Showing results: 16 - 20 of 20 items found.
-
Rocky Mountain Laboratories, Inc.
Scanning Electron Microscopy (SEM Analysis) can produce images of almost any sample at magnifications of 15-300,000X. The SEM has tremendous depth of field allowing for imaging that cannot be accomplished using optical microscopy. Conductive and nonconductive samples can be imaged. When operated in the backscatter (BSE) detection mode, differences in material composition can be observed. Elemental analysis can be performed on any feature observed with an integrated Energy Dispersive Spectroscopy (EDS) detector.
-
Teledyne Marine Webb Research
APEX BioGeoChem (BGC) is Teledyne Webb Research's (TWR) most requested sensor configuration after the basic Argo float. TWR begins with our field proven APF-11 controller, aluminum hull, lithium primary batteries, and Seabird SBE-41CP CTD. We added an Aanderaa (AADI) model 4330 dissolved oxygen optode and a WETLabs FLbb (chlorophyll_a and backscatter) to complete the package. If needed TWR can substitute either the WET Labs FLbbCD or a Triplet for the FLbb.
-
Symmetry -
Oxford Instruments plc
Electron backscatter diffraction – is a powerful microanalysis technique that enables rigorous characterisation of the micro structural properties of crystalline materials. A high performance EBSD detector is critical for the effectiveness of the technique, influencing both speed and data quality. Symetry is Over 3000 indexed patterns per second (pps). Up to 30x faster than existing CCD-based detectors. Extreme sensitivity for low current and low kV analyses. Megapixel resolution for HR-EBSD applications. High resolution patterns (at least 156 x 128 pixels) at all speeds.
-
HydroSweep DS -
Teledyne Marine RESON B.V.
The HydroSweep DS is a deep water multiebeam echosounder ideally suited for seabed mapping in deep water up to full ocean depth based on a sonar frequency between 14 kHz to 16 kHz. Beside bathymetric depth information from 10 m to more than 11,000 m, sidescan data and backscatter data for seabed classification are acquired. The HydroSweep DS does not only gather sea floor information, but also uses adaptive bottom tracking windows to identify sonar targets in the water column and can be optionally operated as a parametric sub-bottom profiler without additional transducers and electronics.
-
Diamond SA
OTDR measuring devices are used in various ways in fibre optic technology. They enable extensive characterisation of existing fibre optic cabling networks. The use of launch and receive fibres is advantageous when it comes to ensuring precise results evaluations. With bidirectional backscatter measurements with launch and receive fibres, the attenuation values of the first and last plug-in connection can be determined precisely by averaging and device dead zones can be avoided. Measuring device manufacturers recommend different lengths of launch and receives fibres to avoid “phantom reflections”. These launch and receive fibres are also subject to measuring equipment monitoring and should regularly undergo revision in accordance with the OTDR measuring devices. A good measurement result depends on the state and quality of the measuring equipment used. Diamond offers various types of launch and receive fibres, one with standard telecommunications connectors and the other with an outdoor connector for harsh environments.
