Roberto Antonio Zamora Zamora

As a physicist, I develop theoretical frameworks for quantum fluids and quantum computing, with applications in next-generation quantum technologies for both research and industry. My work focuses on engineering topological defects (e.g., vortices, Skyrmions), quantum turbulence protocols, quantum sensing, and quantum algorithms for state manipulation in lattice models.

I earned my PhD in Physics from the National Autonomous University of Mexico (UNAM), where I conducted research under the supervision of Prof. Víctor M. Romero-Rochín. From 2019–2022, I worked as a postdoctoral researcher at Aalto University’s QCD group (led by Prof. Mikko Möttönen), collaborating with experimentalists and theorists to advance the understanding of quantum fluids. Currently, I am part of Quanscient, a scientific computing company developing next-generation multi-physics simulation software.

Through high-performance simulations, I have contribute on how spinor Bose-Einstein condensates (sBECs) can encode and stabilize topological defects and ways, sBECs, can be used as sensing probes. Additionally, at Quanscient, I contributed in key components of quantum lattice algorithms.

Future research directions that interest me include:

• Quantum-enhanced sensing using sBECs for high-precision measurements.

• Quantum algorithm development for lattice-based models (e.g., Cellular Automata, Lattice-Boltzmann Methods), leveraging the large state-space of quantum computers.

My work uses theory and simulation aiming to push quantum technologies for real-world applications.