Projects

Projects I Have Participated In

1. Advanced Electromagnetic Computational Simulator (UGRFDTD)

From July 23, 2012, to March 15, 2014, I worked on this project in collaboration with the company EADS Construcciones Aeronáuticas S.A. under the supervision of the lead researchers, Prof. Salvador González García and Dr. Amelia Consuelo Rubio Bretones. My work focused on advanced electromagnetic simulation for receiving and transmitting antennas located in aircraft fuselages operating in the terahertz range.

2. HIRF SE - HIRF Synthetic Environment

From February 15, 2011, to May 31, 2013, I participated in this project, which was funded by the European Commission with a budget of 379,000 euros. My work focused on researching electromagnetic compatibility in the aeronautical context. More details about the project can be found at the following link: HIRF SE - Project Details.

3. TERASEMS Project

From February 15, 2011, to March 31, 2013, I participated in the TERASEMS project, focused on monitoring and electromagnetic applications of terahertz technology. This project was funded with 121,000 euros by the Ministry of Science and Innovation of Spain under the direction of Prof. Rafael Antonio Gómez Martín.

4. TERALAB: Terahertz Technology

From July 9, 2013, to December 31, 2014, I participated in TERALAB, a numerical laboratory for the design and simulation of photoconductive antennas in the terahertz range. This project, led by Mario Alberto Fernández Pantoja, was funded with 185,923 euros by the Andalusian Government's Department of Economy, Innovation, and Science.

5. Advanced Numerical Techniques for Electromagnetic Compatibility in Aeronautics

From January 1, 2014, to January 1, 2018, I participated full-time in this project under the supervision of my thesis advisor, Amelia Consuelo Rubio Bretones. My work focused on modeling thin cables inside army aircraft.

6. Development of Ultrafast Receivers in Heterodyne Reception

From March 2018 to March 2021, I was funded by the Chilean National Fund for Scientific and Technological Development. I developed algorithms to model and design ultrafast receivers in the infrared range, based on metal-insulator-metal junctions.

7. Postdoctoral Research in France

During my postdoctoral stay in France, I worked on the interaction of pulsed terahertz electromagnetic radiation on metallic structures in diffraction-free Bessel beam configurations.

8. Postdoctoral Research at the Czech Technical University

My last postdoctoral position was at the Czech Technical University in Prague, where I worked on the topological optimization of antennas and antenna arrays.

9. Memristor Modeling for the IHP Institute

During these years, I also worked on the modeling and simulation of memristors. I reached a confidentiality agreement with the German IHP Institute for my models to be used in their research. More information is available on their website: IHP Microelectronics.

10. Memristor Modeling and Simulation (PID2022-139586NB-C44)

I am currently working on the modeling and simulation of memristors as part of the project "Physical Modeling and Simulation of Memristive Devices" with reference PID2022-139586NB-C44. Since May 22, 2024, following a change in my affiliation, I have been serving as "Researcher from Another Entity" (Group 3) within the research team. This project, led by the principal investigator, aims to deepen the study of the physical properties of memristive devices, which are key to the development of new technologies in artificial intelligence and data storage.

11. Additional Document

You can view and download an additional document summarizing the projects (up until 2018) I have worked on through the following link: Download Project PDF.

You can view and download an additional document summarizing the projects (after 2018) I have worked on through the following link: Download Project PDF.

Agreement with IHP: Download Project PDF.

You can view and download an additional document summarizing the current project through the following link: Download JB_UPM Project PDF.