Join us for an exclusive keynote by Leslie Kimerling, Co-Founder & CEO of Double Helix Optics, at our Innovation Summit in Cupertino, CA on December 12! 🧬 Leslie will explore groundbreaking trends in life sciences and dive into the world of super-resolution 3D microscopy—powered by Nobel Prize-winning technology. Discover how Double Helix Optics is revolutionizing imaging with stunning 3D molecular visualizations. 🌟 Don't miss your chance to learn from top experts in optics and life sciences at this free in-person event! 📅 December 12, 2024 | 8:45 AM PT 📍 Quinlan Community Center, Cupertino, CA 💡 Register now: https://ow.ly/gjsL50UbcvO #EdmundInnovationSummit #EdmundOptics #EdmundEvents

Learn all about Metrology Driving Manufacturing Innovation from Jessica DeGroote Nelson at Optica’s Latin America Optics and Photonics Conference in Puerto Vallarta on November 12 at 3 PM. This presentation will review the past 30 years of manufacturing and testing innovations including everything from CNC processing to freeform optics, highlighting the tried and true message: “If you can’t measure it, you can’t make it." Learn more at: https://ow.ly/qi0x50U4ItY #Optics #Photonics #Manufacturing

Join us for our next #EdmundInnovationSummit, a FREE in-person event of learning and networking at the Quinlan Community Center in Cupertino, CA. Our experts, along with guest speakers, we will discuss "Optical Solutions for Life Sciences: Maximizing Performance, Minimizing Costs." Let's discover the trends and technologies enabling successful optical systems for life science applications. 📆December 12, 2024 I 8:45 AM PT 📍Quinlan Community Center, Cupertino, CA Register here! https://ow.ly/MbmC50U58pK #EdmundEvents #TheFutureDependsonOptics

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Wilt u exact opmeten? Voor precisie klussen huurt u bij Rixax uw meet/laser/theodoliet apparatuur en benodigdheden. Plaats vandaag nog uw reservering!

We are proud to sponsor PhotonicsSweden's Award (2nd prize) for an outstanding master thesis in the field of photonics/optics. A big congratulations to Adrian Vågberg for receiving this well-deserved recognition! 🎉 His thesis, "CO2 Absorption Spectroscopy with Backward Wave OPOs," showcases the innovative research that drives our industry forward. We’re thrilled to support the next generation of bright minds in advancing photonics.

Edmund Optics has been a leading supplier of precision optics and optical components since 1942, designing and manufacturing a wide array of multi-element optical lenses, lens coatings, imaging systems, and optomechanical equipment. Led by a staff of skilled optical engineers and scientists, Edmund Optics is application focused and pursues new ways to implement optical technology, enabling advancements in industrial metrology, semiconductor manufacturing, life sciences, and more. Edmund Optics is a worldwide presence in industrial optics extending well beyond our original manufacturing plant and corporate headquarters in Barrington, New Jersey, USA. This page is hosted by Edmund Optics. View our privacy policy: https://www.edmundoptics.com/privacy-policy/

The interaction between chemistry and mechanical philosophy altered this situation by providing chemists with a shared language. The mechanical philosophy had been successfully employed in other areas; it seemed consistent with an experimental empiricism and seemed to provide a way to render chemistry respectable by translating it into the terms of the new science. Perhaps the best example of the influence of the mechanical philosophy is the work of Robert Boyle. The thrust of his work was to understand the chemical properties of matter, to provide experimental evidence for the mechanical philosophy, and to demonstrate that all chemical properties can be explained in mechanical terms. He was an excellent laboratory chemist and developed a number of important techniques, especially colour-identification tests.

Thorlabs' Fabry-Perot Quantum Cascade Lasers (QCLs) exhibit broadband emission in a range spanning roughly 50 cm-1. Each QCL's specified output power is the sum ...

