Spatial Light Modulators


1024 x 1024 Spatial Light Modulator
1920 x 1200 Spatial Light Modulator
Spatial Light Modulator 1-Photon Microscopy Kit
Spatial Light Modulator Optical Tweezing Kit
Spatial Light Modulator Optics Kit

Waveplates


Bi-Crystalline Achromatic Waveplate
Dual Wavelength Waveplate
Large Aperture Waveplate
Polymer Film Waveplate
Precision Achromatic Waveplate
Precision Superachromatic Waveplate
Precision Waveplate
Wide Field Waveplate

Liquid Crystal Polarization Gratings


Beam Steering with Liquid Crystal Polarization Gratings
Liquid Crystal Polarization Gratings Lenses
Passive Liquid Crystal Polarization Gratings

Polarizers


Beam Separator
Broadband Beamsplitting Polarizer
Deep Ultraviolet Polarizer
Dichroic Circular Polarizer
Glan-Thompson Polarizer
High Contrast Linear Polarizer
ICE Cube™ Wiregrid Polarizing Beamsplitter
Laser Line Beamsplitting Polarizer
MWIR Polarizer
Passive Liquid Crystal Polarization Gratings

Polarization Systems


Eigenstate Calibration Set
Pockels Cells Modulator
Polarimeter

Liquid Crystal


Analog Liquid Crystal Controller
Binary Liquid Crystal Rotator
Ferroelectric Liquid Crystal Controller
Ferroelectric Optical Shutter
Ferroelectric Polarization Rotator, Binary
High Contrast Optical Shutter
High-Speed LCVR, Optical Head Only, Two-Inch
High-Speed Liquid Crystal Digital Interface Controller
Liquid Crystal Digital Interface Controller
Liquid Crystal Digital Interface Controller, 20V Version

Metrology, Fabrication, & Services


Retardance Measurement Station

Account
Cart

Passive Liquid Crystal Polarization Gratings

Click image to enlarge.

Web Product Image - LCPG Passive with waveplate

$150.00 – $500.00

Key Features

Applications:

Thin polarized beamsplitter
Pair with variable retarders for non-mechanical beam steering
Spectral imaging
Polarimetry
Phase microscopy

Liquid crystal polarization gratings are also known as geometric phase gratings, Pancharatnam-Berry phase gratings, and diffractive waveplates. Meadowlark Optics’ Liquid Crystal Polarization Gratings utilize spatially varying birefringence to create highly efficient polarization-sensitive gratings. Liquid crystal polarization gratings are fascinating optical components that differ from traditional diffraction gratings, like ruled, Bragg, or holographic gratings. In particular, they exhibit polarization sensitivity, can have diffraction efficiency approaching 100%, and are much less sensitive to incident angle than, for example, Bragg or volume holographic gratings.

Common Specifications

Substrate Material: Corning EAGLE XG
Substrate Thickness: 0.02 in. (0.5 mm)
Transmitted Wavefront Distortion: ≤ λ/4 RMS at 532 nm (Typical)
Surface Quality: 60 – 40 scratch-dig

Item #	Size	Wavelength	Diffraction Efficiency	Total Efficiency	Clear Aperture	Diffraction Angle	Lead Time	Price	Quantity	Add to cart
PG-050-532-040	0.500 x 0.500 in. (12.70 x 12.70 mm)	532	≥ 99%	≥ 90%	0.34 in. × 0.34 in. (8.7 mm × 8.7 mm)	±4	Please Inquire	$150.00	Max: Min: 0 Step: 1	Add to cart
PG-050-532-020	0.500 x 0.500 in. (12.70 x 12.70 mm)	532	≥ 99%	≥ 90%	0.34 in. × 0.34 in. (8.7 mm × 8.7 mm)	±2	Please Inquire	$150.00	Max: Min: 0 Step: 1	Add to cart
PG-050-532-010	0.500 x 0.500 in. (12.70 x 12.70 mm)	532	≥ 99%	≥ 90%	0.34 in. × 0.34 in. (8.7 mm × 8.7 mm)	±1	Please Inquire	$150.00	Max: Min: 0 Step: 1	Add to cart
PG-100-532-010	1.000 x 1.000 in. (25.40 x 25.40 mm)	532	≥ 99%	≥ 90%	0.34 in. × 0.34 in. (8.7 mm × 8.7 mm)	±1	Please Inquire	$500.00	Max: Min: 0 Step: 1	Add to cart
PG-100-532-020	1.000 x 1.000 in. (25.40 x 25.40 mm)	532	≥ 99%	≥ 90%	0.76 in. × 0.76 in. (19.4 mm × 19.4 mm)	±2	Please Inquire	$500.00	Max: Min: 0 Step: 1	Add to cart
PG-100-532-040	1.000 x 1.000 in. (25.40 x 25.40 mm)	532	≥ 99%	≥ 90%	0.76 in. × 0.76 in. (19.4 mm × 19.4 mm)	±4	Please Inquire	$500.00	Max: Min: 0 Step: 1	Add to cart
PG-100-1064-010	1.000 x 1.000 in. (25.40 x 25.40 mm)	1064	≥ 99%	≥ 90%	0.76 in. × 0.76 in. (19.4 mm × 19.4 mm)	±1	Please Inquire	$500.00	Max: Min: 0 Step: 1	Add to cart
PG-100-1064-025	1.000 x 1.000 in. (25.40 x 25.40 mm)	1064	≥ 99%	≥ 90%	0.76 in. × 0.76 in. (19.4 mm × 19.4 mm)	±2.5	Please Inquire	$500.00	Max: Min: 0 Step: 1	Add to cart
PG-100-1064-050	1.000 x 1.000 in. (25.40 x 25.40 mm)	1064	≥ 99%	≥ 90%	0.76 in. × 0.76 in. (19.4 mm × 19.4 mm)	±5	Please Inquire	$500.00	Max: Min: 0 Step: 1	Add to cart
PG-100-1550-010	1.000 x 1.000 in. (25.40 x 25.40 mm)	1550	≥ 99%	≥ 90%	0.76 in. × 0.76 in. (19.4 mm × 19.4 mm)	±1	Please Inquire	$500.00	Max: Min: 0 Step: 1	Add to cart

123

Passive Liquid Crystal Polarization Gratings

Download Data Sheet

Meadowlark Optics’ Liquid Crystal Polarization Gratings utilize spatially varying birefringence to create highly efficient polarization-sensitive gratings. Liquid crystal polarization gratings are also known as geometric phase gratings, Pancharatnam-Berry phase gratings, and diffractive waveplates.

