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Microscopy

Edmund Optics Inc.

Edmund Optics Inc.

Microscopy is the technical field of using microscopes to view objects and areas of objects that cannot be seen with the naked eye. There are three well-known branches of microscopy: optical, electron, and scanning probe microscopy, along with the emerging field of X-ray microscopy.

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PXIe-5763, 16-Bit, 500 MS/s, 4-Channel PXI FlexRIO Digitizer

785161-01

NI

785161-01 - NI

The PXIe-5763 is a PXI FlexRIO Digitizer that simultaneously samples four channels at 500 MS/s with 16 bits of resolution and features 225 MHz of analog input bandwidth. With over 73 dB of SNR, the PXIe-5763 is ideal for applications that require a wide dynamic range with a wideband digitizer. The FlexRIO driver includes support for finite and continuous streaming modes, and you can implement custom algorithms and real-time signal processing on the LabVIEW-programmable Xilinx Kintex UltraScale FPGA. Available in AC and DC coupled variants, the PXIe-5763 is ideal for both time and frequency domain applications, including radar prototyping, LIDAR, communications, microscopy, OCT, event detection, and particle physics.

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Single Frequency CW Diode Pumped Lasers

04-01 Series

HÜBNER Photonics

04-01 Series - HÜBNER Photonics

*457 nm, 473 nm, 491 nm, 515 nm, 532 nm, 561 nm, 594 nm, 660 nm, 1064 nm,*CW DPSSL with output power up to 400 mW*Perfect TEM00 beam*Ultra-robust, hermetically sealed packages*Low noise, <0.25% rms*True fiber pigtail option, integrated isolator available*Optional integrated modulation up to 3MHz*Perfect for interferometry, Raman, holography, microscopy

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Inverted Metallurgical Microscope

GX53

Olympus Corp.

GX53 - Olympus Corp.

Designed for use in the steel, automotive, electronics, and other manufacturing industries, the GX53 microscope delivers crisp images that can be difficult to capture using conventional microscopy observation methods. When combined with OLYMPUS Stream image analysis software, the microscope streamlines the inspection process from observation to image analysis and reporting.

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Fourier Transform Infrared Spectroscopy (FTIR)

Rocky Mountain Laboratories, Inc.

Rocky Mountain Laboratories, Inc.

FTIR Analysis is used to analyze organic materials. Bulk and small particle materials can be analyzed. FTIR microscopy allows for the identification of particle as small as 10 µm. Determination of unknown materials is facilitated by spectral matching to a library of over 250,000 reference spectra.

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Optical microscopy (OM)

Materials Analysis Technology Inc.

Materials Analysis Technology Inc.

Optical microscopy is used to display the surface morphology of samples by 2D intensity contrast due to deflection and reflection of visible light shined on areas of interest. Its resolution is about half of the incident wavelength, which is ~0.2 μm for visible light (wavelength of 400-700 nm). Such resolution limits the maximum magnification to X1000, and thus optical microscopy provides preliminary inspection of sample surface structure.

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Scientific CCD Image Sensors

Teledyne e2v

Teledyne e2v

Our front and backside illuminated (BSI) and backthinned Charge Coupled Devices (CCDs) are seen as the gold standard for scientific and quantum imaging in applications in spectroscopy, microscopy, In vivo, x-ray and astronomy. We understand that every imaging application is unique and requires our engineers and scientists to work closely with our customers providing highly tailored imaging solutions.

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EMCCD Cameras

iXon Life

Andor Technology Ltd

iXon Life - Andor Technology Ltd

With the iXon EMCCD cameras, Andor have delivered a dedicated, truly high-end, yet accessible ultrasensitive scientific camera platform, designed specifically to drive the absolute best from EMCCD technology across all critical performance specs and parameters. Andor’s new iXon Life EMCCD platform is available exclusively for fluorescence microscopy applications and is engineered to deliver single photon sensitivity with absolutely unparalleled price/performance. Perfect for single molecule detection and live cell microscopy with minimized phototoxicity or photobleaching, but at a price more normally associated with back-illuminated sCMOS cameras.

