Nanometer
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Product
CMAS Analyzers and Field Monitors
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Backed by at least one of the 8 corrosion sensor patents wholly owned by Corr Instruments, our nanoCorr analyzers and field monitors are widely used for online and real-time localized and general corrosion monitoring. These ultra-high precision instruments measure extremely low currents in the pico-ampere levels, which can be translated into a corrosion rate as low as a few nanometers per year, in some applications (PDF). Our analyzers and monitors are based on the patented coupled multielectrode array sensor (CMAS) technology which measures the flow of electrons from corroding electrodes to one or more cathodes.
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Product
Particle Size Analyzers
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Particle systems can be complex, but measuring them doesn’t have to be! Anton Paar offers two different technologies to characterize particles from the nanometer to the millimeter range. The Litesizer series employs light-scattering technology to determine not only particle size, but also zeta potential, transmittance, molecular mass, and the refractive index of nano- and microparticles in liquid dispersions. The PSA series uses laser diffraction technology to measure the size of particles in both liquid dispersions and dry powders in the micro and millimeter range. Side by side they open up a wide range of possibilities for comprehensive particle characterization.
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Product
Capacitance Sensor Systems
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MTI Instruments offers high resolution capacitance sensors, probes and systems that generate low noise, highly accurate and high stable measurements. Our Capacitance sensor line-up offers accurate measurements for automated inspection applications such as thread quality inspection, disk drive run-out, leveling or flatness measurement, lens alignment, tire run-out and bulging. Our Accumeasure capacitive sensors offer large stand-off distance that includes single and multiple channel rack systems that connect up to 10 capacitive sensors or capacitance probes with individual analog measurement outputs. We also offer cost-effective customized capacitive sensor amplifier board and probe system for easy integration. Our inspection systems linearity exceeds 0.01% full scale measurement (FSM) and resolution to sub nanometers.
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Product
Photon Counting PMT Detection System
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For spectroscopy and microscopy experiments in the UV/Vis/NIR region of the spectrum, a photomultiplier tube (PMT) is the ideal detector for quantitative low light level measurements. A PMT is extremely sensitive, with very wide dynamic range so it can also measure high levels of light. PMT’s are also very fast so rapid changes in optical signals can be reliably monitored. As a practical matter, PMTs are durable, long-lived, and economical.HORIBA provides a simple, self contained PMT housing that operates in either analog or photon counting modes with the flick of a switch. This ambient PMT housing is ideal for standard side-on PMTs that are used from 185 to 900 nanometers. It has a very low dark count for a non-cooled PMT housing providing a dark count of only ~ 50 to 500 counts per second (cps) depending on the PMT selected.
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Product
Precise 3D Profilometry
µscan
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Using the NanoFocus µscan technology, you can measure up to 100 times faster than with conventional probe systems. Various µscan sensors are available for the different application areas. The optical profilometers of the µscan series are suitable for the fast scanning of surface profiles with precision in the low nanometer range.
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Product
Laser Diode Source Product Family
LDS-7200
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5 nanometers tuning range• 10 picometer setpoint accuracy• 0.1 picometer resolution• 20mW output power• 0.005 dB power stability• Built-in coherence control• Integrated function generator• USB remote interface• Application program with source code
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Product
Optical Tweezers
PicoTweezers
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Single or dual beam optical tweezers system based on an inverted microscope • 3D real-time video-based force measurements with sub-pN resolution • Huge free space above optical trap for all kinds of sample chambers and carriers • Manipulate and navigate trapped objects with nanometer precision • Easily extendable to fluorescence, STED, Raman spectroscopy, TIRF, or CLS.
