Founded in 2008, Chicago Pixels is a Chicago web design and software development company dedicated to business success through high-quality standards !
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LHCb catches fast-spinning charmonium particleThe LHCb collaboration has spotted a new particle. Its mass and other properties place it squarely in the charmonium family that includes the better-known J/ψ particle, which was the first particle containing a “charm quark” to be discovered and won its discoverers a Nobel prize in physics. Future studies of the properties of this new charmonium state and its relatives will help physicists better understand the strong force that binds together quarks, among the smallest particles that we know of. Charmonium particles are two-quark particles (called mesons) composed of a charm quark and its antimatter counterpart, the charm antiquark. Charm quarks are the third most massive of six quark types. Just like atoms, mesons can be observed in excited states of higher energy, in which the mesons’ constituent quarks move around each other in different configurations. These different arrangements give rise to a gamut of particles with different masses and quantum properties such as spin, which can be thought of as the rotation of a system around its axis. Observing such excited states and measuring their properties provides a way of testing models of quantum chromodynamics (QCD), the theory that describes how quarks are stuck together into composite particles. What’s more, knowledge of the full collection of these states helps identify exotic states with more than three quarks, such as tetraquarks, that are also predicted by QCD but have only recently been discovered. If all of the excited states are accounted for, physicists can be more confident that any remaining ones are exotic. To catch the new charmonium particle, the LHCb collaboration, one of the four main experiments at the Large Hadron Collider, studied the decays of charmonium states produced in proton–proton collisions into pairs of D mesons, using data recorded between 2011 and 2018; D mesons are the lightest particles containing charm quarks. The collaboration measured the range of masses of the D-meson pairs and then added up how many times they recorded each mass value within the measured range. They then looked for an excess of events, or bump, in this mass distribution, and found a new, narrow peak at a mass that corresponds to a previously unobserved charmonium state dubbed the ψ3(1D). The particle has a spin value of 3, making this the first observation of a spin-3 charmonium state. The high spin value could account for the peak’s narrow width and the fact it has taken so long to find. For more information, check the LHCb website.
YouTubeThe development of HyperCombustion(TM) and HyperFurnaces(TM) for the clean burning of fossil fuels Learn More @: *UPDATE* - http://chicagopixels.net/2019/04/23/thunder-energies-corporation-announces-initiation-of-tests-on-the-novel-hypercombustion/ The hyperCombustion project came as a result of the success of the magnegas combustion, and Ruggero's desire is for complete combustion of hazards gas during the ignition of fossils. The hyperFurnaces and hyperCombustion as the name suggests are active making them fast and more effective, Ruggero's idea is to increase the voltage, and have high rapid discharges leading to the hyper sparks, as a result achieving higher temperatures for combustion. With high temperatures, the fossils are not expected to burn completely eliminating any production of contaminations. Besides producing high temperatures, this project is also focused on ensuring that the temperatures do not causes harm. Conventional Combustion The conventional combustion of fossil fuels is that triggered by an ordinary spark that is currently used world wide, with resulting well known, environmental problems, because said combustion is notoriously incomplete with ensuing emission in the exhaust of CO, HC and other toxic contaminants. However, these contaminants are themselves combustible. Therefore, the lack of their combustion, and ensuing environmental problems, are evidence of insufficient combustion temperature, as well as to the notoriously storing molecular bond of fossil fuels, and other technical aspects. Magnecular Combustion Dr. Ruggero M. Santilli [1] has already achieved complete combustion for the new gaseous fuel magnegas in the early 2000's when he was Chief Scientist of Magnegas Corporation (www.magnegas.com), as documented by the independent chemical analysis of magnegas exhaust showing non-detectable CO and no appreciable HC (http://www.santilli-foundation.org/docs/MG-AAL-combustion-analyses.pdf). This result is first due to the fact that magnegas is composed by the new chemical species of Santilli magnecules [2=5] consisting of clusters of atoms whose bond (called magnecular bond) is "weaker" than that of fuels with conventional molecular bond as a necessary condition to avoid complete combustible. Additionally, magnegas complete combustion is due to the fact that its flame temperature is about 10,500 degrees F, thus being more than double the flame temperature of any commercially available (see the certification by the City College of New York http://www.santilli-foundation.org/docs/Magnegas-flame-temperature.pdf), at which temperature CO and HC must burn. Therefore, the complete combustion of magnegas is due to its chemical structure with a bond weaker than that of molecular fuels, a flame temperature more than double that of conventional fuels, and, other engineering realizations. HyperCombustion and HyperFurnaces Subject to proper funding, in his current capacity as Chief Scientist of Thunder Energies Corporation, Dr. Santilli intends to extends to fossil fuels the complete combustion he has already achieved for the magnegas fuel. This aim can be industrially achieved now-days via specially designed HyperFurnaces permitting in their interior the new HyperCombustion based on high voltage, high power rapid discharges (HyperSparks) [2], resulting in flame temperatures much higher than that of magnegas, thus implying complete combustion plus the first known triggering of new nuclear effects without harmful radiations. Therefore, the combustion of fossil fuels in HyperFurnaces is expected to release no appreciable combustible contaminants in the exhaust as well as to yield a significant increase of energy output compared to the combustion of the combustion of the same fossil fuels in currently available furnaces. For more Information Visit: Thunder Energies Corporation - http://www.thunder-energies.com/