* Astronomy

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Higgs mass

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RE: Higgs Particles

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Higgs Boson theory depicted in new artwork on display at Imperial
An artwork depicting the Higgs Boson is on display in the Central Library on Imperial's South Kensington Campus as part of its tour of scientific institutions around the world.

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Higgs boson

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RE: Higgs Particles

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A row between two of the worlds most famous scientists yesterday threatened to overshadow the celebrations as the worlds greatest scientific experiment got under way.
Professor Peter Higgs, the scientist who gave his name to the Higgs boson, the particle at the centre of the Large Hadron Collider (LHC) experiment, launched a withering attack on Professor Stephen Hawking, saying his work was not good enough.
Professor Higgs dismissed the views on the £2.6 billion project of the man generally considered to be the greatest physicist of his time, and said that no other particle physicist would view his approach as correct.
Both men are contenders for the Nobel prize depending on the outcome of the experiment and their spat is likely to send shockwaves through the scientific Establishment.

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The Large Hadron Collider is the latest attempt to move fundamental physics past the frustratingly successful 'standard model'. But it is not the only way to do it. Geoff Brumfiel surveys the contenders attempting to capture the prize before the collider gets up to speed.

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Hunting for the Higgs

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Title: Light MSSM Higgs boson scenario and its test at hadron colliders
Authors: Alexander Belyaev, Qing-Hong Cao, Daisuke Nomura, Kazuhiro Tobe, C.-P. Yuan

We show that in the Minimal Supersymmetric Standard Model, the possibility for the lightest CP-even Higgs boson to be lighter than Z boson (as low as about 60 GeV) is, contrary to the usual belief, not yet excluded by LEP2 data or any other existing experimental data. The characteristic of the light Higgs boson scenario (LHS) is that the ZZh coupling and the decay branching ratio Br(h/A \to b\bar{b}) are simultaneously suppressed as a result of generic supersymmetric loop corrections. Consequently, the W^± H^± h coupling has to be large due to the sum rule of Higgs couplings to weak gauge bosons. In addition to discussing the potential of the Tevatron and B-factories to test the LHS, we show that the associate neutral and charged Higgs boson production process, pp \to H^± h (A), can completely probe LHS at the CERN Large Hadron Collider.

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The Higgs boson has been moonlighting. Not content with its day job of giving other particles their mass, it may also have driven the expansion of the early universe, given a little tinkering, according to two separate studies.
Soon after the big bang the early universe is believed to have undergone a period of rapid expansion, known as inflation. The idea is that hypothetical particles, aptly named "inflatons", drove this expansion by pushing space apart.
But there's a problem.

"If you ask cosmologists what the inflaton actually is, they will stumble. We need a connection between the inflaton and particles that we know about" - Anupam Mazumdar at Lancaster University in the UK.

That's where the Higgs boson comes in. Although yet to make an appearance, it would seem to be the perfect candidate for the inflaton because the Higgs is the only particle with the "negative pressure" required to inflate the universe.

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