Cooperative optical response of 2D dense lattices with strongly correlated dipoles

Optics Express
Sung-Mi Yoo, Sun Mok Paik

Abstract

We study light propagation in dense low-temperature atoms on two-dimensional (2D) square and kagome lattices using a basically exact large-scale numerical computations. In the limit of weak laser intensity, shifts of the resonance line are shown in homogeneously broadened stationary samples with high atom densities, whereas the shifts are not shown in the samples with low densities. We obtain the dependence of shifts on interatomic spacing for square lattices with the various numbers of atoms, and our numerical results are in good agreement with shifts derived using a 2D isotropic infinite lattice model and experimental data for nanometric-thickness atomic ensembles in the literature.

References

May 1, 1995·Physical Review. a·O MoriceJ Dalibard
Oct 15, 2008·Physical Review Letters·E AkkermansR Kaiser
Apr 30, 2010·Nature·Kristian BaumannTilman Esslinger
Jun 5, 2010·Science·Marlan O Scully, Anatoly A Svidzinsky
Aug 25, 2010·Nature Materials·Boris Luk'yanchukChong Tow Chong
Jan 15, 2011·Physical Review Letters·J D PritchardC S Adams
Jun 12, 2012·Physical Review Letters·J KeaveneyC S Adams
Apr 8, 2014·Physical Review Letters·Juha JavanainenSung-Mi Yoo
Jul 1, 2014·Journal of the Optical Society of America. A, Optics, Image Science, and Vision·Mohamed-Taha RouabahNicola Piovella
Nov 2, 2014·Physical Review Letters·Raiju Puthumpally-JosephEric Charron
Apr 2, 2015·Optics Letters·Stetson RoofD V Kupriyanov
Apr 11, 2015·Physical Review Letters·M Reza BakhtiariM Thorwart
Sep 19, 2015·Physical Review Letters·P JurcevicC F Roos

❮ Previous
Next ❯

Citations

Apr 1, 2020·Optics Express·Sung-Mi Yoo, Juha Javanainen
Sep 28, 2017·Physical Review Letters·Stewart D JenkinsNikolay I Zheludev
Aug 28, 2020·Physical Review Letters·K E Ballantine, J Ruostekoski
Dec 24, 2016·Physical Review Letters·G FacchinettiJ Ruostekoski

❮ Previous
Next ❯

Related Concepts

Related Feeds

Cell Imaging in CNS

Here is the latest research on cell imaging and imaging modalities, including light-sheet microscopy, in the central nervous system.