At the wavelength(s), where the birefringent layer provides a half wave of retardation, these transmissive gratings efficiently (> 99.5 % typical) diffract circularly polarized light to either the + 1 or – 1 order depending on the handedness of the incident light. Because of the half wave of retardation, the diffracted light also changes handedness relative to the incident light. Meanwhile, when linearly polarized light is used, the light is evenly split into the two diffracted orders. Meadowlark Optics offers a commercial product line of LCPGs at common laser wavelengths and a variety of diffraction angles. Broadband visible LCPG options are also available.

The plots under the “Graphs/Figures” tab illustrate the typical diffraction spectra of narrowband (left) and broadband (right) LCPGs by measuring the leakage into the 0th order (i.e., undiffracted transmission). Peak diffraction efficiency occurs where the plots have a null, representing > 99.5 % diffraction efficiency in both cases.

NARROWBAND LCPG SPECIFICATIONS
Design Wavelengths	532 nm, 1064 nm, 1550 nm (please specify)
Diffraction Angles	532 nm: ± 1˚, ± 2˚, ± 4˚ 1064 nm: : ± 1˚, ± 2 .5˚, ± 5˚ 1550nm: ± 1˚, ± 2.5˚, ± 5˚, ± 10˚
Diffraction Efficiency†	≥ 99%
Total Efficiency‡	≥ 90%

BROADBAND VISIBLE LCPG SPECIFICATIONS
Wavelength Bandwidth	450 – 700 nm
Diffraction Angles at 532 nm / (Grating Pitches)	± 1˚, ± 2˚, ± 4˚ / (30.5 µm, 15.2 µm, 7.6 µm)
Diffraction Efficiency†	≥ 90 % over 450 nm – 700 nm ≥ 95 % over 550 nm – 650 nm
Total Efficiency‡	≥ 80 % over 450 nm – 700 nm ≥ 85 % over 550 nm – 650 nm

Ordering Information – Contact Us or Buy Online

SHARED SPECIFICATIONS
Substrate Material	Corning EAGLE XG
Substrate Sizes / Clear Apertures	0.5 in. × 0.5 in. (12.7 mm × 12.7 mm) 1.0 in. × 1.0 in. (25.4 mm × 25.4 mm)	0.34 in. × 0.34 in. (8.7 mm × 8.7 mm) 0.76 in. × 0.76 in. (19.4 mm × 19.4 mm)
Substrate Thickness	0.02 in. (0.5 mm)
Transmitted Wavefront Distortion	≤ λ/4 RMS at 532 nm (Typical)
Surface Quality	60 – 40 scratch-dig

†Diffraction Efficiency defined as the power in the desired first-order beam divided by the sum of all power in all diffracted orders. Assumes circularly polarized incident light.
‡Total Efficiency defined as the power in the desired first-order beam divided by the power in the incident beam. Includes surface reflection losses.

Don’t see what you’re looking for?

Our commercial product line consists of unmounted LCPGs without integrated anti-reflection (AR) coatings so that we can provide customers with the best price. Please contact our knowledgeable Solutions Engineers regarding custom options, including custom diffraction angles, aperture sizes, and wavelengths through the visible to midwave infrared.

Liquid Crystal Suite

Polarization Gratings


Beam Steering with Liquid Crystal Polarization Gratings
Liquid Crystal Polarization Gratings Lenses
Passive Liquid Crystal Polarization Gratings

Variable Waveplates


High-Speed LCVR, Optical Head Only, Two-Inch
Liquid Crystal Variable Retarder
OEM Liquid Crystal Variable Waveplate (QTY 20 minimum)
UV Liquid Crystal Variable Waveplate

Rotators


Binary Liquid Crystal Rotator
Ferroelectric Polarization Rotator, Binary
Liquid Crystal Polarization Rotator, Continuous

Controllers


Analog Liquid Crystal Controller
Ferroelectric Liquid Crystal Controller
High-Speed Liquid Crystal Digital Interface Controller
Liquid Crystal Digital Interface Controller
Liquid Crystal Digital Interface Controller, 20V Version
SMA-to-SMB Cable – Electronics Adapter
Temperature Sensing and Control for Liquid Crystal Devices

Shutters & Attenuators


Ferroelectric Optical Shutter
High Contrast Optical Shutter
Liquid Crystal Variable Attenuator

Passive Liquid Crystal Polarization Gratings

Download Operating Principles

Fundamentals
Liquid crystal polarization gratings (PGs) are fascinating optical components that differ from traditional diffraction gratings, like ruled, Bragg, or holographic gratings. In particular, PGs exhibit polarization sensitivity, can have diffraction efficiency approaching 100%, and are much less sensitive to incident angle than, for example, Bragg or volume holographic gratings. To understand how this is possible, it is important to first understand how PGs work.

Graphs & Figures

These plots show typical zero-order leakage spectra for different LCPG specifications. The LCPG diffraction efficiency is highest where the zero-order leakage is at a minimum.