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This Week in Photonics: Mode-Locked Lasers the Size of an Optical Chip; 3D Printed, Co-Assembled Metamaterials (11/16/2023)

This Week in Photonics: Mode-Locked Lasers the Size of an Optical Chip; 3D Printed, Co-Assembled Metamaterials
Weekly newsletter highlighting breaking news, technology developments and product releases in the photonics industry.
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Thursday, November 16, 2023
 
.: Top Stories

 
Mode-Locked Laser Made to the Size of an Optical Chip
Mode-Locked Laser Made to the Size of an Optical Chip
Researchers from the City University of New York (CUNY) Graduate Center and the California Institute of Technology (CalTech) have shrunk a mode-locked laser (MLL) to the size of an optical chip with an integrated nanophotonic platform. The results show promise for developing ultrafast nanophotonic systems for a wide range of applications.
Read Article
 
3D Printing and Co-Assembly Smooth Path to Broader Use of Metamaterials
3D Printing and Co-Assembly Smooth Path to Broader Use of Metamaterials
Researchers at the Pohang University of Science and Technology developed a method for 3D co-assembly of freestanding and freeform metamaterials using micropipette tips showcasing scattering reduction. The method surpasses limitations of existing metamaterial fabrication processes by enabling design and implementation of freeform nanophotons.
Read Article
 
Low-Power Optical Tweezers Shield Trapped Bioparticles from Damage
Low-Power Optical Tweezers Shield Trapped Bioparticles from Damage
Researchers at the University of Texas at Austin (UT) developed a way to overcome the intense laser heating that causes optical tweezers to scorch biological objects. The approach, called hypothermal opto-thermophoretic tweezers (HOTTs), achieves low-power — and noninvasive — trapping of diverse biological cells and colloids in their native fluids. The tweezers combine environmental cooling and localized laser heating to realize low-power, thermophoretic trapping of target objects, while simultaneously avoiding optical and thermal damage.
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.: Featured Products & Services

 
NYFORS Teknologi AB - CO<sub>2</sub> Laser Glass-Processing CO2 Laser Glass-Processing

NYFORS Teknologi AB
CO2 laser glass-processing is designed to produce high-power and sensitive photonic components and complex structures. It guarantees contamination-free processing for fiber linear, 2D and gapless array splicing, ball lensing, end-capping, and many other challenging processes.

 Visit Website   Request Info 



MKS/Newport - ODiate™ Optical Filters ODiate™ Optical Filters

MKS/Newport
ODiate™ high-performance optical filter coatings are manufactured on our next-generation thin-film coating platform and are designed to deliver a high level of precision, productivity, and consistency of spectral performance. Discover how ODiate optical filters can enable high signal to noise system performance, low crosstalk between channels, and repeatable spectral feature placement for your sophisticated optical systems.

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.: More News

 

Targeted Photoresist Helps Meet Demand for Smaller Chips  Read Article 

Photonics Executives Outline Plans for Bolstered EU PICs Supply Chain  Read Article 

AFRL Unveils Laser Lab at Kirtland AFB  Read Article 

Computing Firm Photonic Collaborates with Microsoft, Adds Financing  Read Article 

BlueHalo Adapts High-Energy System for Joint Light Tactical Vehicle  Read Article 

 
.: Upcoming Webinars

 
The Etendue Mystery Revealed The Etendue Mystery Revealed
Tue, Nov 28, 2023 10:00 AM - 11:00 AM EST
Etendue is the most important and fundamental quantity in illumination optics while simultaneously the most mysterious, misunderstood, and misused quantity. This is because, under certain conditions, etendue follows a conservation law. Similar to all conservation laws, understanding etendue provides great insight into what can be achieved with illumination optics. The confusion instead comes from understanding under what conditions etendue follows this conservation law. In this presentation, Julius Muschaweck explains what etendue is, exactly when etendue is conserved, as well as how etendue can help to assess feasibility and guide the optical designer toward finding effective optical solutions.
 Register Now 




Design and Optimization of Optical Waveguides Design and Optimization of Optical Waveguides
Thu, Nov 30, 2023 2:00 PM - 3:00 PM EST
Optical waveguides are important building blocks for many optical devices and systems. Well-known applications range from basic optical fibers to more complex multiphysical components, such as integrated optical modulators and semiconductor optoelectronic devices for telecommunication. Moreover, waveguide devices are widely used for optical sensing and high-quality fiber laser light sources. This webinar shares about modeling optical waveguides using the Wave Optics Module, an add-on to COMSOL Multiphysics®. It covers topics such as the construction of complex waveguide structures using basic waveguide parts, the analysis of mode fields and propagation constants, and the modeling of wave propagation along optical waveguides. A representative from COMSOL introduces multiphysics couplings and shows optimization strategies while also sharing how to build and maintain custom simulation apps based on specific models, for use by colleagues or customers. Presented by COMSOL.
 Register Now 



.: All Things Photonics

 
All Things Photonics
Peter O’Brien, director of the PIXAPP Photonics Packaging Pilot Line and head of the photonics packaging group at the Tyndall Institute, overviews the current state of integrated photonics technologies, as well as core considerations in the sector. Focus is given to packaging, heterogeneous integration, and dynamic collaboration. David McGovern, senior business development manager with the Irish Photonic Integration Centre (IPIC [Science Foundation Ireland Research Centre for Photonics]) and deputy chairperson of Medphab, joins the conversation to discuss the bridge between commercial and industry needs and high-level R&D.
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 [email protected], or use our online submission form.

 
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