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Full-time professors and Long Term members
Full-time professors and Long Term members
Websites:
Official: https://academicos.cucei.udg.mx/academicos/2708876
Google Scholar: https://scholar.google.com/citations?hl=es&user=t2_HhFwAAAAJ
Websites:
Personal: https://sites.google.com/site/sohamphysics/
Official: https://academicos.cucei.udg.mx/academicos/2959884
Google Scholar: https://scholar.google.com/citations?user=bDYD05oAAAAJ&hl=es&oi=sra
Websites:
Google Scholar: https://scholar.google.com/citations?user=lTC4sFsAAAAJ&hl=es
I am currently studying the quantization of stochastic processes, Markovian and non-Markovian dynamics in atomic lattices, and optico-quantum properties in biological systems.
Research areas: Fundamentals of the theory of open quantum systems. Markovian and non-Markovian dynamical maps. Quantum stochastic processes. Quantum biology.
Methods: Derivation of master equations and effective non-Hermitian Hamiltonians. Numerical simulations, unraveling and Monte-Carlo methods.
Websites:
Official: https://academicos.cucei.udg.mx/academicos/2951352
Google Scholar: https://scholar.google.com/citations?user=952G6xMAAAAJ&hl=es&oi=ao
Websites:
Google Scholar: https://scholar.google.com.mx/citations?user=cF9iYi4AAAAJ&hl=es
Postdoctoral Researchers
Postdoctoral Researchers
Mentor: Dr. Thomas Gorin
Background in computational physics, quantum information, and mathematical physics. Currently conducting research on open quantum systems, coarse-graining and the emergence of non-linear quantum dynamics, and the application of machine learning in physics.
Mentor: Dr. Soham Biswas
I am currently studying the quantization of stochastic processes, Markovian and non-Markovian dynamics in atomic lattices, and optico-quantum properties in biological systems.
Research areas: Fundamentals of the theory of open quantum systems. Markovian and non-Markovian dynamical maps. Quantum stochastic processes. Quantum biology.
PhD Students
PhD Students
Alejandro Contreras Reynoso
Supervisor: Dr. Thomas Gorin & Dr. Adrian Ortega
We study general 'normally' (Gaussian) distributed random unitary transformations. These distributions can be defined in terms of a diffusive random walk in the respective group manifold. We apply these transformations to define quantum channels that we then study in different protocols, such as entanglement distillation and discrete quantum walks.
Supervisor: Dr. Thomas Gorin
I'm a doctoral student in theoretical physics. My research centers on wave transport and localization and quantum chaos, but I'm also interested in quantum information and many-body systems. Currently I'm working in a collaboration between Spain and Mexico.
Dalia Jazmin Hernandez Gallegos
Supervisor: Dr. Soham Biswas
I am working in the field of classical statistical mechanics and complex systems. I have focused on the study of critical behaviour in non-equilibrium dynamics and recently, multi-fractal analysis. My doctoral project is on global spin exchange dynamics, a model of interest for social segregation.
Hans Baltazar Flores
Supervisors: Dr. Pablo López & Dr. Thomas Gorin
I am interested in the use of computational tools to address problems in both classical and quantum physics. I worked on the construction of a stochastic process and its extension to the quantum context, where the quantum version offers an improvement over the classical one.
Jorge Vargas Carmona
Supervisor: Dr. Thomas Gorin
I am particularly interested in quantum chaos, open quantum systems, transport phenomena, and quantum computing.
Using quantum graph models, I analyze spectral statistics and wave‐function dynamics to investigate fidelity measures—such as the Loschmidt echo—and scattering fidelity in complex networks.
Marcos Flores Hernandez
Supervisors: Dr. Pablo López & Dr. Soham Biswas
In my doctoral research, I study time series based on daily COVID-19 cases in Mexico. By examining correlations and the eigenvalue structure of correlation matrices, I aim to understand whether these connections reflect genuine collective behavior or if they are synthetic effects resulting from data processing. The purpose of this work is to shed light on how complex systems (such as epidemics) evolve over time within a specific country.
Master 's Students
Master 's Students
Jorge Alberto Cortés Davalos: Quantum transport and exceptional points from the point of view of Non-Equilibrium Green's function.
Guillermo Morfín Chavez: Caminatas aleatorias en SU(1,1) y transporte cuántico en medios desordenados.
Oscar Urzua Tapia: Caracterización y mitigación de errores en computadoras cuánticas ruidosas de escala intermedia.
Thesis director:
Dr. Adrian Ortega
Dr. Thomas Gorin
Dr. Thomas Gorin
Undergraduate Students
Undergraduate Students
Armando Imanol Mancilla Bustos: Random walks with resetting in diffusion-controlled annihilation.
Leonardo Uriel Siordia Garcia: Random walk with memory based preferential relocation in the presence of trapping sites.
Luis Gutierrez: Quantum Simulation of an Ising Spin Chain.
Rogelio Olachea Chaidez: Quenching dynamics of Ising spin systems.
Yahaira Elizabeth Alonso Sandoval: Implementación de una compuerta de dos qubits con entrelazamiento en un circuito cuántico.
Thesis director:
Dr. Thomas Gorin, Dr. Soham Biswas
Dr. Soham Biswas
Dr. Thomas Gorin
Dr. Soham Biswas
Dr. Adrian Ortega
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