THE GREAT PARTICLE COLLIDERS. (Chapter 4)
From de book: Quantum Mysticism. THE SPIRITUALITY OF QUANTUM PHYSICS. Second Edition 2021.
Author: Luis Eduardo Sierra S.
President of Universal Alliance – Director ARIEL Magazine
Chapter 4
CERN (European Council for Nuclear Research) – Function of particle accelerators – The Hadron Collider. The Zepplin III – Tevatron – Sesame Artificial Neural Network – Denunciations of the World Organization for Peace.
Gran Colisionador de Hadrones
In very elementary terms, the function of particle accelerators is to shoot fragments of matter such as electrons and protons, making them collide with each other and with other targets. Then, with sophisticated detectors, they study all the debris resulting from these collisions. It is worth noting that the particles themselves have never been seen, only their trace, the flashes they leave in particle accelerators. These machines are capable of accelerating all kinds of subatomic fragments to speeds very close to the speed of light. With the help of these machines, dozens of particles were discovered, a kind of subatomic salad, and a certain order was perceived among the nuclear waste.
As a result of numerous and very difficult negotiations between countries on several continents, CERN (Conseil Européen pour la Recherche Nucléaire) was born in 1952, with the aim of facilitating nuclear research of a purely scientific and fundamental nature and with open publication of its results, not attending to military or political interests. Its foundation, however, was due to German scientists who created the atomic bomb.
The Large Hadron Collider, managed by the European Centre for Particle Physics (CERN) in Geneva (Switzerland), was built in 1998, making it the most complex, largest (27 km long in a circular shape) and most expensive (9 billion dollars) machine built by human ingenuity. It took 10 years to build. It is known as LHC (Large Hadron Collider), the largest Particle Accelerator in the world. As of 2015, the program had invested 12,900 million dollars.
An article published by Cornell University (2020), points out that one of the main experiments of the Large Hadron Collider (LHC) at CERN is the development of an artificial neural network, which is inspired by brain functioning for computational developments, to identify new particles, which the standard model does not predict. These networks learn and train themselves, without the need for human intervention. They have been used to drive cars, make voice recognition, suggest consumer items, improve visual effects in movies, leading to the field of high-energy physics in particle accelerators. They are a major step towards confirming the existence of elementary particles, unknown today, that could give birth to new physics.
Physicists hope that the LHC will provide answers to the following questions: meaning of mass (we know how to measure it, but we don't know what it actually is); the mass of the particles and their origin (in particular, if the Higgs boson exists); the origin of the mass of baryons; the number of total particles in the atom; to know why elementary particles have different masses; 95% of the mass of the universe is made of matter that is unknown and we are waiting to know what dark matter is; the existence or not of supersymmetric particles; whether there are extra dimensions, as predicted by several models inspired by String Theory, and, if so, why it has not been possible to perceive whether there are more symmetry violations between matter and antimatter; recreate the conditions that caused the Big Bang.
Collisions of heavy atomic nuclei are usually studied in this accelerator. In 2016, CERN presented evidence on the possible discovery of a new particle that does not match the Standard Model. The unprecedented energy detected led to the belief that it could be a more massive version of the Higgs boson discovered in 2012. It could be an exotic particle that they named the Randall-Sundrum graviton.
In 2017 they achieved collisions between protons, pretending to learn about the primordial state of matter, from which our Universe emerged. At the International Conference on High Energy Physics of the European Physical Society, held in Venice (Italy) in 2017, they stated that the Higgs Boson will reveal where the new physics is hidden. Five years after its discovery, physicists say the level of precision achieved by the LHC experiments is impressive. The Higgs interacts with other particles; It decays directly from fermions such as quarks and leptons, the fundamental particles that make up matter according to them. The Large Particle Colliders ZEPLIN-III is an experimental plant at a depth of 1,000 meters, a program related to CERN that operates in North Yorkshire (England). Its investment was 4,500 million dollars. It seeks to recreate the Big Bang and Antimatter.
Evidence of a never-before-considered particle, containing four types of quarks (tetraquarks), has appeared in data from the Tevatron collider at the Fermi National Accelerator Laboratory in Illinois (USA) in 2016. It's made of a bottom quark, a strange quark, an up quark, and a down quark. This discovery may help elucidate the complex rules that govern quarks.
SESAME is a particle accelerator, called synchrotron, which aims to study the properties of matter using the electromagnetic radiation of the electron beams that circulate through the facility, with applications in health, biology, materials sciences, physics, chemistry, environment, agriculture and archaeology.
Like other particle accelerators, synchrotrons such as SESAME consume large amounts of electricity, thus requiring the construction of solar plants to supply it. Science is achieving what neither religion nor politics have been able to achieve by bringing together warring countries in the Middle East. The current members of SESAME are the Palestinian Authority, Cyprus, Egypt, Iran, Israel, Jordan, Pakistan and Turkey, although others are being sought. Brazil, Canada, China, the European Union, France, Germany, Greece, Italy, Japan, Kuwait, Portugal, the Russian Federation, Spain, Sweden, Switzerland, the United Kingdom and the United States are Observers. SESAME was established under the auspices of UNESCO, although it is now an independent intergovernmental organization.
