In this image, we showcase NASA astronaut Katherine Megan McArthur aboard the International Space Station (ISS). Highlighted in a red circle at the top of the image is our MiniPIX TimePIX Radiation Monitoring Camera, a key tool designed to safeguard the astronauts and the sensitive electronic and computer systems onboard. Adjacent to the MiniPIX, you will spot a golden device; this is the original, comparatively larger, and less efficient radiation monitor of the ISS. Centre stage, circled in red, stands the robust HERA Radiation Monitor - a product of NASA's ingenuity, equipped with ADVACAM's Single-photon counting chip. Image courtesy of NASA
Applications

SPACE WEATHER MONITORING

Applications: Space

Charged particles from solar flares and coronal ejections can harm astronauts‘ health or induce damaging electrical currents in the spacecraft‘s sensitive electronics. Our miniaturized low-power consumption radiation cameras can help to prevent this damage, as they can track every particle and determine its type, energy, and angle of incidence.

High-energy particles, primarily protons or cosmic rays, can penetrate spacecraft and pose significant health risks to astronauts. Similarly, space weather phenomena can adversely affect the electronics of satellites or space stations.

For these reasons, Space agencies, including NASA and ESA, and our commercial customers have integrated ADVACAM’s radiation monitors into their spacecraft, probes, and satellites.

Furthermore, by identifying each particle’s type, our cameras provide space weather forecasting. The Sun’s lighter and less harmful particles arrive on Earth up to 30 minutes ahead of the heavier, more dangerous ones, providing a valuable window for protective measures to be activated, including shutting down critical onboard systems as required.

Our data-processing software, TraX Engine, was developed in cooperation with ESA to identify the properties of each particle. Possessing the capability to determine the direction of incoming radiation, our detectors play a pivotal role in optimizing protective shielding. Particularly useful when only one side of a vessel can be shielded, they allow for timely adjustments to incoming threats.

Our detectors, with its low power consumption of only roughly 2 watts and weight in the order of tens of grams, are ideally suited for integration for the demanding requirements of the space industry.

In this image, we showcase NASA astronaut Katherine Megan McArthur aboard the International Space Station (ISS). Highlighted in a red circle at the top of the image is our MiniPIX TimePIX Radiation Monitoring Camera, a key tool designed to safeguard the astronauts and the sensitive electronic and computer systems onboard. Adjacent to the MiniPIX, you will spot a golden device; this is the original, comparatively larger, and less efficient radiation monitor of the ISS. Centre stage, circled in red, stands the robust HERA Radiation Monitor - a product of NASA's ingenuity, equipped with ADVACAM's Single-photon counting chip. Image courtesy of NASA
In this image, we showcase NASA astronaut Katherine Megan McArthur aboard the International Space Station (ISS). Highlighted in a red circle at the top of the image is our MiniPIX TimePIX Radiation Monitoring Camera, a key tool designed to safeguard the astronauts and the sensitive electronic and computer systems onboard. Adjacent to the MiniPIX, you will spot a golden device; this is the original, comparatively larger, and less efficient radiation monitor of the ISS. Centre stage, circled in red, stands the robust HERA Radiation Monitor – a product of NASA’s ingenuity, equipped with ADVACAM’s Single-photon counting chip. Image courtesy of NASA

 

 

ADVACAM introduces a previously unseen technology for predicting cosmic weather. This technology provides timely warnings against increased solar activity, which can pose risks to the health of astronauts and disrupt the functionality of sensitive onboard electronics in satellites and spacecraft. Now, ADVACAM is bringing a new ambitious dimension on how to use their detectors: aiming to predict so-called cosmic weather and introducing NEW LEVELS of its monitoring.

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