Quantum vacuum energy and CPH theory

In 1900, Max Planck proposed the quantum theory of radiation, which was not well received. The first theory had not been established yet that he proposed his second quantum theory in 1911, and he stated that, regardless of the temperature and the color of the radiation, every object has a certain amount of energy, which was called zero-point energy. Although from the point of view of physicists, this theory was just an idea, laboratory experiments showed that without considering zero-point energy, calculations of quantum phenomena do not reach the desired result. The zero-point energy explanation didn't seem very logical until Heisenberg proposed the Uncertainty Principle, which included the uncertainty of energy time. In this way, the distance between quantum mechanics and classical mechanics increased, and the quantum vacuum distinct from the classical vacuum was discussed. As each fluctuator has an amount of energy, in a vacuum, without a fluctuator, the vacuum fluctuates and produces virtual particles and antiparticles. Although physicists do not consider these particles to be real, they admit that their effects are real. As the effects of quantum vacuum fluctuations are undeniable, the existence of quantum vacuum fluctuations is not limited to the empty space of matter. It exists even in the structure of the atom and inside particles such as protons and neutrons.\ In other words, quantum vacuum fluctuations exist even in the human brain and heart, and its importance in modern physics is increasing day by day. However, modern physics cannot explain where does vacuum energy come from and its existence can only be justified using the uncertainty principle. While in the CPH theory, the production and characteristics of quantum vacuum fluctuations and virtual particles are explained without using the uncertainty principle, which is explained in this video.

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• #gravity
• #quantum_fluctuation
• #vacuum