Thanks to LP. PRO - Fachmagazin for picking up the very important (as we think) topic of laser-based optics production in their newest article: "The optical industry relies on mechanical processes in its process chains. This could soon change. According to the Fraunhofer Institute for Laser Technology ILT in Aachen, Germany, it is driving forward digitally controlled laser processes with clear time and cost advantages in the shaping, polishing and final shape correction of aspheres and free-form optics. According to the plans of the Fraunhofer ILT, this flexibility is to be brought into industrial application. Initially as individual laser-based processes and then, in the long term, as fully laser-based optics production, from shaping and polishing to nanometer-precise shape correction." Read more: https://lnkd.in/eF8BkzxW If you are interested in what lasers can do to solve your problem in optics manufacturing please contact Edgar Willenborg, Dr. Christian Vedder, Prof. Dr. Arnold Gillner. Fraunhofer ILT, Surface Technology at Fraunhofer ILT #ilt #optics #polishing #glass #polymers #fraunhofer #fraunhoferilt #laser #lasertechnology
Surface Technology at Fraunhofer ILT’s Post
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#Volumetric_Display Market Key Players Analysis and Forecast To 2030 by Value Market Research >> https://lnkd.in/d5aqbZyF A #volumetric display is a type of three-dimensional (3D) #display technology that #creates visual #representations of objects or #scenes with depth and #volume. These displays aim to #simulate true 3D #visual #experiences by projecting #images in space, allowing #viewers to see objects from #multiple angles. Lightspace Voxon Photonics The Coretec Group, Inc. Holoxica Limited Alioscopy the Holografik Leia Inc. Looking Glass SeeReal Technologies The Coretec Group, Inc. #technologies #marketgrowth #innovationmanagement #volumetric #display #electronics
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#Volumetric_Display Market 2023: Global Industry Analysis, Opportunities and Forecast To 2032 >> https://lnkd.in/g4YT-7-V A #volumetric display is a type of three-dimensional (3D) #display technology that #creates visual #representations of objects or #scenes with depth and #volume. These displays aim to #simulate true 3D #visual #experiences by projecting #images in space, allowing #viewers to see objects from #multiple angles. Lightspace Voxon Photonics The Coretec Group, Inc. Holoxica Limited Alioscopy the Holografik Leia Inc. Looking Glass SeeReal Technologies The Coretec Group, Inc. #technologies #marketgrowth #innovationmanagement #volumetric #display #electronics #representations #3dvisual
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To the best of the researchers’ knowledge, the 193 nm DUV laser demonstrates the highest average power ever reported for both 193 nm and 221 nm lasers by frequency mixing in LBO crystals. https://lnkd.in/e6X5CdVi
DUV Lasers Made with Nonlinear Crystals Enhance Lithography Performance
photonics.com
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Scientist & Mentor @ KIST, Founder @ "letsdogre.com" an online Mentorship/Guidance platform for PhD, UG & MS Abroad with a Full Scholarship, Co-Founder @ Qeinntek Solutions
I am excited to share my article (Advanced Electronic Materials)! Interesting Key Findings for the next generation optoelectronic Devices: 1. Three-dimensional (3D) charge-written periodic peak and valley nanoarray surfaces are fabricated on a (112¯0) ZnO single crystal grown via CVT. 2. Periodically decorated structures show that the peak arrays are conducting at the nanoampere level, whereas the valley arrays are less conductive. 3. A significant decrease in the Fermi level of the valley region is observed (≈190 meV), which corresponds to a high zinc vacancy doping density of 2×10^18 cm^-3. 4. Periodic generation of an extremely large electric field (≈11,000 V cm^−1) in the vicinity of the peak–valley arrays. #optoelectronics #ledlighting #crystals
Ordered Electronic Reconstruction of the (112¯0$11\bar{2}0$) ZnO Single Crystal
onlinelibrary.wiley.com
