Progress on large-area polarization grating fabrication

Over the last several years, we have pioneered liquid crystal polarization gratings (PGs), in both switchable and polymer versions. We have also introduced their use in many applications, including mechanical/non-mechanical laser beam steering and polarization imaging/sensing. Until now, conventional holographic congurations were used to create PGs where the diameter of the active area was limited to 1-2 inches. In this paper, we discuss a new holography setup to fabricate large area PGs using spherical waves as the diverging coherent beams. Various design parameters of this setup are examined for impact on the quality of the recorded PG profile. Using this setup, we demonstrate a large area polymer PG with approximately 66 inch square area, and present detailed characterization.

[1]  F. Gori Measuring Stokes parameters by means of a polarization grating. , 1999, Optics letters.

[2]  Michael J. Escuti,et al.  39.2: Polarization Conversion System Using a Polymer Polarization Grating , 2011 .

[3]  Ludmila Nikolova,et al.  Diffraction Efficiency and Selectivity of Polarization Holographic Recording , 1984 .

[4]  Michael J. Escuti,et al.  Wide-angle nonmechanical beam steering using thin liquid crystal polarization gratings , 2008, Optical Engineering + Applications.

[5]  Steve Serati,et al.  Wide-angle, nonmechanical beam steering with high throughput utilizing polarization gratings. , 2011, Applied optics.

[6]  Landa Hoke,et al.  Polarization insensitive imaging through polarization gratings. , 2009, Optics express.

[7]  Nelson V. Tabiryan,et al.  The principles of laser beam control with polarization gratings introduced as diffractive waveplates , 2010, Organic Photonics + Electronics.

[8]  Michael J. Escuti,et al.  P‐209: Evaluation of Projection Schemes for the Liquid Crystal Polarization Grating Operating on Unpolarized Light , 2006 .

[9]  Kazuhiko Oka,et al.  White-light channeled imaging polarimeter using broadband polarization gratings. , 2011, Applied optics.

[10]  Michael J. Escuti,et al.  Demonstration of a polarization grating imaging spectropolarimeter (PGIS) , 2010, Defense + Commercial Sensing.

[11]  Michael J. Escuti,et al.  High efficiency quasi-ternary design for nonmechanical beam-steering utilizing polarization gratings , 2010, Optical Engineering + Applications.

[12]  Chulwoo Oh,et al.  High-Throughput Continuous Beam Steering Using Rotating Polarization Gratings , 2010, IEEE Photonics Technology Letters.

[13]  Michael J. Escuti,et al.  Demonstration of large-angle nonmechanical laser beam steering based on LC polymer polarization gratings , 2011, Defense + Commercial Sensing.

[14]  Michael J. Escuti,et al.  Simplified spectropolarimetry using reactive mesogen polarization gratings , 2006, SPIE Optics + Photonics.

[15]  Michael J. Escuti,et al.  A compact holographic recording setup for tuning pitch using polarizing prisms , 2012, OPTO.

[16]  Gregory P. Crawford,et al.  Liquid-crystal diffraction gratings using polarization holography alignment techniques , 2005 .