'@article{1303.3130v1,\n\tabstract={We study the role of the dipolar interaction, correctly accounting for the\nDipolar-Induced Resonance (DIR), in a quasi-one-dimensional system of ultracold\nbosons. We first show how the DIR affects the lowest-energy states of two\nparticles in a harmonic trap. Then, we consider a deep optical lattice loaded\nwith ultracold dipolar bosons. We describe this many-body system using an\natom-dimer extended Bose-Hubbard model. We analyze the impact of the DIR on the\nphase diagram at T=0 by exact diagonalization of a small-sized system. In\nparticular, the resonance strongly modifies the range of parameters for which a\nmass density wave should occur.},\n\tarchiveprefix={arXiv},\n\tauthor={N. Bartolo and D. J. Papoular and L. Barbiero and C. Menotti and A. Recati},\n\teprint={1303.3130v1},\n\tfile={/home/phyks/Papers/N_Bartolo_A_Recati-j-2013.pdf},\n\tlink={http://arxiv.org/abs/1303.3130v1},\n\tmonth={Mar},\n\tprimaryclass={cond-mat.quant-gas},\n\ttag={},\n\ttitle={Dipolar-Induced Resonance for Ultracold Bosons in a Quasi-1D Optical\nLattice},\n\tyear={2013},\n}\n\n\n')
'@article{bidule,\n\tabstract={We study the role of the dipolar interaction, correctly accounting for the\nDipolar-Induced Resonance (DIR), in a quasi-one-dimensional system of ultracold\nbosons. We first show how the DIR affects the lowest-energy states of two\nparticles in a harmonic trap. Then, we consider a deep optical lattice loaded\nwith ultracold dipolar bosons. We describe this many-body system using an\natom-dimer extended Bose-Hubbard model. We analyze the impact of the DIR on the\nphase diagram at T=0 by exact diagonalization of a small-sized system. In\nparticular, the resonance strongly modifies the range of parameters for which a\nmass density wave should occur.},\n\tarchiveprefix={arXiv},\n\tauthor={N. Bartolo and D. J. Papoular and L. Barbiero and C. Menotti and A. Recati},\n\teprint={1303.3130v1},\n\tfile={/home/phyks/Papers/N_Bartolo_A_Recati-j-2013.pdf},\n\tlink={http://arxiv.org/abs/1303.3130v1},\n\tmonth={Mar},\n\tprimaryclass={cond-mat.quant-gas},\n\ttag={},\n\ttitle={Dipolar-Induced Resonance for Ultracold Bosons in a Quasi-1D Optical\nLattice},\n\tyear={2013},\n}\n\n\n')
'@article{1303.3130v1,\n\tabstract={We study the role of the dipolar interaction, correctly accounting for the\nDipolar-Induced Resonance (DIR), in a quasi-one-dimensional system of ultracold\nbosons. We first show how the DIR affects the lowest-energy states of two\nparticles in a harmonic trap. Then, we consider a deep optical lattice loaded\nwith ultracold dipolar bosons. We describe this many-body system using an\natom-dimer extended Bose-Hubbard model. We analyze the impact of the DIR on the\nphase diagram at T=0 by exact diagonalization of a small-sized system. In\nparticular, the resonance strongly modifies the range of parameters for which a\nmass density wave should occur.},\n\tarchiveprefix={arXiv},\n\tauthor={N. Bartolo and D. J. Papoular and L. Barbiero and C. Menotti and A. Recati},\n\teprint={1303.3130v1},\n\tfile={/home/phyks/Papers/N_Bartolo_A_Recati-j-2013.pdf},\n\tlink={http://arxiv.org/abs/1303.3130v1},\n\tmonth={Mar},\n\tprimaryclass={cond-mat.quant-gas},\n\ttag={},\n\ttitle={Dipolar-Induced Resonance for Ultracold Bosons in a Quasi-1D Optical\nLattice},\n\tyear={2013},\n}\n\n\n')