asu-higgs-temp1 - Experimental Elementary Particle Physics

...  The Standard Model unifies the strong, weak, and electromagnetic interactions in the sense that they all arise from a local symmetry principle ...

Summer Talk - University of Toronto, Particle Physics and

... • Electromagnetism on its own can be made to give finite results for all calculations. • Unified Electroweak theory gives infinite results for process like: ...

KNUST1 - Indico

... Gauge Interactions of the Standard Model • Three separate gauge group factors: ...

Supersymmetry (SUSY)

... The lectures will cover material necessary to give a reasonable understanding of SUSY and realistic supersymmetric models which might be detected at the LHC as well as prepare the audience to do SUSY phenomenology. Starting with the SUSY algebra for N=1 supersymmetry we will then introduce superfiel ...

ANDRÉ PETERMANN by Antonino Zichichi

... into two classes: one had the property of a mass, while the other class had the property of an electric charge. If these divergent integrals were substituted with the experimentally measured mass and charge of the electron, all theoretical predictions could be made to be “finite”. This procedure was ...

Ross.pdf

... correction to the Higgs mass. When SUSY is broken at a scale MSUSY the new supersymmetric states acquire mass of O(MSUSY ) and this cancellation is spoilt. However the resultant contribution is of O(MSUSY ) and provided this is not too large (i.e. ≤ O(1T eV )) it is consistent with the observed elec ...

Phenomenology Beyond the Standard Model

... • Broken by Higgs mass term –μ2, anomalies – Cannot remove μ2 (Coleman-Weinberg) – Anomalies give couplings to γγ, gg ...

What lies beyond? - University of Toronto Physics

... the masses of W, Z bosons and all the rest can be generated. These ideas are testable in the near future. Moreover, we also know a mechanism explaining the small ratio of the electroweak and Planck scales. Borrowed from condensed matter physics, goes under the name of “dynamical (super-)symmetry bre ...

DUAL NATURE OF DARK MATTER: COMPOSITE OF BOTH

... oscillate between the three flavors, which is only possible if neutrinos have a very small mass.The standard model used by cosmologists predicts that the universe is composed of 5% ordinary matter, 27% cold dark matter, and 68% dark energy. Dark matter reputedly caused hydrogen to coalesce into star ...

ppt - HEP Educational Outreach

... spent their summer at CERN – Goals were to: • Get a taste of what it is like being engaged at the world’s most energetic collider • Learn a bit about the LHCb experiment • Develop an event display to visualize interactions in LHCb (software-based project). ...

Modern Physics

... e.g. Average A Level score is same for females as for males. Not an exact symmetry. ...

String Theory The Theory of Everything

... • The problem between General Relativity and Quantum Mechanics • String Theory – How it helps – How it works ...

Lecture notes

... Tevatron limits on RS Gravitons ...

Symmetry and Its Violation -unifying concept of universe

... anti-quarks and (W, Z0) anti-leptons strong (gluon: g) The Standard Model ...

A first view on the mathematical structure of the standard

... From today’s prospect particles physics is welldescribed in the standard model of elementary particles and the fundamental interactions. With the word elementary particle we understand the point-shaped component of the materia without any substructure. The radius of these particles add up to 10−18 t ...

1.5 physics beyond the Standard Model

... masses around the TeV scale in order to solve the hierarchy problem and to avoid unacceptable fine-tuning. The absence of fine-tuning is often referred to as “naturalness” of a theory. But so far there is up to energies of about ~ 2 TeV absolutely no sign of new physics beyond the SM at the LHC and ...

Superstrings: The “Ultimate Theory of Everything”? Sera Cremonini

... Where is this done? ¾ particle accelerators: our best microscopes! ...

Particle physics, from Rutherford to the LHC

... It is clearly necessary to go beyond the standard model. There is a mysterious spectrum of quark and lepton masses and mixing angles that we have been staring at for decades, as if they were symbols in an unknown language, without our being able to interpret them. Also, something beyond the standard ...

University of Groningen M-theory and gauged supergravities Roest

... Due to the success of gauge theories like the SM and GR, it seems natural to consider theories based on local supersymmetry. From (1.2) one infers that local susy also introduces general coordinate transformations (with local translations being the infinitesimal form of these) and therefore gravity. ...

Progress Report 1: Search for Low Mass Strings at the LHC with CMS

... The LHC is first and foremost, a discovery machine. By being the first accelerator to probe deep into the multi-TeV scale, it promises to revolutionize our current understanding of elementary particles. While extraordinarily accurate, the best current model, the Standard Model (SM) of Particle Physi ...

Proposal of a topic for the PhD schools in Particle Physics Name

... Title of the PhD topic: Search with the ATLAS detector for Higgs boson and new physics in high energy proton-proton collisions at the LHC, CERN, Genève. Details of the task : The existence of the Higgs boson is one of the corner stone of the Standard Model (SM) in particle physics not yet confirmed ...

An Inflationary Model In String Theory

... others should not see any B mode polarisation if these models are correct. ...

like in Arts - Physik und Astronomie an der Universiteat Innsbruck

... If SUSY is realized in Nature then for every known SM particle there must be a supersymmetric partner. SUSY particle spectrum. green: known particles of the Standard Model. red: new particles (Higgs bosons and SUSY partners). H. Eberl ...

Theoretical physics master program

... Non-abelian gauge theory Standard Model, including Quantum Chromodynamics Renormalization (group) Spontaneous symmetry breaking, Higgs mechanism ...

Particle physics today

... Most popular solution: Higgs mechanism, i.e. EW symmetry spontaneously broken Spontaneous symmetry breaking (SSB): symmetry of equations but not of solutions What does this mean ? ...

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Supersymmetry

Supersymmetry (SUSY), a theory of particle physics, is a proposed type of spacetime symmetry that relates two basic classes of elementary particles: bosons, which have an integer-valued spin, and fermions, which have a half-integer spin. Each particle from one group is associated with a particle from the other, known as its superpartner, the spin of which differs by a half-integer. In a theory with perfectly ""unbroken"" supersymmetry, each pair of superpartners would share the same mass and internal quantum numbers besides spin. For example, there would be a ""selectron"" (superpartner electron), a bosonic version of the electron with the same mass as the electron, that would be easy to find in a laboratory. Thus, since no superpartners have been observed, if supersymmetry exists it must be a spontaneously broken symmetry so that superpartners may differ in mass. Spontaneously-broken supersymmetry could solve many mysterious problems in particle physics including the hierarchy problem. The simplest realization of spontaneously-broken supersymmetry, the so-called Minimal Supersymmetric Standard Model, is one of the best studied candidates for physics beyond the Standard Model.There is only indirect evidence and motivation for the existence of supersymmetry. Direct confirmation would entail production of superpartners in collider experiments, such as the Large Hadron Collider (LHC). The first run of the LHC found no evidence for supersymmetry (all results were consistent with the Standard Model), and thus set limits on superpartner masses in supersymmetric theories. Whilst many remain enthusiastic about supersymmetry, this first run at the LHC led some physicists to explore other ideas. In any case, in 2015 the LHC resumed its search for supersymmetry and other new physics in its second run.

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Supersymmetry