Our laboratory has made a groundbreaking discovery of a new spectrum of electromagnetic radiation and created a non-invasive method for real-time monitoring of atomic reactions to detect structural failures in materials. This invention, Patent No.: US 11,047,813 B2, with international patent applications pending, has been tested successfully in over 340 experiments on different materials and organisms.
Our method is universal, independent of the studied object's size, form, and composition and the nature of external influences. This unmatched feature is because we study atomic reactions, which are present in everything from viruses to stars.
The p-radiation caused by atomic reactions offers unlimited possibilities for early defect detection in pipelines, airplanes, rail tracks, bridges, other structures, equipment, and devices. The penetrating power of emitted photons is many times greater than X-rays.
Our discovery is based on the P-Rays, p-Radiation, and Self-Emission Transparency, a natural phenomenon we have established experimentally. It allows measuring and analyzing the technical condition of any object to identify any possible damage at the stage of its origin and development, even before it manifests itself on the nano level. Moreover, it is accomplished without any external source of X-rays, with greater sensitivity, precision, and efficiency, even in lead, commonly used as a shield against X-rays.
Our invention offers real-time monitoring while in operation, enabling the detection of the areas of future defects before they happen. It is a revolutionary approach that can quickly replace expensive radiographic parts and device testing, identify product defects, and improve quality.
In addition to its groundbreaking applications in detecting structural failures in materials and devices, our discovery of p-radiation and invention also offers a way to detect organic pathology at an early stage, even before it manifests on the cellular level. This is because the predecessors of pathology first happened on the atomic levels, and our method allows us to monitor atomic reactions in living organisms.
By detecting these atomic reactions in real time, we can identify any areas of future defects or abnormalities before they manifest themselves on the cellular level. This can lead to early diagnosis and treatment of diseases, potentially saving lives and reducing healthcare costs.
Our non-invasive real-time monitoring of atomic reactions is also ideal for detecting changes non-invasively without drawing body fluids and subjecting them to harmful external X-Ray radiation. This could be a game-changer in the field of health biochips that multiple companies are developing. For example, we could detect a moment of life at the genesis of insects. So, a human device could be designed to help a woman be aware of her pregnancy in a moment.
Our invention's potential applications are limitless, and we are excited to continue exploring new ways to apply our discovery to benefit humanity.
Our method is based on new scientific discoveries and technologies, like quantum mechanics, at the core of major technological breakthroughs of the 20th and 21st centuries. It is a paradigm shift in multiple fields. Current theories and structural assessments are based on outdated classical mechanics principles over 80 years old, unsuitable for analyzing the processes that develop at atomic and nano levels.
Our invention offers real-time monitoring while in operation, enabling the detection of the areas of future defects before they happen. It is a revolutionary approach that can quickly replace expensive radiographic parts and device testing, identify product defects, and improve quality.
The potential applications market sizes are significant, including the pipeline safety market, with an annual value of $25-$30Bln, the Non-Destructive Testing service market size of $15Bln, Safety Health Monitoring of about $2Bln, and the biochips market forecast of $38 Bln
