A soft-clamped topological waveguide for phonons
Topological insulators were originally discovered for electron waves in condensed matter systems. Recently this concept has been transferred to bosonic systems such as photons and phonons, which propagate in materials patterned with artificial lattices that emulate spin-Hall physics. This work has b...
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Zusammenfassung: | Topological insulators were originally discovered for electron waves in
condensed matter systems. Recently this concept has been transferred to bosonic
systems such as photons and phonons, which propagate in materials patterned
with artificial lattices that emulate spin-Hall physics. This work has been
motivated, in part, by the prospect of topologically protected transport along
edge channels in on-chip circuits. Importantly, even in principle, topology
protects propagation against backscattering, but not against loss, which has
remained limited to the dB/cm-level for phonon waveguides, be they topological
or not. Here, we combine advanced dissipation engineering, in particular the
recently introduced method of soft-clamping, with the concept of a valley-Hall
topological insulator for phonons. This enables on-chip phononic waveguides
with propagation losses of 3 dB/km at room temperature, orders of magnitude
below any previous chip-scale devices. For the first time, the low losses also
allow us to accurately quantify backscattering protection in a topological
phonon waveguide, using high-resolution ultrasound spectroscopy. We infer that
phonons follow a sharp, 120 degree-bend with a 99.99%-probability instead of
being scattered back, and less than one phonon in a million is lost. The
extraordinary combination of features of this novel platform suggest
applications in classical and quantum signal routing, processing, and storage. |
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DOI: | 10.48550/arxiv.2408.08717 |