Showing results: 76 - 90 of 502 items found.
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SPM-8100FM -
Shimadzu Corp.
The new HR-SPM scanning probe microscope uses frequency detection. his instrument is not only capable of ultra-high resolution observations in air or liquids, but for the first time enables observations of hydration/solvation layers at solid-liquid interfaces.
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NSOM -
Del Mar Photonics, Inc.
Near-field Scanning Optical Microscope (NSOM) is a versatile tool for nano-characterization and nanomanufacturing.Conventional microscopes have fundamentally limited resolution due to diffraction, but there is no such restriction for near-field interactions, that is why near-field microscopy is becoming one of the most important techniques for nano-science.
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B.O.S.S. -
Newage Testing Instruments, Inc.
The B.O.S.S. brinell optical scanning system measures your brinell impressions faster, more accurately and more consistently. And it improves your quality control with advanced data acquisition and analysis capabilities, including the ability to save your high-resolution image of our impression to file.
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VS-SVET -
Ametek Scientific Instruments
The Scanning Vibrating Electrode Technique uses a single wire to measures voltage drop in solution. This voltage drop is a result of local current at the surface of a sample. Measuring this voltage in solution images the current at the sample surface. Current can be naturally occurring from a corrosion or biological process, or the current can be externally controlled using a galvanostat.
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L601-3 -
Wagner Electronics
The rugged L601-3 is specifically designed for the demanding environment of the sawmill or wood products manufacturing plant where quick-scanning of lumber is a must. The L601-3''s "Wood-Friendly" electromagnetic waves penetrate beyond the surface into the wood to a depth of 1" and provides an instant averaged reading of the board''s moisture content in a 2.5" x 2.5" x1" scanning area.
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Prisma E -
Thermo Fisher Scientific Inc.
Prisma E scanning electron microscope (SEM) combines a wide array of imaging and analytical modalities with new advanced automation to offer the most complete solution of any instrument in its class. It is ideal for industrial R&D, quality control, and failure analysis applications that require high resolution, sample flexibility and an easy-to-use operator interface. Prisma E succeeds the highly successful Quanta SEM.
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NanoScan -
mks Ophir
Measure your beam as never before with the NanoScan™ beam profiler. The advantage of scanning slit beam profiling is sub-micron precision for measuring beam position and size. Scan head configurations include Silicon, Germanium, and Pyroelectric versions for a wide range of wavelengths and laser power levels. The NanoScan software is available in two versions: Standard and Professional, and includes an extensive set of ISO quantitative measurements, an M2 Wizard, and the ability to measure laser power.
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National Technical Systems
Differential scanning calorimetry (DSC) measures Specific Heat Capacity, Heat of Transition, and the Temperature of Phase Changes and Melting Points. DSC measures the rate of heat flow, and compares differences between the heat flow rate of the test sample and known reference materials. As a sample undergoes a transition (melting, crystallization, etc.), heat is absorbed or emitted. This change in heat flow is then measured by the system and can be analyzed. The difference determines variations in material composition, crystallinity and oxidation.
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Microtronic Microelectronic Vertriebs GmbH
mage quality. Speed. Uptime. They’re all crucial. Getting all three at the same time in a nondestructive testing (NDT) solution for package inspection is the challenge. It takes continuous innovation, advancing the state of the art to keep pace with the semiconductor industry’s own exponential progress.Sonix has been the innovation leader since 1986. Today, the ECHO line of scanning acoustic microscopes sets the standard for package inspection speed and image quality, to help you keep pace with new packaging materials and difficult form factors. The ECHO platform will remain at the forefront as we continue to add features and enhance performance for years to come.
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ProScan™ -
Teledyne Marine BlueView
Teledyne BlueView's 3D Multibeam Scanning Sonar user interface software. ProScan connects to the sonar and pan/tilt unit, configures each scan, generates full 3D point clouds, and optionally streams output to third party hydrographic software for fusion with other sensors. Data is recorded in multiple file formats: .son (raw acoustic data file for ProScan reprocessing), .txt (plain text record of all point locations and positional data) and .xyzi (industry standard xyzi data for 3D point cloud viewers, registration software, etc.). In playback mode, users can review and reprocess scans to modify sound speed, intensity threshold, multidetect and range settings as needed. ProScan coupled with Teledyne PDS MotionScan, pitch, roll heading and position sensors provides the capability to scan areas to collect 3D point clouds while correcting for motion.
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National Technical Systems
Scanning Acoustic Microscopy, also known as C-SAM or Acoustic Micro Imaging or AMI, outstanding benefit is its ability to find hidden defects within assemblies and materials that can occur during manufacturing or environmental testing. Defects such as delaminations, voids and cracks can be identified and analyzed more effectively using Acoustic Microscopy than with any other inspection method.Unlike other non-destructive techniques such as X-Ray and Infrared Imaging, Acoustic Microscopy is highly sensitive to the elastic properties of the materials it travels through. Because of this, the ability of Acoustic Microscopy to find and characterize these physical defects is clearly superior. Typical applications include production control, failure analysis, and product development.Through the use of ultra-high frequency ultrasound, C-SAM non-destructively finds and characterizes physical defects—such as cracks, voids, delaminations and porosity— that occur during manufacturing, environmental testing or even under normal component operation. Because of the unique aspects of the technology, AMI can locate these defects better than any other inspection method.
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FR-103XL -
Femtochrome Research, Inc.
The FR-103XL is a dispersion-free Autocorrelator/CrossCorrelator for monitoring the temporal width of ultrashort optical pulses. Offering unsurpassed sensitivity and resolution, it is compact and easy to operate. The FR-103XL is ideally suited for the measurement weak signals in optical telecommunications, as well as pulses from other mode-locked lasers such as Ti-Sapphire.
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VS-SKP -
Ametek Scientific Instruments
The Kelvin Probe experiment uses a nondestructive method to determine the relative work function difference between the probe and the sample. Work function describes the energy required to liberate an electron from the surface of a conductor; electrochemists often interpret this as the difference from an electrode’s Fermi Level, average energy of electrons, and that of vacuum.
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FVMPE-RS -
Olympus Corp.
The Olympus FVMPE-RS multiphoton imaging system is purpose-built for deep imaging in biological tissue, aimed at revealing both detail and dynamics. Innovative features for efficient delivery and detection of photons in scattering media enable high signal-to-noise ratio acquisition. This translates to bright images with precise details — even from deep within the specimen. High sensitivity is matched with high-speed imaging to capture rapid in vivo responses. For advanced applications, dual-wavelength excitation extending to 1300 nm is available. Independent control of visible or multiphoton laser light stimulation and the ability to synchronize with patch clamp data are also possible.
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Exact Metrology
Computed tomography (CT) is also referred to as industrial x ray and industrial imaging. It is an x-ray methodology yielding 3-dimensional (3D) results by placing an object on a rotational stage between an x-ray tube and x ray detector, rotating the object 360 degrees and capturing images at specific intervals—such as every degree or every half degree.
