Manual instruments in production are gradually being replaced by automated optical measurement systems, where optimal illumination determines the test quality. A device that illustrates this transition is the ZEISS O-SELECT with an LED ring light from SCHOTT.
Bio-imaging and detection techniques that use non-linear optical (NLO) phenomena have led to great advancements, such as super-resolution images, label-free visualization of naturally occurring biomolecules, and greater freedom for working with in-vivo samples. This white paper discusses the importance of choosing thin-film optical components for NLO systems to ensure optimal signal strength, resolution, and image quality.
A new demand that has been placed on glass optical fibers is the need for environmental compatibility. The SCHOTT technology group provides a solution for this demand with their new PURAVIS® glass optical fibers that offer several improved performance parameters compared to other types of glass. The process for manufacturing these products does not use lead, arsenic, or antimony, and already complies with future environmental requirements.
Embedding photonic functionalities into an integrated optical chip can often simplify and reduce the size of a system. This white paper introduces the basic concepts of photonic integration with a goal to help the reader understand how it can improve optical systems.
Micro-lens arrays are monolithic components manufactured from synthetic fused silica and a laser writing process, which are created for high accuracy array collimation and coupling. PowerPhotonic designs and develops these micro-lens arrays for applications involving coupling between laser sources, fiber and waveguide arrays, optical multiplexing, and optical switching. This application note discusses micro-lens arrays, as well as the technologies they are used in such as wavelength selective switching, WSS technology, and MEMS and LCoS switches.
LASER COMPONENTS designs and manufactures dielectric coatings for a wide range of laser optics applications. The laser optics provided by LASER COMPONENTS are mostly OEM products that meet the individual customer's specifications; the products include substrates and dielectric coatings.
To support infotainment and HUD augmented reality displays and enhanced vision systems, Abrisa Technologies offers solutions manufactured from on-hand technologies and float glass, complete with custom features and edge fabrication, strengthening, graphics, coating, and oleophobics.
Abrisa Technologies now offers the innovative High Ion-Exchange (HIE™) Asahi Glass Corporation (AGC) Dragontrail™ aluminosilicate glass for cover glass, display, sensor, and scanner technologies. Dragontrail supports low profile, reduced weight, portable field, and industrial devices with a toughness of 6x that of soda lime float. It is designed to enhance the usable lifetime of high contact touch displays, and industrial image sensors, document scanners, and on board vehicular and avionics displays.
Optics Blazers manufactures Near-Eye Display combiners and other components for optimized display performance and see-through properties. With an integrated manufacturing chain, this company can deliver single reflective surface, multiple reflective surface, free-form, or diffractive combiners. Optics Blazers’ solutions are developed with cost and scalability in mind to serve the competitive consumer electronics market.
SCHOTT Lighting and Imaging has the capabilities and knowledge available to assist customers in finding the perfect fiber optic solution for sensor, metrology, and control applications. SCHOTT specialists will work with customers to jointly draw up an action plan addressing each stage leading to series production.
SCHOTT Electronic Packaging offers the HermeS® glass substrate wafer with hermetically sealed solid “Through Glass Vias” (TGV) designed to enable fully gastight and long-term robust enclosures for MEMS devices such as industrial hermetic MEMS sensors, medical MEMS, and RF MEMS. It features fine-pitched vias that allow for reliable conduction of electrical signals and power into and out of MEMS devices.
SCHOTT Lighting and Imaging offers high tech materials and components for enabling the defense and security industry to develop night vision, display, sensor, and other technologies that are smaller, lighter, and more effective.
The PURAVIS® eco-friendly glass optical fibers from SCHOTT are designed for outstanding transmission of white light, even for long length applications. This “green” product is manufactured in an entirely environmentally friendly manner, including the entire proprietary manufacturing process, making the fibers automatically compliant with the EU directives RoHS and REACH.
OSI Systems Company, will present the company’s high-performance standard and OEM photodiodes, fiber-optic products, opto-assemblies, and high-power light sources at OFC, March 13 - 15, 2018, San Diego Convention Center, San Diego, Calif. in booth #4730.
Apple recently announced the latest award from its $1B Advanced Manufacturing Fund. Finisar, a leading manufacturer of optical communications components, will receive $390M as part of Apple’s commitment to support innovation and job creation by American manufacturers.
Scientists have developed novel lenses that enable X-ray microscopy with record resolution in the nanometre regime. Using new materials, the research team led by DESY scientist Saša Bajt from the Center for Free-Electron Laser Science (CFEL) has perfected the design of specialised X-ray optics and achieved a focus spot size with a diameter of less than ten nanometres.
An international research project led by Kazuyuki Takeda of Kyoto University and Koji Usami of the University of Tokyo has developed a new method of light detection for nuclear magnetic resonance -- NMR -- by up-converting NMR radio-frequency signals into optical signals.
Excelitas Technologies Corp., a global technology leader focused on delivering innovative, customized photonic solutions, will unveil its new Qioptiq Rotatable (RO) Faraday Isolator at SPIE Photonics West 2018 (Booth # 1031).
Extremely fine porous structures with tiny holes - resembling a kind of sponge at nano level - can be generated in semiconductors.
Excelitas Technologies Corp., a global technology leader focused on delivering innovative, customized photonic solutions, will unveil its new C30737MH Series Surface Mount Silicon Avalanche Photodiodes (APDs) at Photonics West 2018 (Booth #1031).
Talks by two Nobel Laureates will be among more than 5,200 leading-edge technical presentations held alongside the premier global photonics and laser exhibition, seminars, and training courses at SPIE Photonics West 2018 in San Francisco, California.
Optics
Optics is an interesting subset of physics. It is the study of light and how it can be used in various industries from measurements to biology as well as photography to navigation. Optics is a fascinating field and we are just beginning to scratch the surface with what we know. One of the most interesting developments in optics is the use of fiber optics in the transmission of data. Light is used to transmit data across long distances and this has proved to be efficient as well as inexpensive.
Light is the fasted trailing particle in the universe and it is radiated from one point to the next in the form of waves. Light in a vacuum can travel at an astonishing 300 million meters per second, a speed that would take it to the moon in just about one second. Optics is primarily concerned with the use of light and how the light can be reflected, refracted, bent or manipulated in just about any way. The unique nature of light gives tremendous benefits in using it in various industries. Optics is no one of the ways where light can be used to store data. It seems that anything electrons have done in the past, light waves are able to do, just able to do it faster. In the beginning copper cables were used to transmit electrical pulses in network data transfer. While at that time it was a breakthrough, it was comparatively slow to the movement of light through fiber optics. Once fiber optics replaced, broad band speeds were achieved. All thanks to optics. The uses of optics can advance further with headway being made in fields of defense as well as medicine. Optics are now being used to return sight to the blind as well as create sight for robots.
