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Paper detail

Plasmon-phonon interactions in topological insulator rings

The great potential of Dirac electrons for plasmonics and photonics has been readily recognized after their discovery in graphene, followed by applications to smart optical devices. Dirac carriers are also found in topological insulators (TI) --quantum systems having an insulating gap in the bulk and intrinsic Dirac metallic states at the surface--. Here, we investigate the plasmonic response of ring structures patterned in Bi$_2$Se$_3$ TI films, which we investigate through terahertz (THz) spectroscopy. The rings are observed to exhibit a bonding and an antibonding plasmon modes, which we tune in frequency by varying their diameter. We develop an analytical theory based on the THz conductivity of unpatterned films, which accurately describes the strong plasmon-phonon hybridization and Fano interference experimentally observed as the bonding plasmon is swiped across the promineng 2\,THz phonon exhibited by this material. This work opens the road for the investigation of plasmons in topological insulators and for their application in tunable THz devices.

preprint2015arXivOpen access
Marta AutoreFausto D'ApuzzoAlessandra Di GaspareValeria GilibertiOdeta LimajPascale RoyMatthew BrahlekNikesh KoiralaSeongshik OhFrancisco Javier Garcìa de AbajoStefano Lupi
cond-mat.mtrl-sciphysics.optics
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Marta AutoreFausto D'ApuzzoAlessandra Di GaspareValeria GilibertiOdeta LimajPascale RoyMatthew BrahlekNikesh KoiralaSeongshik OhFrancisco Javier Garcìa de AbajoStefano Lupi

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