Precision Neuroscience’s Post

🚀 RIBER receives a new strategic order in Europe ! ✨   We are delighted to announce that RIBER has been selected by VEXLUM, a leader in advanced laser devices, to equip their first autonomous pilot line in Finland. The order involves the supply of a fully automated MBE 412 platform, the only one of its kind in the country.   Based in Tampere, Vexlum uses our cutting-edge technology to develop innovative optical devices, including VECSEL structures for quantum technologies. With the MBE 412, equipped with the EZ TOOL package for real-time control and Crystal XE software, Vexlum will pave the way for the production of a new generation of devices covering the visible and infrared spectrum.   🎯 This new collaboration underlines RIBER's major contribution to the development of the semiconductor industry in Europe and strengthens our leading position in MBE solutions.   🔜 Delivery scheduled for 2025 : A decisive step for technological innovation in Finland and for the semiconductor industry !   🔗 To find out more about this breakthrough, click here 👉 https://lnkd.in/erta6CKp   #WeAreRiber #RIBER #Semiconductors #Molecularbeamepitaxy #MBE #Compoundsemiconductors #NewSale #Technology #Innovation #Research #Production #Epitaxy #Innovation #IndustryLeaders #QuantumTechnology #Photonique

Marktech's new Series 4 silicon photodiodes offer 3x faster response speed, reduced capacitance, and an isolated version for noise reduction, ideal for high-precision applications. Marktech Optoelectronics, Inc. #Series4photodiodes #siliconphotodiodes #lowcapacitance #highspeedphotodiodes #responsespeed #opticalcommunication #biomedicalimaging #motiondetection #isolatedphotodiodes #noisereduction #signalintegrity #ElectronicsNews #latestelectronicsnews

Take a look into the latest thin film production solutions at Semicon Korea from 31st January to 2nd February. PVD #technology hits the spot - from low temperature deposition of SiN and SiCN in hybrid bonding applications, to wafer warpage correction for heterogeneous integration. Talk to the #Evatec team at booth #C736 and find out how we can support you across a whole range of applications in Semiconductor, Advanced Packaging, Optoelectronics and Photonics. We look forward to seeing you there! #TheThinfilmPowerhouse #shapingthefuture #SemiconKorea Image created by Magic Media Canva

The semiconductor and consumer electronics industries are two prominent adopters of laser microprocessing. These sectors benefit from the advantages that industrial lasers provide for various processes in the manufacture and refinement of wafers, displays, circuit boards, and other core components. The architectures of electronic components, in particular, consist of multiple layers, each potentially made of very different materials. Additionally, cleanliness must be ensured throughout the manufacturing process. Antonio Castelo, PhD explores the factors that compound the challenges faced by laser systems tasked with enabling such precision processing. And highlights companies that excel in this challenge like Litilit, Synova SA, Femtum, Center for Physical Sciences and Technology (FTMC), Akoneer, Precitec - Laser Material Processing, New Imaging Technologies (NIT) and PULSATE. Read the full article published in Photonics Spectra July 2024 Issue: https://lnkd.in/dAWYVJEE #photonics #semiconductor #consumerelectronics #laser #microprocessing #industrialLasers #components #materialprocess #electronics

"As advancements in laser microprocessing flourish in the semiconductor sector, process monitoring, including via SWIR imaging, is further increasing the chances to achieve favorable outcomes in processing compact components. " "In the imaging domain, SWIR cameras are favored for semiconductor inspection due to the capability of SWIR light to "see" inside silicon to detect cracks and other potential wafer defects, or defects to solar cell panels. SWIR imagers are further used to perform failure analyses of integrated circuits. New Imaging Technologies’ (NIT’s) line-scan array camera solution, for example, which is based on an indium gallium arsenide detector, provides extremely sharp images of defects in materials at high throughput. This system achieves 2K resolution (2048 × 1 pixels at 7.5-μm pixel pitch). NIT has also recently launched a high resolution SWIR sensor for the most demanding inspections in this field, with an 8-μm pixel pitch and 2-MP resolution at 1920 × 1080 pixels. This solution achieves ultralow noise of 25 e- to ensure image clarity even in challenging environments."

𝐏𝐮𝐥𝐬𝐞𝐝 𝐋𝐚𝐬𝐞𝐫 𝐃𝐞𝐩𝐨𝐬𝐢𝐭𝐢𝐨𝐧 High-tech material innovation often occurs in the form of thin layers that improve the performance of, for example, semiconductor #chips, #sensors, displays or solar cells. Pulsed Laser Deposition makes it possible to apply specific materials layer by layer to a substrate. We develop and manufacture advanced, client-specific systems for this purpose. Demcon TSST #LaserScience #PLD #Science #Scienceandtechnology #Photonics #Scieneandtechnolgy #Technology

Read EVG's new white paper on maskless lithography below 👍 👇

POLYNICES Project is a #research and #innovation project aiming to create a versatile photonic integration platform. Our goal is to deliver 💰 cost-effective, ⚡ high-performance, 📈 scalable, and 🏭 easily manufacturable #photonic modules for the next generation of #technology. Here's what we're working on: ✔Select a suitable PCB substrate and create a reliable process for spin-coating flat polymer surfaces and making low-loss single-mode waveguides. ✔Create a process for precise etching of recesses in the motherboard to allow flip-chip integration and passive alignment of photonic chiplets, micro-optic elements, and InP elements. ✔Develop multi-functional Si3N4 PICs (chiplets) compatible with flip-chip integration, serving as photonic building blocks for scalable, low-power photonic integrated circuits. ✔Create small, fast, and low-voltage PZT stress optic actuators. ✔Create single and grouped THz antenna elements using dielectric rods to achieve high gain across a wide frequency range with minimal crosstalk. ✔ Create a process for integrating Si3N4 chiplets onto EOPCB motherboards with low loss at wafer scale, and explore laser soldering for this integration. ✔ Create a process to package electronic ICs together with the motherboard, combining steps into a streamlined assembly and packaging flow for POLYNICES demonstrators. ✔Create prototypes to demonstrate POLYNICES technology for FMCW THz spectrometers and Quantum Information Processing. ✔Assess POLYNICES prototypes and confirm they perform well in practical settings. ✔Create a plan to bring POLYNICES technology to market and define a user-friendly Process Design Kit (PDK) to make it easier for stakeholders to adopt. ⏩ Visit our website to learn more 🔗 https://lnkd.in/dmzci_ep 🌟Stay tuned for more news & updates! #Photonics #Innovation #TechDevelopment #POLYNICES #Photonics #TechRevolution #POLYNICES #EUfunded

New article alert: Check out our recent article on the Impact of Photoluminescence Imaging Methodology on Transport Parameters in Semiconductors. #OLED #PLImaging #Optoelectronics

if you are dealing with a semiconductor which is being dominated by defects/disorder, typically is the case of organic semiconductor then you will like to read this interesting article which suggests many experimental findings based on transient microscopy can give wrong estimate of crucial transport parameters! Congratulations to Gangadhar S B. and Rishabh Saxena in Prof Anna Koehler & Prof Heinz Bassler group at Bayretuth University for putting this insightful work together.