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Edmund Optics

Today, we welcomed Mr. Randall Hinton and Dr. Bill Murray, PhD from Edmund Optics to give a physics talk organized by CCNY Optica Student Chapter. Thank you so much for such amazing presentation on ultrafast lasers, manufacturing, and career in the field of optics and photonics. #ccny #physics #iusl #cuny

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Many of the most important contributions to optics in the 17th century were the work of Newton, especially the theory of colours. Traditional theory considered colours to be the result of the modification of white light. Descartes, for example, thought that colours were the result of the spin of the particles that constitute light. Newton upset the traditional theory of colours by demonstrating in an impressive set of experiments that white light is a mixture out of which separate beams of coloured light can be separated. He associated different degrees of refrangibility with rays of different colours, and in this manner he was able to explain the way prisms produce spectra of colours from white light.

Premium AR, which stands for 'anti-reflective' (or sometimes you'll hear it referred to as anti-glare), is a much-loved lens enhancement that reduces ...

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During the first half of the 17th century, there were few established doctrines that chemists generally accepted as a framework. As a result, there was little cumulative growth of chemical knowledge. Chemists tended to build detailed systems, “chemical philosophies,” attempting to explain the entire universe in chemical terms. Most chemists accepted the traditional four elements (air, earth, water, fire), or the Paracelsian principles (salt, sulfur, mercury), or both, as the bearers of real qualities in substances; they also exhibited a marked tendency toward the occult.

Huygens was the second great optical thinker of the 17th century. Although he was critical of many of the details of Descartes’s system, he wrote in the Cartesian tradition, seeking purely mechanical explanations of phenomena. Huygens regarded light as something of a pulse phenomenon, but he explicitly denied the periodicity of light pulses. He developed the concept of wave front, by means of which he was able to derive the laws of reflection and refraction from his pulse theory and to explain the recently discovered phenomenon of double refraction.

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We’re excited to share that two amazing members of the Edmund Optics team have been recognized among the prestigious #Photonics100 by Electro Optics! 🎉 Join us in celebrating Katie Schwertz and Dr. Mathias Mende, both honored as Optical Engineering Leaders, for their outstanding contributions to advancing photonics technology. Their innovation, passion, and leadership continue to inspire both their colleagues and the entire industry. Congratulations, Katie and Mathias – this recognition is well deserved! 👏 📍Learn more about the Photonics100 here: https://lnkd.in/gs9a_kKf #ElectroOptics #Photonics100 #TheFutureDependsonOptics

JA Strother · 2021 · 10 — Optical systems with integrated tunable lenses allow for rapid axial-scanning without mechanical translation of the components. However, ...

Lockable High Performance Iris Diaphragms from Edmund Optics – the ultimate solution for precise aperture control in your optical system! 🎯 Easily adjust the aperture diameter and lock it securely in place with a simple twist of the lever. Designed to maintain stability even in shock and vibration-prone environments, these irises are perfect for applications where consistent performance is crucial, such as imaging, machine vision, and industrial optics. 🔒 📌Learn more about the product: https://ow.ly/QeTr50Uaqi4 📌Watch the demo below or click here: https://ow.ly/88Ka50Uaqi5 #EdmundOptics

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The science of optics in the 17th century expressed the fundamental outlook of the Scientific Revolution by combining an experimental approach with a quantitative analysis of phenomena. Optics had its origins in Greece, especially in the works of Euclid (c. 300 bce), who stated many of the results in geometric optics that the Greeks had discovered, including the law of reflection: the angle of incidence is equal to the angle of reflection. In the 13th century, such men as Roger Bacon, Robert Grosseteste, and John Pecham, relying on the work of the Arab Ibn al-Haytham (died c. 1040), considered numerous optical problems, including the optics of the rainbow. It was Kepler, taking his lead from the writings of these 13th-century opticians, who set the tone for the science in the 17th century. Kepler introduced the point by point analysis of optical problems, tracing rays from each point on the object to a point on the image. Just as the mechanical philosophy was breaking the world into atomic parts, so Kepler approached optics by breaking organic reality into what he considered to be ultimately real units. He developed a geometric theory of lenses, providing the first mathematical account of Galileo’s telescope.

