|
Latest Photonics News & Products. View it in your browser
| New Photonics Products this Week |
|
| 660 nm Fabry-Perot Quantum Well Laser Diode |
Laser Diode
from QD Laser
|
| The QLF063A-AA from QD Laser is a Fabry-Perot Quantum Well Laser Diode operating at a wavelength of 660 nm and has a slope efficiency of 1.1 W/A. It delivers a peak optical output power of 60 mW. This laser diode has parallel beam divergence of 10° and perpendicular beam divergence of 14°. It requires an operating voltage of about 2.3 V and a threshold current of 55 mA. It is used in applications such as Industrial laser markers, Measuring instruments, Life science applications, etc. |
|
Download Datasheet |
Product Details
|
|
|
|
|
| 266 nm, 355 nm, 532 nm, 1064 nm, and 1540 nm Diode-Pumped Pulsed Nd:YAG Laser |
Laser
from Quantel laser by LUMIBIRD
|
| The Merion C - S4 from Quantel laser is a Diode-Pumped Pulsed Nd:YAG Laser that operates at 266 nm, 355 nm, 532 nm, 1064 nm and 1540 nm (Custom). It delivers 100 mJ of pulse energy @ 1064 nm, 50 mJ @ 532 nm, 30 mJ @ 355 nm and 3.5 mJ @ 266 nm and can be equipped with fully integrated harmonic generators, down to 266 nm, to cover a wide range of applications. |
|
Download Datasheet |
Product Details
|
|
|
|
|
| 5 Mega Pixel CMOS Image Sensor with NIR Enhancement |
CMOS Image Sensor
from Brillnics
|
| The BRV0501 from Brillnics is a 5 MP, NIR enhanced CMOS Image Sensor (CIS) with 60% QE (Quantum Efficiency) at 850nm and 40% QE at 940nm. It is available in a 1/2.5-inch optical format that delivers color images with an effective pixel array of 2592 (H) x 1944 (V). This CIS offers excellent image quality and a variety of high dynamic range (HDR) modes of operation. |
|
Product Details
|
|
|
|
| Latest Photonics News this Week |
|
| Researchers Develop New Way of Making Micro-Displays and Visible Light Communication Devices |
University of Sheffield
|
| Researchers at the University of Sheffield have developed a revolutionary new way of making micro-displays that is set to bring the next generation of smartphones, smartwatches, and VR headsets with higher resolution, speed, and efficiency. In the £1.9 million project, funded by the EPSRC, the Sheffield-led team is developing microscale semiconductor light sources and transistors on a single chip. |
|
Read More
|
|
|
|
|
| Freiburg Scientists Develop Concept for Feedback-Controlled Optical Tweezers |
University of Freiburg
|
| We can test the quality and freshness of fruits and vegetables with our fingers, and even industrial robots have been performing successfully at tactile applications for years. But how is it possible to grab and rotate objects with the width of human hair? Prof. Dr. Alexander Rohrbach from the University of Freiburg’s Department of Microsystems Engineering and his team have now published a study on this question. |
|
Read More
|
|
|
|
|
| Opsys Tech to Deliver LiDAR Sensors to SL Corp. for Inclusion in Production Vehicles |
Opsys Tech
|
| Opsys Tech, a developer of Pure Solid-State Scanning Microflash LiDAR, announced a deal to supply LiDAR systems to South Korea-based leading auto parts supplier SL Corp. for inclusion in production vehicles as early as 2024 or 2025. SL Corp. is a global supplier to several major automakers. Opsys Tech is on track to be a major supplier of LiDAR systems to the automotive market. |
|
Read More
|
|
|
|
|
| Eikon Therapeutics Raises $517.8 Million Series B Funding to Advance Invention of New Medicines |
Eikon Therapeutics
|
| Eikon Therapeutics, a pioneer in the application of live-cell super-resolution microscopy to drug discovery, announced that it has closed a $517.8 million Series B financing. Since its founding two years ago, Eikon Therapeutics has raised more than $668 million to advance its mission of inventing new therapies that address grievous illnesses. Eikon has also completed the recruitment of an experienced team. |
|
Read More
|
|
|
|
|
| Canon Develops SPAD Sensor Capable of Capturing 3.2 MP Images in Low-Light |
Canon Inc
|
| Canon has announced that the company, thanks to a proprietary pixel architecture that efficiently captures and greatly multiplies light, has successfully developed an ultra-small 13.2 mm x 9.9 mm SPAD sensor capable of capturing the world's highest1 resolution of 3.2-megapixel images — a higher resolution than Full HD (approximately 2.07 megapixels), even in low-light environments. |
|
Read More
|
|
|
|
| | About GoPhotonics | | GoPhotonics keeps you up to date with the Photonics Industry with New Products, News, Upcoming Events and more. We have the largest searchable database of Photonics products that consist of Lasers, CMOS Image Sensors, Optical Components and Test & Measurement Equipment. Would you like to Unsubscribe? If so, click here. |
|
| To unsubscribe please click here | [Sender_Name]
[Sender_Address], [Sender_City], [Sender_State], [Sender_Zip] |
|
