A reflectron lens made with Resistive Glass provides a solid assembly replacement for stacked ring assembly while still providing the ability to alter ion flow. By generating a highly uniform electric field, Resistive Glass tubes are engineered to guide positive or negative charged particles.
Optical Receiver Module :High speed, high sensitivity optical detector
Stripline Microchannel Plates allow the capture of sequential images of charged particle events at very high speeds, making them an extremely useful diagnostic component for documenting nuclear events during energy research and process development.
Discover how Photonis Wide Range Fission Chamber works.
Integrating an Image Intensifier in a scientific set up is a rather complex and time consuming task for scientists, researchers and instruments builders. For you to focus on science instead of struggling with a complex set up, Photonis development teams have created a plug and play image intensifier adapter solution for low light level imaging and single photon imaging applications: the &nbs...
As a global leader for low-level signal detectors and owner of a patented technology for neutron imaging, Photonis introduces Neutronis: a work-in-progress demonstrator based on proven MCP technology derived from night vision and mass spectrometry applications. The Neutronis will be a complimentary diagnostic tool to x-ray technology, providing you with the information you are missing today ...
Introducing Photonis' market-leading ion detection technology for superior analysis. Utilizing patented LongLife™ Microchannel plate technology, Photonis' ion detection solutions are complete detector assemblies designed for ultimate precision, best-in-class performance, lifetime, reliability and the lowest cost of ownership.
For more information about our Advanced performance detector...
Telops Scientific Product Line Manager Ben Saute describes the fundamentals and benefits of high spatial resolution imaging and introduces the newly redesigned FAST HD series representing the cutting-edge in high-resolution scientific thermal imaging.
Methane emissions from biomass degradation at landfills are a significant contributor to environmental pollution and anthropogenic climate change. Methane is among the most infrared-active naturally occurring molecules and represents an 80X increase in atmospheric warming potency when compared to CO2. The need for reliable and cost-efficient methane detection technology is critical to mitiga...
Methane emissions across the oil and gas value chain represent a significant contribution to climate change.
With countless production sites and thousands of kilometers of natural gas transmission and gathering pipelines throughout the world, there is a need to quickly and efficiently survey these installations to detect and identify potential leaks. In this webinar, we present the Tel...
In Part 2, we turn our focus to the thermal and spectral properties of the scene or target of interest, and how these properties can affect infrared imaging system specification. A discussion of scene thermal properties is addressing thermal contrast, spectral band selection, and calibrated temperature ranges. Additionally, target spectral properties to consider is being highlighted, includi...
In Part 1 of this webinar series, Telops Field Application Engineer Joseph Carrock is discussing basic camera parameters including spatial resolution, radiometric accuracy, and data acquisition speed (framerate and exposure time). Discussion is focused on the tradeoffs associated with basic parameter optimization and representative, capability-driven systems from Telops thermal infrared imag...
In order to better understand the dynamic behavior of CFRP and to improve numerical modeling tools for these materials, it is essential to better understand the effects of strain rate on damage initiation and growth. Unlike low loading rate mechanical tests, the experimental setup for intermediate strain rate tests is classically based on servo-hydraulic actuators. The higher the loading rate...
The oil and gas industry uses flaring to dispose of methane and other hydrocarbons in a safe and ecologically sustainable manner compared to venting directly to the atmosphere. Under ideal conditions, this process is 98% efficient; however, under some conditions, this figure is significantly lower. Given that nearly 1 billion tonnes of methane is flared each year, and that each tonne of meth...
This webinar is focusing on flow boiling heat transfer with the participation of Dr. Guanyu Su, Postdoctoral Associate, Nuclear Reactor Lab & Nuclear Science and Engineering Department, MIT. Join our experts for high quality discussions in infrared thermography and explore the recent advances in Infrared imaging and heat transfer applications.