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- 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. In the Standard Model, the Higgs particle is a massive scalar boson with zero spin, no electric charge, and no colour charge
- imum v is written as: φ(x) = φ0 +h(x) 1 √ 2 φ1 +iφ2 φ3 +iφ4 ⇒ 1 √ 2 0 v +h(x) The scalar ﬁeld h(x) describes a physical Higgs boson Expanding the Higgs potential to second order in h2: V = V0 + µ2 2 (2vh +h2) + λ 4 (4v3h +6v2h2) = V 0 +λv 2h2 The additional term from h2 gives the Higgs boson mass: M2 H = 2λv 2 M H = √ 2|µ
- The Higgs boson, as proposed within the Standard Model, is the simplest manifestation of the Brout-Englert-Higgs mechanism. Other types of Higgs bosons are predicted by other theories that go beyond the Standard Model

The second numeric formula for the Higgs boson mass is = 2 3 2 3 5 e p H m m M α (4) The value calculated with this formula is MH Kg 27 2 223.8255866 10 = × − 2 MH2 =125.728GeV/c 1.3 Formula 3 The third numeric formula for the Higgs boson mass is = 3 4 3 18 1 e p H m m M α (5) The value calculated with this formula is MH Kg 27 3 223.5360629 10 = × − In the Standard Model of particle physics, the Higgs mechanism is essential to explain the generation mechanism of the property mass for gauge bosons. Without the Higgs mechanism, all bosons would be considered massless, but measurements show that the W+, W−, and Z0 bosons actually have relatively large masses of around 80 GeV/c2. The Higgs field resolves this conundrum. The simplest description of the mechanism adds a quantum field that permeates all space to the Standard. The search for the Higgs boson has become the holy grail of all particle accel-erators. In the simplest version of the electroweak theory, the Higgs boson serves both to give the W and Zbosons their masses and to give the fermions mass. It is thus a vital part of the theory. In these lectures, we will introduce the Higgs boson The unknown of this equation is the Higgs boson's mass mH. This equation can be solved by numerical means. We obtain two positive solutions: mH1 =14.1 GeV and mH2 =129.6 GeV. The first solution yields an imaginary constituent mass and is thus also discarded That equation predicts the mass of the Higgs boson he said. If you work it out, you get the mass of a Higgs boson that's only a bit larger than the nano-mass of a Higgs boson actually is. It's kind of amazing as Homer makes this prediction 14 years before it was discovered. Singh said the crazy find might not actually be so crazy

** The equation is a playful combination of various fundamental parameters, namely the Planck constant, the gravitational constant, and the speed of light, Singh told him**. The Simpsons has ended up being a real treasure trove of fascinating little tidbits for scientists to mull over I figured out what the equation is on Higgs' eyebrow! Theory. So, this is the best shot of the eyebrow I've been able to get. Only photons and gluons do not interact with the Higgs boson. Neutrinos, the lightest particles with almost zero mass, barely interact with a Higgs boson The most recently discovered boson, the Higgs boson, is a bit different; its interactions appear in the next part of the equation. Section 3 This part of the equation describes how elementary matter particles interact with the weak force. According to this formulation, matter particles come in three generations, each with different masses

- Since the amount of mass-energy created by the Higgs field is equal to the amount of kinetic energy that the gauge boson lost by slowing down, energy is conserved. Higgs bosons are used in a variety of science fiction stories. The physicist Leon Lederman called it the God particle in 1993
- Fig. 1: This picture shows the event in which the Higgs boson decays into two photons where the green lines are their energy deposits.This experiment allowed scientists to narrow down the mass of the Higgs ().Spontaneous Symmetry Breaking. As observed by Zee, though the fundamental laws of Nature have several symmetries, the world we experience is far from symmetric
- higgs boson equation, (like the elusive and theoretical Higgs boson). But the lead ion collisions into Einstein's most famous equation and the energy produced increases.
- -=-The Higgs idea is that solution - it says empty space is jammed full of Higgs particles that deflect otherwise massless particles as they move - the more a particle is jiggled by the Higgs.
- A Higgs boson is a massive scalar excitation remaining after the excitations of the argument of the conden-sate wave function of the symmetry-breaking scalar multiplet have combined with some of the gauge fields to provide the longitudinal components of massive vector bosons. Peter Higgs, Comptes Rendus Physique, 2007 (op.cit.

