Rochester Precision Optics
West Henrietta, NY 14586
Infrared Optics feature moldable design.
Optir(TM) moldable long wave infrared glass and infrared aspheric optics utilize benefits of moldable infrared chalcogenide glasses. Glass offers minimal thermal change in refractive index of 72 x 10-6/Ã-ºC, which benefits systems designers in avoiding thermal defocusing.
Read More »Rochester Precision Optics Acquires Molded Plastic Optics
Rochester, NY. -December 29, 2010 - Rochester Precision Optics (RPO) today announced the acquisition of Molded Plastic Optics (MPO) a leading designer and manufacturer of molded plastic optics for commercial and defense markets. MPO is based in Manchester, New Hampshire, and was founded in 2008 by a team of experienced optical engineers and industry professionals focused on providing the highest...
Read More »New CTO to Lead Development of Next Generation Molded Optics Technology
Rochester, NY. -January 11, 2011 -William Hurley, president Rochester Precision Optics announced the appointment of Dr. Yazid Tohme to the position of Chief Technology Officer (CTO), effective immediately. Dr. Tohme was previously Research and Development Manager at Moore Nanotechnology Systems. Over the past 10 years Dr. Tohme led the design and development of Moore Nanotechnology System's Ultra...
Read More »Rochester Precision Optics Extends Design Solutions with the Acquisition of ASE Optics
Rochester, NY. -January 5, 2011 - Rochester Precision Optics (RPO) a world leader in optical solutions announced today the acquisition of Rochester based ASE Optics. ASE was formed in 1994 and has provided optical engineering services and research to over 200 different clients ranging from government agencies to Fortune 500 companies. The acquisition allows RPO to extend and grow its design and...
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Infrared Optics feature moldable design.
Optir(TM) moldable long wave infrared glass and infrared aspheric optics utilize benefits of moldable infrared chalcogenide glasses. Glass offers minimal thermal change in refractive index of 72 x 10-6/Ã-ºC, which benefits systems designers in avoiding thermal defocusing.
Read More »