Liu Changming, Niu Liting, Wang Kejia, Liu Jinsong
Opt Express. 2016 Dec 12;24(25):29342-29348. doi: 10.1364/OE.24.029342.
We first demonstrate the accelerating terahertz (THz) Airy beam with a 0.3-THz continuous wave. Two diffractive elements are designed and 3D-printed to form the generation system, which cannot only imprint the desired complex phase pattern but also perform the required Fourier transform (FT). We both numerically and experimentally demonstrate the propagation dynamics of the accelerating THz Airy beam and investigate its self-healing property during propagation in the free space. Our observations are in good agreement with the numerical simulations. Such an accelerating THz Airy beam could be able to develop novel THz imaging systems and robust THz communication links.
我们首先用0.3太赫兹连续波演示了加速太赫兹(THz)艾里光束。设计并3D打印了两个衍射元件以形成产生系统,该系统不仅可以施加所需的复相位图案,还可以执行所需的傅里叶变换(FT)。我们通过数值和实验方法都演示了加速太赫兹艾里光束的传播动力学,并研究了其在自由空间传播过程中的自愈特性。我们的观察结果与数值模拟结果高度吻合。这种加速太赫兹艾里光束有望开发新型太赫兹成像系统和强大的太赫兹通信链路。