We were honored to be finalists in the Excellence in Diversity Award from the 2024 Delaware Valley HR Department of the Year Awards! 🏆 Diversity, equity, and inclusion have been driving forces behind our work, and we’re so grateful to have been part of a community that shares this commitment. A big thank you to all the incredible organizations working to create positive change—together, we’re making an impact! 🌍 #EdmundOptics #DEI

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Thank you to the CCNY Optica Student Chapter for hosting such an engaging and informative session! We're proud to have had our experts, Randall Hinton and Bill Murray, PhD, there to share their insights on ultrafast lasers and the exciting opportunities in the optics and photonics field. Looking forward to more collaborations like this! #TheFutureDependsonOptics

Descartes sought to incorporate the phenomena of light into mechanical philosophy by demonstrating that they can be explained entirely in terms of matter and motion. Using mechanical analogies, he was able to derive mathematically many of the known properties of light, including the law of reflection and the newly discovered law of refraction.

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His experimental method was characterized by a quantitative approach, since he always sought measurable variables and a clear distinction between experimental findings and mechanical explanations of those findings. His second important contribution to optics dealt with the interference phenomena that came to be called “Newton’s rings.” Although the colours of thin films (e.g., oil on water) had been previously observed, no one had attempted to quantify the phenomena in any way. Newton observed quantitative relations between the thickness of the film and the diameters of the rings of colour, a regularity he attempted to explain by his theory of fits of easy transmission and fits of easy reflection. Notwithstanding the fact that he generally conceived of light as being particulate, Newton’s theory of fits involves periodicity and vibrations of ether, the hypothetical fluid substance permeating all space.

Join us in-person for a FREE event of learning and networking at the Quinlan Community Center in Cupertino! 🎉 🔬 Save the Date! 🔬 Optical Solutions for Life Sciences: Maximizing Performance, Minimizing Costs ✨ Discover the cutting-edge trends and technologies powering successful optical systems in life science applications. 📅 When: December 12, 2024 | 8:45 AM PT 📍 Where: Quinlan Community Center, Cupertino, CA 🔹 Live presentations & demos from experts 🔹 Expert insights on life science trends 🔹 Networking with industry leaders 🔹 Lunch, coffee & beverages included! Let’s innovate and elevate the future of optics in life sciences! ✨ 🎟️ Register Now – Limited spots available! https://ow.ly/4NB850U4JNc #EdmundInnovationSummit #EdmundOptics #EdmundEvents

SEM 1 - Helios · Elstar Schottky thermal field emitter with UC technology (monochromator); · 0.35 to 30 kV; Electrostatic scanning; Beam deceleration with stage ...

Detailed Description. Rare earth elements (REEs) and rare metals are key ingredients for glass, lights, magnets, batteries, and catalytic converters, and used ...

Meet Edmund Optics at the Precisiebeurs on November 13 and 14 and check out our capabilities and solutions for your high-precision technolgies. See you there 👋! 📍 's-Hertogenbosch, Brabanthallen, booth 447 📅 13 - 14 November Will you be there too and will we meet you at our stand? Register your free visit here: https://lnkd.in/e2HPh9v4 #EdmundOptics #precision #precisionfair #precisionsolutions #precisiontechnology

Chemistry had manifold origins, coming from such diverse sources as philosophy, alchemy, metallurgy, and medicine. It emerged as a separate science only with the rise of mechanical philosophy in the 17th century. Aristotle had regarded the four elements earth, water, air, and fire as the ultimate constituents of all things. Transmutable each into the other, all four elements were believed to exist in every substance. Originating in Egypt and the Middle East, alchemy had a double aspect: on the one hand it was a practical endeavour aimed to make gold from baser substances, while on the other it was a cosmological theory based on the correspondence between man and the universe at large. Alchemy contributed to chemistry a long tradition of experience with a wide variety of substances. Paracelsus, a 16th-century Swiss natural philosopher, was a seminal figure in the history of chemistry, putting together in an almost impenetrable combination the Aristotelian theory of matter, alchemical correspondences, mystical forms of knowledge, and chemical therapy in medicine. His influence was widely felt in succeeding generations.

GCM Wheel Spacers 3mm ... This simple 6-bolt 3mm wide spacer fits between the rotor and the wheel on the GCM wheel sets. This spacer has a key role in using zero ...

Summary: Controls IDS uEye cameras. Author: Wenjamin Rosenfeld. License: BSD. Platforms: Linux, Windows. Devices: IDS uEye USB cameras, including Thorlabs ...