A Study on the Relationship between Quantum and Science
Quantum Physics
With the development of chemistry in the 1800s, scientists began to understand that splitting a matter becomes molecules, dividing a molecules becomes atoms, and since the 1900s discovered that an atom was basically made up with atomic nucleus and electrons, and was quantified.
The era of Quantum Physics has begun from that on. In the process of revealing the identity of the electron, it was discovered that the electron had both the properties of the particle and the nature of the wave at the same time. There is a big difference between the nature of particles and waves.
Scientists have done a lot of research to explain the duality of electrons and waves, and that's how quantum mechanics started.
Quantum Physics
Quantum is the smallest mass of energy taken place while electrons vibrate in a double state of particles and waves in an atom as small as 1/100 billionth meter. In other words, protons are the 'minimum unit of wave motion in which elementary particles such as electrons have positive (+) and negative (-) properties and perform unique exercises discretely’. When electrons are in a stable state that vibrates within an atom and are subjected to external stimuli, they make an intermittent energy leap of a plank constant (6.626×10-34J•s), which is known as being quantified in order to maintain a stable neutral state. In addition, the quantum is ‘an energy state of a microscopic subatom in which electrons indefinitely present in the atom act as a unique characteristic of quantum entanglement and superposition’.
Denmark's Niels Bohr, who was one of the early members who invented Quantum Mechanics, tried to explain the duality of particles and waves as a "complementarity principle." It is the main concept of Quantum Mechanics, which refers to the relationship between the front and back of a coin. He claimed that there’s a particle in the front of the coin, and a wave on the back of it. This logic is supported by Schroedinger's experiments with cat accidents, which are famous for its wave equation.
One of the main concepts of Quantum Physics is also "non-locality principle." This is an energy-integrated concept in which the electron as a particle is separated from the other pair of electron spin, but the waves corresponding to the back of the electron, have a quantum superposition that is connected together and all the energy in the universe forming an ‘energy field'. This non-locality principle has been proven by Alain Aspect, a professor of Ecole Polytechnique in France, through experiments that complement the flaws arising from existing particle experiments.
The team kept the photons emitted from the calcium atom at a distance of 13 meters and then observed them with two sensors to identify the non-localized phenomenon of quantum entanglement. In 1997, Nicholas Gisin of the University of Geneva and his colleagues increased the distance between the two sensors to 11 kilometers, reproducing Aspect's experiment, and recently had another experiment setting distance as far as 144 kilometers at the La Palma Institute in one of the coasts named Canary, Africa, but the results were all the same. In Quantum Physics, I think the term of 'non-locality' refers to being linked together in the aspects of both space and time.
That's why I believe that space in the universe is not empty, but full of energy. According to Newton's classical physics, space was thought to be empty, but on the basis of Quantum Physics, space is full of "zero-point energy" or super quantum field. There is another concept, that is, "self-organization principle." It is the concept that particles take disorder behavior individually in the "particle state" of a system, but they follow the order of the whole in a "state of wave," without taking any personal action.
Finally, in the complementarity principle, electrons cannot be distinguished by particles and waves until they are observed. But like Schrodinger's cat, when an observer observes an electron, the electron is observed as a particle or as a wave. Therefore, I believe that the observation itself determines whether a material is a particle or a wave. This is the 'observer effect'.
This was proved by Thomas Young's slit experiment done in 1801, in which light penetrating the slit leaves several rows of interference patterns like waves, not particle shapes on the screen.
The link between science and both has continued to develop through research and development.
Quantum Bio has also been able to use its amazing quantum properties to unlock its principles with scientific systems
and present the FES.Q. program.
We will continue to develop in line with many scientists and researchers around the world.
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