Request InfoBruker Optics Inc.Bruker’s IR microscope HYPERION has always been synonymous with sensitivity and versatility. For more than 20 years, it has pioneered FT-IR imaging and left its mark in countless high-profile publications. With the new HYPERION II Laser Imaging Microscope, we remain true to our reputation as an innovation leader. For the first time ever, FT-IR and QCL technology are combined in a single instrument. This innovative approach gives scientists and researchers a new, versatile tool to further develop established applications and discover exciting possibilities. HYPERION II provides IR...See full productRelated content from Photonics MediaPRODUCTSBioPhotonics Sep/Oct 2022 IssueLaser Imaging MicroscopeThe HYPERION II FT-IR Laser Imaging Microscope from Bruker Corp. combines FT-IR microscopy with quantum cascade laser IR imaging for R&D purposes. The system provides all three...BioPhotonics Sep/Oct 2023 IssueIR MicroscopeThe AIMsight Infrared Microscope from Shimadzu Scientific Instruments Inc. offers automated analysis functions and an enhanced wide field camera for efficient microsample analysis. The...Photonics.com 5/2/2023Machine Vision Software Development KitThe eBUS Software Development Kit (SDK)™ has been expanded by Pleora Technologies to streamline application development and vision system connectivity for device manufacturers and integrators....Promoted Content January 2023 IssueSingle-Objective Light SheetThe single-objective light sheet geometry – known in the literature as OPM, SCAPE, SOPi, eSPIM, and SOLS – enables 4D fluorescence imaging of biological samples at high speed and low...ARTICLESBioPhotonics Jul/Aug 2022 IssuePhotoacoustic Imaging Uses LED Light to Guide Cancer Diagnosis and TherapyEfficient medical imaging techniques such as photoacoustic imaging help to accurately detect diseases as early as possible, resulting in timely intervention and reducing the need for medication and...BioPhotonics Jul/Aug 2023 IssueCentury-Old Effect Applied for Study of Embryonic DevelopmentResearchers have applied line-scanning Brillouin microscopy (LSBM), a microscopy technique based on Brillouin scattering, to visualize the mechanical properties of living cells over space and time,...Photonics Spectra May 2024 IssueMemory Element Enhances a Human Sight-Mimicking Quantum SystemCollaborating researchers from Hong Kong, China, and Germany have developed a quantum-sensing technology that encodes changes in fluorescence intensity into spikes that occur during optically...BioPhotonics Jan/Feb 2023 IssueScientists Collaborate to Create Biomedical Imaging CenterResearchers from the University of Illinois Urbana-Champaign will use funding from the National Institute of Biomedical Imaging and Bioengineering (NIBIB) at the National Institutes of Health (NIH)...PHOTONICS HANDBOOK ARTICLESPhotonics HandbookSuperresolution Microscopy: An Imaging RevolutionSuperresolution optical microscopy, for which the Nobel Prize was awarded to Eric Betzig, Stefan Hell, and William Moerner in 2014, has been one of the most momentous developments in the life...Photonics HandbookMeasuring Surface Roughness: The Benefits of Laser Confocal MicroscopyWhen evaluating the surface of a component, surface roughness can be assessed by eye or by rubbing it with a fingertip. Common expressions include “shiny,” “lusterless and...Photonics HandbookAspheric Lenses: Design ConsiderationsAspheric surfaces are powerful tools that combine the optical corrections of multiple lenses into a single element (Figure 1) and affect performance in ways that spherical optics cannot. For example,...Photonics HandbookDigital Still Cameras: The Changing Face of ImagingThe digital camera represents an integration of optics, mechanics and electronics consisting of three layers (Figures 1a, b and c). The top and the middle layers are printed circuit boards (PCBs),...WHITEPAPERSPhotonics.com 8/7/2023What Is the Modulation Transfer Function?The modulation transfer function, or MTF, is a parameter used to evaluate the performance of a lens. MTF provides a quantitative and standardized way to characterize optical systems, so the metric is...Photonics.com 10/4/2022Product Development Strategies for Electro-Optical SystemsThis whitepaper looks at the unique challenges associated with optical systems by exploring two extremes, an ultra-high precision instrument, and a low-cost consumer product, and the different...Photonics.com 2/16/2024Rapid Automated Modular MicroscopeOverview of Rapid Automated Modular Microscope.Photonics.com 9/21/2023Characterization of SERRS Nanoparticles Using UV-Vis and Raman SpectroscopySurface-enhanced resonance Raman scattering (SERRS) is a technique