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High-Temperature Polaritons in Ceramic Nanotube Antennas
journal contribution
posted on 2019-10-17, 14:36 authored by Ryan Starko-Bowes, Xueji Wang, Zhujing Xu, Sandipan Pramanik, Na Lu, Tongcang Li, Zubin JacobHigh-temperature
thermal photonics presents unique challenges for
engineers as the database of materials that can withstand extreme
environments are limited. In particular, ceramics with high temperature
stability that can support coupled light-matter excitations, that
is, polaritons, open new avenues for engineering radiative heat transfer.
Hexagonal boron nitride (hBN) is an emerging ceramic 2D material that
possesses low-loss polaritons in two spectrally distinct mid-infrared
frequency bands. The hyperbolic nature of these frequency bands leads
to a large local density of states (LDOS). In 2D form, these polaritonic
states are dark modes, bound to the material. In cylindrical form,
boron nitride nanotubes (BNNTs) create subwavelength particles capable
of coupling these dark modes to radiative ones. In this study, we
leverage the high-frequency optical phonons present in BNNTs to create
strong mid-IR thermal antenna emitters at high temperatures (938 K).
Through direct measurement of thermal emission of a disordered system
of BNNTs, we confirm their radiative polaritonic modes and show that
the antenna behavior can be observed even in a disordered system.
These are among the highest-frequency optical phonon polaritons that
exist and could be used as high-temperature mid-IR thermal nanoantenna
sources.
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nanoantenna sourcesboron nitride nanotubeslight-matter excitationsmid-IRpolaritonic statestemperature stabilityfrequency bandsantenna behaviorsubwavelength particlesmid-infrared frequency bandsHigh-Temperature Polaritonsantenna emittersphonon polaritonsengineering radiative heat transferradiative polaritonic modesLDOS2 D material2 D formBNNTCeramic Nanotube Antennas High-temperatureHexagonal boron nitrideradiative ones
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