Orbray Co., Ltd. Revolutionizes Radiation Detection with Diamonds
Discover the Breakthrough in Radiation Detection Technology
In a remarkable stride towards innovation, Orbray Co., Ltd. has developed a technology that harnesses the unique properties of large-diameter single-crystal diamonds to create cutting-edge radiation detectors. These detectors stand out for their exceptional resilience in high-radiation settings, which is a significant improvement over traditional detectors.
The Unique Properties of Diamonds
Diamonds possess outstanding physical characteristics that make them ideal for radiation detection. Their radiation hardness, thermal stability, and swift response times allow them to operate efficiently even in extreme conditions. Moreover, diamonds' composition closely mirrors that of biological tissue, which enhances their suitability for medical diagnostics and therapies.
High Precision in a Range of Applications
In tests, Orbray's diamond-based detectors demonstrated high-precision measurements across a diverse spectrum of radiation types. Whether it's low-energy diagnostic X-rays or high-energy therapeutic X-rays, these diamond detectors can provide accurate readings, significantly benefiting the medical field.
The Evolution of Diamond Detectors
The journey towards utilizing diamonds in radiation detection gained momentum since the 2000s with advancements in chemical vapor deposition (CVD) technology. This process enabled the production of high-purity diamonds that exhibit exceptional performance levels. Researchers have largely shifted from using natural diamonds to engineered ones, unlocking new applications in nuclear engineering, fusion, and high-energy physics.
Single-Crystal Versus Polycrystalline
The ongoing research in this area has led to differentiating between single-crystal and polycrystalline diamond detectors. While polycrystalline CVD diamonds have been utilized for their larger detection areas, they fall short compared to single-crystal diamonds regarding sensitivity and spectral quality.
Collaborative Efforts and Future Developments
Orbray’s commitment to pushing the boundaries of what’s possible within diamond technology is demonstrated by its collaboration with prominent educational institutions. Notably, they partnered with Tokyo Metropolitan University and Tohoku University to enhance the efficacy of their radiation detectors. Their joint efforts have yielded detectors that excel in sensitivity and performance, particularly in X-ray applications within medical environments.
In 2021, Orbray produced a significant 2-inch diameter diamond substrate using its step-flow growth method. This innovative approach allows for radiation detectors that can easily be scaled for various applications, particularly in medical settings where ultra-high sensitivity is crucial.
Showcasing Innovation at Japan Radiology Congress 2025
At the upcoming Japan Radiology Congress 2025, Orbray will showcase their advancements. Attendees can expect insights into diamond manufacturing methods alongside evaluations of the detectors. Live demonstrations of these detectors promise to highlight their capabilities and the future of radiation detection.
As the field of radiation detection evolves, Orbray Co., Ltd. is at the forefront of innovation, continuing to explore new possibilities and user evaluations, ensuring that their products meet the demands and expectations of the medical field.
?Contact?
Orbray Co., Ltd., Diamond Division
TEL: +81-3-3919-0101
SOURCE Orbray Co., Ltd.
Frequently Asked Questions
What is the primary application of Orbray's diamond radiation detectors?
Orbray's diamond radiation detectors are primarily used in medical environments for radiation diagnostics and therapy due to their precision and resilience.
How do diamond detectors compare to traditional ones?
Diamond detectors are more durable and provide higher precision in high-radiation settings compared to traditional detectors made from less robust materials.
What advantages do single-crystal diamonds offer?
Single-crystal diamonds provide superior sensitivity and better spectral characteristics than polycrystalline diamonds, making them ideal for high-performance applications.
Where will Orbray showcase their radiation detectors?
Orbray will present its innovations at the Japan Radiology Congress 2025, featuring live exhibitions of their diamond radiation detectors.
Who did Orbray collaborate with for developing their detectors?
Orbray collaborated with several academic institutions, including Tokyo Metropolitan University and Tohoku University, to advance their diamond detector technologies.
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