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High-resolution, SWIR megapixel camera

Wildcat+ 1280 Series

Xenics

Wildcat+ 1280 Series - Xenics

The Wildcat+ 1280 series is based upon a state-of-the-art InGaAs photodiode array with 1280×1024 pixels and 5 μm pixel pitch. The camera offers superior, high-resolution SWIR imaging capabilities, comes in a versatile and industry-proven Wildcat camera package (GenICam compliant) and offers advanced on-board image processing.The Wildcat+ 1280 camera outputs full frame images at 120 Hz via either a CameraLink or USB3 Vision interface.The Wildcat+ 1280 is suitable for semiconductor inspection, display inspection (mobile phone and TV), microscopy and laser beam analysis.Benefits & Features• Compact and industry-proven camera design• High-resolution SWIR imaging• Advanced on-board image processing performance• GenlCam compliant• Flexible optical mount and lens options

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Modular Raman Spectrometers

ZOLIX

ZOLIX

Multifunction confocal Raman microscopy system, based on new designed confocal microscopy techniques, with the ultra-low noise CCD camera latest advanced for Raman detection, highresolution spectrometer, attaining superior user friendliness and sensitivity.

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CCD Camera

Retiga R6

Teledyne Photometrics

Retiga R6 - Teledyne Photometrics

The Retiga R6 CCD camera is a great solution for fast, sensitive microscopy imaging and documentation. This high resolution, 6 megapixel camera has a large field of view for sample detection and connects easily through high speed USB 3.0.

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Scanning Electron Microscopy

SEM

Materials Evaluation and Engineering

SEM - Materials Evaluation and Engineering

JEOL JSM-6610 LV LaboratoryScanning electron  microscopy (SEM) uses electrons for imaging to obtain higher magnifications and greater depth of field than light microscopes. The instruments at MEE are capable of variable-pressure, or low vacuum, SEM (VPSEM), as well as traditional high-vacuum conditions for sample observation. VPSEM is a specialized method using a variable-pressure sample chamber that allows direct evaluation of samples that are not readily examined with a traditional high-vacuum SEM. Nonconductive or vacuum sensitive samples that would typically require additional sample preparation can be directly analyzed in VPSEM without the need for additional sample preparation, such as carbon or metallic conductive coatings. This reduces both sample preparation time and distractions in microanalysis. Our laboratory also has a field emission SEM (FESEM) for critical high-magnification work and low-voltage (LVSEM) applications. Each instrument has a spacious sample chamber that can accommodate large and irregularly-shaped specimens and accessories for feature dimensional analysis and chemical microanalysis.

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Digital Microscopes

Leica Microsystems

Leica Microsystems

Digital microscopes are microscopes without eyepieces. A digital camera acts as a detector. Images are displayed on a screen or monitor, turning the microscopy workstation into an ergonomic digital workplace.

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Powerful, Fully Integrated Workstation for Emission Microscopy

PEM-1000

Korima, Inc.

PEM-1000 - Korima, Inc.

The PEM-1000 emission microscope incorporates the latest technology in real time, high quantum efficiency, mega-pixel CCD detectors in a back-thinned cooled camera. A portable system, the PEM 1000 can interface with all analytical probe stations, ATE (automated test equipment) and bench top configurations for high speed functional testing.

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Nanomechanical Test Instruments for Microscopes

Bruker Nano Surfaces

Bruker Nano Surfaces

Bruker has developed a comprehensive suite of nanomechanical and nanotribological test instruments that operate in conjunction with powerful microscopy techniques. Combining the advantages of advanced microscopy technologies with quantitative in-situ nanomechanical characterization enables an accelerated understanding of material behavior at the nanoscale.

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PCIe-5763, 16-Bit, 500 MS/s, 4-Channel PCI FlexRIO Digitizer Device

786168-01

NI

786168-01 - NI

The PCIe-5763 is a PCI FlexRIO Digitizer Device that simultaneously samples four channels at 500 MS/s with 16 bits of resolution and features 225 MHz of analog input bandwidth. With over 73 dB of SNR, the PCIe-5763 is ideal for applications that require a wide dynamic range with a wideband digitizer. The FlexRIO driver includes support for finite and continuous streaming modes, and you can implement custom algorithms and real-time signal processing on the LabVIEW-programmable Xilinx Kintex UltraScale FPGA. Available in AC and DC coupled variants, the PCIe-5763 is ideal for both time and frequency domain applications, including radar prototyping, LIDAR, communications, microscopy, OCT, event detection, and particle physics.

