Active terahertz beam steering by photo-generated graded index gratings in thin semiconductor films

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DOI http://dx.doi.org/10.1364/OE.22.026559
Reference T.P. Steinbusch, H.K. Tyagi, M.C. Schaafsma, G. Georgiou and J. Gómez Rivas, Active terahertz beam steering by photo-generated graded index gratings in thin semiconductor films, Opt. Express 22, (22), 26559-26571 (2014)

We demonstrate active beam steering of terahertz radiation using a photo-excited thin layer of gallium arsenide. A constant gradient of phase discontinuity along the interface is introduced by an spatially inhomogeneous density of free charge carriers that are photo-generated in the GaAs with an optical pump. The optical pump has been spatially modulated to form the shape of a planar blazed grating. The phase gradient
leads to an asymmetry between the +1 and -1 transmission diffracted orders of more than a factor two. Optimization of the grating structure can lead to an asymmetry of more than one order of magnitude. Similar to metasurfaces made of plasmonic antennas, the photo-generated grating is a planar structure that can achieve large beam steering efficiency. Moreover, the photo-generation of such structures provides a platform for active THz beam steering.