Search
Menu
Alluxa - Optical Coatings LB 8/23

A Bird’s-Eye View of AR Coatings, from Concept Through Production

Mar 12, 2019
Facebook X LinkedIn Email
TO VIEW THIS WEBINAR:
Login  Register
About This Webinar
The most common optical thin-film coating produced today (and for more than 80 years!) is the antireflection (AR) coating. This webinar will present the concepts and design principles of AR coatings, and will discuss the equipment used in AR coating production and the process aspects of AR coatings. Many other types of coatings have evolved from these same principles, equipment, and processes. These will be touched on briefly, but the focus of the webinar will be on AR coatings.

This webinar is sponsored by North American Coating Laboratories, a provider of specialized optical coatings for a wide variety of customers in both the polymer and glass optics markets. It is also sponsored by Satisloh GmbH, a global leader in machine manufacturing for precision optics and ophthalmic lenses, including machines for grinding, polishing, centering, and coating. It is also sponsored by Bühler Leybold Optics, part of Bühler Group, a globally-active high-tech company specializing in the development and manufacturing of vacuum coating systems. Leybold Optics' expertise covers a range of applications, from coatings for architectural glass, precision optics, ophthalmic lenses, and optical filters to industrial coatings for headlamps and sensors in the automotive sector, as well as optoelectronic applications. It is also sponsored by Newport Thin Film Laboratory, Inc. (NTFL), a leading manufacturer of custom thin film coatings. For more than four decades, custom optical coatings produced by NTFL have contributed to engineering progress worldwide. NTFL is a fully-equipped clean room coating facility specializing in the design and manufacture of vacuum-deposited optical thin films for UV, visible, and IR regions. It has the capability to deposit high-performance coatings on micro-optics to larger optics.

About the presenter:
Ron Willey, trainer and consultant, owner/ founder, Willey Corporation, Willey Optical.Ron Willey, optical design and production trainer and consultant, has over 50 years of experience in optical system and optical coating development, design, and production, with special emphasis in the areas of practical thin-films design, process development, and the application of industrial DOE (design of experiments) methodology. He is the inventor of a robust plasma/ion source for optical coating applications.

Willey worked in optical instrument development and production at Perkin-Elmer, Block Associates, United Aircraft, Martin Marietta, Opto Mechanik, and  Hughes, and formed Willey Corporation, which serves a wide variety of clients with consulting, development, prototypes, and production.

He has a Bachelor of Science degree in optical instrumentation from the Massachusetts Institute of Technology and a Master of Science degree in computer science from the Florida Institute of Technology. He has published many papers on optical coating design and production. His recent books are Practical Design of Optical Thin Films, 5th ed. (2018), and Practical Production of Optical Thin Films, 4th ed. (2017). His weeklong course is offered quarterly and is also available on DVD. He is a fellow of The Optical Society (OSA) and SPIE and a past director of the Society of Vacuum Coaters.

Who should attend:
Optical engineers, designers, and managers who want to increase their practical understanding of AR optical coating design, development, and production. You will learn how AR coatings are designed and prepared for production. All industries that use AR coating technology will benefit from this presentation; it is not industry-specific.  

Research & TechnologyeducationWebinarsAmericasCoatingsOpticsoptical coatingsanti-reflection coatingsWilley OpticalWilley CorporationRon Willeyoptical designMaterialsoptical materialsantireflection coatingSatisloh GmbHBuhler GroupNewport Thin Film Laboratory Inc.Bühler Leybold Optics
We use cookies to improve user experience and analyze our website traffic as stated in our Privacy Policy. By using this website, you agree to the use of cookies unless you have disabled them.