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					 <h3>Research</h3>
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						 <img src="img/wigner2.png" alt="Wigner Research Center" class="img-responsive img-rounded logo">
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							 <span class="h6">Research Assistant</span>
							 <span>HUN-REN Wigner Research Centre for Physics · Part-time</span>
							 <small class="text-muted">May 2022 - Present</small>
							 <small class="text-muted">Budapest, Hungary</small>
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							<p>My domain at Wigner revolves around the design of quantum algorithms. Specifically, entanglement distillation protocols for multipartite networks. 
								By iteratively applying these non-linear quantum protocols, we aim to obtain an enhanced noise-free entanglement. 
								To achieve this goal, we leverage quantum-classical hybrid machine learning techniques to assist in the implementation of quantum circuits that can establish distilled entanglement with high fidelity.
								In addition, we are implementing simulations and testing the above mentioned algorithms on real quantum devices.</p>
							<p>Skills: Qiskit · Quantum algorithms · Mathematica · Python (Programming Language) · Quantum Computing · Machine Learning</p>
							<p><b>Discover more:</b> <a href="https://doi.org/10.1016/j.physleta.2024.129349">Training iterated protocols for distillation of GHZ states with variational quantum algorithms</a></p>
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					 <h3>Education</h3>
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						 <img src="img/elte.png" alt="Eötvös Loránd University" class="img-responsive img-rounded logo">
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							 <span class="h6">Eötvös Loránd University</span>
							 <span>Doctor of Philosophy - PhD, Quantum computing</span>
							 <small>2020 - 2024</small>
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							<p>I am researching a doctorate in the field of quantum computing.
								My research focuses on quantum error correction, specifically which quantum computing platforms are best suited to demonstrate the efficiency of the quantum repetition phase-flip code.
								We have derived a break-even point above which the encoded logical qubit is advantageous and preserves information longer than a single unprotected physical qubit.</p>
							<p>Skills: Mathematica · Quantum Computing</p>
							<p><b>Find out more:</b> <a href="https://doi.org/10.1088/1367-2630/acfba5">Break-even point of the phase-flip error correcting code</a></p>
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						 <img src="img/elte.png" alt="Eötvös Loránd University" class="img-responsive img-rounded logo">
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							 <span class="h6">Eötvös Loránd University</span>
							 <span>Master's degree, Physics</span>
							 <small>Sep 2017 - Sep 2020</small>
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							<p>I conducted research on quantum optimization through citizen science, and in my thesis, I demonstrated the realization of a spin-qubit based two-qubit logic gate, specifically the square-root-of-swap gate, through the optimization of a gate pulse shape. This posed a hard quantum mechanical optimization problem, which was gamified and transformed into a game for the public. I designed a platform where gamers drew a pulse shape within a certain time frame. Even recent classical supercomputers may find this multi-parameter optimization problem difficult to solve, but gamification utilizing human senses may be more successful.</p>
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						 <img src="img/elte.png" alt="Eötvös Loránd University" class="img-responsive img-rounded logo">
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							 <span class="h6">Eötvös Loránd University</span>
							 <span>Bachelor's degree, Physics</span>
							 <small>Sep 2014 - Sep 2017</small>
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							<p>I studied the coupling between a qubit and an oscillator in a nano-electromechanical system. In this theoretical work, a charge qubit was implemented using a trapped electron in a suspended carbon nanotube, and was controlled using gate electrodes. The charge states of the qubit were coupled to the vibration modes of the nanotube, and an effective read-out scheme was introduced. I also investigated the ultra-strong coupling regime.</p>
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