Journal ArticleDOI
Surface phononic graphene.
Si-Yuan Yu,Xiaochen Sun,Xu Ni,Qing Wang,Xue-Jun Yan,Cheng He,Xiaoping Liu,Liang Feng,Ming-Hui Lu,Yan-Feng Chen +9 more
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TLDR
The demonstrated fully integrated artificial phononic graphene platform here constitutes a step towards on-chip quantum simulators of graphene and unique monolithic electro-acoustic integrated circuits.Abstract:
Strategic manipulation of wave and particle transport in various media is the key driving force for modern information processing and communication. In a strongly scattering medium, waves and particles exhibit versatile transport characteristics such as localization, tunnelling with exponential decay, ballistic, and diffusion behaviours due to dynamical multiple scattering from strong scatters or impurities. Recent investigations of graphene have offered a unique approach, from a quantum point of view, to design the dispersion of electrons on demand, enabling relativistic massless Dirac quasiparticles, and thus inducing low-loss transport either ballistically or diffusively. Here, we report an experimental demonstration of an artificial phononic graphene tailored for surface phonons on a LiNbO3 integrated platform. The system exhibits Dirac quasiparticle-like transport, that is, pseudo-diffusion at the Dirac point, which gives rise to a thickness-independent temporal beating for transmitted pulses, an analogue of Zitterbewegung effects. The demonstrated fully integrated artificial phononic graphene platform here constitutes a step towards on-chip quantum simulators of graphene and unique monolithic electro-acoustic integrated circuits.read more
Citations
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Manipulating Type-I and Type-II Dirac Polaritons in Cavity-Embedded Honeycomb Metasurfaces
TL;DR: Mann et al. as discussed by the authors theoretically investigate polaritons supported by honeycomb metasurfaces and, despite the trivial nature of the resonant elements, unveil rich Dirac physics stemming from a non-trivial winding in the light-matter interaction.
Journal ArticleDOI
Extended topological valley-locked surface acoustic waves
Jian Wang,Zi-Dong Zhang,Siyuan Yu,Hao Ge,Kangfu Liu,Tao Wu,Xiaochen Sun,Le Liu,Hua-Yang Chen,Cheng-Yong He,Ming-Hui Lu,Yan-Feng Chen +11 more
TL;DR: In this paper , a valley-locked edge transport for surface acoustic waves (SAWs) is proposed, which can be extended to quasi-two-dimensional ones by doping SAW Dirac layers at the boundaries.
Journal ArticleDOI
Engineered electronic states in atomically precise artificial lattices and graphene nanoribbons
Linghao Yan,Peter Liljeroth +1 more
TL;DR: The fabrication of atomically precise structures with designer electronic properties is one of the emerging topics in condensed matter physics as mentioned in this paper, and the required level of structural control can either b....
Journal ArticleDOI
Observation of an unpaired photonic Dirac point
Gui-Geng Liu,Peiheng Zhou,Yihao Yang,Haoran Xue,Xin Ren,Xiao Lin,Hong-xiang Sun,Lei Bi,Yidong Chong,Baile Zhang +9 more
TL;DR: The authors use gyromagnetic materials to do that, and thus succeed in observing an unpaired Dirac point in a planar photonic crystal operating at microwave frequencies, which may have applications in valley filters and angular selective photonic devices.
Journal ArticleDOI
Acoustic metamaterials with broadband and wide-angle impedance matching
TL;DR: In this article, a general approach to design broadband and wide-angle impedance-matching acoustic metamaterials was proposed, using a spatially dispersive effective medium theory.
References
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TL;DR: This work reviews recent progress in graphene research and in the development of production methods, and critically analyse the feasibility of various graphene applications.
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TL;DR: In this paper, it was shown that the Klein paradox can be tested in a conceptually simple condensed-matter experiment using electrostatic barriers in single and bi-layer graphene, showing that quantum tunnelling in these materials becomes highly anisotropic, qualitatively different from the case of normal, non-relativistic electrons.
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TL;DR: This work shows that the fluctuations are significantly reduced in suspended graphene samples and reports low-temperature mobility approaching 200,000 cm2 V-1 s-1 for carrier densities below 5 x 109 cm-2, which cannot be attained in semiconductors or non-suspended graphene.