Dubey, R.Lahijani, B. VosoughiRoussey, M.Herzig, H. P.2018-12-132018-12-132018-12-132018-01-0110.1117/12.2320858https://infoscience.epfl.ch/handle/20.500.14299/152881WOS:000450817100009We study and demonstrate a Bloch-surface-wave-based nano-thin waveguide grating. The waveguide grating is characterized as a Bragg mirror at telecommunication wavelengths. The structure is a dielectric multilayer platform designed to sustain a Bloch surface wave. Such a platform is regarded as a foundation for in-plane integrated optics. The Kretschmann coupling configuration, as the most widely used approach, is utilized to excite the optical surface waves. We use multi-heterodyne scanning near-field optical microscopy to characterize the waveguide gratings in the near-field. The fabricated waveguide grating shows the expected Bragg mirror behavior with a measured reflectivity of approximately 72 % inside the photonic band gap lambda = 1553 nm.Nanoscience & NanotechnologyOpticsScience & Technology - Other Topicsbloch surface wavestwo-dimensional opticsscanning near-field optical microscopyphotonic crystalsbragg mirrorskretschmann configurationsurface electromagnetic wavespolarizationpropagationlayertext::conference output::conference proceedings::conference paper