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The authors of the paper “Injection Molding of Magnesium Aluminate Spinel Nanocomposites for High-Throughput Manufacturing of Transparent Ceramics” found a way to prepare magnesium aluminate spinel nanocomposites to produce transparent ceramics faster and more cost-effectively. This is an important contribution to material research, as they can be used in many areas such as optics and photonics, medicine and consumer electronics. They used our ATR-L refractometer at a temperature of 20°C to determine the refractive index at 486.1 nm, 546.1 nm and 587.6 nm. We are very pleased that one of our device has been used for the development of a new material. Here you can find the document: https://buff.ly/44dSUxt Here you can find our ATR-L: https://buff.ly/3VadXyH Great felicitations on this paper and good luck in further research! #SchmidtHaensch #Research #Refractometer #ATRL
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💡 3D measurement in seconds ⏲? No problem with scanCONTROL sensors and analysis in 3DInspect. Here, demonstrated with ceramics, which are inspected for flatness and height. Key features of this application: - Scan time per component approx. 0.15 seconds 🚀 - Capture of approx. 450,000 3D measurement points on each ceramic - Preprocessing to 30,000 3D measurement points - Verification of height, flatness, parallelism, and edge measurement - Analysis in less than 0.3 seconds ⏲ - Transfer of results and OK/not OK via Profinet, EtherCAT, EtherNET/IP - Storage of complete 3D data sets for not OK parts Find more information about the powerful 3D sensing technology from Micro-Epsilon here: https://lnkd.in/exPN6kCG #moreprecision #3D #measurementtechnology #vision #3dvision #imageprocessing #3dimageprocessing #automation #manufacturing #technology #production #qualitycontrol
💡 3D-Vermessung im Sekundentakt ⏱️? Kein Problem mit scanCONTROL-Sensoren und einer Auswertung im 3D-Inspect. Hier zu sehen am Beispiel von Keramiken, welche auf Ebenheit und Höhe geprüft werden. Eckdaten dieser Applikation: - Scanzeit pro Bauteil ca. 0,15 Sekunden 🚀 - Erfassung von ca. 450.000 3D-Messpunkte auf jeder Keramik 🌐 - Vorverarbeitung zu 30.000 3D-Messpunkten 🗺 - Überprüfung von Höhe, Ebenheit, Parallelität und Kantenmaß 📏 - Auswertung in weniger als 0,3 Sekunden ⏱️ - Ausgabe der Ergebnisse & iO/niO’s via Profinet, EtherCAT, EtherNET/IP 🟢🔴 - Ablage der kompletten 3D-Datensätze von niO-Teilen 🗃️ Weitere Informationen zur leistungsfähigen 3D-Sensorik von Micro-Epsilon finden Sie hier: https://lnkd.in/dPnYGS8d #moreprecision #3D #messtechnik #vision #3dvision #bildverarbeitung #3dbildverarbeitung #automation #manufacturing #technology #production #qualitycontrol #keramik
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Discover how advanced coatings and innovative techniques enhance performance and durability for high-power applications. Find out how innovations in ion beam sputtering (IBS) enhance performance, durability, and efficiency, addressing the challenges faced by optical engineers and researchers. Read more to unlock cutting-edge solutions in optical system design and performance. LASEROPTIK GmbH
Large sized laser optics beyond state of the art | Electro Optics
electrooptics.com
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📌 EPFL authors Damien Maillard, Zdenek Benes, Niccolò Piacentini, and Luis Guillermo Villanueva remind us to keep our options open beyond the typical EBL resist trinity: PMMA, ZEP, and HSQ. In their paper "Electron-beam lithography on M108Y and M35G chemically amplified DUV photoresists," they investigate the use of deep ultraviolet (DUV) resists, M108Y and M35G from JSR Micro, Inc., as EBL resists. Their chemical amplification yields high sensitivity to increase throughput. Moreover, the authors find comparable critical dimensions and better selectivity for pattern transfer into silicon to the standard EBL resists. Read more: https://lnkd.in/eQqFaSHD 🛫 Have you registered for MAEBL yet? https://www.maebl.org #nano #nanotechnology #nanofabrication #chips #chipsact #ebeam #litho #workforcedevelopment #semicon #semiconductor #semiconductors #lithography Image source: https://lnkd.in/eQqFaSHD
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