- Lesson39: Higgs Boson basics.. - YouTube. If playback doesn't begin shortly, try restarting your device. Videos you watch may be added to the TV's watch history and influence TV recommendations
- For the Higgs boson equation in the de Sitter spacetime, the corresponding energy dissipation law has not been well studied on the discrete level. In this work, we address this issue. More precisely, we propose a finite difference/Galerkin spectral scheme that can inherit the discrete energy dissipation property
- Editor's note: On October 8, 2013, Peter Higgs and Francois Englert won the Nobel Prize in Physics for their work on the Higgs boson. Below, our science columnist Brian Greene explains the science.

** Watch an overview of the math behind the Nobel Prize-winning Higgs Boson discovery with Brian Greene**.The World Science Festival gathers great minds in scienc.. That equation predicts the mass of the Higgs boson Simon Singh said. If you work it out, you get the mass of a Higgs boson that's only a bit larger than the nano-mass of a Higgs boson. 1 The **Higgs** Mechanism We begin by applying the **Higgs** mechanism to an abelian, U(1) gauge theory, to demonstrate how the mass of the corresponding gauge **boson** (the photon) comes about. The abelian example will then be generalized in a straightforward way to the non-abelian Glashow-Weinberg-Salam theory (the electroweak Standard Model)

This set of articles explains how the Higgs field gives mass to other particles, and some details about the Higgs particle. These articles require the kind of math that you'd come across in advanced pre-university or beginning university settings: algebra, cosines and sines, a little calculus (though most of that can be skirted) and a little familiarity with simple physics concepts: energy. The 'God Particle', also known as the Higgs boson, was a missing piece in the jigsaw for physicists in trying to understand how the universe works. Scientists believe that a fraction of a second.. This disparity shows up in physics equations as a similarly absurd difference between the mass of the Higgs boson, a particle discovered in 2012 that controls the masses and forces associated with the other known particles, and the expected mass range of as-yet-undiscovered gravitational states of matter The origins of the Higgs boson Many questions in particle physics are related to the existence of particle mass. The Higgs mechanism, which consists of the Higgs field and its corresponding Higgs boson, is said to give mass to elementary particles. By mass we mean the inertial mass, which resists when we try to accelerate an object, rather than the gravitational mass, which is. As a layman I would now say I think we have it. It was the Higgs boson, the almost-mythical entity that had put particle physics in the global spotlight, and the man proclaiming to be a mere layman was none other than CERN's Director-General, Rolf Heuer.Heuer spoke in the Laboratory's main auditorium on 4 July 2012, moments after the CMS and ATLAS collaborations at the Large.

What is the Higgs boson, then? As with all quantum fields, the Higgs field gives rise to its own kind of fundamental particle, the Higgs boson. It's a relatively heavy, uncharged, highly unstable boson (force-carrying particle, one with zero spin) that exists for a blink before breaking down into any few of a variety of other particles Jetzt neu oder gebraucht kaufen The Higgs Boson and Higgs Field: We know that initially elementary particles are massless but later they gain mass, so it was a problem that from where these elementary particles gain mass? Later, In 1964, Peter Higgs came up with an idea that there is a field that gives mass to these elementary particles and he gave name to this field Higgs Field, those particles which interact more. A Very Simple Explanation Of The Higgs Boson. François Englert and Peter Higgs just received the Nobel Prize in Physics for laying the groundwork for the discovery of the Higgs boson The Higgs field, along with its corresponding boson, represent a milestone for modern day particle physics. In this work we consider the Higgs boson equation in de Sitter spacetime. Previous work by Karen Yagdjian has formulated sufficient conditions for the existence of the zeros of global solutions in the interior of their supports. In searching for such solutions, we turn to heterogeneous.

* Goldstone Boson and Higgs Mechanism Author: Hanno Bertle Supervisor: Dr*. Mahdi Godazgar May 16, 2018 The Goldstone theorem and Higgs mechanism are two concepts that are essential to un-derstanding complex phenomena such as superconductivity and weak-interactions. First, the concepts of global, local and gauge symmetries are discussed In this article we study global in time (not necessarily small) solutions of the equation for the Higgs boson in the Minkowski and in the de Sitter spacetimes. We reveal some qualitative behavior of the global solutions. In particular, we formulate sufficient conditions for the existence of the zeros of global solutions in the interior of their supports, and, consequently, for the creation of.

