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)

  3. 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
  4.   Articles dans des revues avec comité de lecture (93)

  5. 1. Englebert, N., Goldman, N., Erkintalo, M., Mostaan, N., Gorza, S.-P., Leo, F., & Fatome, J. (2023). Bloch oscillations of coherently driven dissipative solitons in a synthetic dimension. Nature Physics. doi:10.1038/s41567-023-02005-7
  6. 2. Yu, M., Liu, Y., Yang, P., Gong, M., Cao, Q., Zhang, S., Liu, H., Heyl, M., Ozawa, T., Goldman, N., & Cai, J. (2022). Quantum Fisher information measurement and verification of the quantum Cramér–Rao bound in a solid-state qubit. npj Quantum Information, 8(1), 56. doi:10.1038/s41534-022-00547-x
  7. 3. Mostaan, N., Grusdt, F., & Goldman, N. (2022). Quantized topological pumping of solitons in nonlinear photonics and ultracold atomic mixtures. Nature communications, 13, 5997.
  8. 4. Chen, M., Li, C., Palumbo, G., Zhu, Y. Q., Goldman, N., & Cappellaro, P. (2022). A synthetic monopole source of Kalb-Ramond field in diamond. Science, 375(6584), 1017-1020. doi:10.1126/science.abe6437
  9. 5. Jamotte, M., Goldman, N., & Di Liberto, M. (2022). Strain and pseudo-magnetic fields in optical lattices from density-assisted tunneling, Communications in Physics, 5, 30.
  10. 6. Mera, B., Zhang, A., & Goldman, N. (2022). Relating the topology of Dirac Hamiltonians to quantum geometry: When the quantum metric dictates Chern numbers and winding numbers. SciPost Physics, 12, 018.
  11. 7. Yu, M., Li, D., Wang, J., Chu, Y., Yang, P., Gong, M., Goldman, N., & Cai, J. (2021). Experimental estimation of the quantum Fisher information from randomized measurements. Physical Review Research, 3(4), 043122. doi:10.1103/PhysRevResearch.3.043122
  12. 8. Pimenov, D., Camacho-Guardian, A., Goldman, N., Massignan, P., Bruun, G. G., & Goldstein, M. (2021). Topological transport of mobile impurities. Physical Review B, 103(24), 245106. doi:10.1103/PhysRevB.103.245106
  13. 9. Łącki, M., Zakrzewski, J., & Goldman, N. (2021). A dark state of Chern bands: Designing flat bands with higher Chern number. SciPost Physics, 10(5), 112. doi:10.21468/SCIPOSTPHYS.10.5.110
  14. 10. Goldman, N., & Yefsah, T. (2021). The Weyl side of ultracold matter. Science (New York, N.Y.), 372(6539), 234-235. doi:10.1126/science.abg0892

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