This presents the publications our group authored in various branches of laser-matter interaction, along with the employed simulation techniques.
Quantum formalisms and applications
Classical formalisms and applications
References
[1] T. J.-Y. Derrien, Y. Levy, and N. M. Bulgakova, in Ultrafast Laser Nanostructuring – The Pursuit of Extreme Scales (Springer, 2022).
[2] T. J.-Y. Derrien, N. Tancogne-Dejean, V. Zhukov, H. Appel, A. Rubio, and N. M. Bulgakova, Physical Review B 104, L241201 (2021), URL https://arxiv.org/pdf/2104.08971.
[3] P. Suthar, F. Trojánek, P. Malý, T. J.-Y. Derrien, and M. Kozák (2022), submitted.
[4] T. J.-Y. Derrien, T. Sarnet, M. Sentis, and T. E. Itina, Journal of Optoelectronics and Advanced Materials 12, 610 (2010), ISSN 1454-4164.
[5] A. Kabashin, T. Sarnet, D. Grojo, P. Delaporte, L. Charmasson, P. Blandin, R. Torres, T. J. Derrien, and M. Sentis, International Journal of Nanoetchnology 9 (No. 3-7), 230 (2011).
[6] T. J.-Y. Derrien, R. Torres, T. Sarnet, M. Sentis, and T. E. Itina, Applied Surface Science 258, 9487 (2012), ISSN 01694332, URL http://linkinghub.elsevier.com/retrieve/pii/S0169433211016539.
[7] A. V. Kabashin, T. Sarnet, D. Grojo, P. Delaporte, L. Charmasson, P. Blandin, R. Torres, T. J.-Y. Derrien, and M. Sentis, International Journal of Nanotechnology 9, 230 (2012), URL http://www.inderscienceonline.com/doi/abs/10.1504/IJNT.2012.045329.
[8] T. J.-Y. Derrien, T. E. Itina, R. Torres, T. Sarnet, and M. Sentis, J. Appl. Phys. 114, 083104 (2013).
[9] T. J.-Y. Derrien, J. Krüger, T. E. Itina, S. Höhm, A. Rosenfeld, and J. Bonse, Optics Express 24, 29643 (2013).
[10] T. J.-Y. Derrien, R. Koter, J. Krüger, S. Höhm, A. Rosenfeld, and J. Bonse, J. Appl. Phys. 116, 074902 (2014), ISSN 0021-8979, 1089-7550, URL http://scitation.aip.org/content/aip/journal/jap/116/7/10.1063/1.4887808.
[11] T. J.-Y. Derrien, J. Krüger, T. E. Itina, S. Höhm, A. Rosenfeld, and J. Bonse, Applied Physics A 117, 77 (2014).
[12] I. Gnilitskyi, T. J.-Y. Derrien, Y. Levy, N. M. Bulgakova, T. Mocek, and L. Orazi, Scientific reports 7, 8485 (2017).
[13] Y. Levy, T. J.-Y. Derrien, N. M. Bulgakova, E. L. Gurevich, and T. Mocek, Applied Surface Science 374, 157 (2016), ISSN 01694332, URL http://linkinghub.elsevier.com/retrieve/pii/S0169433215025787.
[14] K. A. Drogowska-Horna, I. Mirza, A. Rodriguez, P. KovařÃček, J. Sládek, T. J.-Y. Derrien, M. Gedvilas, G. Račiukaitis, O. Frank, N. M. Bulgakova, et al., Nano Research 13, 2332 (2020), URL https://doi.org/10.1007/s12274-020-2852-3.
[15] J. Sládek, Y. Levy, T. J.-Y. Derrien, Z. Bryknar, and N. M. Bulgakova, Applied Surface Science p. 154664 (2022).
[16] S. Gräf, C. Kunz, S. Engel, T. Derrien, and F. Müller, Materials 11, 1340 (2018).
[17] I. Gnilitskyi, L. Orazi, T. J.-Y. Derrien, N. M. Bulgakova, and T. Mocek, Method of ultrafast laser writing of highly-regular periodic structures on metallic materials (2016), URL https://patentscope.wipo.int/search/en/detail.jsf?docId=WO18010707.
