A unification of photons, electrons, and gravitons under qbit

... Seven basic assumptions • The current physical theory explain a very wide range of phenomena from some simple “starting points”. It unifies everything into seven fundamental assumptions – seven wonders of our universe: (1) Locality. (2) Identical particles. (3) Gauge interactions. (4) Fermi statist ...

An Introduction to the Standard Model

... well reveal a structure, like strings, and could require a completely different theoretical framework. A theoretical framework of which the local quantum field theory description of the Standard Model would be just a “low energy”/”large distance” limit. At present the most complete and plausible des ...

What is new at CERN? - Vanderbilt HEP

... Currently appears to have eliminated many popular SUSY models; we are left with the 105 parameter full-model (maybe). ...

An introduction to lattice gauge theory and spin systems

... Abelian lattice gauge theory is introduced next. The physical interpretation of the. loop correlation function in terms of quark confinement is derived. The energetics and phases of the model are discussed by evaluating the loop correlation function at weak coupling where Coulomb's law emerges and a ...

Highlights from Top Physics

... colliders with top quark events • Top quark production and properties consistent with SM ...

Effective Field Theories

... effective field theory is not to describe a system in every aspect but only up to a given energy scale. That means we are restricting ourselves to the low energy limit, where low is associated to some given energy scale Λ characteristic for the system, and following from Heisenberg's uncertainty pri ...

Neutrino Oscillations

... excluded from theories as they come from a class of interactions that lead to unacceptably rapid proton decay if they are all included. These models have little predictive power and are not able to provide a cold dark matter candidate. 1. More formally, the neutrinos are emitted in an entangled stat ...

The Complete Idiot``s Guide to String Theory

... Both string theory and loop gravity suggest that the start of the big bang was not the beginning of time but a transition from a pre-existing universe. ...

On the physical basis of cosmic time - Philsci

... the Friedmann-Lemaı̂tre-Robertson-Walker (FLRW) metric, standardly taken to describe the present universe (at large scales), there seems to be no problem in extrapolating this time concept back to t = 0 or, at least, to the Planck time. However, this objection disregards that the FLRW metric is a ma ...

Principles of Quantum Universe

... The Russian edition of the present book was published in June 2013. It just happened that it was the time between two signiﬁcant dates: in 2011 the Nobel Prize was awarded “for the discovery of the accelerated expansion of the Universe through observations of distant Supernovae” and in 2013 the Nobe ...

Lecture notes

... quantum Hall (QH) states that all have the same symmetry. • Different QH states cannot be described by symmetry breaking theory. • We call the new order topological order Wen 89 Xiao-Gang Wen, Perimeter/MIT, Dec. 2012 ...

Effective Field Theory

... Effective field theories are the appropriate theoretical tool to describe low-energy physics, where low is defined with respect to some energy scale Λ. They only take explicitly into account the relevant degrees of freedom, i.e. those states with m ≪ Λ, while the heavier excitations with M ≫ Λ are i ...

Bogoliubov`s Vision: Quasiaverages and Broken Symmetry to

... physics. Moreover, the idea of symmetry is a useful and workable tool for many areas of the quantum field theory, statistical physics and condensed matter physics.14, 20–23 However, it is worth to stress the fact that all symmetry principles have an empirical basis. The invariance principles of nonr ...

The AdS 3/CFT2 correspondence in black hole physics

... General Relativity, but finding and classifying all possible supersymmetric configurations in an extended supergravity and assigning to them the correct microscopic charges is far from an easy task. Moreover, this becomes much more complicated when one tries to include higher derivative corrections ...

No Slide Title - Webcast

... quark-anti quark pairs (sometimes accompanied by one or more gluons and all possible lepton-anti lepton pairs. Quarks and gluons seen as jets, and charged leptons as single tracks neutrino-anti neutrino pairs are NOT observed However, the number of different neutrino species can be found from the re ...

Part I: Understanding String Theory

... The above Maxwell equations are written in their differential form in the absence of any magnetic or polarizable medium. As can be seen explicitly in equations 4, there is a relation between a change of a magnetic field B over time and the curl of an electric field E, implying that both fields are p ...

pdf book - Lowndes County Historical Society Museum

... a 'knower' ... (arif) ... Perfect man ... can, if he likes, affect any object by ... concentrating all his spiritual energy upon it; he can even bring into existence a thing which is not actually existent ... This extraordinary power is known as himmah, meaning a concentrated spiritual energy ... [a ...

NOT EVEN WRONG tells a fascinating and complex story about

... now this number is so large that I'm afraid I'm only able to remember and thank those who have been of help during the last few years while I've been writing this book and seeing it through to publication. Of important assistance have been string theorists and other stringfriendly physicists who hav ...

Photon and Graviton Mass Limits

... indeed, because graviton coupling to matter is so enormously weak. These are not the only differences. For electrodynamics, the history has been one of increasingly sensitive null experiments giving increasingly stringent constraints on a possible mass. Nevertheless, theories describing such a mass ...

Monday, Nov. 27, 2006 - UTA High Energy Physics page.

... Standard Model Elementary Particle Table • Assumes the following fundamental structure: ...

Future of Hadron Physics

... Light quarks & Confinement  In the study of hadrons, attention should turn from potential models toward the continuum bound-state problem in quantum field theory  Such approaches offer the possibility of posing simultaneously the questions – What is confinement? – What is dynamical chiral symmetr ...

Lecture 10 - @let@token Neutrino physics I

... net-lepton number L is generated I ...

the periodic waveguided multiverse design

... Attempts at building the 5D-general theory of electricity and gravity--------------------------------------------------6 Planckian-Einsteinian roots of the periodic waveguided Multiverse-concept----------------------------------------7 Periodic 3D-waveguide’s concept of the global 4D-hyperspace----- ...

Invitation to Elementary Particles

... the quantum laws. How does it happen? Well, the macroscopic objects consist of the huge multitude of bound together tiny particles each obeying the strange quantum laws. We believe that in the systems of the large numbers of interacting particles the microscopic quantum phenomena get “averaged out”. ...

NUFACT11-Blondel-goals-of-the-workshop

... 8. Target handling for Multi MW targets ? 9. Proposed target systems are many, convergence ? 10. Material property evolution with time (from radiation, strain & stress and temperature)? 3. NF Target in SC solenoid Does energy deposition pose problem for presently proposed proton drivers? 14. How ser ...

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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