Draft:Quanum Logic Theory

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Introduction : The Schrödinger equation is the fundamental equation, which makes it possible to determine the possible quantum states of the particle "q". To solve it, it is necessary to have infinitesimal wave vector of released photon as well as the logical instances of the evolution of "q" At a given instant (t) instance by instance (by approach : QLI Quantum Logical Instance), we can define the temporal evolution of the quantum state(n) to the quantum state (n+1) through an infinitesimal wave vector Vupr (unit vector of released Photon) User talk:Flavio-QLI Description of QLI (Quantum Logical Instances) 🧐 In philosophy and psychology, the behavioral school views the human mind as a black box; see other theories such as developing a decision algorithm to solve complex black box design optimization problems.. Finally ,by associating 1x to 1 qubit , we can resolve issue of everything entity that exists in the universe . User:Universe_is_Quantun_Build/sandbox Application : In Quantum Logic theory we use : a) According to the quantum state evolution of matter. b) According to the quantum Fourier transformation ^[1] Brief description of quantum physics 📗Quantum physics concerns infinitely small scales (including interactions between atoms and particles), for which the laws of classical physics are no longer sufficient to describe the various phenomena involved. Quantum entanglement (or entanglement) is the phenomenon in which two particles (or groups of particles) form a bound system, with quantum states dependent on each other, regardless of the distance between them.

• The study of the evolution of quantum states (ن) to (ن+1) is still in its infancy, but it could hold the key to all sorts of exotic quantum phenomena, like high-temperature superconductivity, which is also believed to be supported by quantum criticality.
• Understanding how these quantum phases switch gives us more opportunities to achieve control over them in the future. And although we are still far from it, we have just come a little closer.
• “Our results suggest that the same underlying physics (quantum criticality) may lead to a platform for quantum information and high-temperature superconductivity,” says Si. can help marveling at the wonders of nature.

^[2] 📗 Quantum physics for all peoples (New platform for) :

• quantum information and high-temperature superconductivity”, quantum magnetic material α-RuCl3,theoretical analyzes on the inelastic neutron scattering, for a universality class near a quantum-critical point (QCP), a precarious point of quantum instability between two competing phases,

which is a fundamental paradigm with the emergence of exotic elementary excitations.. ^[3] 📗Approach with Quantum Logic theory Control ^[4] According to Heisenberg, the state vector✍ is constant, so the observable that designates the various variables of a quantum system evolves over time. But Schrödinger subsequently demonstrated that the observable which designates the various variables of a quantum system can depend on time. Except that this factor has no direct relationship with the temporal evolution dictated by the Hamiltonian. ✍We therefore conclude according to Schrödinger that the various variables of a quantum system remain constant over time.. quantum state The delta function was introduced by physicist Paul Dirac as a tool for the normalization of state vectors. It also has uses in probability theory and signal processing. In our case it can be used to normalize the infinitesimal vector of released Photon Vnpr and its components , in order to control all exotic quantum phase transitions.. Dirac_delta_function Model ^[5]

Example area of use of quantum logic theory specially in the LNA (locked nucleic acid) technology in cardiovascular illnesses:

(Heart failure and arrhythmias in cardiomyopathy and arrhythmia).

Foreword: In recent years, progress in terms of prevention, management and treatment of cardiovascular diseases has improved considerably, increasing the life expectancy of patients. Myocardial infarction (MI), more commonly called heart attack, belongs to this category. MI occurs following the obstruction of a coronary artery by a thrombus which leads to the cessation of blood circulation and therefore to the cessation of the oxygen supply to the heart muscle. . Non-coding RNAs The central dogma of molecular biology Every living being, whether simple or complex, is made up of structural entities, functional and autonomous cells called cells. We consider that there are two types fundamentals of cells, prokaryotes and eukaryotes, differentiated by the complexity of their organization. Indeed, prokaryotic cells have only one organization very simple intracellular while eukaryotic cells are composed of many intracellular compartments including in particular the nucleus. The nucleus has an essential role in the eukaryotic cell since it stores the majority of genetic material necessary for the functioning of the body. Genetic information is stored in the form of deoxyribonucleic acids (DNA) which will be transmitted in a form almost identical over the generations. In the nucleus, DNA is found in an organized form and compacted, which is called a chromosome. The genetic information, constituting the genotype, is expressed and gives rise to the characteristics and functions of the cell, called phenotype. The mechanisms of expression of genotype are governed by the central dogma of molecular biology, formulated by Crick in 1958. This theory is based on the fact that the DNA containing all the genetic information, is able to be replicated in an identical way to be transmitted but also to be transcribed into RNA, itself translated into proteins. Human genome sequencing was completed in 2001 but it's only 11 years later late that it was revealed that only 2% of the human genome is transcribed into ribonucleic acids (RNA) coding for proteins. Indeed, 98% of the human genome is transcribed into RNA not coding for proteins8. This discovery had the effect of significantly increasing research on non-coding RNAs.Involvement of non-coding RNAs in myocardial infarction myocardium and post-infarction ventricular remodeling The antimiRs, created synthetically, are modified in order to improve their stability, their efficiency and their penetration into the cell. The sequences instance by instance can be conjugated to nanoparticles, receming Femtotechnology fumptoparticles controlled under QLI (quantum logical instances) which can contain modified nucleic acids, such as LNA (locked nucleic acid) technology which offers nucleic acid sequences in an ideal conformity for WatsonCrick 95 type links. ^{[6] [7]}

References

1. https://1drv.ms/i/s!AglDSdZdofJ2hFLDjTchklfnOfQ8?e=3VimwS
2. "Physique quantique : Première preuve expérimentale d'un lien entre intrication quantique et criticité quantique". 20 January 2020.
3. Han, Jae-Ho; Do, Seung-Hwan; Choi, Kwang-Yong; Park, Sang-Youn; Kim, Jae-You; Ji, Sungdae; Kim, Ki-Seok; Park, Jae-Hoon (2023). "Weak-coupling to strong-coupling quantum criticality crossover in a Kitaev quantum spin liquid α-RuCl3". npj Quantum Materials. 8. doi:10.1038/s41535-023-00563-w.
4. https://1drv.ms/i/s!AglDSdZdofJ2gjGNyUhwPX643qTV?e=jV0kV3
5. https://1drv.ms/i/s!AglDSdZdofJ2g2Vf0QoZn7FxK2il?e=KS0VRo
6. https://hal.univ-lorraine.fr/tel-01751813/file/DDOC_T_2015_0109_ZANGRANDO.pdf
7. Marinescu, Mihnea-Cosmin; Lazar, Andrada-Luciana; Marta, Monica Mihaela; Cozma, Angela; Catana, Cristina-Sorina (2022). "Non-Coding RNAs: Prevention, Diagnosis, and Treatment in Myocardial Ischemia–Reperfusion Injury". International Journal of Molecular Sciences. 23 (5): 2728. doi:10.3390/ijms23052728. PMC 8911068. PMID 35269870.