Showing results: 106 - 118 of 118 items found.
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M Squared Lasers
A quantum accelerometer uses atom interferometry to measure accelerations along a horizontal axis. Quantum accelerometers are able to achieve a combination of sensitivity and stability by exploiting quantum interference. As such, they will be critical components of a quantum inertial navigation unit, which will offer satellite-free navigation with unparalleled long-term accuracy. A phase locked SolsTiS system underpins this setup and provides the extremely low phase noise required to make high sensitivity measurements and dynamic frequency tunability to address multiple atomic transitions.
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Rocky Mountain Laboratories, Inc.
Scanning probe microscopy (SPM) refers to a family of measurement techniques that utilize a scanning probe. The most common measurement is Atomic Force Microscopy (AFM Analysis), which measures surface topography. Imaged areas can be from the nm scale to as large as 100 µm X 100 µm. Heights and depths of features can be measuredand many surface roughness parameters, e.g Ra, can be calculated. 3-D images can also be produced for dramatic data presentation. Magnetic and electrical response can also be measured with SPM.
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MKS Instruments
MKS ozone gas delivery systems provide field-proven, high concentration, ultra-clean ozone generation for advanced thin film applications such as Atomic Layer Deposition (ALD), Chemical Vapor Deposition (CVD), Tetraethyl Orthosilicate (TEOS)/Ozone CVD (HDSACVD), contaminant removal and oxide growth. Gas delivery models have integrated ozone concentration monitoring, flow control, and power distribution. Additional system options include safety monitoring, status indicators and ozone destruction capability.
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Klocke Nanotechnik
The patented Nanomotor® is a piezo driven linear motor. It is a multifunctional basic part for many positioning and manipulation devices. It has a positioning stroke of up to more than a centimeter while operating with atomic resolution. The Nanomotor thus bridges eight orders of magnitude. The Nanomotor consists of a cylindrical housing and a slider with a free axial hole inside. It combines high resolution in the sub-nanometer range with a large positioning stroke. The Nanomotor utilizes a piezo tube for fine positioning and a shock wave produced by the same piezo tube for coarse movements. The small Nanomotor is half the size of a match stick. It can lift six times its own mass. Every point of its stroke can be reached with a speed of up to 1 mm/s. The Nanomotor also works in ultrahigh vacuum or even under water. It is driven by a PC card at a supply voltage of only ±15 volts.
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Park Systems Corp.
Atomic Force Microscopy (AFM) allows for sub nanometer resolution imaging of surface topography and is able to quantify surface roughness at the angstrom scale. Our team can give you highly accurate measurements such as surface topography, dopant distribution, magnetic domain features, and a wide variety of other sample properties to give you the information you need to do great work.Park can provide measurements in the following areas:● Topography (surface roughness, grain size, step height, etc.)● Mechanical Properties (stiffness, etc.)● Electrical properties (capacitance, conductivity, etc.)● Thermal properties ● Magnetic properties These properties can be measured in air or liquid, depending on your needs.
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MKS Instruments
MKS offers a wide range of ozone generators and modular delivery systems which produce ultra-pure, reliable ozone gas. In the clean semiconductor environment, Ozone reacts with a wide range of precursor gases resulting in the creation of Al2O3, ZrO2, HfO2, and La2O3 metal oxides to enable thin film deposition processes like Atomic Layer Deposition (ALD) and Etch (ALE). MKS’ generator uses Grade 6 gas, enabling the creation of higher film density improving product yield. Photovoltaic and Display manufacturing leverage semiconductor best practices and utilize ozone to create enhanced thin film barriers, improving product performance and reliability.
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ZSX Primus IV -
Rigaku Corp.
As a tube-above sequential wavelength dispersive X-ray fluorescence spectrometer, the new Rigaku ZSX Primus IV delivers rapid quantitative determination of major and minor atomic elements, from beryllium (Be) through uranium (U), in a wide variety of sample types — with minimal standards. ZSX Guidance supports you in all aspects of measurement and data analysis. Can accurate analysis only be performed by experts ? No — that is in the past. ZSX Guidance software, with the built-in XRF expertise and know-how of skilled experts, takes care of sophisticated settings. Operators simply input basic information about samples, analysis components and standard composition. Measured lines with the least overlap, optimum backgrounds and correction parameters (including line overlaps) are automatically set with aid of qualitative spectra.
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ProteusQ -
HORIBA, Ltd.
