Ouvrages publiés à titre de seul auteur (1)
  1. 1. Goldman, N. (2009). Quantum transport in lattices subjected to external gauge fields. Saarbrücken: VDM Verlag.
    2.   Parties d'ouvrages collectifs (1)
  2. 1. Goldman, N., Cooper, N. N., & Dalibard, J. (2017). Preparing and probing Chern bands with cold atoms. In Universal Themes of Bose-Einstein Condensation (pp. 274-298). Cambridge University Press. doi:10.1017/9781316084366.016
    3.   Articles dans des revues avec comité de lecture (109)
  3. 1. Coen, S., Garbin, B., Xu, G., Quinn, L., Goldman, N., Oppo, G. L., Erkintalo, M., Murdoch, S. G., & Fatome, J. (2024). Nonlinear topological symmetry protection in a dissipative system. Nature communications, 15(1), 1398. doi:10.1038/s41467-023-44640-x
  4. 2. Amelio, I., & Goldman, N. (2024). Lasing in Non-Hermitian Flat Bands: Quantum Geometry, Coherence, and the Fate of Kardar-Parisi-Zhang Physics. Physical review letters, 132(18), 186902. doi:10.1103/PhysRevLett.132.186902
  5. 3. Wang, B., Aidelsburger, M., Dalibard, J., Eckardt, A., & Goldman, N. (2024). Cold-Atom Elevator: From Edge-State Injection to the Preparation of Fractional Chern Insulators. Physical review letters, 132(16), 163402. doi:10.1103/PhysRevLett.132.163402
  6. 4. Amelio, I., & Goldman, N. (2024). Polaron spectroscopy of interacting Fermi systems: Insights from exact diagonalization. SciPost Physics, 16(2), 056. doi:10.21468/SciPostPhys.16.2.056
  7. 5. Palm, F., Kwan, J., Bakkali-Hassani, B., Greiner, M., Schollwöck, U., Goldman, N., & Grusdt, F. (2024). Growing extended Laughlin states in a quantum gas microscope: A patchwork construction. Physical Review Research, 6(1), 013198. doi:10.1103/PhysRevResearch.6.013198
  8. 6. Binanti, F., Goldman, N., & Repellin, C. (2024). Spectroscopy of edge and bulk collective modes in fractional Chern insulators. Physical Review Research, 6(1), L012054. doi:10.1103/PhysRevResearch.6.L012054
  9. 7. Peralta Gavensky, L., Sachdev, S., & Goldman, N. (2023). Connecting the Many-Body Chern Number to Luttinger’s Theorem through Streda’s Formula. Physical review letters, 131, 236601.
  10. 8. Jamotte, M., Peralta Gavensky, L., Morais Smith, C., Di Liberto, M., & Goldman, N. (2023). Quantized valley Hall response from local bulk density variations. Communications Physics, 6(1). doi:10.1038/s42005-023-01377-9
  11. 9. Peralta Gavensky, L., Sachdev, S., & Goldman, N. (2023). Connecting the Many-Body Chern Number to Luttinger's Theorem through Středa's Formula. Physical review letters, 131(23), 236601. doi:10.1103/PhysRevLett.131.236601
  12. 10. Goldman, N., Diessel, O., Barbiero, L., Prüfer, M., Di Liberto, M., & Peralta Gavensky, L. (2023). Floquet-Engineered Nonlinearities and Controllable Pair-Hopping Processes: From Optical Kerr Cavities to Correlated Quantum Matter. PRX Quantum, 4, 040327.
    13. << Précédent 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Suivant >>