
Slobozhanyuk, A., Ginzburg, P., Powell, D., Iorsh, I., Shalin, A., Segovia Olvera, P., Krasavin, A., Wurtz, G., Podolskiy, V., Belov, P., & Zayats, A. (2015). Purcell effect in Hyperbolic Metamaterial Resonators. Physical Review B, 92(19). doi: 10.1103/PhysRevB.92.195127. (ID: 21585) (E)
Benetou, M., Bouillard, J., Segovia Olvera, P., Dickson, W., Thomsen, B. C., Bayve, P., & Zayats, A. (2015). Boundary effects in finite size plasmonic crystals: focusing and routing of plasmonic beams for optical communications. Nanotechnology, 26(44). doi: 10.1088/0957-4484/26/44/444001. (ID: 21588) (E)
Bouillard, J., Segovia Olvera, P., Dickson, W., Wurtz, G., & Zayats, A. (2014). Shaping plasmon beams via the controlled illumination of finite-size plasmonic crystals. Scientific Reports, 4. doi: 10.1038/srep07234. (ID: 21590) (E)
Elizondo Villarreal, N., Segovia Olvera, P., Coello Cárdenas, V. M., Arriaga, J., Belmares, S., Alcorta, A., Hernández, F., Obregón, R., Torres , E., & Paraguay , F. (2012). Green Synthesis and Characterizations of Silver and Gold Nanoparticles. In Mazaahir Kidwai and Neeraj Kumar Mishra (Eds.), Green Chemistry - Environmentally Benign Approaches (pp. 140-156). In-Tech. (ID: 21593)
Segovia Olvera, P., & Coello Cárdenas, V. M. (2012). Elastic surface plasmon polariton scattering: near and far field interactions. NANO, 7(1). doi: 10.1142/S1793292011500032. (ID: 13952)
Segovia Olvera, P., Coello Cárdenas, V. M., & Elizondo Villarreal, N. (2012). Medición del tamaño de nanopartículas metálicas usando un biosensor óptico. Reporte Ciencia Nuevo León. (ID: 15249)