[18] S. Maragkaki, T. J.-Y. Derrien, Y. Levy, N. M. Bulgakova, A. Ostendorf, and E. L. Gurevich, Applied Surface Science 417, 88 (2017), ISSN 01694332, URL http://linkinghub.elsevier.com/retrieve/pii/S0169433217304191.
[19] A. V. Dostovalov, T. J.-Y. Derrien, F. Přeučil, T. Mocek, V. P. Korolkov, S. A. Babin, and N. M. Bulgakova, Journal of Physics: Conference Series 1092, 012025 (2018), ISSN 1742-6588, 1742-6596, URL http://stacks.iop.org/1742-6596/1092/i=1/a=012025?key=crossref.750cd32f32ed5053ee33f28fc076c208.
[20] A. V. Dostovalov, T. J.-Y. Derrien, S. A. Lizunov, F. Přeučil, K. A. Okotrub, T. Mocek, V. P. Korolkov, S. A. Babin, and N. M. Bulgakova, Applied Surface Science 491, 650 (2019), ISSN 01694332, URL https://linkinghub.elsevier.com/retrieve/pii/S0169433219314795.
[21] X. Sedao, T. J.-Y. Derrien, G. R. B. E. Romer, B. Pathiraj, and A. J. H. int Veld, Journal of Applied Physics 112, 103111 (2012).
[22] X. Sedao, T. J.-Y. Derrien, G. R. B. E. Romer, B. Pathiraj, and A. J. Huis int Veld, Applied Physics A 111, 701 (2013), ISSN 0947-8396, 1432-0630, URL http://link.springer.com/10.1007/s00339-013-7651-1.
[23] T. J.-Y. Derrien and N. Bulgakova, Proc. SPIE 10228, 102280E (2017).
[24] M. V. Shugaev, M. He, S. A. Lizunov, Y. Levy, T. J.-Y. Derrien, V. P. Zhukov, N. M. Bulgakova, and L. V. Zhigilei, Insights into laser-materials interaction through modeling on atomic and macroscopic scales (Springer, 2018), vol. 274 of Materials Science, chap. Advances in the Application of Lasers in Materials Science, pp. 107–148.
[25] K. Hlinomaz, Y. Levy, T. J.-Y. Derrien, and N. M. Bulgakova, Modern Machinery (MM) Science Journal December 2019, 3585 (2019).
[26] K. Hlinomaz, Y. Levy, T. J.-Y. Derrien, and N. M. Bulgakova, International Journal of Heat and Mass Transfer 196, 123292 (2022).
[27] T. J.-Y. Derrien, J. Krüger, and J. Bonse, Journal of Optics 18, 115007 (2016), URL http://dx.doi.org/10.1088/2040-8978/18/11/115007.
[28] T. Sarnet, T. J.-Y. Derrien, R. Torres, P. Delaporte, F. Torregrosa, M. Sher, Y. Lin, B. Franta, G. Deng, and E. Mazur, in EU PVSEC 2013, 28th European Photovoltaic Solar Energy Conference and Exhibition (2013), pp. 1882–1886, URL http://mazur-www.harvard.edu/publications.php?function=display&rowid=719.
[29] N. S. Shcheblanov, T. J.-Y. Derrien, and T. E. Itina, AIP Conference Proceedings 1464, 79 (2012).
[1] Derrien, Thibault J.-Y. and Bulgakova, Nadezhda, “Modeling of silicon in femtosecond laser-induced modification regimes: accounting for ambipolar diffusion”, Proc. SPIE 10228 (2017), pp. 102280E-1.
[2] Derrien, T. J.-Y., Sarnet, T., Sentis, M., and Itina, T. E., “Application of a two-temperature model for the investigation of the periodic structure formation on Si surface in femtosecond…”, Journal of Optoelectronics and Advanced Materials 12, 3 (2010), pp. 610-615.
[3] Derrien, T. J.-Y., Torres, R., Sarnet, T., Sentis, M., and Itina, T. E., “Formation of femtosecond laser induced surface structures on silicon: Insights from numerical modeling and single pulse experim…”, Applied Surface Science 258, 23 (2012), pp. 9487–9490.
