Spontaneous Radiation and Quantum Dynamics of Biological Plasma

What is it about?

A quantum solution of a nonlinear differential equation of diffusion type with a potential term has been found. Diffusion-Schrödinger quantum mechanics can find wide application in quantum biology, biological electronics, synthetic biology, nanomedicine, the quantum theory of consciousness, cosmology, and other fields of science and technology. One consequence of the macroscopic nature of diffusion-Schrödinger quantum mechanics is the possibility of generation of hard photons. The dust plasma in the Universe can generate cosmic rays with ultra-relativistic energies in a galactic magnetic field via a diffusion mechanism.

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Why is it important?

On the basis of the study presented here, it is possible to conclude that the nonlinear diffusion equation with a potential term can have a single-particle solution describing the quantum dynamics of macroscopic particles, so that quantum physics with its objective randomness can also have a place in the macro world. One consequence of the macroscopic character of diffusion-Schrödinger quantum mechanics is the possibility of generating hard photons. The diffusion-Schrödinger equation can be the basic equation of quantum biology, biological electronics, synthetic biology which is occupied with converting bacteria into mini-factories, the quantum theory of consciousness, and quantum microphysics (the quantum mechanics of particles of micron size).

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