Alpha Science 

Alpha Science – The Mysterious Number 137

Almost everyone has heard of alpha science. But what is it exactly? Is it a new technology? Or are the theories outdated? There are many controversies surrounding the topic, but a thorough understanding of this new technology will help you make informed decisions. This article will address some of the most important questions related to alpha radiation, including the source, the specific ionization, and the treatment of cancer using alpha radiation.

Alpha Science
Alpha Science


The number 137 has long fascinated mankind. It bridges the gap between science and mysticism, and it continues to draw people from every field of study. Whether this number is real, or simply an illusion, there are countless possible explanations. Read on to learn more about the mysterious number. Here are three theories:

One explanation is that Alpha particles are the fundamental building blocks of matter. The quantum world is one such example. The speed of light and the charge of an electron are two examples of these fundamental principles. There are also equations for the mass of electrons, which allow you to find out the mass of any object. Then there is the idea of the Planck’s constant, which relates to both general and special relativity. This way, even if a particle is a single atom, its mass is the same as the rest of the atoms in the universe.

Another example is the relationship between the speed of light and the alpha particle. This is not the only way to think about alpha: it can also represent the organizing ratio of atomic constants and laws. The relationship between the two could differ significantly, and the dimensional cancellation process would not always produce the same essential number. Whether or not these concepts are valid depends on whether one accepts the hypothesis that alpha is fundamental. It could be a manifestation of a universal law of nature or just a coincidence.


Generally speaking, alpha particles are 4He nuclei. These very heavy particles have too many nucleons to remain stable. One of the most common sources of alpha particles is 241Am, a nucleus with an 80% a’s and a ’13’s mass. This nucleus also gives off x-rays and g’s and a half-life of 433 years.

An alpha science source consists of a one-inch plastic disk containing a small quantity of radioactive material. This material is sealed in the plastic using epoxy to prevent contamination or leakage. A thin transmission window is placed in front of the disc, allowing emissions to be transmitted into a room. In an open window alpha source, the material is bonded to a surface of silver foil and mounted in a recess on the plastic disc. This design produces excellent alpha particle emission.

Specific ionization

The number of ion pairs per unit length of travel is called specific ionization. This is dependent on the energy of the radiation, such as an alpha particle, which has approximately five MeV of energy. The more energy an alpha particle has, the more ion pairs it can make per centimeter of distance. In addition, an alpha particle loses energy as it travels, and thus spends more time near atoms.

Alpha particles have a high specific ionization, and are small enough to travel only a few centimeters through matter. They rarely get beyond the epidermal layer. Alpha radiation can be dangerous to human health if a material contaminated with a emitting radionuclide is eaten. Beta particles can travel up to seven meters through air and eight millimeters through tissue.

Treatment of cancer with alpha radiation

Alpha particles, also known as “alpha radiation,” are positively charged and deliver dense ionizations along a linear track. They have a range of about 50 keV/mm to 230 keV/mm at the Bragg peak, which corresponds to a thickness of one to three cell widths. Alpha particles are particularly suited for treating hypoxic tumors because their ionizing density and molecular damage are much higher at the end of their range.

In clinical trials, alpha radiation has been shown to be effective against locally advanced, metastatic, and recurrent tumors. It has been proven safe for patients, as it caused no systemic side effects and only short-term, mild toxicity. Its effectiveness was proven in nearly 100 percent of cases, with total tumor destruction in more than 78% of patients. Nevertheless, the effectiveness of alpha radiation is subject to many limitations.


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