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Image Analysis & Stage Micrometers

Applied Image, Inc.

Applied Image, Inc.

The APPLIED IMAGE series of Image Analysis and Stage micrometers are ideally suited for calibrating optical, imaging, video, and reticle-based measurement systems. Designed for ease of use and manufactured for durability, the SM Series has both English and Metric scales in one or two axis configurations. Both types of micrometers come with NIST traceable calibration standards and are available on multiples substrates to perfectly fit your needs. The experience APPLIED IMAGE has in manufacturing precision imaged optical components makes us the trusted source for standards for magnification system microscopy and vision applications. Should you need to alter feature patterns, size, or substrate, fill out our Custom Optical Components and Standards form to start the conversation.

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Inverted Microscope Systems

Prior Scientific Inc.

Prior Scientific Inc.

Below you can see examples types for an inverted microscope system created using our components. Typically these examples are for life science applications, however they can be used for industrial or material applications. Many other automated microscopy systems are possible using our components.

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Fluorescence Lifetime Imaging Microscopy (FLIM) Camera

Toggel

Lambert Instruments BV

Toggel - Lambert Instruments BV

Lambert Instruments today announced the introduction of its next-generation fluorescence lifetime imaging camera: Toggel. This new camera makes fluorescence lifetime imaging microscopy (FLIM) and fluorescence resonance energy transfer (FRET) faster and easier with its excellent light sensitivity, sharp images and fast image acquisition. With Toggel, Lambert Instruments aims to minimize measurement duration, automate image acquisition and simplify data analysis. These factors are of great importance to many of its customers in cell biology, cancer research and high-throughput screening.

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X-ray Microscopy

Xradia Family

Carl Zeiss AG

Xradia Family - Carl Zeiss AG

✔ Characterize the properties and behaviors of your materials non-destructively.✔ Reveal details of microstructures in three dimensions (3D).✔ Develop and confirm models or visualize structural details.✔ Achieve high contrast and submicron resolution imaging even for relatively large samples.

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Analytical Services

Material Interface, Inc.

Material Interface, Inc.

Surface Analysis; X-Ray Photoelectron Spectroscopy (XPS, ESCA), Auger Electron Spectroscopy (AES), Time-of-Flight Secondary Ion Mass Spectrometry (Static) (TOF-SIMS), Dynamic Secondary Ion Mass Spectrometry (D-SIMS). Microscopy & Diffraction; Organic Material Analysis; Bulk Chemistry.

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Industrial Microscope for Materials Science & Industrial Applications

BX53M

Olympus Corp.

BX53M - Olympus Corp.

Designed with modularity in mind, the BX3M series provide versatility for a wide variety of materials science and industrial applications. With improved integration with OLYMPUS Stream software, the BX3M provides a seamless workflow for standard microscopy and digital imaging users from observation to report creation.

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Scientific Cameras

Thorlabs, Inc.

Thorlabs, Inc.

Thorlabs' Scientific-Grade Cameras are specifically designed for microscopy and other demanding applications. The Zelux™ CMOS cameras have small footprints and provide cost-effective solutions for general-purpose imaging applications. Kiralux® cameras have CMOS sensors with high quantum efficiency in a compact housing and are offered in monochrome, color, NIR-enhanced, and polarization-sensitive versions. Our polarization-sensitive CMOS camera is ideal for materials inspection, flaw detection, and other advanced techniques using polarization. The Quantalux® monochrome sCMOS cameras are fast frame rate imagers that combine high dynamic range with extremely low read noise for low-light applications. They are available in either a passively cooled compact housing or a hermetically sealed TE-cooled housing. We also offer scientific CCD cameras with a variety of features, including versions optimized for operation at UV, visible, or NIR wavelengths; fast-frame-rate cameras; TE-cooled or non-cooled housings; and versions with the sensor face plate removed. An intuitive software package, API and SDK for developers, and third-party software support provide options for custom system control and image acquisition.

