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Something is seriously wrong with gravity, and nobody’s quite sure why. The problem is that gravity is too weak. Out of the four fundamental physical forces in the universe—gravity, electromagnetism, the strong force, and the weak force—gravity is by far the weakest The Higgs boson, discovered in 2012, is thought to be directly correlated to the strength of gravity. The more mass in the Higgs boson, the stronger gravity would be for all matter in the universe.
- The Higgs field: This field gives certain fundamental particles their mass while also separating two of the four fundamental forces of nature from each other. some force-carrying (or gauge) particles have mass (like W and Z bosons) while others (like photons) don’t. , the Higgs boson. It’s a relatively heavy, uncharged, highly unstable boson (force-carrying particle, one with zero spins) that exists for a blink before breaking down into any few of a variety of the Higgs boson. Things with a lot of mass are hard to get moving; once they’re in motion, they’re hard to stop. Atoms get most of their mass from the energetic buzz of particles called quarks zipping around inside their nuclei, bound together by the strong force. Yet even on their own, quarks have mass, as do the surrounding electrons.
- Quantum entanglement is the binding together of two particles or objects, even though they may be far apart – their respective properties are linked in a way that’s not possible under the rules of classical physics.
- Quantum theory is the theoretical basis of modern physics that explains the nature and behavior of matter and energy on the atomic and subatomic levels. The nature and behavior of matter and energy at that level are sometimes referred to as quantum physics and quantum mechanics.
- An entangled system is defined as one whose quantum state cannot be factored as a product of conditions of its local constituents; that is to say, they are not individual particles but are an inseparable whole. In entanglement, one component cannot be fully described without considering the other(s). The state of a composite system is always expressible as a sum, or superposition, of products of forms of local constituents; it is entangled if this sum cannot be written as a single product term. ATLAS concluded at a 95% confidence level that no more than 13% of Higgs bosons produced in the LHC could transform into invisible particles. … These findings place the strongest limits so far on Higgs transformations to such invisible particles. The dark matter can be described as a Bose-Einstein condensate of the ultralight quanta of the field and as boson stars. The enormous Compton wavelength of these particles prevents structure formation on small, sub-galactic scales, which is a major problem in traditional cold dark matter models.
- Quantum entanglement has been demonstrated experimentally with photons. neutrinos, electrons. molecules.
- The Higgs boson validates the Standard Model through the mechanism of mass generation. As more precise measurements of its properties are made, more advanced extensions may be suggested or excluded.