Orbray Innovations: Advancing Diamond-Based Radiation Detection
Orbray Co., Ltd.'s Groundbreaking Technology in Radiation Detection
Orbray Co., Ltd. is making significant strides in the realm of radiation detection with their newly developed diamond-based detectors. This innovation is rooted in the use of large-diameter single-crystal diamond technology, which boasts remarkable physical properties that are not found in conventional materials. The company has successfully engineered a radiation detector that is adept at thriving in high-radiation environments, where other detectors typically fail.
Exceptional Capabilities of Diamond in Radiation Measurement
The nature of diamond as a material serves a dual purpose in the realm of radiation detection and medical applications. The unique composition of diamonds makes them particularly compatible with biological tissues, enhancing their ability to accurately measure radiation doses in medical settings. Orbray's detectors exhibit high precision across various types of radiation, from diagnostic X-rays used in medical imaging to high-energy therapeutic X-rays utilized in treatment protocols.
Diamonds: An Ideal Choice for Radiation Detection
Utilizing diamonds as radiation detectors comes with a multitude of advantages. Their high thermal and chemical stability complements a rapid response to radiation. With carbon as their primary component and an atomic number of six, diamonds are well-suited for detecting radiation. The research surrounding diamond detectors has evolved since the late 20th century, transitioning from natural diamonds to synthetic ones manufactured via chemical vapor deposition (CVD). This method has led to high-purity diamonds that significantly improve the performance of detectors.
Single-Crystal vs. Polycrystalline Diamonds
Within the diamond detector landscape, a distinction exists between single-crystal and polycrystalline diamonds. While polycrystalline CVD diamonds can enhance the detection area, they often fall short in sensitivity and spectral quality compared to their single-crystal counterparts. The high sensitivity and superior spectral characteristics of single-crystal diamonds make them the preferred choice for applications demanding precision.
Collaborative Efforts and Future Developments
In 2021, Orbray achieved the development of a high-quality 2-inch diameter diamond substrate through their proprietary step-flow growth method. This remarkable substrate has facilitated the creation of highly sensitive radiation detectors, developed in partnership with prestigious institutions, including Tokyo Metropolitan University and Tohoku University. These collaborations underscore Orbray's commitment to enhancing radiation detection technologies.
Exhibits and Presentations at Industry Conferences
Anticipation is building as Orbray prepares to showcase their diamond manufacturing methods and detector evaluation results at the upcoming Japan Radiology Congress. This event will be held in Yokohama, offering a platform for academic and clinical experts to gain insight into Orbray's innovations and their practical applications across various medical systems.
Contact Information for Orbray Co., Ltd.
For further inquiries or detailed information regarding Orbray's diamond division and their advancements in radiation detection, interested parties can contact:
Orbray Co., Ltd., Diamond Division
TEL: +81-3-3919-0101
Email: [Contact Email Removed for Privacy]
Frequently Asked Questions
What are the benefits of diamond-based radiation detectors?
Diamond-based detectors offer high precision, excellent stability, and compatibility with biological tissue, making them ideal for medical applications.
How does Orbray's diamond technology differ from traditional detectors?
Orbray's technology utilizes large-diameter single-crystal diamonds, enabling high sensitivity in extreme radiation environments, which is a challenge for conventional materials.
What institutions are collaborating with Orbray for detector development?
Orbray collaborates with several esteemed universities, including Tokyo Metropolitan University and Tohoku University, to enhance their radiation detection technologies.
Where will Orbray present its findings?
Orbray will present its diamond manufacturing methods and detector testing results at the Japan Radiology Congress in Yokohama.
Why are single-crystal diamonds preferred over polycrystalline ones?
Single-crystal diamonds provide higher sensitivity and superior spectral characteristics compared to polycrystalline diamonds, making them more effective for precision measurements.
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