CO2 Laser Mirrors have coating that helps reduce power loss.
April 29, 2011 -
Available in plano, convex, or concave configurations in 1½-3 in. OD sizes, SuperHard Coat Copper Mirrors feature hard coating that provides 99.85% typ reflectivity with zero phase shift of less than 2° @ 45° AOI. Hard coating helps reduce power loss and enhances cutting capabilities for industrial CO2 lasers up to 10 kW. Along with 40-20 scratch-dig surface finish, mirrors feature flatness of lambda/20 power, lambda/40 irregularity @10.6 µm, and parallelism of less than 3 arc-min.
(Archive News Story - Products mentioned in this Archive News Story may or may not be available from the manufacturer.)
Original Press release
Laser Research Optics
120 Corliss St.
Providence, RI, 02904
USA
CO2 Laser Mirrors Coating Helps Reduce Power Loss
A new line of CO2 laser mirrors that feature a hard coating to help reduce power loss and enhance laser cutting capabilities is being introduced by Laser Research Optics of Providence, Rhode Island.
Laser Research SuperHard Coat Copper Mirrors feature a proprietary hard coating that provides 99.85% avg. reflectivity with a zero phase shift of <2° @ 45° AOI for use in industrial CO2 lasers up to 10 kW. More durable and scratch-resistant than typical ZnSe based coatings per MIL-C-48497A, these mirrors help reduce power loss for consistently good laser cutting.
Available in plano, convex, or concave configurations in 1-1/2" to 3" O.D. sizes, Laser Research SuperHard Coat Copper Mirrors have a 40-20 scratch-dig surface finish, flatness is lambda/20 power, lambda/40 irregularity @10.6 µm, and parallelism is <3 arc-min. They are available for Amada®, Bystronic®, Cincinnati®, Mazak®, Mitsubishi®, Trumpf®, LVD®, and similar lasers.
Laser Research SuperHard Coat Copper Mirrors are priced according to configuration, size, and quantity. Pricing is available upon request.
For more information contact:
Laser Research Optics
A Division of Meller Optics, Inc.
Scott Rouillard, Sales Mgr.
120 Corliss St.
Providence, RI 02904
(888) 239-5545 FAX (401) 331-4004
e-mail: scott@laserresearch.net
www.laserresearch.net
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