| Literature DB >> 29912567 |
Danqing Wang, Marc R Bourgeois, Won-Kyu Lee, Ran Li, Dhara Trivedi, Michael P Knudson, Weijia Wang, George C Schatz, Teri W Odom.
Abstract
This paper reports a robust and stretchable nanolaser platform that can preserve its high mode quality by exploiting hybrid quadrupole plasmons as an optical feedback mechanism. Increasing the size of metal nanoparticles in an array can introduce ultrasharp lattice plasmon resonances with out-of-plane charge oscillations that are tolerant to lateral strain. By patterning these nanoparticles onto an elastomeric slab surrounded by liquid gain, we realized reversible, tunable nanolasing with high strain sensitivity and no hysteresis. Our semiquantum modeling demonstrates that lasing build-up occurs at the hybrid quadrupole electromagnetic hot spots, which provides a route toward mechanical modulation of light-matter interactions on the nanoscale.Entities:
Keywords: Stretchable nanolasing; hybrid quadrupole oscillations; lattice plasmons; metal nanoparticles; surface lattice resonance
Year: 2018 PMID: 29912567 DOI: 10.1021/acs.nanolett.8b01774
Source DB: PubMed Journal: Nano Lett ISSN: 1530-6984 Impact factor: 11.189