CO2 Laser Mirrors have coating that helps reduce power loss.
Press Release Summary:
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.
Original Press Release:
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