Qnami ProteusQ is a complete quantum microscope system developed on HORIBA AFM technology. It is the first scanning NV (nitrogen-vacancy) microscope for the analysis of magnetic materials at the atomic scale. The Qnami ProteusQ system comes with state-of-the-art electronics, software and AFM optical platform. Its flexible design allows for future adjustments and scaling, expansion and capability upgrades. The proprietary Qnami ProteusQ quantum technology provides high precision images for you to see directly the most subtle properties of your samples and the effect of microscopic changes in your design or fabrication process. The Qnami ProteusQ opens a new window on your research and gives you a new level of control to drive innovation in the design, creation and delivery of smart and energy-efficient electronics.
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Analog Devices Inc.
Analog Devices Clock synchronizers are designed for wired networking applications, providing the clock redundancy functionality needed to maximize system uptime. Our technology supports clock synchronization with common standards, including 1 pulse per second (PPS) output signal from a GPS receiver. GPS signals are broadly available and utilize an extremely stable atomic clock as its time base, but they are often noisy. Systems rely on the IEEE1588 timing protocol to establish synchronous communications across the wired network, including synchronous Ethernet and synchronous digital hierarchy (SDH) to optical transport network (OTN) mapping/demapping. The IEEE1588 protocol has emerged as the preferred method for Clock synchronizing systems throughout both computer networks and local area networks (LAN).
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AEP Technology
AEP Technology offers several ASTM, ISO DIN compliant friction and wear tester models optimized for various applications. The modular design allows it to run on one platform (rotary, linear reciprocating, linear, block-to-ring, etc.), and to ensure high repeatability, during the testing process our downward force friction and wear testing machine controls several standard tests. High-end electronics, multi-core 64-bit processor that allows it to use multiple in-situ sensing technologies (recording friction, wear, displacement, force, volume, temperature, humidity, position, speed, etc., during testing) with high resolution Embedded powerful platform imaging head (sections of atomic force microscopes, etc.). Ease of use and robust unique design make AEP Technology a powerful tool in friction and wear testing machine development and production environments.
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Safran - Navigation & Timing
Precision timing is critical for defense and commercial industries and powering essential network operations. Safran offers secure time servers and solutions for accurate network synchronization, ensuring security, compliance, and adherence to best practices. Safran excels in delivering precision timing solutions, including NTPNTP, or Network Time Protocol, is a widely used networking protocol that enables computers and devices to synchronize their system clocks with a reference time source. It ensures accurate timekeeping in computer networks by allowing devices to obtain precise time information from NTP servers, which are typically synchronized to highly accurate atomic clocks. NTP is essential for various applications and services that rely on synchronized time, such as network security, authentication, and data logging. time server appliances and GPSGlobal Positioning System is a navigation satellite system. See also master clocks globally.
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AOSense
Detailed description of item: The AOSense frequency comb is a low noise, polarization maintaining (PM) device. Key features include a PM fiber architecture centered at 1550nm with turnkey modelocking; a free-running linewidth of the carrier-envelope offset frequency of <200 kHz; a temperature-insensitive all-fiber f-2f interferometer exhibiting fceo beatnotes with SNR > 45dB (300kHz RBW); and dual fast/slow cavity length actuators with a bandwidth of >300 kHz. The repetition rate of the comb is factory set and allows matching across multiple combs for dual comb applications. The optics package incorporates an optical heterodyne module designed for locking to the comb to an ITU-specified laser reference. The comb is capable of supporting an Allan deviation of < 5 x 10-18 at 1 second and ~10-20 after 105 seconds. Add-on features include all fiber extensions to visible wavelengths corresponding to several atomic transitions. An integrated comb electronics package is currently under development.
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VUVAS-10X -
McPherson, Inc.
A new ultraviolet spectrophotometer system for optical metrology just arrived at NASA Goddard! The VUVAS-10X spectrophotometer works best in the 90 to 160 nanometer wavelength range, also known as deep or vacuum ultraviolet (VUV) region. It uses a windowless hydrogen plasma light source and differential pump section to reach many wavelengths beyond those of conventional deuterium lamps. The source also works with other gases, or gas mixtures, for atomic spectral line emission from about 30 nanometers (double ionized Helium gas) up to the Visible light range. The new spectrophotometer system, McPherson VUVAS-10X, uses a one-meter focal length high-resolution monochromator with the special light source, scintillated detector and Model 121 goniometric sample chamber. The system is ideal for optical transmission, absorbance and specular reflectance at incident angles up to 60 degrees. This McPherson spectrophotometer system will help develop, inspect and qualify optical materials and coatings used for very high altitude and extraterrestrial space flight missions.
