{"page":"\u003clink rel=\"stylesheet\" href=\"https://lessonplanet.com/assets/packs/css/resources-c03aa079.css\" /\u003e\n\u003clink rel=\"stylesheet\" href=\"https://lessonplanet.com/assets/packs/css/lp_boclips_stylesheets-517835be.css\" media=\"all\" /\u003e\n\u003cdiv data-title='Did the W Boson’s Mass Break the Rules of Physics?' data-url='/boclips/videos/689565b3f85aec7d1d07d044' data-video-url='/boclips/videos/689565b3f85aec7d1d07d044' id='bo_player_modal'\u003e\n\u003cdiv class='boclips-resource-page modal-dialog panel-container'\u003e\n\u003cdiv class='react-notifications-root'\u003e\u003c/div\u003e\n\u003cdiv class='rp-header'\u003e\n\u003cdiv class='rp-type'\u003e\n\u003ci aria-hidden='true' class='fai fa-regular fa-circle-play'\u003e\u003c/i\u003e\nVideo\n\u003c/div\u003e\n\u003ch1 class='rp-title' id='video-title'\u003e\nDid the W Boson’s Mass Break the Rules of Physics?\n\u003c/h1\u003e\n\u003cdiv class='rp-actions'\u003e\n\u003cdiv class='mr-1'\u003e\n\u003ca class=\"btn btn-success\" data-posthog-event=\"Signup: LP Signup Activity\" data-posthog-location=\"body_link_boclips\" data-remote=\"true\" href=\"/subscription/new\"\u003e\u003cspan\u003e\u003cspan\u003eGet Free Access\u003c/span\u003e\u003cspan class=\"\"\u003e for 10 Days\u003c/span\u003e\u003cspan\u003e!\u003c/span\u003e\u003c/span\u003e\u003c/a\u003e\n\u003c/div\u003e\n\u003c/div\u003e\n\u003c/div\u003e\n\u003cdiv class='rp-body'\u003e\n\u003cdiv class='rp-info'\u003e\n\u003cdiv aria-label='Hide resource details' class='rp-hide-info' role='button' tabindex='0'\u003e\u0026times;\u003c/div\u003e\n\u003ci aria-label='Expand resource details' class='rp-expand-info fai fa-solid fa-up-right-and-down-left-from-center' role='button' tabindex='0'\u003e\u003c/i\u003e\n\u003ci aria-label='Compress resource details' class='rp-compress-info fai fa-solid fa-down-left-and-up-right-to-center' role='button' tabindex='0'\u003e\u003c/i\u003e\n\u003cdiv class='rp-rating'\u003e\n\u003cspan class='resource-pool'\u003e\n\u003cspan class='pool-label'\u003ePublisher:\u003c/span\u003e\n\u003cspan class='pool-name'\u003e\n\u003cspan class='text'\u003e\u003ca data-publisher-id=\"30356011\" href=\"/search?publisher_ids%5B%5D=30356011\"\u003eCurated Video\u003c/a\u003e\u003c/span\u003e\n\u003c/span\u003e\n\u003c/span\u003e\n\u003c/div\u003e\n\u003cdiv class='rp-description'\u003e\n\u003cspan class='short-description'\u003eSUMMARYIn April 2022, a team at Fermilab announced that the W-boson was measured to a new level of 7 sigma precision-  80.4335 giga electron volts (GeV) plus or minus 0.0094 GeV. However, this was not what is predicted by the the...\u003c/span\u003e\n\u003cspan class='full-description hide'\u003eSUMMARY\u003cbr/\u003eIn April 2022, a team at Fermilab announced that the W-boson was measured to a new level of 7 sigma precision-  80.4335 giga electron volts (GeV) plus or minus 0.0094 GeV. However, this was not what is predicted by the the standard model of particle physics, which is 80.357 plus or minus 0.006 GeV. \u003cbr/\u003e\u003cbr/\u003eAlthough this is only a 0.1 GeV, or a 0.3% difference, it is a big deal because it is 7 sigma off the prediction. Anything over 5 sigma is considered a new discovery. \u003cbr/\u003e\u003cbr/\u003eThe W boson along with the Z-boson mediates the weak force, which is one of 3 fundamental forces described by the standard model. It’s a rather heavy particle being about 80 times the mass of the proton which has a mass of about 1 GeV. This boson is behind the decay of neutrons to protons, and protons to neutrons. This process is important for the stability of large atoms, and is essential to how the sun works.\u003cbr/\u003e\u003cbr/\u003eThe problem is that the Fermilab result is not compatible with the standard model, which is considered our best understanding of how the universe works, and which up until now has been very accurate in making predictions. \u003cbr/\u003e\u003cbr/\u003eThe electroweak theory unites two fundamental forces, the weak nuclear force and electromagnetism. It tells us how these two forces arise from a single unified force, and it tells us how this force works. The Higgs field plays a critical role in making electroweak theory work, because it is responsible for giving mass to the bosons which carry the weak force. Those bosons are the W and Z bosons. The Higgs boson is an excitation in the Higgs field.\u003cbr/\u003e\u003cbr/\u003eThe weak force interacts with all the matter particles of the standard model. So any modification to the standard model based on new findings, would affect the parameters of electroweak theory. In fact if anything is wrong with the standard model, it will likely be found in the electroweak part of the standard model.\u003cbr/\u003e\u003cbr/\u003eThis theory specifies a relationship between the Z and W boson. The theory doesn’t exactly state what the mass of these particles should be, but it gives a relationship which must be respected. That relationship is that the ratio of the mass of the W bozon and Z boson is the cosine of the Weinberg angle.  The new result appears to violate this prediction from electroweak theory.\u003cbr/\u003e\u003cbr/\u003eWhen the W mass was initially calculated based on the standard model, the mass was too low. The issue is that the mass of all massive particles is affected by the mass of other particles. These are called quantum corrections. \u003cbr/\u003eSo for example, the W boson is affected by quantum corrections from its interaction with other particles, like the top quark and the Higgs boson. \u003cbr/\u003e\u003cbr/\u003eThe reason that the mass of one particle affected by the mass of other particles is because at the quantum level, all particles are excitations in fields. This is the basis of quantum field theory. The magnitude of these excitations in the field is what we perceive as mass. And any given field affects other fields. \u003cbr/\u003e\u003cbr/\u003eAnd over decades of W-boson mass measurements, they have all been within the standard model prediction after taking the error bar or uncertainty into account…until now. This new result has an unprecedented low combined uncertainty, so in this case the statistical uncertainties cannot make up for the deviation. \u003cbr/\u003eSo, what does this mean? There are three possible explanations:\u003cbr/\u003e1. The math is wrong.\u003cbr/\u003e2. The experiment or analysis is flawed.\u003cbr/\u003e3. There is some new unknown physics that affects the mass.\u003cbr/\u003e\u003cbr/\u003eOption 1 is unlikely. Option 2 is more likely. But if no one finds a mistake in the experiment, then option 3 will likely be correct. 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