- In a very real sense, the second diagram is a correction to the Higgs boson's mass. In a single equation, the two diagrams in Fig. 6 imply. Equation 1: The theoretical prediction for the SM Higgs boson's observed mass, which includes the tree-level contribution (free parameter), and 1-loop level contribution (cutoff)
- In all likelihood, this is the Higgs boson — the God particle — at 125-126 GeV. It's worth noting, though, that the ATLAS team also announced that it found a statistical bump in the 90 GeV.
- Einstein Field Equations (EFE) The Higgs Boson Theory does not consider EFE. In opposition, replacing the Higgs Field by the gravitational field makes the connection with EFE. Unification If the field associated to the Higgs boson is the gravitational field, mass, gravitation and the curvature of spacetime are unified in a common theory in 4D

This equation neatly sums up our current understanding of fundamental particles and forces. It represents mathematically what we call the Standard Model of particle physics. One of the primary objectives of the LHC is to see whether the Higgs boson exists and if it behaves as predicted by the last two lines • A dissipative generalization of Higgs' boson equation is studied. • Only radially symmetric solutions are considered in this work. • The Hamiltonian of the system is expressed in radial coordinates We can see that the real mass of the Higgs boson is 125.00 GeV because the observed mass distance 3.304 GeV is due to the interactions of the Higgs-boson pairs with the amplifiers. Analyse thoroughly the equation (1). For E N ∞, the mass of gluon ball is M = 727.44 MeV. It is the mass of the core of baryons ([1]: Particle Physics) The existence of the Higgs boson is a cornerstone of Einstein's dream. In 1955 Einstein died without fulfilling his lifelong dream: the unification of all physical laws in a single equation

This article is part of the Finance and physics package. Click here to see the previous article in the series. The mechanism described in the previous article gives a mass to the mediators of the weak force, but it does not explain why there should be a new physical particle, such as the Higgs boson. Let us explain this through the economic analogy The Higgs boson is the only fundamental particle predicted by the Standard Model that has not yet been seen by experiments. The technical problem is that the theory does not predict the exact mass of the Higgs boson itself, which makes the particle more difficult to identify Main objective. Our primary objective is to study the equations of motion arising from the Higgs mechanism applied to an abelian U(1) gauge theory on a Minkowski background after spontaneous symmetry breaking.We view this model as a stepping stone toward the full nonabelian Glashow-Weinberg-Salam theory (GSW), also known as the electroweak standard model 10. The discovery of the Higgs boson equation — Season 8, Episode 1. 20th Century Fo

** higgs boson equation 0 Comments {\displaystyle \phi } This potential energy, the Higgs potential, z,[33] has a graph which looks like a Mexican hat, which gives the model its name**. higgs boson equation,. Those equations prescribe everything about how Higgs particles move, interact with other particles, and decay—with just one, albeit glaring, exception: The equations do not determine the mass of.

Thus, it was postulated that there had to be at least one other particle added to the mass equation, the Higgs boson. Ever since the search as been on to find the elusive Higgs, leading to the. There is much speculation regarding how the Higgs Boson and Higgs field came into being, and many scientists wish to claim the discovery as their own. In truth, there were scientists that were.

It is named after physicist Peter Higgs, who in 1964 along with five other scientists proposed the Higgs mechanism to explain why some particles have mass. (Particles acquire mas That equation predicts the mass of the Higgs boson, Singh told the Independent. If you work it out, you get the mass of a Higgs boson that's only a bit larger than the nano-mass of a. That equation predicts the mass of the Higgs boson. If you work it out, you get the mass of a Higgs boson that's only a bit larger than the nano-mass of a Higgs boson actually is

equation E=mc2. When the Higgs boson was discovered at the LHC, it was being produced about once per four billion proton-proton collisions. Fermilab supports the CMS experiment by providing about 1,000 U.S. CMS scientists and engineers with access to computing facilities Higgs Theory The medium is a Higgs Field that comes from the energy of a vacuum which permeates all space. This is pure speculation because the Higgs Boson has always been detected near particles. This means that we do not know if the Higgs Field permeates all space or is locally created by the particle itself or by surrounding particles Taking as its point of departure the discovery of the Higgs boson, this article considers quantum theory, including quantum field theory, which predicted the Higgs boson, through the combined perspective of quantum information theory and the idea of technology, while also adopting a non-realist interpretation, in 'the spirit of Copenhagen', of quantum theory and quantum phenomena themselves

An ATLAS candidate event for the Higgs boson particle decaying into two bottom quarks. Physicists at CERN recently observed this process, which further confirms the Standard Model of particle physics What is this thing we keep hearing about - the **Higgs** **Boson**, and why is it important? It's been said that the best way to learn is to teach. And so, today I'm going to explain everything I.

