Theoretical Physicist | Quantum Computing Researcher | PhD Candidate
I'm a PhD candidate specializing in quantum algorithms and quantum information theory, focusing on magic states, stabilizer theory, and dissipative quantum systems. Currently finishing my PhD at BUTE.
- Quantum information theory and magic states
- Dissipative quantum systems and Lindbladian dynamics
- Adiabatic quantum computation and algorithms
- Stabilizer formalism and quantum computational complexity
- Tensor networks and many-body quantum systems
- Quantum software development and simulations
Languages & Tools
Quantum Computing
- Quantum simulation frameworks (Qiskit, Stim, QuantumClifford.jl, ITensors.jl)
- Tensor network methods
- Quantum algorithm development
- Numerical methods for quantum systems
- PhD Dissertation: Quantum information theory, stabilizer states, and computational complexity
- Research: Dissipative Lindbladian evolution and magic content in quantum systems
- Industry: Adiabatic quantum algorithms and speed-up potentials
A MATLAB package for exact time evolution using the Lindbladian formalism. Provides tools for simulating open quantum system dynamics, accounting for both unitary evolution and dissipative processes through discrete quantum gates, jump operators, and dissipative gates.
Key Features:
- Exact Lindbladian time evolution for qubits/two-level systems
- Multiple dissipation implementation methods
- Comprehensive quantum circuit elements (gates, measurements, dissipators)
- Bloch sphere visualization and quantum state tomography
๐ท Beyond Research
When I'm not diving into quantum systems, you'll find me exploring photographyโboth film and digital. I enjoy capturing moments and experimenting with visual composition.