Other research using nuclear tests is being carried out in the search for the Big Bang and antimatter: ALICE (A Large Ion Collinder Experiment); ZEUS-DESY (Hamburg); Cvitá Superconduttive (LNL, Legnaro); KLOE to DAFNE (LNF, Frascati); BABAR – SLAC (California); Neutrino Laboratory (INFN. Gran Sasso); CDF to Tevatron FERMILAB (Chicago); ALICE Jefferson LAB (Virginia); Cyclotron Supercouduttore (LNS, Catania).
A huge problem that arises indistinctly for all accelerators in carrying out their verifications is that most of the particles that are generated by collisions live less than a millionth of a second, after which they are converted back into protons, neutrons and electrons.
But particle accelerators also have severe critics and contradictors in the world. One of them, the World Organization for Peace (OMPP), asserts that "the firing of atomic particles from CERN and other experimental centers such as ZEPLIN III, are causing, in the quest to recreate the Big Bang and antimatter, "temporal deformations", a theory of quantum physics that contemplates the deformation and destabilization of the magnetic system, which would affect the poles and all kinds of magnets, as well as human physical stability to mobilize us, causing pulverization in the mass of the earth's crust associated with alluvium and mud, strange holes, subsidence, earthquakes, tsunamis, etc." It also causes, according to the OMPP, "other types of distortions and imbalances that affect human life and species, harming the stable, sustainable march and balance of the planet. The causes of catastrophes on the planet are not being analyzed, only their effects (Geneva, 2010)."
"There are different nuclear particle laboratories in the world, most of which are related to CERN's programs. Some of them have begun in 1951, 1952 and 1962, in a race that today leaves behind the much-feared atomic bombs and their current nuclear vectors and power plants, reaching the Great Particle Accelerator (LHC), a highly dangerous and uncontrollable weapon. The managing governments, sponsors and members of the different projects have joined an accelerated race, with the scientific promise that ensures they achieve energy for the whole world at zero cost... The tests of these particle accelerator plants put humanity in a similar situation, where the results to date are temporary deformations and catastrophes throughout the Planet, and that in this ambitious march, perhaps it is not being observed that many misfortunes that humanity is experiencing today, in their cause and effect are part of this series of experiments that are carried out without the knowledge or authorization of the population which is also put at high risk and which at no time was consulted and no information was given about the existence of this global experiment."
The OMPP assures that "the most renowned institutes of seismic control and statistics, indicate that only in the territory of the United States of America and a large majority in Alaska, in the second week of January 2011, 675 earthquakes were registered, while in the Loyalty Islands in New Caledonia, an earthquake with a maximum scale of 7° on the Richter scale. So it shows us that the particle shots, once confronted in the search for the Big Bang, have an attraction of the territorial sectors near the magnetic poles and the equator, places where most of the earthquakes and earthquakes caused by nuclear experiments of non-radioactive particles have occurred in high magnitude in those cardinal points of the Planet."
"At every moment the risk rises and the situation becomes dangerous, where the authorities of the responsible governments, specialized international organizations and the UN must receive an alert, who will have to take precautionary measures, investigating deeply the causes and effects that produce these experiments."
"CERN's nuclear tests with lead ions, which seek to recreate the Big Bang, a few days after they began result in lead contamination among children and the elderly in different Asian countries. Scientists indicate that this type of test multiplies the seismic activity of the planet, putting all of humanity at risk (http://www.infn.it/lhcitalia/)"
"The Large Hadron Collider (LHC) generated temperatures a million times hotter than the center of the sun, reproducing conditions not seen since shortly after the Big Bang. There have been more than 70,000 rare holes of immediate appearance throughout the planet between 2009 and 2010, falling buildings and land subsidence displacing populations. The reasons for these phenomena are seldom analysed with precision, which remain unknown to science. Others are quick to say that they are karst problems. Holes with such a perfect circular shape and easily cutting iron and cement, without leaving out of them any sign that shows the typical collapse."
With a good number of WOFP photographs (OMPP) and URLs of web pages cited in this document, they expose that these holes produced in different parts of the planet, strange holes that the research scientists of Monitoring in the World assure that their immediate appearances coincide with the firing of particles from different laboratories in the world.
China has had in the short term the appearance of thousands of strange and unexplained holes that have absorbed homes, mine collapses, forest fires, tsunamis, earthquakes on large scales, changes in the earth's axis, activation of volcanoes, landslides, temporary deformations due to heat waves and extreme temperatures, designating heat as the biggest killer in the United States, and the cold in Russia, floods, impacts on ships and planes, collapse of underwater platforms, death of species due to possible neutrino shots, impact on marine life, impact on the ozone layer.
One of the most powerful cannons built by man in 2018 in Bavaria, Illinois (USA), has a range of 1,300 km and is underground. Their bullets are so powerful that they will have no problem passing through the different layers of the earth. Not even solid lead will be able to stop these incredible projectiles. The name of this international project is Deep Underground Neutrino Experiment (Dune), in charge of Fermilab, one of the most important particle laboratories in the world, dedicated to high-energy physics. It has no military or national security-related purposes, it aims to detect neutrinos, the tiny fundamental particles that are most abundant in the Universe (so small that their mass is millions of times less than that of the electron), and the so-called dark matter, with which it is apparently related. In a few years there will be an Andean laboratory, through a tunnel that will connect Argentina and Chile, in order to carry out dark matter and neutrino experiments, which, as already mentioned, constitute 96% of the universe.