González Tudela, AlejandroPorras Torres, Diego2023-06-192023-06-192013-02-200031-900710.1103/PhysRevLett.110.080502https://hdl.handle.net/20.500.14352/35599© 2013 American Physical Society We acknowledge QUITEMAD S2009-ESP-1594, MICINN-MAT2011-22997, CAM- S-2009/ESP-1503, FIS2009-10061, CAM-UCM/910758, RyC Contract No. 200200074, and FPU Grant No. AP2008-00101. We thank to J. Miguel-Sanchez for useful discussion of the experimental conditions.Implementations of solid-state quantum optics provide us with devices where qubits are placed at fixed positions in photonic or plasmonic one-dimensional waveguides. We show that solely by controlling the position of the qubits and with the help of a coherent driving, collective spontaneous decay maybe engineered to yield an entangled mesoscopic steady state. Our scheme relies on the realization of pure superradiant Dicke models by a destructive interference that cancels dipole-dipole interactions in one dimension.engjournal articlehttp://doi.org/10.1103/PhysRevLett.110.080502https://journals.aps.orgopen access53Resonance fluorescenceCavityDotsGenerationSystemAtomFísica (Física)22 Física