High Refractive Index Plastic Optical Materials: Properties of Plastic Optical Materials, Refractive Index Measurements, Experimental Evaluation of High Index Optical Materials - Aristidis Chandrinos - Books - VDM Verlag Dr. Müller - 9783639123074 - March 3, 2009
In case cover and title do not match, the title is correct

High Refractive Index Plastic Optical Materials: Properties of Plastic Optical Materials, Refractive Index Measurements, Experimental Evaluation of High Index Optical Materials

Aristidis Chandrinos

Price
$ 66.99

Ordered from remote warehouse

Expected delivery Jan 8 - 21, 2025
Christmas presents can be returned until 31 January
Add to your iMusic wish list

High Refractive Index Plastic Optical Materials: Properties of Plastic Optical Materials, Refractive Index Measurements, Experimental Evaluation of High Index Optical Materials

Although glass was the only lens material for over 600 years, today plastic lenses used for prescription eyewear and sunglasses requiring high abrasion resistance and high quality optical properties have been developed. High index plastic lenses are a new lens category, having refractive index from 1.54 to 1.71. Recently, much interest has been shown in new high index polymeric materials. Main target is lenses with good optical performance; high refractive index, low constringence, good light transmission and UV absorption. Outstanding factors defining this performance are refractive index and chromatic aberration. This book, therefore, provides measurements of refractive index using a light source or a laser beam and computing the minimum deviation angle through a prism of the material, chromatic aberration determined by evaluating the optical performance of the material itself. It should be especially useful to professionals in industrial, educational and marketing fields, or anyone else who may be interesting in measurement techniques, properties or performance of new optical materials

Media Books     Paperback Book   (Book with soft cover and glued back)
Released March 3, 2009
ISBN13 9783639123074
Publishers VDM Verlag Dr. Müller
Pages 136
Dimensions 208 g
Language English