People: Annabelle Bohrdt

Harvard
bohrdt@physics.harvard.edu
Demler
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Postdoc
Publications
  1. S. Ebadi, T. Wang, G. Semeghini, A. Bohrdt, M. Lukin, M. S. Moss, and R. G. Melko. Enhancing variational Monte Carlo simulations using a programmable quantum simulator. Phys Rev A, 109(032410), 2024.
  2. S. Ebadi, T. Wang, G. Semeghini, A. Bohrdt, M. Lukin, M. S. Moss, and R. G. Melko. Enhancing variational Monte Carlo using a programmable quantum simulator. Phys Rev A March 2024.
  3. A. Bohrdt, M. Greiner, F. Grusdt, and P. Čubela. Particle zoo in a doped spin chain: Correlated states of mesons and magnons. Phys Rev B, 107(035105), January 2023.
  4. A. Kale, M. Xu, L. Kendrick, M. Lebrat, F. Grusdt, A. Bohrdt, M. Greiner, and Jakob Hendrik Huhn. Schrieffer-Wolff Transformations for Experiments: Dynamically Suppressing Virtual Doublon-Hole Excitations in a Fermi-Hubbard Simulator. ArXiv 2022.
  5. A. Bohrdt, S. Kim, A. Lukin, M. Rispoli, R. Schittko, M. Knap, M. Greiner, J. Leonard, Analyzing non-equilibrium quantum states through snapshots with artificial neural networks. Physical Review Letters, 127(150504), October 2021.
  6. G. Ji, M. Xu, L. Kendrick, C. Chiu, D. Greif, A. Bohrdt, F. Grusdt, E. Demler, M. Lebrat, M. Greiner, and J.C. Bruggenjurgen. Coupling a Mobile Hole to an Antiferromagnetic Spin Backgroung: Transient Dynamics of a Magnetic Polaron. Phys. Rev. X , 11(021022), April 2021.
  7. A. Bohrdt, Y. Wang, M. Kanasz-Nagy, E. Demler, F. Grusdt, and J. Koepsell. Dominant Fifth-Order Correlations in Doped Quantum Antiferromagnets. Phys. Rev. Lett., 126(026401), January 2021.
  8. A. Bohrdt, A. Omran, E. Demler, F. Grusdt, and S. Gazit. Multiparticle Interactions for Ultracold Atoms in Optical Tweezers: Cyclic Ring-Exchange Terms. Phys. Rev. Lett., 124(073601), 2020.
  9. A. Bohrdt, E. Demler, M. Knap, F. Grusdt, and F. Pollmann. Parton theory of angle-resolved photoemission spectroscopy spectra in antiferromagnetic Mott insulators. Phys. Rev. B , 102(035139), July 2020.
  10. A. Bohrdt, E. Demler, M. Knap, F. Grusdt, and F. Pollman. Parton theory of ARPES spectra in antiferromagnetic Mott insulators. Phys. Rev. B, 102(035139), 2020.
  11. A. Bohrdt, C. Chiu, G. Ji, M. Xu, D. Greif, M. Greiner, E. Demler, Classifying snapshots of the doped Hubbard model with machine learning. Nature Physics July 2019.
  12. F. Grusdt, A. Bohrdt, E. Demler, Microscopic spinon-chargon theory of magnetic polarons in the t − J model. Phys. Rev. B, 99(224422), 2019.
  13. C. Chiu, G. Ji, A. Bohrdt, M. Xu, M. Knap, E. Demler, F. Grusdt, M. Greiner, D. Greif, String patterns in the doped Hubbard model. Science July 2019.
  14. F. Grusdt, M. Kanasz-Nagy, A. Bohrdt, C. Chiu, G. Ji, M. Greiner, D. Greif, E. Demler, Parton theory of magnetic polarons: Mesonic resonances and signatures in dynamics. Physical Review X, 8(011046), 2018.
News
Thu May 2, 2019

String patterns in the doped Hubbard model

Understanding strongly correlated quantum many-body states is one of the most thought-provoking challenges in modern research. For example, the Hubbard model, describing strongly correlated electrons in solids, still contains fundamental open questions on its phase diagram. In this work we realize the Hubbard Hamiltonian and search for specific patterns within many individual images of realizations...
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News type:
Research Highlights