According to Einstein's theories, what is the smallest particle in the universe? Are vacuum and vibration smaller than atoms? Is there a connection between matter and energy in the quantum world?
(by Dr. Ivan Domuschiev, Ph.D. Endocrinologist-Bulgaria) e-mail :[email protected]) I. First we will look at the existing hypotheses and theories on this matter. The idea that life and the universe have an energetic foundation, drawing upon both quantumand plasma physics, is a fascinating and complex one. While not a single, universally acceptedtheory, there are various concepts and hypotheses exploring this connection, each withits ownstrengths and limitations. Here's a brief overview of some of them: Quantum Biology: This field investigates the role of quantum phenomena in biological processes, like photosynthesis or enzyme activity. While some theorize quantumcoherence(sustained, synchronized energy states) plays a vital role in life, this remains an active areaof research with much unknown. Biophotons: These are weak light emissions from living organisms. While their functionisunclear, some propose they might mediate information transfer within cells or even betweenorganisms, connecting to the universe's quantum nature. Plasma Universe: This theory suggeststhe universe was initially dominated by plasma, a state of matter where atoms are ionized. Somehypothesize that specific plasma processes might have played a role in the origin of life throughenergy exchange or complex molecule formation. However, much evidence and researcharestill needed for robust conclusions. Bioplasma: This concept builds upon the plasma universe idea, proposing that living organismshave their own "internal plasma" that contributes to their biological functions.. It's important to note: These are just a few examples, and there are many other theories and ideas within this domain.Further research and exploration are crucial to validate or refine them. These newer ideas might offer additional insights or explanations. It's always exciting to explore the frontiers of science and contemplate alternative perspectives. Life and the Universe are fascinating aspects of our existence, and scientists have been tryingtounderstand their nature for centuries. One of the most intriguing discoveries of modern scienceisthe energetic (quantum and plasma) nature of both life and the universe. Quantum mechanics is the fundamental theory that describes the behavior of matter andenergyat the atomic and subatomic level. On the other hand, plasma is the fourth state of matter, besides solids, liquids, and gases. It is a hot and ionized gas of atoms and electrons that existsin
the sun, stars, and even lightning bolts. Recent studies have shown that the biological processes that occur inside livingcells aregoverned by the rules of quantum mechanics. The phenomenon of quantumcoherenceallowsthe quantum state of one molecule to affect the quantum state of another. This means thatenergy and information transfer inside cells happens instantaneously, and the organismcanrespond to a stimulus in real-time. The brain also shows quantum features, such as entanglement, in the decision-making process, suggesting that quantum mechanics plays a role in cognition. Similarly, the universe itself has an energetic nature. Plasma plays a critical role in shapingandregulating the cosmic environment. Electric and magnetic fields produced by plasma filamentsinfluence the motion of galaxies and the distribution of matter in the universe. These fields cangenerate shock waves, cosmic rays, and other high-energy phenomena that affect life onEarth. Furthermore, scientists have discovered that the universe is permeated by a quantumfield. The notion of an energetic, quantum, and plasma-based nature of life and the universe is indeeda thought-provoking topic that has captivated the imagination of many scientists andphilosophers. From a quantum perspective, the universe is inherently probabilistic, with the behavior of particles and systems governed by wave functions and uncertainty. At the quantumlevel, particles interact and exchange energy in ways that often defy classical intuition, leadingtophenomena such as entanglement and superposition. Some intriguing theories speculate that the principles of quantum mechanics could be at playinbiological systems, potentially influencing processes such as photosynthesis, olfaction, andevenconsciousness. Furthermore, the concept of plasma, often referred to as the "fourth state of matter," is prevalentin many cosmic phenomena, including stars, nebulae, and even lightning. In recent years, therehas been growing interest in the potential role of plasma structures in both the cosmos andbiological organisms. Proponents of these ideas suggest that energy flows, electromagnetic interactions, andplasmadynamics could underpin biological processes and perhaps even influence the natureof consciousness. While these concepts may seem speculative, they inspire profound questions about theinterconnectedness of all things and the ultimate nature of reality. They encourage us toexplorethe frontiers of science and immerse ourselves in the wonder of existence. As we delve deeper into the mysteries of quantum mechanics, plasma physics, and their potential relevance to life and the cosmos, we enrich our understanding of the universe and our placewithin it. The pursuit of such theories ignites the spirit of scientific inquiry and philosophical contemplation, inviting us to ponder the enigmatic forces that shape our reality .Conclusion We postulate that life and the universe function thanks to a unitary energy (quantum+plasma) system. This energy moves the world and the Cosmos. Information transmission, all life processes, cosmic phenomena, human consciousness andsubconsciousness, intuition, thinking, mental and psychic processes are based on quantumandplasma energy. Insight into the essence of this energy system and its application in practice will opennewendless horizons.