Laser-driven cooperative dipole-dipole interactions cause free-space atomic arrays to spontaneously form topologically nontrivial dimerized linear chains and self-contracted or expanded ring geometries even from initial separations larger than the transition wavelength.
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Ordered subwavelength 2D atomic arrays exhibit many-body super- and subradiance, spatial correlations, superradiant scaling and revivals, and ferromagnetic/antiferromagnetic character in collective decay.
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Light-induced Self-Organization in Cooperative Free Space Atomic Arrays
Laser-driven cooperative dipole-dipole interactions cause free-space atomic arrays to spontaneously form topologically nontrivial dimerized linear chains and self-contracted or expanded ring geometries even from initial separations larger than the transition wavelength.
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Many-Body Super- and Subradiance in Ordered Atomic Arrays
Ordered subwavelength 2D atomic arrays exhibit many-body super- and subradiance, spatial correlations, superradiant scaling and revivals, and ferromagnetic/antiferromagnetic character in collective decay.