Plasmonic Nanoparticle Lattice Devices for White-Light Lasing

A plasmonic nanolaser architecture that can produce white-light emission is reported. A laser device is designed based on a mixed dye solution used as gain material sandwiched between two aluminum nanoparticle (NP) square lattices of different periodicities. The (+/- 1, 0) and (+/- 1, +/- 1) band-edge surface lattice resonance (SLR) modes of one NP lattice and the (+/- 1, 0) band-edge mode of the other NP lattice function as nanocavity modes for red, blue, and green lasing respectively. From a single aluminum NP lattice, simultaneous red and blue lasing is realized from a binary dye solution, and the relative intensities of the two colors are controlled by the volume ratio of the dyes. Also, a laser device is constructed by sandwiching dye solutions between two Al NP lattices with different periodicities, which enables red-green and blue-green lasing. With a combination of three dyes as liquid gain, red, green, and blue lasing for a white-light emission profile is realized.

Automated summary

A plasmonic nanolaser architecture capable of producing white-light emission is described, utilizing a mixed dye solution as the gain material sandwiched between two different periodicity aluminum nanoparticle arrays, allowing for red, green, and blue laser emission and control of their relative intensities.