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Literature DB >> 25302887

Observation of suppression of light scattering induced by dipole-dipole interactions in a cold-atom ensemble.

J Pellegrino¹, R Bourgain¹, S Jennewein¹, Y R P Sortais¹, A Browaeys¹, S D Jenkins², J Ruostekoski².

Abstract

We study the emergence of collective scattering in the presence of dipole-dipole interactions when we illuminate a cold cloud of rubidium atoms with a near-resonant and weak intensity laser. The size of the atomic sample is comparable to the wavelength of light. When we gradually increase the number of atoms from 1 to ~450, we observe a broadening of the line, a small redshift and, consistently with these, a strong suppression of the scattered light with respect to the noninteracting atom case. We compare our data to numerical simulations of the optical response, which include the internal level structure of the atoms.

Entities: Chemical Disease

Year: 2014 PMID： 25302887 DOI： 10.1103/PhysRevLett.113.133602

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

6 in total

Observation of suppression of light scattering induced by dipole-dipole interactions in a cold-atom ensemble.

1. Collective atomic scattering and motional effects in a dense coherent medium.

2. Simulating quantum light propagation through atomic ensembles using matrix product states.

3. Super- and sub-radiance from two-dimensional resonant dipole-dipole interactions.

4. Tailoring superradiance to design artificial quantum systems.

5. Directional subradiance from helical-phase-imprinted multiphoton states.

6. Cooperative light scattering from helical-phase-imprinted atomic rings.