Hidden Valley

... Example mentioned in hep-ph/0511250, Naturalness and Higgs decays in the MSSM with a singlet. Chang, Fox and Weiner hep-ph/0607204 : Reduced fine-tuning in supersymmetry with R-parity violation. ...

SU(3) - Physics

... Leptonic Decays of Vector Mesons What is the experimental evidence that quarks have non-integer charge ?  Both the mass splitting of baryons and mesons and baryon magnetic moments depend on (e/m) not e. Some quark models with integer charge quarks (e.g. Han-Nambu) were also successful in explaining ...

arXiv:1412.6954v1 [hep-ph] 22 Dec 2014

... Lorentz symmetry is a foundational property of modern physics, underlying both the standard model of particles and general relativity. It is anticipated that these two theories are merely low energy approximations of a single theory of the four fundamental forces that is unified and consistent at th ...

The Standard Model of Particle Physics Piet Mulders

... _ _ _ K0 = ds, K0 = sd have slightly different masses and decay in a different way ...

Euler Lagrange Equation

Unravelling Nature`s Elementary Building Blocks Challenges of Big

... of space and time did not exist. The point is modern science’s version of creation. Then that point exploded. It was an explosion of a kind that would never happen again. It was unique. It was the very beginning of the Universe, our universe. The explosion took an unimaginable short amount of time, ...

Efficient and robust analysis of complex scattering data under noise... microwave resonators S. Probst, F. B. Song,

... systems down to the single photon regime. For instance, in circuit quantum electrodynamics1 resonators are used for dispersive readout or coupling to quantum objects such as qubits2–4 or spin systems5–8 . Thus, it is crucial to understand the physics behind these resonators and, moreover, to be able ...

Hidden Sector Dark Matter in String/M theory.

A unique theory of all forces 1 The Standard Model and Unification

... The string model originated at the end of the sixties as an attempt to describe in the framework of the S-matrix theory the physics of the strong interactions with an infinite set of resonances, but it became soon clear that it incorporated also massless gauge fields and gravitons that are not prese ...

Particle Physics in the LHC Era - SUrface

... the statement that physics at different length scales do not affect one another. As we gradually uncover new layers of physics, we can analyze them in an orderly fashion and then systematically incorporate them. Decoupling is the reason we do not need a detailed understanding of planetary geography ...

Searches for NP : non-SUSY scenarios

... - Eloss could be so large that M may stop in the beam-pipe ! EPJC xxx (2005) E. Perez ...

2014 version - Elementary Particle Physics @ Birmingham

Gholson, Morgan P. - People Server at UNCW

... adapt, analyze, and try to create an understanding of why these results have come about, unless the data is wrong like it was in several instances of this particular work. ...

Computation of hadronic two-point functions in Lattice QCD

... a canon. In Nature there exist conservation laws that relate different units to each other. For instance the speed of light is a constant and therefore distance can be measured (and defined) in terms of time. Natural units are no inventions of Nature or supernature but they are one possible choice t ...

arXiv:1606.09570v1 [physics.gen-ph] 29 Jun 2016

Particle Physics what do we know?

... • What are the fundamental building blocks of the universe? • What are the interactions between them? • How can we explain the universe? ...

Quantum Gravity: The View From Particle Physics

... a carefully crafted procedure for their removal, if one is to arrive at testable predictions. This renormalization prescription in essence amounts to an order by order tuning of a finite number of parameters by infinite factors. Although mathematically on very shaky grounds, this procedure has produ ...

Everything You Wanted to Know About Quarks but were afraid to ask…

... • High energy charged particle knocks out electrons (-ive) • +ive and –ive charges move in opposite directions because of applied electric field. • Resulting current measured by electronics. • This is the principle behind the camera on your phone 20th June 2014 ...

cern07-lecture

... • Jet energy scale – Determine the energy of the partons produced in the hard ...

1 Direct Detection of Dark Matter

NW3424392440

... potential not only has the role of confinement potential, but also it shows the oscillation of one quark to the other one. In fact, this phrase is a confining potential. In accordance with br term, separating quarks from hadrons is not possible and leads producing pairs of new quarks and antiquarks. ...

ppt

... Matter interacts through exchange of mediator or exchange particles Ex: electromagnetic exchange particle is the photon! Photon is virtual and cannot be observed ...

2.1.1 Atomic Structure

... Nucleus Nucleus Orbitals ...

Weak interactions and vector bosons

... by existing accelerators. • In our everyday particle physics experiments at relatively low energies this symmetry is broken. • The first successful attempt to unify two apparently different interactions was done by Maxwell in 1865. He showed that electricity and magnetism could be unified into a sin ...

The BEH Mechanism and its Scalar Boson by François Englert

... were led to propose the mechanism, and how it allows for consistent fundamental theories of short range interactions and for building elementary particle masses. It became a cornerstone of the Standard Model and was recently confirmed by the magnificent discovery at CERN of its predicted scalar boso ...

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Minimal Supersymmetric Standard Model

The Minimal Supersymmetric Standard Model (MSSM) is an extension to the Standard Model that realizes supersymmetry. MSSM is the minimal supersymmetrical model as it considers only ""the [minimum] number of new particle states and new interactions consistent with phenomenology"". Supersymmetry pairs bosons with fermions; therefore every Standard Model particle has a partner that has yet to be discovered. If the superparticles are found, it may be analogous to discovering dark matter and depending on the details of what might be found, it could provide evidence for grand unification and might even, in principle, provide hints as to whether string theory describes nature. The failure to find evidence for supersymmetry using the Large Hadron Collider since 2010 has led to suggestions that the theory should be abandoned.

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Minimal Supersymmetric Standard Model