Visible metasurfaces and ruled diffraction gratings: a comparison

Metasurface based and physical ruling based diffraction gratings function by controlling the phase of light, but the origin of the phase control is different. Here we compare the simulated optical response of a 1800 lines/mm ruled diffraction grating blazed for 650 nm light to the response of a 1800 lines/mm phase grating meta-surface designed for efficiency in the visible. The efficiencies are comparable; the transverse electric polarized efficiency of the meta-surface based grating is similar to the transverse magnetic polarized efficiency of the ruled-grating. However, due to the different mechanisms of phase accrual, the meta-surface based grating does not exhibit grating anomalies and has low efficiency for transverse magnetic polarized light.

[1]  Chih-Ming Wang,et al.  High-efficiency broadband anomalous reflection by gradient meta-surfaces. , 2012, Nano letters.

[2]  J. Fraunhofer Kurzer Bericht von den Resultaten neuerer Versuche über die Gesetze des Lichtes, und die Theorie derselben , 1823 .

[3]  Shulin Sun,et al.  Gradient-index meta-surfaces as a bridge linking propagating waves and surface waves. , 2012, Nature materials.

[4]  Anders Pors,et al.  Broadband plasmonic half-wave plates in reflection. , 2013, Optics letters.

[5]  Anders Pors,et al.  Efficient and broadband quarter-wave plates by gap-plasmon resonators. , 2013, Optics express.

[6]  M. Moharam,et al.  Limits of scalar diffraction theory for diffractive phase elements , 1994 .

[7]  David R. Smith,et al.  Reconciliation of generalized refraction with diffraction theory. , 2012, Optics letters.

[8]  E. Loewen,et al.  Grating efficiency theory as it applies to blazed and holographic gratings. , 1977, Applied optics.

[9]  Guofan Jin,et al.  Dispersionless phase discontinuities for controlling light propagation. , 2012, Nano letters.

[10]  Erwin G. Loewen,et al.  On an asymptotic theory of diffraction gratings used in the scalar domain , 1978 .

[11]  E. Yablonovitch Statistical ray optics , 1982 .

[12]  Sergey I. Bozhevolnyi,et al.  Gap plasmon-based metasurfaces for total control of reflected light , 2013, Scientific Reports.

[13]  N. Yu,et al.  Flat optics with designer metasurfaces. , 2014, Nature materials.

[14]  N. Yu,et al.  Light Propagation with Phase Discontinuities: Generalized Laws of Reflection and Refraction , 2011, Science.

[15]  A. Kildishev,et al.  Broadband Light Bending with Plasmonic Nanoantennas , 2012, Science.

[16]  Qiaofeng Tan,et al.  Dual-polarity plasmonic metalens for visible light , 2012, Nature Communications.

[17]  Qiancheng Zhao,et al.  Phase-gradient gap-plasmon metasurface based blazed grating for real time dispersive imaging , 2014 .

[18]  Erez Hasman,et al.  Dielectric gradient metasurface optical elements , 2014, Science.