An optical leaky wave antenna with silicon perturbations for electronic control

An optical leaky wave antenna (OLWA) is a device that radiates a light wave into the surrounding space from a leaky wave (LW) guided mode or receives optical power from the surrounding space into a guided optical mode. In this work, we propose and provide a 3D analysis of a novel CMOS compatible OLWA made of a silicon nitride (Si3N4) waveguide comprising periodic silicon perturbations which allow electronic tuning capability. The analysis presented here includes the effect of the number of semiconductor perturbations, the antenna radiation pattern and directivity. We show that the number of the silicon perturbations has to be large to provide a long radiating section required to achieve radiation with high directivity. In other words, the proposed structure allows for a very narrow-beam radiation. Preliminary results are confirmed by exploiting leaky wave and antenna array factor theory, as well as verified by means of two full-wave simulators (HFSS and COMSOL). Our purpose is to ultimately use PIN junctions as building blocks for each silicon implantation for the electronic control of the radiation. In particular, the electronic tunability of the optical parameters of silicon (such as refractive index and absorption coefficient) via current injection renders itself the ideal platform for optical antennas that can facilitate electronic beam control, and boost the efficiency of optoelectronic devices such as light-emitting diodes, lasers and solar cells, and bio-chemical sensors.

[1]  Filippo Capolino,et al.  Silicon-based optical leaky wave antenna with narrow beam radiation. , 2011, Optics express.

[2]  Tatsuo Itoh,et al.  Leaky-Wave Antennas , 2008, Proceedings of the IEEE.

[3]  Filippo Capolino,et al.  Theory and Phenomena of Metamaterials , 2009 .

[4]  Filippo Capolino,et al.  LINEAR AND PLANAR PERIODIC ARRAYS OF METALLIC NANOSPHERES: FABRICATION, OPTICAL PROPERTIES AND APPLICATIONS , 2011 .

[5]  Gerry White,et al.  The Past , 2000 .

[6]  Graham T. Reed,et al.  Highly efficient optical phase modulator in SOI waveguides , 1995 .

[7]  R. Soref,et al.  The Past, Present, and Future of Silicon Photonics , 2006, IEEE Journal of Selected Topics in Quantum Electronics.

[8]  Mark L Brongersma,et al.  Near-infrared free-carrier absorption in silicon nanocrystals. , 2009, Optics letters.

[9]  R. Collin Antennas and Radiowave Propagation , 1985 .

[10]  Stefan F. Preble,et al.  10 Gb/s broadband silicon electro-optic absorption modulator , 2010 .

[11]  Qianfan Xu,et al.  Micrometre-scale silicon electro-optic modulator , 2005, Nature.

[12]  K. Ng,et al.  The Physics of Semiconductor Devices , 2019, Springer Proceedings in Physics.

[13]  Glenn D Boreman,et al.  Near-field imaging of optical antenna modes in the mid-infrared. , 2008, Optics express.

[14]  Constantine A. Balanis,et al.  Antenna Theory: Analysis and Design , 1982 .

[15]  William L. Barnes,et al.  Coupled surface plasmon-polariton mediated photoluminescencefrom a top-emitting organic light-emitting structure , 2004 .

[16]  G. G. Stokes "J." , 1890, The New Yale Book of Quotations.

[17]  W. Dumke,et al.  Minority carrier injection and storage into a heavily doped emitter: Approximate solution for auger recombination , 1981 .

[18]  Petru Ghenuche,et al.  Spectroscopic mode mapping of resonant plasmon nanoantennas. , 2008, Physical review letters.

[19]  M. Lipson,et al.  All-optical silicon modulators based on carrier injection by two-photon absorption , 2006, Journal of Lightwave Technology.

[20]  A A Oliner,et al.  The role of leaky plasmon waves in the directive beaming of light through a subwavelength aperture. , 2008, Optics express.

[21]  Xinzhu Sang,et al.  Silicon based optical pulse shaping and characterization , 2009, OPTO.

[22]  Ajay Nahata,et al.  Giant optical transmission of sub-wavelength apertures: physics and applications , 2002 .

[23]  A. Cuevas,et al.  General parameterization of Auger recombination in crystalline silicon , 2002 .

[24]  W. Marsden I and J , 2012 .

[26]  R. Baets,et al.  Off-chip beam steering with a one-dimensional optical phased array on silicon-on-insulator. , 2009, Optics letters.

[27]  R. Soref,et al.  Silicon double‐injection electro‐optic modulator with junction gate control , 1988 .

[28]  Joe C. Campbell,et al.  CMOS-compatible planar silicon waveguide-grating-coupler photodetectors fabricated on silicon-on-insulator (SOI) substrates , 2002 .