AS PHOTONICS

Brand	Owner (click to sort)	Address	Description
INDUSTRIAL PHOTONICS	LAURIN PUBLISHING CO., INC.	100 West Street P.O. Box 4949 Pittsfield MA 01202	As to PHOTONICS;Providing business information in the nature of a directory of company profiles in the optical, electro-optical, laser, imaging, fiber optic, electro-optics, optoelectronics industries, and photonic technology; promoting the goods and services of others by providing a website with product and services information in the nature of product/services reviews, and commercial, promotional and advertising event information, all in the optical, electro-optical, laser, imaging, fiber optic, electro-optics, optoelectronics industries, and photonic technology in the machine vision and industrial automation systems for process and quality control and production fields;INDUSTRIAL;
PHOTONICS PRODSPEC	LAURIN PUBLISHING CO., INC.	100 West Street P.O. Box 4949 Pittsfield MA 01202	as to PHOTONICS;Providing an on-line searchable database featuring information regarding light based technology products, namely, products in the field of laser, optics, imaging, sensors and detectors, test and measurement, light sources, fiber optics, spectroscopy and optical materials and coatings;PRODSPEC;
	Where the owner name is not linked, that owner no longer owns the brand

Technical Examples

A method for the low temperature joining of similar and/or different phosphate glass by mating at low temperature glass components by an aqueous solution containing phosphorus. In preferred embodiments, the phosphate glasses are polished, cleaned, and brought together with the phosphate-containing solution between the polished surfaces. Vacuum may be applied to assist in making the joint. The composite is optionally heat treated to increase strength, chemical durability, and optical performance. The bond thereby formed has low birefringence, is strong, and is virtually photonically invisible. The joints now make possible, for example, substrates for virtually no loss signal splitters and other high-end optical components at low cost. Large hybrid performs substrates composed of multiple glass components may be prepared and segmented, providing an inexpensive novel substrate for the photonics industry. Active lasing phosphate glasses may be joined by the present invention method to passive non-lasing glasses for use in laser and related applications.