[4] Derrien, Thibault J.-Y., Itina, Tatiana E., Torres, Rémi, Sarnet, Thierry, and Sentis, Marc, “Possible surface plasmon polariton excitation under femtosecond laser irradiation of Silicon”, J. Appl. Phys. 114 (2013), pp. 083104.
[5] Derrien, Thibault J.-Y., Krüger, Jörg, Itina, Tatiana E., Höhm, Sandra, Rosenfeld, Arkadi, and Bonse, Jörn, “Rippled area formed by surface plasmon polaritons upon femtosecond laser double-pulse irradiation of silicon”, Optics Express 24 (2013), pp. 29643-29655.
[6] Derrien, T. J.-Y., Koter, R., Krüger, J., Höhm, S., Rosenfeld, A., and Bonse, J., “Plasmonic formation mechanism of periodic 100-nm-structures upon femtosecond laser irradiation of silicon in water”, J. Appl. Phys. 116, 7 (2014), pp. 074902.
[7] Derrien, Thibault J.-Y., Krüger, Jörg, Itina, Tatiana E., Höhm, Sandra, Rosenfeld, Arkadi, and Bonse, Jörn, “Rippled area formed by surface plasmon polaritons upon femtosecond laser double-pulse irradiation of silicon: the role of carri…”, Applied Physics A 117 (2014), pp. 77.
[8] Derrien, Thibault J-Y, Krüger, Jörg, and Bonse, Jörn, “Properties of surface plasmon polaritons on lossy materials: lifetimes, periods and excitation conditions”, Journal of Optics 18, 11 (2016), pp. 115007.
[9] Derrien, T. J.-Y., Tancogne-Dejean, N., Zhukov, V.P., Appel, H, Rubio, A., and Bulgakova, N. M., “Photoionization and transient Wannier-Stark ladder in silicon: First principle simulations versus Keldysh theory”, Physical Review B 104 (2021), pp. L241201.
[10] Derrien, T. J.-Y., Levy, Y., and Bulgakova, N. M., “Insights into laser-matter interaction from inside: wealth of processes, multiplicity of mechanisms and possible roadmaps for e…”, in Ultrafast Laser Nanostructuring – The Pursuit of Extreme Scales (Springer, 2022).
[11] Dostovalov, A. V., Derrien, T. J.-Y., Přeučil, F., Mocek, T., Korolkov, V. P., Babin, S. A., and Bulgakova, N. M., “The evidence of the role of surface plasmon polaritons in formation of femtosecond highly-regular laser-induced periodic struct…”, Journal of Physics: Conference Series 1092 (2018), pp. 012025.
[12] Dostovalov, Alexander V., Derrien, Thibault J.-Y., Lizunov, Sergey A., Přeučil, Filip, Okotrub, Konstantin A., Mocek, Tomáš, Ko…, “LIPSS on thin metallic films: New insights from multiplicity of laser-excited electromagnetic modes and efficiency of metal…”, Applied Surface Science 491 (2019), pp. 650–658.
[13] Drogowska-Horna, Karolina A., Mirza, Inam, Rodriguez, Alvaro, KovařÃček, Petr, Sládek, Juraj, Derrien, Thibault J.-Y., Gedvila…, “Periodic surface functional group density on graphene via laser-induced substrate patterning at Si/SiO$_2$ interface”, Nano Research 13 (2020), pp. 2332.
[14] Gnilitskyi, Iaroslav, Orazi, Leonardo, Derrien, Thibault J.-Y., Bulgakova, Nadezhda M., and Mocek, Tomas, “Method of ultrafast laser writing of highly-regular periodic structures on metallic materials” (2016).
[15] Gnilitskyi, I., Derrien, T. J.-Y., Levy, Y., Bulgakova, N. M., Mocek, T., and Orazi, L., “High-speed manufacturing of highly regular femtosecond laser-induced periodic surface structures: physical origin of regularity.”, Scientific reports 7, 1 (2017), pp. 8485.
[16] Gräf, Stephan, Kunz, Clemens, Engel, Sebastian, Derrien, Thibault, and Müller, Frank, “Femtosecond Laser-Induced Periodic Surface Structures on Fused Silica: The Impact of the Initial Substrate Temperature”, Materials 11, 8 (2018), pp. 1340.