If you look at previous Higgs Boson posts you will notice the caution there 'This *looks* like the Higgs Boson' 'The experiments agree with it being the Higgs BUT it may just be fluke.' If I toss an iron ball in the air I can calculate its path and speed using Newton's equations and Einsteins In 2012, particles smashed together in the Large Hadron Collider's 27-kilometer circular tunnel conjured up the Higgs boson — the last missing particle predicted by the Standard Model of particle physics, and the linchpin that holds that decades-old set of equations together

- Try this amazing Higgs Boson Formula 1 Quiz quiz which has been attempted 80 times by avid quiz takers. Also explore over 9 similar quizzes in this category
- ee par la courbure du potentiel a son
- We take advantage of the higher signal yield of the [Formula: see text] final state and make extensive use of jet-substructure techniques to reconstruct signal events with a boosted topology, characteristic of large partonic energies, where each Higgs boson decays to a single collimated jet

A search for the Standard Model Higgs boson produced in association with a top-quark pair, [Formula: see text], is presented. The analysis uses 20.3 fb -1 of pp collision data at [Formula: see text], collected with the ATLAS detector at the Large Hadron Collider during 2012. The sea The Goldstone Boson Higgs and the eective Lagrangian(s) Candidate: Kirill Kanshin Universita' degli Studi di Padova Dipartimento di Fisica e Astronomia G. Galilei Scuola di Dottorato di Ricerca in Fisica Via Marzolo 8, I-35131 Padova, Italy Ciclo XXVIII Advisor: Prof. Stefano Rigolin Director of Ph.D. school: Prof. Andrea Vitturi. The recently discovered Higgs boson, which helps give particles their mass, could have destroyed the cosmos shortly after it was born, causing the universe to collapse just after the Big Bang A bstract. Suppose a heavy neutral Higgs or scalar boson H is discovered at the LHC, it is important to investigate its couplings to the standard model particles as much as possible. Here in this work we attempt to probe the CP-even and CP-odd couplings of the heavy Higgs boson to a pair of top quarks, through the decay \( H\to t\overline{t}\to b{W}^{+}\overline{b}{W}^{-} \) The Higgs boson would decay into a b quark and a b antiquark. In a few years, experiments at Fermilab's Tevatron should be able to extend the search to higher masses,.

Higgs boson and shows the existence of photon mass through the B(3) field. The subsequent development of O(3) electrodynamics and ECE theory refutes the standard model in many ways, and these refutations are by now well known. These numerous flaws in the U(1) sector are carried through into the electrowea In the math that physicists use to understand the Higgs boson and field, there is a piece of an equation that they interpret as the existence of a Higgs boson, which they see as a point-like particle resulting from the Higgs field curling in on itself, like a knot in a spider's web Scientists say that they are close to proving the existence of the elusive Higgs boson, a theoretical particle that imputes matter with the property of mass. How does that work anyway * S*.M. Higgs Decay and Production Channels Trabajo Fin de Master 2010 - 2011 Victor Ilisie tutor: Antonio Pich Zardoya Universidad de Valencia,* S*eptiembre 2011 Abstract: As the rst part of this paper we get to analyze* S*tandard Model (SM) Higgs boson main decay channels, at tree level for massive nal state particles and at one loop for gluons If you are a physics & science fan, then this cool scientist shirt gift for science fans showing the the standard model equation is for you. The scientist tee also makes a great gift for a science teacher, student, geek or professor. Standard Model Equa • Millions of unique designs by independent artists. Find your thing

