State-of-the-art e-commerce system launched to improve customer experience
San Jose, CA – January 17, 2008 – New Focus, a division of Bookham, Inc (NASDAQ: BKHM), will launch its most sophisticated e-commerce facility and a range of new products for precision measurement applications at Photonics West 2008.
Visitors to the Bookham and New Focus booth (#1207) will see:
- New quadrant-cell detectors with USB interface for precision beam-position measurement and stabilization applications
- New fiber-coupled single-wavelength lasers with narrow linewidths and high wavelength stability for Raman spectroscopy, interferometery and other precision measurement applications
- An expanded line of vacuum and ultraclean solutions for semiconductor equipment and other applications with critical environments
- New two-inch motorized Flipper™ mounts and other photonics tools for advanced scientific applications
The upgraded New Focus e-commerce system being launched at the show will offer customers expanded product information, including 3D models and drawings, access to order histories, delivery of formal quotes and the ability to store favorite products and the virtual shopping cart for future visits.
“At New Focus we aim not only to offer the most advanced, precise and reliable products but also to ensure that our customers can conveniently purchase these products anytime, anywhere,” said Bookham Executive Vice President and New Focus General Manager, Ken Ibbs. “Our continual innovation of technologies and procurement processes positions New Focus as a strong supply partner for industrial and scientific customers.”
New Focus will also be demonstrating its OEM solutions, including its advanced light-management, beam-stabilization and integrated subsystem solutions for semiconductor equipment and other 24/7 precision measurement applications.
At Photonics West, Bookham will be presenting three technical papers at associated symposium LASE 2008: ‘Recent developments for BAR and BASE: setting the trends’, ‘Emission wavelength stabilization in broad area lasers coupled to fiber Bragg gratings’ and ‘Performance and reliability of pulsed 1060 nm laser modules’.