Maury Microwave’s Post

FEATURED PRODUCT: PVIA-10.6-1×1-TO39-NW-36 is a room-temperature IR photovoltaic detector based on InAs/InAsSb superlattice heterostructure. The detector element is monolithically integrated with hyper-hemispherical GaAs microlens in order to improve the performance of the device. Spectral range: 1.8 to 12.0 μm, ROHS compliant. Applications: CO2 laser (10.6 μm) measurements, gas detection, etc. VIGO Photonics #photonics

Choosing the right cryostat can be a challenge, particularly when considering your long-term needs and budgetary requirements. This webinar recording, presented by Rachael Floyd of Lake Shore Cryotronics, provides a comprehensive overview of the key factors to consider when evaluating cryostats for a research lab, including: 🔹 Temperature stability and range, including the need for high temperature. 🔹 Types of cooling mechanisms, and their advantages and drawbacks 🔹 Sample considerations, including the environment and vibration sensitivity 🔹 Application and measurement requirements, such as those needed for electrical characterization, photoluminescence, or FTIR spectroscopy Also discussed: initial purchase and operating costs, especially those relating to the availability of liquid helium, and whether a cryogen-free solution would better serve your needs. Watch the recording: https://hubs.li/Q02DpJhD0 #Cryostats #Helium #HeliumConservationDay #HeliumConservation

There are ways and WAYS of looking at a #battery single-cell #thermal #runaway, check how #opticaltechniques can give you additional information in #safety testing compared to more traditional techniques.

Stabilization and control of weakly correlated polar skyrmions in ferroelectric thin films https://lnkd.in/gdTNg-eW

Maintaining High-Quality Vacuum is essential for the stability and efficiency of Synchrotron operations. Ultra-High Vacuum (UHV) minimises scattering and absorption of synchrotron radiation by air molecules. VACGEN have 60 year’s experience supplying Vacuum Components such as; Vacuum Chambers, Sample Manipulation devices, Beam Scraper Devices, Beam Choppers and Adjusters and Lens Assemblies, engineered to the highest quality for global research facilities. #SynchrotronScience #Synchrotron #UltraHighVacuum #HighVacuum #MaterialScience #VacuumChamber #VacuumTechnology #ResearchAndDevelopment

Cadmium telluride (CdTe) crystals in the new QuantaMax detector allow direct conversion of X-rays into an electrical signal rather than light. This CdTe semiconductor crystal differs from standard scintillation detector, as it enables individual measurement of each X-ray photon in a single projection. QuantaMax detectors create CT images at high spatial resolution, without electronic noise, and with an improved contrast‐to‐noise ratio, intrinsic spectral information, and at a lower radiation dose. Combining the above capabilities with Dual Source temporal resolution enables visualization of fine details for increased diagnostic confidence. https://lnkd.in/d4QcfGdd #SiemensHealthineers #QuantaMaxDetector #PhotonCounting #QuantumTechnology #NaeotomAlpha

One of the keys to the success of CMT–Clean Mobility & Thermofluids (UPV)'s #battery #group is the application of their knowledge of optical techniques to explain the current challenges of Lithium-Ion batteries, particularly #Thermal #Runaway. Having this group of people is simply wonderful. They never cease to amaze me. Thanks Felipe Lewiski, Diego Golke, Francisco José Tejada, Carlos Micó and José Vicente Pastor! On this occasion, they have reached a level of detail I had never seen before regarding the #TR #first and #second venting. Single-cell NMC811 To achieve this, they used a high-frequency LED with a temporal resolution of 10 µs, an LED pulse duration of 400 ns, and a high-speed camera, the same used for PIV applications, where pairs of frames are recorded with a delta time of 10 µs. Each pair of images is recorded at a frequency of 2 kHz. B R U T A L! Please, send us your comments. #LIB #OpticalTechniques #Research

It’s finally here: our fiber-coupled miniECL at 780 nm! 🎉   Just as the free-beam miniECLs, this new fiber-coupled single frequency laser diode has beam collimation, thermal management and the (external) cavity integrated into a hermetically sealed butterfly package making it so robust and scalable that it is ideal for industrial usage. Additionally, an optical isolator is now integrated that makes the “plug & play” option with the fiber pigtail even more convenient.   With an exceptional output power of 25 mW the fiber-coupled miniECL is an ideal seed source, so that together with the miniTA 3 W of singlemode power are reached. In addition, the large mode-hop free tuning range ensures stable operation while the very narrow linewidth of typically 100 kHz is so precise that the miniECL is the ideal choice for transition lines such as Rubidium D2 line.   Stay tuned for more information here, check our website (link in comments) and/or visit us at our booth #1527 at SPIE Photonics West!   #photonicswest #productlaunch #miniecl

𝗦𝗲𝗲 𝘆𝗼𝘂𝗿 𝗿𝗲𝗮𝗰𝘁𝗶𝗼𝗻𝘀 𝗹𝗶𝗸𝗲 𝗻𝗲𝘃𝗲𝗿 𝗯𝗲𝗳𝗼𝗿𝗲! You are still concerned of microwave reactors being a black box? Although camera options allow for spotting stirring efficiency or color changes?  Imagine being able to track your reaction on a molecular level in real-time! 👀 That's provided by Monowave 400 R - the first and only microwave reactor that enables real-time reaction monitoring! 💪 By connecting Monowave 400 R with  Cora 5001, you unlock the power of contactless Raman spectroscopy while your synthesis reation is running. This cutting-edge, non-invasive technique allows you to: 🧪 Observe non-isolable intermediates 📉 Track substrate consumption and product formation 🔍 Understand reaction mechanisms and determine kinetics. Learn more about the powerful combination of Anton Paar’s microwave reactor and compact Raman spectrometer and ask for a demo: https://loom.ly/YSclfhw #microwavesynthesis #Monowave #Ramanspectroscopy #chemistrythatmatters #insituanalytics #AntonPaar

Thorlabs' new Distributed Feedback (DFB) lasers are uniquely suited for gas sensing and analysis. Their center wavelengths from 1642 nm to 1654 nm emit at wavelengths ideal for sensing methane gas. These DFB lasers are guaranteed to reach their specified wavelengths within their tuning range and are single wavelength, allowing them to be tuned to the desired methane peak. Learn more at https://lnkd.in/eusGu6iQ. #lasers #LaserDiodes #SingleFrequencyLasers