[17] Hlinomaz, Kryštof, Levy, Yoann, Derrien, Thibault J.-Y., and Bulgakova, Nadezha M., “Modeling the melting threshold of Mo films upon ultrashort laser irradiation”, Modern Machinery (MM) Science Journal December 2019 (2019), pp. 3585–3593.
[18] Hlinomaz, Kryštof, Levy, Yoann, Derrien, Thibault J.-Y., and Bulgakova, Nadezha M., “Modeling thermal response of Mo thin films upon single femtosecond laser irradiation: dynamics of film melting and substrate so…”, International Journal of Heat and Mass Transfer 196 (2022), pp. 123292.
[19] Kabashin, A.V., Sarnet, T., Grojo, D., Delaporte, Ph., Charmasson, L., Blandin, P., Torres, R., Derrien, T. JY., and Sentis, M., “Laser-ablative nanostructuring of Surfaces”, International Journal of Nanoetchnology 9 (No. 3-7) (2011), pp. 230–245.
[20] Kabashin, A. V., Sarnet, T., Grojo, D., Delaporte, Ph, Charmasson, L., Blandin, P., Torres, R., Derrien, T. J.-Y., and Sentis, …, “Laser-ablative nanostructuring of surfaces”, International Journal of Nanotechnology 9, 3-7 (2012), pp. 230–245.
[21] Levy, Yoann, Derrien, Thibault J.-Y., Bulgakova, Nadezhda M., Gurevich, Evgeny L., and Mocek, Tomáš, “Relaxation dynamics of femtosecond-laser-induced temperature modulation on the surfaces of metals and semiconductors”, Applied Surface Science 374 (2016), pp. 157–164.
[22] Maragkaki, Stella, Derrien, Thibault J.-Y., Levy, Yoann, Bulgakova, Nadezhda M., Ostendorf, Andreas, and Gurevich, Evgeny L., “Wavelength dependence of picosecond laser-induced periodic surface structures on copper”, Applied Surface Science 417 (2017), pp. 88–92.
[23] Sarnet, T., Derrien, T. J.-Y., Torres, R., Delaporte, P., Torregrosa, F., Sher, M., Lin, Y., Franta, B., Deng, G., and Mazur, E., “Black silicon for photovoltaic cells: towards a high-efficiency silicon solar cell”, in EU PVSEC 2013, 28th European Photovoltaic Solar Energy Conference and Exhibition (2013), pp. 1882-1886.
[24] Sedao, X., Derrien, Thibault J.-Y., Romer, G. R. B. E., Pathiraj, B., and int Veld, A. J. Huis, “Parallel laser surface texturing by a simple transportable micro-sphere arrays”, Journal of Applied Physics 112 (2012), pp. 103111.
[25] Sedao, X., Derrien, T. J.-Y., Romer, G. R. B. E., Pathiraj, B., and int Veld, A. J. HuisÂ, “Large area laser surface micro/nanopatterning by contact microsphere lens arrays”, Applied Physics A 111 (2013), pp. 701–709.
[26] Shcheblanov, Nikita S., Derrien, Thibault J.-Y., and Itina, Tatiana E., “Femtosecond laser interactions with semiconductor and dielectric materials”, AIP Conference Proceedings 1464 (2012), pp. 79.
[27] Shugaev, Maxim V., He, Miao, Lizunov, Sergey A., Levy, Yoann, Derrien, Thibault J.-Y., Zhukov, Vladimir P., Bulgakova, Nadezhda…, “Insights into laser-materials interaction through modeling on atomic and macroscopic scales”, Springer (2018), 107–148.
[28] Sládek, J., Levy, Y., Derrien, T. J.-Y., Bryknar, Z., and Bulgakova, N. M., “Silicon surface patterning by regular stripes of laser-induced periodic surface structures”, Applied Surface Science (2022), pp. 154664.
[29] Suthar, P., Trojánek, F., Malý, P., Derrien, T. J.-Y., and Kozák, M., “Polarization and carrier-envelope phase dependent reflective high harmonic generation in silicon” (2022).