Ohara Corp. - Optical Glass, Polish substrates 2024 LB

< More Photonics Spectra Weekly Newsletter Subscribe to our E-Newsletters

Weekly News: ECOC Highlights, Research Enables Coherent Spectral Broadening On-Chip (10/2/2025)

Weekly News: ECOC Highlights, Research Enables Coherent Spectral Broadening On-Chip

If you are having problems seeing this newsletter, please click here to view

Thursday, October 2, 2025

Weekly News

SPIE Joins 50+ Scientific Groups Expressing Concern on an Executive Order for Scientific Grants

ECOC Exhibition 2025 is wrapping up in Copenhagen. We have all the highlights, including emerging tech and award-winning companies. SPIE joins a massive list of scientific organizations writing to Congress to express concern over an executive order on scientific grants. The groups say this latest order could lead to politicizing areas of research. Researchers from the California NanoSystems Institute at UCLA have developed a new light-emitting material that could transform photonics. IonQ is reporting the successful demonstration of visible-to-telecom wavelength frequency conversion. Germany announces plans to invest more than $40 billion in space-related defense systems. Photonics21 is asking European leaders to invest €2 billion in photonics. Quantum Computing Inc. raises $500 million in the private sale of common stock. And SPIE Photonics West is now open for registration! Sponsored by Edmund Optics and Thorlabs.

Watch Now

Caltech Research Enables Coherent Spectral Broadening On-Chip

Broadband, coherent light sources are highly valued in R&D. But until now, they have been difficult to achieve without bulky, inefficient tabletop devices. A Caltech team led by professor Alireza Marandi developed an efficient solution to integrating a broad spectrum of frequencies on a microchip. Using an optical parametric oscillator, the team demonstrated multi-octave frequency comb generation on a nanophotonic device with a threshold of only femtojoules of pump energy. Read Article

Multi-Camera Microscope Produces Sharp Images of Large, Curved Samples

Microscopy samples are seldom completely flat across a centimeter-scale field of view. Mechanical scanning can keep all the parts of a large sample in focus, but scanning reduces throughput, slowing the imaging process. To help large-area microscopy systems resolve trade-offs between field of view, resolution, and imaging speed, a team at Duke University developed a single-shot, re-imaging microscope that achieves seamless, gigapixel imaging over a 16.3 x 18.8 square millimeter field of view, at 0.84-µm half-pitch resolution, without mechanical scanning. Read Article

Scalable 3D Micro-Printed Sensors Promise Optofluidic Disease Detection

Early-stage disease diagnosis relies on the highly sensitive detection of biomarkers, such as optical whispering-gallery-mode (WGM) microcavity sensors; such devices provide precise, label-free biosensing. However, scaling and integrating large-scale arrayed WGM microcavity sensors is challenging. Bottlenecks in sensor design can lead to these bottlenecks. In response, researchers at Hong Kong Polytechnic University developed a 3D micro-printed WGM micro-laser sensor for sensitive on-chip biosensing. Read Article

Featured Products & Services

T165 Laser Diode Pulser

Highland Technology Inc.
The T165 is a picosecond to nanosecond laser diode pulser that incorporates an edge-triggered pulse generator with fast rise and fall times into a butterfly or TO-packaged laser. Its 2" x 2" design connects directly to standard 0.1" pin-pitch butterfly laser packages, making it ideal for OEM use in laser systems. Laser current, bias, and pulse widths are settable with onboard trimpots or via external analog inputs.

Visit Website

Request Info

Photonics Spectra Reference Chart

Photonics Media
This full-color, 29.5 × 20.5-inch poster of the photonics spectrum displays the major commercial laser lines, detectors, and optical materials in the ultraviolet to the far-infrared and beyond. The convenient format makes it easy to quickly find the information you need.

Visit Website

Request Info

Looking for something else? Check the Photonics Marketplace.

More News

GlobalFoundries Partners with Applied Materials, Egis

Prior Scientific Acquires Kinetic Systems

Photon IP Rebrands as Photon Bridge, Names CEO

Credo Expands Systems Portfolio, Acquires Micro-LED Developer Hyperlume

Latest Webinars

Metasurface Optics for Information Processing and Computing

Thu, Oct 9, 2025 1:00 PM - 2:00 PM EDT
Metasurface optics—ultrathin, nanostructured elements capable of precise light manipulation—are revolutionizing optical information processing. By co-designing optical hardware with computational algorithms, these systems enable complex operations like spatial convolutions directly in the optical domain. This hybrid analog-digital approach offers new possibilities for faster, more efficient imaging and vision systems, while posing exciting challenges at the intersection of photonics, machine learning, and device integration. Sponsored by Moxtek.

Advanced Motion Control for Semiconductor Metrology

Thu, Oct 16, 2025 1:00 PM - 2:00 PM EDT
Join our webinar on advanced motion control for semiconductor inspection and metrology. Discover how precision motion systems enable cutting-edge applications like wafer inspection, SWLI, SEM/FIB, and AFM. Learn about compensating for error motions, system-level optimization, and advanced control techniques to achieve nanometer-level precision and maximize throughput. Explore industry-leading solutions pushing the boundaries of semiconductor metrology. This webinar is ideal for anyone in the semiconductor industry seeking to enhance accuracy, speed, and reliability in their manufacturing operations. Presented by Aerotech.

All Things Photonics

The Power of Inertial Confinement Fusion — With Omar Hurricane and Mike Campbell

There is an ever-growing demand for power, whether it is to supply electricity for our power-hungry AI servers or to keep the lights on in more homes. Inertial confinement fusion has been referred to as one of the most promising paths to thermonuclear fusion, and it could one day provide a path to more efficient power. Omar Hurricane and Mike Campbell formed a professional relationship and a lasting friendship through their time together at the Lawrence Livermore National Laboratory. In this episode of “All Things Photonics”, they discuss the progress made in inertial confinement fusion and what this technology will need to reach its full potential.

Listen Now

Call for Articles
Photonics Media is currently seeking technical feature articles on a variety of topics for publication in our magazines (Photonics Spectra, BioPhotonics, and Vision Spectra). Please submit an informal 100-word abstract to editorial@Photonics.com, or use our online submission form.

We respect your time and privacy. You are receiving this email because you are a Photonics Media subscriber, and/or a member
of our website, Photonics.com. You may use the links below to manage your subscriptions or contact us.

Questions: info@photonics.com

Unsubscribe | Subscribe | Subscriptions | Privacy Policy | Terms and Conditions of Use

Photonics Media, 100 West St., PO Box 4949, Pittsfield, MA 01202-4949
© 1996 - 2025 Laurin Publishing. All rights reserved. Photonics.com is Registered with the U.S. Patent & Trademark Office.
Reproduction in whole or in part without permission is prohibited.

Explore Our Content
News
Feature Articles
Latest Products
Webinars
White Papers
All Things Photonics Podcast
Photonics Spectra Now
Videos
Our Summits & Conferences
Industry Events
Bookstore

Join Our Community
Subscribe
Advertise
Become a member
Sign in
Contribute a Feature
Suggest a Webinar
Submit a Press Release
Mobile Apps

About Us
Our Company
Our Publications
Contact Us
Career Opportunities
Teddi C. Laurin Scholarship

Terms & Conditions
Privacy Policy
California Consumer Privacy Act (CCPA)

We use cookies to improve user experience and analyze our website traffic as stated in our Privacy Policy. By using this website, you agree to the use of cookies unless you have disabled them.