that offers unparalleled sensitivity and specificity in nondestructive spectroscopic detection. It combines surface-enhanced Raman...WEBINARSPhotonics.com 10/26/2021Simplifying Fluorescence Microscopy Using Next-Generation Laser TechnologyKonstantin Birngruber and Max Eisele introduce TOPTICA's next-generation laser technology by highlighting multicolor light engines for standard fluorescence microscopy, as well as TOPTICA's...Photonics.com 4/12/2022From Powders to Paint Chips: Modern Microspectroscopy Draws Big Information from Tiny SamplesMichael Bradley shows how to optimize the speed and accuracy of your microspectroscopy efforts and discusses a range of applications that demonstrate the capabilities of the Thermo Fisher Scientific...Photonics.com 10/9/2019High-Power Diode Laser Solutions for Manufacturing ApplicationsDiode laser technology offers a broad range of performance, with unmatched scaling of wavelength, power, and beam format. It is also available in a wide selection of formats, from single emitters to...Photonics.com 10/25/2023Advancement of Photoacoustic Spectroscopy in Biomedicine Leveraging QCL-IROptoacoustic spectroscopy, a technique originally established in the 19th century, is currently being leveraged to push boundaries in biomedical science. Research groups are making vast improvements...PHOTONICS DICTIONARY+ TERMSPhotonics Dictionaryinfrared opticInfrared optics refer to optical components and systems designed to manipulate and control infrared (IR) light, which lies beyond the visible spectrum. These components are crucial for various...Photonics Dictionaryphotoconductive antennaPhotoconductive antenna (PCA) is a semiconductor element that generates or detects high-frequency electromagnetic signals. Compact PCAs based on gallium arsenide (GaAs) or indium gallium arsenide...Photonics Dictionaryoptical coherence tomographyOptical coherence tomography (OCT) is a non-invasive imaging technique used in medical and scientific fields to capture high-resolution, cross-sectional images of biological tissues. It provides...Photonics Dictionaryinfrared light sourceAn infrared light source is a device that emits light in the infrared spectrum, which lies beyond the visible spectrum of light. Infrared light has longer wavelengths than visible light and is...VIDEOSPhotonics.com 2/27/2013Flexible Sensors & Seeing through Fire & Smoke - LIGHT MATTERS 02.27.2013-Flexible Transpatent Display -SiLEDs -Holographic Imaging On this week’s show, an image sensor is totally transparent, silicon nanocrystals make colored LEDs, a holographic imager sees through...Photonics.com 8/23/2023NIR Objective Lenses Assembly - Avantier Inc.Watch as our skilled technicians meticulously align lens elements with unparalleled precision. Every step in the assembly process reflects our commitment to excellence and quality. Through rigorous...Photonics.com 6/18/2021LumiTop X20 - Soon to come! - Instrument Systems GmbHInstrument Systems presents a special highlight: The preview of the new LumiTop X20, upcoming in autumn 2021. Building on the established 2700 and 4000 models, the LumiTop X20 will offer a high...Photonics.com 2/21/2018Photonics on the Showroom Floor and in the Lab - LIGHT MATTERS 02.2018On this month's episode of Light Matters, we take you on a brief tour of the Higgins Laboratories at Worcester Polytechnic Institute (WPI). Quinsigamond Community College and WPI received a $4M grant...PHOTONICS BUYERS' GUIDE CATEGORIESQuantum Cascade LasersPyroelectric RadiometersTEA LasersA TEA laser is a coherent optical source with a wide wavelength range in the infrared, visible and ultraviolet that uses an electrical discharge transverse to (across) the optical axis to produce...Near-Infrared LasersCOMPANIESPhotonics Buyers' GuideDRS Daylight Solutions Inc.The DRS Daylight Solutions Difference Mid-infrared laser light is bringing game-changing solutions to myriad molecular spectroscopy, sensing and imaging applications*. As a mid-IR technology...Photonics Buyers' GuideSutter Instrument CompanyIn 1977, Dale Flaming, a scientist working at the University of California at San Francisco, was having difficulty reliably producing micropipettes. He developed the first electronically controlled...Photonics Buyers' GuideEdinburgh Instruments Ltd.Founded in 1971, Edinburgh Instruments Ltd. is a global provider of sophisticated, state-of-the-art analytical instrumentation for optical spectroscopy. We design and manufacture a range of...Photonics Buyers' GuideSemiNex CorporationSemiNex Corporation designs and manufactures high power semiconductor infrared laser diodes and optical amplifiers for automotive LiDAR, military, medical, and industrial applications. Our...