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个人简介
After finishing my degree in Physics (Universidad de Granada, Spain, 2010), I started a MSci. program in Mathematics (Universidad de Salamanca, Spain), which provided me with specific skills in advanced mathematics, particularly in differential geometry.
Later, in 2011, I had the opportunity to join the IFISC institute for interdisciplinary research and complex systems in Palma de Mallorca (Spain) under the supervision of D. Gomila to study the dynamics of localized structures (LSs) in spatially extended systems driven out of thermodynamic equilibrium. The outcome of that research was published in Physical Review Letters [Phys. Rev. Lett. 110, 064103]. During this period, I discovered the richness and beauty of behavior triggered by nonlinearity, and I decided to pursue this further.
In 2013, I was awarded with a Research Foundation Flanders (FWO) PhD fellowship, and in October the same year, I started a joint PhD between the Universitat de les Illes Balears (UIB, Spain) and the Vrije Universiteit Brussel (VUB, Belgium). At that time, my research project focused on the study of nonlinear spatiotemporal phenomena arising in driven dispersive Kerr cavities, with special attention to LSs formation and dynamics. In 2014, I spent two months working with E. Knobloch at the University of California, Berkeley (US), from whom I learned a great deal in bifurcation and applied dynamical systems theory that I have been using ever since. Applying this approach, I was able to unveil the bifurcation structure (BS) and stability of LSs arising in these systems, which led to a better understanding of their dynamics. I showed, for the first time, that dark states undergo a BS known as collapsed snaking [Op. Lett. 41, 2402 (2016); Phys. Rev. A 93, 063839 (2016)], while bright ones suffer a complex transition leading to the destruction of the so-called homoclinic snaking [Phys. Rev. A 89, 043813 (2014); Phys. Rev. E 97, 042204 (2018)]. These results were key to explain/guide different experimental observations (e.g., [Optica, 7, 1195–1203 (2020)]).
In March 2017, I obtained my European PhD diploma in Physics by the UIB and my PhD diploma in Sciences by the VUB, both with honors (Cum Laude). By that time, I was the first author of 10 peer-review articles, most of them originated from my own ideas.
In September 2017, I was awarded a one-year postdoctoral grant at KU Leuven and a FNRS postdoctoral fellowship of three years at the Université libre de Bruxelles (ULB). This financial stability allowed me to pursue further my research in nonlinear optics and apply my knowledge to study spatial localization phenomena in other research fields. At KU Leuven, I started to investigate emergent nonlinear spatiotemporal dynamics in different reaction-diffusion systems describing, for example, plant population dynamics in dryland ecosystems [Phys. Rev. E 101 (5), 052214 (2020)], and the cell-division cycle. At ULB, my work focused on the theoretical characterization of LS formation in quadratic optical cavities. This research led to prolific scientific production [e.g., Phys. Rev. E 100 (3), 032219 (2019); Op. Lett. 44 (8), (2019), Phys. Rev. A 101, 063817 (2020); Op. Lett. 45, 20, 5856 (2020)], including two Nature Photonics publications [Nat. Phot. 15 (7), 536-541 (2021), Nat. Phot. 15 (11), 857-861 (2021)], where my theoretical findings were key to guide the experimental work carried out by the research group.
In 2021, I was awarded with an individual Marie Slowoska Curie fellowship (NOSTER), and in November the same year I joined the research group of S. Wabnitz at the Universitá la Sapienza di Roma (Italy). My goal in this project is to study the formation and stability of 3D spatiotemporal solitons, also called light bullets (LBs), in multimode (MM) waveguide systems (e.g., MM graded index fibers). Recently, we have theoretically demonstrated that dissipative LBs can be stabilized in diffractive-dispersive Kerr cavities in the presence of a parabolic potential [arXiv:2212.13052v1].
During the last 4 years I have developed strong leading skills and autonomy, which I have demonstrated by mentoring and training different researchers. At present, I am supervising two PhD students in my former group at the ULB [Phys. Rev. A 106 (1), 013512 (2022); Chaos 32, 083103 (2022); arXiv:2301.11746v1] and leading several research lines in collaboration with F. Al Saadi (Oman), which include plant ecology [arXiv:2211.12263v1] and cancer virotherapy. Furthermore, I have been teaching different Bachelor and Master courses in physics and engineering (> 140h), at VUB, ULB and La Sapienza.
At this moment, I have an h-index of 16 and >870 citations (Google Scholar), 34 publications in peer-reviewed journals, 8 pre-prints (5 of them already accepted for publication), and a collaboration network of > 40 researchers distributed worldwide.
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Laser Resonators, Microresonators, and Beam Control XXVI (2024)
arxiv(2024)
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Laser Resonators, Microresonators, and Beam Control XXVI (2024)
PHYSICAL REVIEW Ano. 3 (2024)
Laser Resonators, Microresonators, and Beam Control XXV (2023)
Optics Lettersno. 20 (2023): 5403-5403
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