The ultra -brilliant radioactive atoms can produce a laser neutrino beam, according to a duo of physicists from the Massachusetts Institute of Technology and the University of Texas in Arlington. For example, according to the authors, such a neutrino laser can be achieved by besieging a million corn of Rubidium -83. Usually the age of radioactive atoms is about 82 days, which means that half of the atoms decompose, which threw a number of neutrons equivalent, every 82 days. They explain that by cooling Rubidium 83 to a coherent amount, atoms should be subjected to radioactive decay in just minutes.
BJP JONES & Ja Formgio devised an idea of the laser that releases the neutron beam. Credit image: Gemini AI.
“In our concept of neutrino laser, neutrons will emit a much faster rate than usually, somewhat similar to laser photons very quickly,” said Dr. Ben Jones, a researcher at the University of Texas at Arlington.
“This is a new way to accelerate radiological decomposition and the production of neutrons, which, as far as I know, has never been done,” added, Professor of Massachusetts Institute of Technology, Joseph Formagio.
Several years ago, Professor Formagio and Dr. Jones separately considered a new possibility: What if a natural process for the production of neutrino could be enhanced by quantum cohesion?
Initial exploration revealed the basic road barriers in achieving this.
Years later, while discussing the supertium characteristics that they asked: Is it possible to enhance neutrone production if it is possible to make radioactive atoms like tritium coldly that it can be brought into a state of quantity known as Boss-Inestein condensate?
As they asked, if radioactive atoms could be converted into Bose-Einstein capacitors, will this production of neutrons in some way enhance? Trying to put quantum mechanical accounts, they initially found that there was no likely to have such an effect.
Professor Formagio said: “It turns out that it is a red herring-we can not accelerate the process of radiological decomposition and the production of neutrino, only by intensifying Boss in Inestein,” said Professor Formagio.
Several years later, Dr. Jones reviewed the idea, with an additional component: Superradiancy-a phenomenon of quantum optics that occur when a set of light-emitting atoms is stimulated in sync.
At this coherent stage, the atoms are expected to be emitted from photons that are stolen, or more brighter than they were when the atoms are usually not simultaneous.
Physicists have suggested that it may be a similar effect to the intensification of Bose-Einstein, which can then lead to a similar explosion of neutrons.
They went to the drawing plate to unify the quantum mechanics equations that govern how to turn the lighting atoms from a coherent starting state into a superpower.
They used the same equations to unify radioactive atoms in the case of the coherent Boss-Inestein condensate.
“The result is: you get more photons more quickly, and when the same rules are applied to something that gives you neutrons, this will give you a full range of neutrons more quickly,” said Professor Formagio.
“Then the pieces are clicked together, this can lead to radioactive capacitors to enable this accelerated neutrino, which resembles laser.”
To test their concept in theory, the researchers calculated how neutrons produce a cloud of one million high chopydium -83 atoms.
They found that in the case of the coherent Boss Einstein condensate, the atoms decomposed radioactive at a speedy rate, which led to the release of a laser beam of neutrons within minutes.
Now that the theoretically showed that the neutrino laser is possible, they are planning to test the idea by preparing a small table.
“It should be sufficient to take these radioactive materials, evaporate them, laser laser, and cool them, then convert them into Bose-Einstein capacities,” DR. Jones said.
“Then you should start doing this great importance automatically.”
The husband acknowledges that such an experiment will require a number of precautions and delicate manipulation.
Professor Formagio said: “If it turns out that we can show it in the laboratory, people can think about: Can we use this as a neutrino detector? Or a new form of communication? This is when the pleasure really begins.”
team paper It was published today in the magazine Physical review messages.
_____
BJP Jones & Ja Formagio. 2025. The neutrino laser of radioactive capacitors. physics. The priest I wish 135, 111801; DOI: 10.1103/L3C1-yg2l