Using inelastic scattering of light (Bragg spectroscopy), we study the low-energy excitations of strongly correlated phases of ultracold bosons on the cross-over from correlated 1D superfluids to Mott insulators. As it is commonly performed in solid-state physics, the use of such a probe allows us to extract important information about the atomic many-body state. In particular we show that we can extract information about the dynamical structure factor S(q, omega) and about the one-particle spectral function A(q, omega) from the Bragg spectra. This technique could be extended to study more exotic correlated phases of ultracold atoms.
Bragg spectroscopy of strongly correlated bosons in optical lattices / D. Clément; N. Fabbri; L. Fallani; C. Fort; M. Inguscio. - In: JOURNAL OF LOW TEMPERATURE PHYSICS. - ISSN 0022-2291. - STAMPA. - 158:(2010), pp. 5-15.
Bragg spectroscopy of strongly correlated bosons in optical lattices
FABBRI, NICOLE;FALLANI, LEONARDO;FORT, CHIARA;INGUSCIO, MASSIMO
2010
Abstract
Using inelastic scattering of light (Bragg spectroscopy), we study the low-energy excitations of strongly correlated phases of ultracold bosons on the cross-over from correlated 1D superfluids to Mott insulators. As it is commonly performed in solid-state physics, the use of such a probe allows us to extract important information about the atomic many-body state. In particular we show that we can extract information about the dynamical structure factor S(q, omega) and about the one-particle spectral function A(q, omega) from the Bragg spectra. This technique could be extended to study more exotic correlated phases of ultracold atoms.I documenti in FLORE sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.