Institute of Physics, Chinese Academy of Sciences, 100190, Beijing, China.
School of Physical Sciences, University of Chinese Academy of Sciences, 100049, Beijing, China.
Adv Mater. 2017 Oct;29(38). doi: 10.1002/adma.201702494. Epub 2017 Aug 18.
Interference-free hyperbolic phonon polaritons (HPPs) excited by natural wrinkles in a hexagonal boron nitride (hBN) microcrystal are reported both experimentally and theoretically. Although their geometries are off-resonant with the excitation wavelength, the wrinkles compensate for the large momentum mismatch between photon and phonon polariton, and launch the HPPs without interference. The spatial feature of wrinkles is about 200 nm, which is an order of magnitude smaller than resonant metal antennas at the same excitation wavelength. Compared with phonon polaritons launched by an atomic force microscopy tip, the phonon polaritons launched by wrinkles are interference-free, independent of the launcher geometry, and exhibit a smaller damping rate (γ ≈ 0.028). On the same hBN microcrystal, in situ nanoinfrared imaging of HPPs launched by different mechanisms is performed. In addition, the dispersion of HPPs is modified by changing the dielectric environments of hBN crystals. The wavelength of HPPs is compressed twofold when the substrate is changed from SiO to gold. The findings provide insights into the intrinsic properties of hBN-HPPs and demonstrate a new way to launch and control polaritons in van der Waals materials.
实验和理论都证明了在六方氮化硼(hBN)微晶体的自然褶皱中激发的无干扰双曲声子极化激元(HPPs)。尽管它们的几何形状与激发波长不共振,但褶皱弥补了光子和声子极化激元之间的大动量失配,并在无干扰的情况下发射 HPPs。褶皱的空间特征约为 200nm,比在相同激发波长下的共振金属天线小一个数量级。与由原子力显微镜尖端激发的声子极化激元相比,由褶皱激发的声子极化激元无干扰,与发射器的几何形状无关,并且表现出较小的阻尼率(γ≈0.028)。在同一 hBN 微晶体上,对通过不同机制激发的 HPPs 进行了原位纳米红外成像。此外,通过改变 hBN 晶体的介电环境来修改 HPPs 的色散。当衬底从 SiO 变为金时,HPPs 的波长被压缩了两倍。这些发现为 hBN-HPPs 的固有特性提供了深入的了解,并展示了在范德华材料中激发和控制极化激元的新方法。
