Showing results: 16 - 24 of 24 items found.
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OmegaScope -
HORIBA, Ltd.
The OmegaScope is a state-of-the-art turn-key solution that combines Optics and ultra-resolution multi-range research AFM. The OmegaScope AFM is an advanced research instrument that provides path for researchers in spectroscopy and photonics. It is available in reflection configurations providing direct top and side optical access. The flexibility of the OmegaScope platform offer almost endless possibilities in correlation of high spatial resolution spectroscopies (Raman, Photoluminescence, Fluorescence) and AFM imaging modes.
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VistaScope -
Anfatec Instruments AG
VistaScope is a unique AFM with flexible & full optical access to the tip/sample region. The VistaScope controller comes equipped with multiple lock-in amplifiers that allow patented photo-induced force microscopy (PiFM) and patented demodulation technique for background suppressed scattering scanning near-field optical microscopy (s-SNOM). It provides the ultimate capability in tip-enhanced optical microscopy as well as co-located AFM and far field optical techniques such as confocal Raman and confocal photoluminescence.
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SmartSPM -
HORIBA, Ltd.
The SmartSPM Scanning Probe Microscope is the first 100% automated system that offers its cutting-edge technology of ultra-fast, metrological and high-resolution measurements for the most advanced materials research at the nanoscale in all AFM and STM modes. With the SmartSPM zooming in from large up to 100 µm overview scans down to atomic resolution has become a reality. Its design has been specially developed to be capable of being seamlessly integrated with optical spectroscopies (SNOM, Raman, Photoluminescence and TERS/SERS techniques).
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LabRAM Odyssey -
HORIBA, Ltd.
Special 50 years anniversary series: true confocal Raman microscope enabling the most detailed images and analyses to be obtained with speed and confidence. Ideally suited for both micro and macro measurements, it offers advanced confocal imaging capabilities in 2D and 3D. With guaranteed high performance and intuitive simplicity, the LabRAM Odyssey™ is the ultimate instrument for Raman spectroscopy, widely used for standard Raman analysis, PhotoLuminescence (PL), Tip Enhanced Raman Spectroscopy (TERS) and other hybrid methods.
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LabRAM HR Evolution -
HORIBA, Ltd.
The LabRAM HR Evolution Raman microscopes are ideally suited for both micro and macro measurements, and offer advanced confocal imaging capabilities in 2D and 3D. The true confocal Raman microscope enables the most detailed images and analyses to be obtained with speed and confidence. With guaranteed high performance and intuitive simplicity, the LabRAM HR Evolution is the ultimate instrument for Raman spectroscopy. They are widely used for standard Raman analysis, PhotoLuminescence (PL), Tip Enhanced Raman Spectroscopy (TERS) and other hybrid methods.
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VS6841 -
Industrial Vision Technology Pte Ltd.
This luminescence Analyzer integrates a Photoluminescence (PL), Electroluminescence (EL) , and I-V Measurement Technology, has a Device’s PL image, EL image, as well Device’s I-V characteristics in One system. It is being using to quantitatively map Minority-Carrier Lifetime, and to characterize the defect of silicon wafer & solar wafer, and measure the key parameters from solar cell I-V Curve. It is also a useful tool for scientist to develop other methodology & parameters that can be used as a promising technique for online material monitoring and process control.
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Model 207 -
McPherson, Inc.
The Model 207 offers the user the most throughput and fastest aperture in a long focal length monochromator. This is ideal for photoluminescence and Raman spectroscopy applications. It is also available in a vacuum compatible version. Used in air and with a selection of gratings, the spectral range of the 207 extends from 185 nanometersm to 20 microns or more. Under vacuum range is extended down to 105 nm (depends on the grating.) Multiple ports are available for mounting accessories or CCD detectors, etc. McPherson SNAP IN gratings allow the alignment-free use of many different gratings. Easily view a wider spectral range or obtain higher resolution! You can retrofit years later and not have to worry about alignment with the McPherson SNAP IN approach. Our dual grating turret also accepts these easy to exchange gratings.
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HORIBA, Ltd.
The AFM platform allows fully-integrated use of confocal Raman microscopy and AFM for Tip-Enhanced Optical Spectroscopies (such as Tip-Enhanced Raman Spectroscopy (TERS) and Tip-Enhanced PhotoLuminescence (TEPL)), but also for truly co-localized AFM-Raman measurements.The myriad of AFM (Atomic Force Microscope) techniques that allow study of topographical, electrical and mechanical properties can be performed with any laser source available in Raman spectrometer, or with other external illumination (e.g., solar simulator or other tunable or continuum source). TERS and TEPL can provide nanoscale chemical and structural information, making the AFM-Raman platform a two-way road; where complimentary techniques provide novel and unique imaging capabilities to each other.
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EL Imaging Tester -
OAI
EL Testing for Si Solar Cells using High Performance CCD. The determination of luminescence (photo emissions) in solar cells is an important characterization tool. Typical solar cells often have defects which limit the efficiency or lifetime of a cell. Many of these defects are visualized with Luminescence Imaging. By using this technique, the manufacturing process can be optimized to produce better cells. Luminescence Imaging takes advantage of the radiative inter-band recombination of excited charge carriers in solar cells. The emitted photons can be captured with a sensitive CCD camera to obtain an image of the distribution of the radiative recombination in the cell. This distribution is determined by the local excitation level, allowing the detection of electrical losses, thus mapping the diffusion length of minority carriers as the emitted light is low intensity and in the near infra-red range, the CCD camera has a high sensitivity wavelength from 900 to 1100 nm with little thermal noise. This CCD camera provides excellent resolution of 1024 x 1024 pixels with a large 1μm pixel size, multi-megahertz readout speed, and robust USB 2.0 connectivity. The EL CCD Camera is the ultimate high-performance CCD camera for electroluminescence and photoluminescence imaging for Photovoltaic (PV) Cells and Modules. This camera combines low noise electronics and optimal sensitivity in NIR.
