Plexcitons are polaritonic modes[1][2] that result from coherently coupled plasmons and excitons.[1] Plexcitons aid direct energy flows in exciton energy transfer (EET). Plexcitons travel for 20 μm, similar to the width of a human hair.[3]
^ abFofang, Nche T.; Grady, Nathaniel K.; Fan, Zhiyuan; Govorov, Alexander O.; Halas, Naomi J. (2011-04-13). "Plexciton Dynamics: Exciton−Plasmon Coupling in a J-Aggregate−Au Nanoshell Complex Provides a Mechanism for Nonlinearity". Nano Letters. 11 (4): 1556–1560. Bibcode:2011NanoL..11.1556F. doi:10.1021/nl104352j. ISSN 1530-6984. PMID 21417362.
^Yuen-Zhou, Joel; Saikin, Semion K.; Zhu, Tony; Onbasli, Mehmet C.; Ross, Caroline A.; Bulovic, Vladimir; Baldo, Marc A. (2016-06-09). "Plexciton Dirac points and topological modes". Nature Communications. 7: 11783. arXiv:1509.03687. Bibcode:2016NatCo...711783Y. doi:10.1038/ncomms11783. ISSN 2041-1723. PMC 4906226. PMID 27278258.
^"Scientists design and build new energy-carrying particles". newatlas.com. Retrieved 2016-12-31.
Plexcitons are polaritonic modes that result from coherently coupled plasmons and excitons. Plexcitons aid direct energy flows in exciton energy transfer...
("Braggoritons") result from coupling of Bragg photon modes with bulk excitons; Plexcitons result from coupling plasmons with excitons; Magnon polaritons result...