In theories of quantum gravity, the graviton is the hypothetical quantum of gravity, an elementary particle that mediates the force of gravity. There is no complete quantum field theory of gravitons due to an outstanding mathematical problem with renormalization in general relativity.In string theory, believed to be a consistent theory of quantum gravity, the graviton is a massless state of a. The Higgs boson machine learning challenge (HiggsML or Challenge in short) has been set up to promote collaboration between high energy physicists and data scientists. The ATLAS experi-ment at CERN provided simulated data used by physicists to optimize the analysis of the Higgs boson The Higgs boson, H0, is one of the current research hotspots in Particle Physics research [1]-[6]. The Higgs bo-son is a neutral, positive parity, no color charge, and zero spin elemental boson. All particles get their mass properties from interacting with the Higgs boson. The Standard Model and electroweak theory do not predict th the help of complicated equations or mathematical arguments. At least this was once told to me by Victor F. Weisskopf, an eminent physicist who often engages in such explanations, and he may very well be right. It cer tainly holds for a proposed but un discovered particle called the Higgs boson and the so-called Higgs field as sociated.

neutron, and the Higgs boson are 105.55 MeV, 175.4 GeV, 139.54 MeV, 939.43 MeV, and 126 GeV, respec-tively, in excellent agreements with the observed 105.65 MeV, 173.3 GeV, 139.57 MeV, 939.27 MeV, and 126 GeV, respectively. The theoretical base of the accurate mass formulas is the periodic table of elementary par-ticles [3]-[6] The experiments' much anticipated success confirms predictions made decades earlier by Peter Higgs and others, and offers a glimpse into a universe of physics beyond the Standard Model. As Professor Peter Higgs continues his inspiring role at Edinburgh University's School of Physics & Astronomy, the experiments at the LHC continue The Higgs boson is about 126 billion electron volts, or about the 126 times the mass of a proton. This turns out to be the precise mass needed to keep the universe on the brink of instability,. The renormalization group equations allow researchers to explore the entire shape of the Higgs potential and find any additional maxima and minima. Questions about the Universe's stability have been put in sharper focus by the measurements of the Higgs boson's mass [ 3 ] The Higgs mass window of equation is very efficient in eliminating backgrounds without a Higgs boson while equation is effective to veto events that contain neutrinos. Requiring a very hard leading jet, equation ( 4 ), helps to decrease the backgrounds of weak bosons with extra jets

- The Higgs boson is so elusive that only about one collision per trillion will produce one of them in the collider. CERN said it is open question whether this is the Higgs boson that was expected.
- I was thinking, because of the relationship between energy and mass and the mathematics, would it (theoretically speaking, of course) be possible to accelerate the Higgs Boson to the speed of light, reducing its mass value to 0 and converting that mass into energy? I was also wondering if this..
- The resulting
**Higgs**particle, or**Higgs****boson**as it is called, a term which gets transformed into a mass term in the resulting field**equation**. 10. The**Higgs**field,. - homer simpson solves higgs boson equation in 1998! march 13, 2015 chrononaut23 conspiracy theories, news, pictures, science & technology, science fiction, script writers, short stories, tv shows cern, god particle, higgs boson, homer simpson, large hadron collider, lhc, mr burns, science, the simpsons, theoretical physicist
- Higgs Boson Found under Bigfoot's Paw by Miles Mathis Many of my readers have been begging (yes begging—using that word explicitly) me to comment on the developing Higgs boson fiasco. But, honestly, I can barely get past a yawn. I have been busy painting, and the published announcements I have scanned haven't excited me enough to pull me awa

Matt Strassler 12/11/11. The Standard Model Higgs (the simplest possible type of Higgs particle that might be present in nature), decays very rapidly, as do most types of particles.In a time far shorter than the time it takes for light to travel from one side of an atom to the other, a Higgs particle that is produced at the Large Hadron Collider [LHC] will decay to other particles The standard model of particle physics hypothesized about Higgs Boson in 1964. The discovery of Higgs particle was announced at CERN on 4 July 2012. The discovery has been called monumental because it appears to confirm the existence of the Higgs field, which is pivotal to the Standard Model and other theories within particle physics

