People: Marcin Kalinowski

Harvard
mkalinowski@g.harvard.edu
Lukin
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Graduate Student
Publications
  1. N. Maskara, M. Kalinowski, M. Lukin, and M. Park. Enhancing Quantum Memory Lifetime with Measurement-Free Local Error Correction and Reinforcement Learning. Phys Rev A, 111(012419), January 2025.
  2. N. Maskara, S. Ostermann, M. Kalinowski, A. McClain, R. A. Bravo, D. Wang, J. Shee, and et al.. Programmable Simulations of Molecules and Materials with Reconfigurable Quantum Processors. Nature Physics, 21:289–297, 2025.
  3. T. Manovitz, S. Ebadi, A. Geim, S. Evered, D. Bluvstein, H. Zhou, N. U. Koyluoglu, J. Feldmeier, P. Dolgirev, N. Maskara, M. Kalinowski, M. Greiner, V. Vuletic, M. Lukin, S. Li, R. Samajdar, S. Sachdev, and D. Huse. Quantum coarsening and collective dynamics on a programmable quantum simulator. Nature, 638:86–92, February 2025.
  4. S. Evered, D. Bluvstein, M. Kalinowski, and et al.. High-fidelity parallel entangling gates on a neutral-atom quantum computer. Nature, 622:268–272 , 2024.
  5. X. Gao, M. Kalinowski, M. Lukin, S. Choi, Chi-Ning Chou, and Boaz Barak. Limitations of Linear Cross-Entropy as a Measure for Quantum Advantage. PRX Quantum February 2024.
  6. D. Bluvstein, M. Kalinowski, N. Maskara, A. Kaufman, M. Lukin, H. Pichler, D. González-Cuadra, R. Kaubruegger, P. Naldesi, T. V. Zache, B. Vermersch, J. Ye, and P. Zoller. Fermionic quantum processing with programmable neutral atom arrays. PNAS , 120(35), August 2023.
  7. D. Bluvstein, S. Evered, H. Zhou, T. Manovitz, S. Ebadi, M. Cain, M. Kalinowski, N. Maskara, I. Cong, X. Gao, G. Semeghini, M. Gullans, M. Greiner, V. Vuletic, M. Lukin, A. Geim, S. H. Li, D. Hangleiter, J. P. B. Ataides, P. S. Rodriguez, and T. Karolyshyn. Logical quantum processor based on reconfigurable atom arrays. Nature, 626:58–65, December 2023.
  8. M. Kalinowski, N. Maskara, and M. Lukin. Non-Abelian Floquet Spin Liquids in a Digital Rydberg Simulator. Phys Rev X July 2023.
  9. N. Maskara, S. Ostermann, M. Kalinowski, A. McClain, R. A. Bravo, D. Wang, N. Yao, M. Lukin, S. Yelin, J. Shee, A. Krylov, and M. Head-Gordon. Programmable Simulations of Molecules and Materials with Reconfigurable Quantum Pro-cessors. ArXiv 2023.
  10. D. Bluvstein, H. Levine, G. Semeghini, T. Wang, S. Ebadi, M. Kalinowski, A. Keesling Contreras, N. Maskara, H. Pichler, M. Greiner, V. Vuletic, and M. Lukin. A Quantum Processor based on coherent transport of entangled atom arrays. Nature, 604:451-456, April 2022.
  11. M. Kalinowski, M. Lukin, S. Choi, Rhine Samajdar, Roger G. Melko, and Subir Sachdev. Bulk and Boundary Quantum Phase Transitions in a Square Rydberg Atom Array. ArXiv December 2021.
  12. G. Semeghini, H. Levine, A. Keesling Contreras, S. Ebadi, T. Wang, D. Bluvstein, H. Pichler, M. Kalinowski, A. Omran, M. Greiner, V. Vuletic, M. Lukin, Ruben Verresen, Rhine Samajdar, Subir Sachdev, and Ashvin Vishwanath. Probing Topological Spin Liquids on a Programmable Quantum Simulator. Science, 374(6572):1242-1247, December 2021.
News
Sun December 24, 2023

Harvard Unveils World’s First Logical Quantum Processor

Harvard’s breakthrough in quantum computing features a new logical quantum processor with 48 logical qubits, enabling large-scale algorithm execution on an error-corrected system. This development, led by Mikhail Lukin, represents a major advance towards practical, fault-tolerant quantum computers.
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News type:
Research Highlights