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High-resolution, SWIR InGaAs camera

Wildcat+ 640 TE0 and WL Series

Xenics

Wildcat+ 640 TE0 and WL Series - Xenics

The Wildcat+ 640 TE0 and WL series is based upon a state-of-the-art uncooled InGaAs detector with 640×512 pixels and 20 μm pixel pitch. The WL version uses a special windowless sensor package for laser beam analysis applications. The camera offers superior, high-resolution SWIR imaging capabilities, comes in a versatile and industry-proven Wildcat camera package (GenICam compliant) and offers advanced on-board image processing.The Wildcat+ 640 TE0 and WL cameras output full frame images at 220 Hz via either a CameraLink or USB3 Vision interface.The Wildcat+ 640 TE0 and WL is suitable for semiconductor inspection, display inspection (mobile phone and TV), microscopy and laser beam analysis.Benefits & Features- Compact and industry-proven camera design- High resolution SWIR imaging- Advanced on-board image processing performance- GenICam complaint- Flexible optical mount and lens options

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Micro-CT for Life Science

Bruker microCT

Bruker microCT

Micro computed tomography is X-ray imaging in 3D, by the same method used in hospital CT scans, but on a small scale with massively increased resolution. It really represents 3D microscopy, where very fine scale internal structure of objects is imaged non-destructively. Bruker microtomography is available in a range of easy-to-use desktop instruments, which generate 3D images of your sample’s morphology and internal microstructure with resolution down to the micron level.

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Imaging & Analysis

Buehler

Buehler

Microscopes offered by Buehler generally fall into the categories of stereo microscopes, upright microscopes, or inverted microscopes. Inverted microscopes are commonly referred to as metallurgical microscopes. Microscopes may offer episcopic (reflected light) observation, diascopic (transmitted light) observation, or both possibilities. Illumination may be delivered in bright field mode (BF) or dark field mode (DF), and several techniques such as differential interference contrast (DIC) and polarized light microscopy make use of the nature of light to reveal specific pieces of information when studying materials.

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Fluorescence Microscopes

PicoQuant GmbH

PicoQuant GmbH

PicoQuant offers different solutions for time-resolved confocal microscopy. The available systems include single molecule sensitive microscopes with picosecond temporal resolution and super-resolution imaging capabilities as well as upgrade kits for laser scanning microscopes of all major manufacturers that enable time-resolved applications.

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Fluorescence Illuminators

Accu-Scope Inc.

Accu-Scope Inc.

In fluorescence microscopy, fluorescent substances are viewed or imaged with a microscope. These fluorescent substances may be naturally occurring in the sample or may be introduced to assist in the identification of specific features in the sample. Multiple fluorescent substances (fluorophores) with different fluorescent properties can be visualized within the same sample using the capabilities of fluorescence illumination and fluorescence filter combinations.

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Physiology & Neuroscience Systems

Prior Scientific Inc.

Prior Scientific Inc.

Below are two examples automated microscopy solutions, tailored towards physiology or neuroscience applications. Many of our components can be used to automate your microscope.

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Temperature Controlled Microscope Stage

Linkham Scientific Instruments

Linkham Scientific Instruments

Specialists in temperature controlled microscopy, Linkam Scientific Instruments, announce the launch of their Optical DSC450 which enables simultaneous visualization of thermal processes for improved materials characterisation. The Optical DSC450 enables the user to measure glass transitions and melting behaviour of a wide range of substances whilst accurately controlling temperature from -196 °C to 450 °C. The atmosphere of the stage can also be purged with gas as required by the user. A new feature which will increase the characterisation capabilities of the DSC system is to combine it with imaging capability. The new LINK Digital Imaging module enables additional information to be obtained by correlating optical changes such as colour with temperature. The new TASC analysis tool takes this further. TASC (Thermal Analysis by Surface Characterisation) is a new image analysis capability which enables structural changes in samples to be tracked and quantified optically. It has the unique ability to measure local transition temperatures allowing different points on a sample to be identified. The new DSC system is great tool to use in research and quality control to measure quantitative values for glass transitions, melting peaks and sample purity and, when combined with TASC, even sample homogeneity.