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Against this, once the model was developed around 1972, no better theory existed, and its predictions and solutions were so accurate, that it became the preferred theory anyway. Of the PRL papers' authors, only the paper by Higgs The alternative explanation is that the name was popularised in the 1970s due to its use as a convenient shorthand or because of a mistake in citing. Two main explanations are offered. Learn more. However, an extended Higgs sector with additional Higgs particle doublets or triplets is also possible, and many extensions of the Standard Model have this feature. The Higgs boson is very massive compared to other particles, so it does not last very long.
For other uses, see Please update this article to reflect recent events or newly available information.Note that such events also occur due to other processes. There will be some people (in Miller's example an anonymous person) who pass through the crowd with ease, paralleling the interaction between the field and particles that do not interact with it, such as massless photons. Each of these possible processes has its own probability, expressed as the One way that the Higgs can decay is by splitting into a fermion–antifermion pair. In principle, it can be proved to exist by detecting its By March 2013, the existence of the Higgs boson was confirmed, and therefore, the concept of some type of Higgs field throughout space is strongly supported.The presence of the field, now confirmed by experimental investigation, explains As of 2018, in-depth research shows the particle continuing to behave in line with predictions for the Standard Model Higgs boson. Two reasons. For example, the Many accounts (including Higgs' ownThe Higgs boson is often referred to as the "God particle" in popular media outside the scientific community.While media use of this term may have contributed to wider awareness and interest,Lederman begins with a review of the long human search for knowledge, and explains that his tongue-in-cheek title draws an analogy between the impact of the Higgs field on the fundamental symmetries at the Today ... we have the standard model, which reduces all of reality to a dozen or so particles and four forces. It is named after physicist Peter Higgs, who in 1964, along with five other scientists, proposed the Higgs mechanism to explain why particles have mass. Meaning of Higgs boson in English: Higgs boson (also Higgs particle) Pronunciation /ˌhɪɡz ˈbeʊzɒn/ noun Physics . Precision measurements of electroweak parameters, such as the If Higgs particle theories are valid, then a Higgs particle can be produced much like other particles that are studied, in a Quantum mechanics predicts that if it is possible for a particle to decay into a set of lighter particles, then it will eventually do so.Since it interacts with all the massive elementary particles of the SM, the Higgs boson has many different processes through which it can decay. So, detection needs a The Higgs boson is an elementary particle in the Standard Model of particle physics, produced by the quantum excitation of the Higgs field, one of the fields in particle physics theory. The importance of the Higgs boson is largely that it is able to be examined using existing knowledge and experimental technology, as a way to confirm and study the entire Higgs field theory.Related to this, a belief generally exists among physicists that there is likely to be "new" It is worth noting that the Higgs field does not "create" mass The Higgs field is the only scalar (spin 0) field to be detected; all the other fields in the Standard Model are spin ½ There has been considerable scientific research on possible links between the Higgs field and the In the Standard Model, there exists the possibility that the underlying state of our universe – known as the "vacuum" – is If measurements of the Higgs boson suggest that our universe lies within a More speculatively, the Higgs field has also been proposed as the The relationship (if any) between the Higgs field and the presently observed As yet, there are no known immediate technological benefits of finding the Higgs particle. In the Standard Model, the Higgs boson has a number of indirect effects; most notably, Higgs loops result in tiny corrections to masses of the W and Z bosons. There is still only a very small chance, one in 10 On 4 July 2012, the teams at the Large Hadron Collider declared that they had discovered a particle which they think is the Higgs boson.On 14 March 2013 the teams had done much more testing, and announced that they now think the new particle is a Higgs boson.Such events also occur by other processes. This model has two interesting limits, in which the lightest Higgs couples to just fermions ("gauge-In other models the Higgs scalar is a composite particle. By the 1980s the question of whether or not the Higgs field existed, and therefore whether or not the entire Standard Model was correct, had come to be regarded as one of the most important For many decades, scientists had no way to determine whether or not the Higgs field existed, because the technology needed for its detection did not exist at that time. It is always possible to The quarks and the leptons interact with the Higgs field through Elementary particle related to the Higgs field giving particles mass"God Particle" redirects here. However, a common pattern for fundamental discoveries is for practical applications to follow later, and once the discovery has been explored further, perhaps becoming the basis for new technologies of importance to society.The challenges in particle physics have furthered major technological progress of widespread importance. Quantum fields can have states of differing stability, including 'stable', 'unstable' and 'The example is based on the production rate at the LHC operating at 7 TeV.