About Myself

I am a Master and Ph.D. in Physical Sciences with a strong background that encompasses Pure Mathematics, Statistics, Programming, and Physics of the highest standard. Currently, I work as a Data Scientist alongside an international group of physicists called PhyData. We carry out projects focused on the Python language, with an emphasis on machine learning, and we assist in the integration of scientists in the field. Additionally, I do research in the area of Theoretical Physics where I have published highly impactful manuscripts and have collaborated with pioneering international groups in the field. I currently hold the position of Associate Professor at the Institute of Physics at PUCV, where I teach Python programming and Physics for the Computer Engineering program.

As Data Scientist

I have undertaken various projects to enhance my skills as a Data Scientist, covering diverse areas such as medical data, Netflix data, environmental data, Bitcoin prices, and user data from webpages. These projects are implemented using Deepnote notebooks, which are published on Deepnote and also available as repositories on GitHub. With the PhyData Research Group we specialize in Machine-Learning algoritms, with enfasis on time series.

• Deepnote Personal Proyects
• GitHub Repository
• PhyData Proyects

Courses

• Google Advanced Data Analytics (In development)
• Data Analysis with Python Certificate
• Scrum Fundamentals Certificate
• English C1 Advanced Certificate

As Researcher

I work as a Theoretical Physicist specializing in the areas of Supergravity and Black Holes. My manuscripts have been published in highly impactful journals, and I collaborate with pioneering international scientists.

• Black holes with topological charges in Chern-Simons AdS$_{5}$ supergravity

In this manuscript, we found new regular black holes solutions coupled with solitons of AdS Chern-Simons Supergravity. The solitons exhibit non-trivial topology, creating a soliton/anti-soliton system. Remarkably, at its extremal point, the black hole transforms into a BPS (Bogomol’nyi-Prasad-Sommerfield) solution of the theory, a characteristic that enables us to establish energetic stability for the black holes.

• BPS soliton winding around the black hole in Chern-Simons AdS$_{5}$ supergravity

In this manuscript we presented a black hole solution with a non-Abelian soliton of an especific branch of the Chern-Simons Supergravity. We computed their conserved charges and their topological properties. We found that the black hole is regular with finite energy and the soliton has a non-trivial winding around the black hole horizon. This manuscript is in revision to be published.

As Professor

I have had a very successful career as an Associate Professor. I have taught Physics at UNAB, at UPLA and PUCV. At PUCV, I was awarded the Distinguished Professor 2022 prize based on student evaluations, where I achieved the highest score among my colleagues. For most of the courses I have created several documents with the notes of the course, some of them are

• Electromagnetism
• Waves
• Thermodymanics
• Modern Physics

All the documents are in continuous development.