Newport Corporation | Optics | Polarization-Optics | Polarization-Optics-Selection-Guide

Keyword

Product #

			\|

Optics

Accessories

Beamsplitters

Cylindrical and Specialty Lenses

Diffraction Gratings

High-Energy Optics

Lens Selection Tutorial

Mirrors

Optical Filters

Optical Systems

Optics Sets

Polarization Optics

Achromatic Zero-Order Quartz-MgF₂ Wave Plates

Achromatic Zero-Order Wave Plates

Broadband Polarization Rotators

Broadband Polarizing Cube Beamsplitters

Glan-Laser Calcite Polarizers

Glan-Thompson Calcite Polarizers

High-Energy Nd:YAG Laser Polarizing Cube Beamsplitters

High-Energy Nd:YAG Laser Thin Film Polarizers

Laser Line Polarizing Cube Beamsplitters

Multiple-Order Quartz Wave Plates

Polarcor™ Linear Polarizers

Polarization Optics Selection Guide

Precision Linear Polarizers

Ultrafast Laser Thin Film Polarizers

UV Laser Line Polarizing Cube Beamsplitters

Zero-Order Precision Wave Plates

Zero-Order Quartz Wave Plates

Prisms

Replicated Mirrors

Retroreflectors

Spherical Lenses

Technical Reference and Fundamental Applications

Ultrafast Laser Optics

Windows

Show All Product Lines

Home > Products > Optics > Polarization Optics > Polarization Optics Selection Guide

Polarization Optics Selection Guide

Wave Plates

Description		Retardation Accuracy	Features/Applications	Cost	Laser Damage Threshold
	Multiple Order Quartz Retardation Plates Multiple-Order Quartz Wave Plates	±l/300	Dual wavelength multiple-order wave plates available	Low	2 MW/cm² CW, 2 J/cm² with 10 nsec pulses, typical
	Zero-Order Quartz Waveplates Zero-Order Quartz Wave Plates	±l/300	Air spaced for high damage threshold, less sensitive to wavelength and temperature variation than multiple-order wave plates	Moderate	2 MW/cm² CW, 2 J/cm² with 10 nsec pulses, typical
	Zero-Order Precision Waveplates Zero-Order Precision Wave Plates	±l/350	Least sensitive to wavelength variation, best angular acceptance, large clear apertures available	Low/Moderate	500 W/cm² CW, 4 J/cm² with 20 nsec pulses at 1064 nm, typical
	Achromatic Zero-Order Quartz-MgF2 Waveplates Achromatic Zero-Order Quartz-MgF₂ Wave Plates	From ±l/50 to ±l/100	Superior broadband performance, higher damage threshold than achromatic polymer film wave plates	Moderate	500 W/cm² CW, 2 J/cm² with 8 nsec pulses at 1064 nm, typical
	Achromatic Zero-Order Waveplates Achromatic Zero-Order Wave Plates	±l/100	Superior broadband performance, less sensitive to wavelength change and better angular acceptance than achromatic quartz-MgF₂ wave plates	High	500 W/cm² CW, 0.3 J/cm² with 10 nsec pulses, visible; 0.5 J/cm² with 10 nsec pulses at 1064 nm, typical

Polarizers

Description		Extinction Ratio T_p/T_s	Transmission Efficiency	Features/Applications	Laser Damage Threshold
	Glan-Laser Calcite Polarizers Glan-Laser Calcite Polarizers	>100,000:1	T_p >92%–95%	Extreme polarization purity, very broadband, air spaced design for high damage threshold, exit apertures provide for safe escape of rejected polarization	500 W/cm² CW, 4 J/cm² with 10 nsec pulses, typical (uncoated)
	Glan-Thompson Calcite Polarizers Glan-Thompson Calcite Polarizers	>100,000:1	T_s >90%	Extreme polarization purity, very broadband, cemented calcite prism design for lower power laser use, large acceptance angle permits use with diverging and converging beams	1 W/cm² CW, 0.1 mJ/cm² with 10 nsec pulses, typical (uncoated)
	Polarcor™ Linear Polarizers Polarcor™ Linear Polarizers	>10,000:1	T_p >79-94%	Very high polarization purity, large acceptance angle, compact design, less expensive than calcite polarizers	1000 W/cm² CW, 6 J/cm² with 13 nsec pulses at 1064 nm (pass), typical 30 W/cm² CW, 0.17 J/cm² with 13 nsec pulses at 1064 nm (block), typical
	Precision Linear Polarizers Precision Linear Polarizers	>150–4,000:1		Large apertures available, for lower power laser applications	1 W/cm² CW, 0.2 J/cm² with 20 nsec pulses, visible, typical
	Laser Line Polarizing Cube Beamsplitters Laser Line Polarizing Cube Beamsplitters	>1,000:1	T_p >95%	High polarization purity and transmission efficiency over a narrow band, cemented prism pair, for moderate power lasers	2 kW/cm² CW, 1 J/cm² with 10 nsec pulses, typical
	Broadband Polarizing Cube Beamsplitters Broadband Polarizing Cube Beamsplitters	>500:1	T_p >90% avg	Moderate polarization purity and transmission efficiency over a wide band, cemented prism pair, for moderate power lasers	2 kW/cm² CW, 1 J/cm² with 10 nsec pulses, typical
	High-energy Nd:YAG Laser Polarizing Cube High-Energy Nd:YAG Laser Polarizing Cube Beamsplitters	>200:1	T_p >95%	Moderate polarization purity and high transmission efficiency over a narrow band, optically contacted prism pair, for high power lasers	10 J/cm² with 10 nsec pulses, typical
	UV Laser Line Polarizing Cube Beamsplitters UV Laser Line Polarizing Cube Beamsplitters	>100:1	T_p >90%	Moderate polarization purity and transmission efficiency over a narrow UV band, cemented prism pair, for moderate power lasers	100 W/cm² CW, 0.1 J/cm² with 10 nsec pulses at 10 Hz
	High Energy Nd:YAG Laser Thin Film Polarizers High-Energy Nd:YAG Laser Thin Film Polarizers	>100:1	T_p >95%	High damage threshold, high transmission efficiency at Nd:YAG wavelengths	5 MW/cm² CW, 5 J/cm² with 10 nsec pulses at 10 Hz @ 1064 nm
	Ultrafast Laser Beamsplitters Ultrafast Laser Thin Film Polarizers	T_p/T_s>5:1 & 95:1	T_p>95% avg.	Low dispersion minimizes pulse broadening, high transmission efficiency over the Ti:Sapphire tuning range

Founded in 1969, Newport is a pioneering single-source solutions provider of laser and photonics components to the leaders in scientific research, life and health sciences, microelectronics, industrial manufacturing, and homeland security markets.