- Several high energy electron-positron colliders are proposed as Higgs factories by the international high energy physics community. One of the most important goals of these projects is to study the Higgs properties, such as its decay, mass, width, and production rate, with unprecedented precision. Precision studies of the Higgs boson should be the priority and drive the design and optimization.
- This passage is adapted from Brian Greene, How the Higgs Boson Was Found. ©2013 by Smithsonian Institution. The Higgs boson is an elementary particle associated with the Higgs field. Experiments conducted in 2012-2013 tentatively confirmed the existence of the Higgs boson and thus of the Higgs field
- The Higgs boson is the missing link in the standard model of particle physics, a mathematical description of the fundamental particles and their interactions.Although phenomenally successful in most of its predictions, the standard model cannot explain why some of the fundamental particles have mass
- New conserved tensors and Brans-Dicke type field equation, using integrability condition. Abhik Kumar Sanyal, Bijan Modak, Manas Chakrabortty. May 27, 2021. 14 pages. e-Print: 2105.13529 [gr Measurements of Higgs boson production and couplings in the four-lepton channel in pp collisions at center-of-mass energies of 7 and 8 TeV.
- This particle became known as the Higgs boson, named after Peter Higgs, one of these researchers. The addition by Higgs and others offered a way to explain why atoms have weight

- If the Higgs boson behaves the way that the Standard Model predicts it should, then these patterns should be produced in certain proportions depending on the mass of the Higgs boson. One of the tricky things about trying to find the Higgs boson is that physicists didn't know for sure what mass the Higgs boson actually has
- When Higgs Boson and Higgs Field is discovered by CERN on 04 July 2012, then the media hyped the name of this particle from Higgs boson to The god particle. For getting more attraction, at that time media presented the headline The God Particle Discovered of all their news, newspapers, magazines, etc. across the world
- The Higgs boson was capriciously nicknamed 'the God particle' by American physics Nobellist Leon Lederman at the insistence of his publisher 5. Sample, I., Ultimate equation is pie in the sky, says Hawking, Guardian, 23 February 2004, 22 June 2006. Return to text
- The Higgs boson doesn't give mass to particles. The Higgs field gives mass to certain elementary particles by coupling with the fields of those particles, as others have explained. The Higgs field doesn't give significant mass to protons or you and me
- If you work it out, you get the mass of a Higgs boson that's only a bit larger than the nano-mass of a Higgs boson actually is. It's kind of amazing as Homer makes this prediction 14 years.
- Spontaneous symmetry breaking in the Higgs mechanism August 2012 Abstract The Higgs mechanism is very powerful: it furnishes a description of the elec-troweak theory in the Standard Model which has a convincing experimental ver-iﬁcation. But although the Higgs mechanism had been applied successfully, the conceptual background is not clear
- This disparity shows up in physics equations as a similarly absurd difference between the mass of the Higgs boson, a particle discovered in 2012 that controls the masses and forces associated with.

Today one of the main focal points at the Large Hadron Collider (LHC) is to search for the Higgs boson [1-3] through its decay into two photons, (for reviews see [4, 5]). Indeed, the recent [6, 7] observation by ATLAS and CMS experiments of a resonance, which could be the Standard Model (SM) Higgs boson, is based on data mainly driven by For example, in the equations, the Higgs boson has a basic mass to which theorists add a correction for each particle that interact with it. The heavier the particle, the larger the correction. The top quark being the heaviest particle, it adds such a large correction to the theoretical Higgs boson mass that theorists wonder how the measured Higgs boson mass can be as small as it was found

- The Higgs boson, if it exists, is the let's take a birds-eye view of the whole equation. The mass of the Higgs is equal to the theoretical mass plus a monstrously large number multiplied by.
- This method uses the theoretical equations that describe the kinematics of each event of the Higgs boson production and decay, and matches the theory to what is observed in the experiment. These tools are tightly connected to the simulation of all possible effects because the same matrix-element calculations are used in both cases to describe the processes
- Two-loop contributions to the SM-like Higgs boson mass depending on the gluino mass in the MRSSM for BMP1 (a) and BMP3 (b) and two different values of the soft sgluon mass parameter TeV (thick solid blue line) and TeV (thick dashed green line) with all contributions, respectively, and without the sgluon contributions (thin solid red line). For comparison also the MSSM contributions for no.
- Theorists predicted what the Higgs signatures should look like, and when physicists went searching, they consistently saw some of these signatures more frequently than they could explain without the Higgs boson. When scientists added the mathematics for the Higgs boson into the equations, the predictions matched the data
- That equation doesn't just figure out the Higgs boson. Numberphile's Brady Haran points out in a 2013 video that part of the equation defies Fermat's Last Theorem and comes close to adding.