@article{oai:oist.repo.nii.ac.jp:00001195,
 author = {Garcia-March, M.A. and Harshman, N.L. and da Silva, H. and Fogarty, T. and Busch, Th. and Lewenstein, M. and Ferrando, A.},
 journal = {Quantum},
 month = {Dec},
 note = {We show that a system of three trapped ultracold and strongly interacting atoms in one-dimension can be emulated using an optical fiber with a graded-index profile and thin metallic slabs. While the wave-nature of single quantum particles leads to direct and well known analogies with classical optics, for interacting many-particle systems with unrestricted statistics such analoga are not straightforward. Here we study the symmetries present in the fiber eigenstates by using discrete group theory and show that, by spatially modulating the incident field, one can select the atomic statistics, i.e., emulate a system of three bosons, fermions or two bosons or fermions plus an additional distinguishable particle. We also show that the optical system is able to produce classical non-separability resembling that found in the analogous atomic system.},
 title = {Graded-index optical fiber emulator of an interacting three-atom system: illumination control of particle statistics and classical non-separability},
 volume = {3},
 year = {2019}
}