Lightweight and low-power nuclear particle sensor for

Detects and measures nuclear particles using a compact design and energy-efficient components Integrates a scintillator material and photodetector to convert radiation into electrical signals enabling real-time particle monitoring and classification Designed to minimize power consumption while providing reliable detection capabilities for applications such as radiation mapping and monitoring in radiation-prone environments.
Our background

Our company excels in both space and robotics domains, leveraging our expertise to develop cutting-edge technologies.

With a rich background in space exploration, we have successfully deployed our innovations on satellites, enabling crucial data collection and analysis.
Simultaneously, our proficiency in robotics has empowered us to create state-of-the-art systems for terrestrial applications, revolutionizing industries such as environmental monitoring, disaster response, and industrial automation.
Our multidisciplinary approach and deep understanding of these fields allow us to deliver comprehensive solutions that push the boundaries of scientific exploration and technological advancements.

Application fields

Drones

Our multidisciplinary approach and deep understanding of these fields allow us to deliver comprehensive solutions that push the boundaries of scientific exploration and technological advancements.

Satellites

Our scintillator is a state-of-the-art particle sensing solution tailored for satellite missions. Equipped with our scintillator technology, satellites can detect and analyze particles present in space, including cosmic rays and micrometeoroids. This data contributes to space weather forecasting, space debris monitoring, and advancements in our understanding of the space environment.

Terrestrial Robots

Our scintillator is an advanced detector built to enhance the capabilities of terrestrial robots. By integrating our scintillator into robotic systems, they gain the ability to detect and measure particles in their surroundings. This enables applications such as environmental monitoring, nuclear radiation detection, and the identification of hazardous materials, improving safety and efficiency in various industries.

Underwater robots

An underwater scintillator can be utilized for various purposes related to underwater exploration and research. Here are some potential uses:

01

Underwater robots

An underwater scintillator can detect and measure subatomic particles present in the aquatic environment, allowing for the study of phenomena such as natural radioactivity, trace radiation presence, and the distribution of radioactive materials.

02

Ocean exploration

Employing an underwater scintillator aids in the search and study of oceans by detecting and analyzing particles at different depths. This can provide valuable information about the chemical composition of water, the presence of bioluminescent organisms, or the dispersion of pollutants. Underwater cosmic particle detection: Underwater scintillators can be used to detect cosmic particles interacting with water, enabling the study of cosmic radiation and the interaction between charged particles and the underwater environment.

03

Ocean explorationaVolcanic activity monitoring

Utilizing underwater scintillators can contribute to monitoring volcanic activity by detecting and analyzing particles emitted by submarine volcanoes. This can assist in predicting volcanic eruptions, monitoring volcano evolution, and studying the effects of eruptions on marine life.

04

Deep-sea research and studies

Underwater scintillators can be employed for researching and studying deep-sea regions, enabling the detection of particles and phenomena occurring in these less-explored zones. This can involve studying bioluminescent marine creatures, measuring radiation levels, and understanding the effects of climate change on marine ecosystems.
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