Curriculum Vitae Contact Prof. Sebastiano Albergo Department of
... Prizes and awards 1989 – Italian Physical Society – Young Scientist Prize Research Interests Particle Detectors, Standard Model and Beyond Standard Model Physics Publications Summary About four hundreds papers Selected Positions • Member of the Experimental-Particle-Physics National Committee of INF ...
... Prizes and awards 1989 – Italian Physical Society – Young Scientist Prize Research Interests Particle Detectors, Standard Model and Beyond Standard Model Physics Publications Summary About four hundreds papers Selected Positions • Member of the Experimental-Particle-Physics National Committee of INF ...
Lecture notes
... Summary of Physics Beyond the Standard Model • There are many ideas for scenarios with new physics! Most of our thinking has been guided by the hierarchy problem • They must obey the symmetries of the SM • They are testable at the LHC • We are as ready for the LHC as we will ever be • The most like ...
... Summary of Physics Beyond the Standard Model • There are many ideas for scenarios with new physics! Most of our thinking has been guided by the hierarchy problem • They must obey the symmetries of the SM • They are testable at the LHC • We are as ready for the LHC as we will ever be • The most like ...
264-0-0-0-0-Chihwei Yeh- CfP SiP 2017
... I am a sociologist who has been observing and participating in the science communication for particle physics since the discovery of the Higgs boson. From my experience as an audience, particle physicists’ messages in cross-boundary settings have at least these characteristics: lack of information, ...
... I am a sociologist who has been observing and participating in the science communication for particle physics since the discovery of the Higgs boson. From my experience as an audience, particle physicists’ messages in cross-boundary settings have at least these characteristics: lack of information, ...
In search of symmetry lost
... Harmony between mind and matter, in the form of mathematical abstractions conjuring up sensuous reality, has long figured in the dreams of mystics and the inspiration of visionaries — the ‘music of the spheres’. Here it is realized in a form that is genuine, reproducible and precise. Now we are face ...
... Harmony between mind and matter, in the form of mathematical abstractions conjuring up sensuous reality, has long figured in the dreams of mystics and the inspiration of visionaries — the ‘music of the spheres’. Here it is realized in a form that is genuine, reproducible and precise. Now we are face ...
Discovery of the Higgs Particle
... energy, E=mc2, needed to produce a new particle of mass m, to the kinetic energy of an electron accelerated through an electric potential of a billion volts. In this manner of speaking, the mass of a proton is about one GeV.) But any mass lighter than this could have worked. Moreover, there could be ...
... energy, E=mc2, needed to produce a new particle of mass m, to the kinetic energy of an electron accelerated through an electric potential of a billion volts. In this manner of speaking, the mass of a proton is about one GeV.) But any mass lighter than this could have worked. Moreover, there could be ...
Screen-Based Graphic Design: Tips for non
... – Head-on collisions between protons at energies ~20TeV are required to produce a Higgs Boson.Such energies can only be achieved by particle accelerators like the Large Hadron Collider at CERN – The Higgs Boson was found in July 2012 at CERN with a rest mass ~ 126 GeV/c2 ...
... – Head-on collisions between protons at energies ~20TeV are required to produce a Higgs Boson.Such energies can only be achieved by particle accelerators like the Large Hadron Collider at CERN – The Higgs Boson was found in July 2012 at CERN with a rest mass ~ 126 GeV/c2 ...
Option 212: UNIT 2 Elementary Particles - X
... – Head-on collisions between protons at energies ~20TeV are required to produce a Higgs Boson.Such energies can only be achieved by particle accelerators like the Large Hadron Collider at CERN – The Higgs Boson was found in July 2012 at CERN with a rest mass ~ 126 GeV/c2 ...
... – Head-on collisions between protons at energies ~20TeV are required to produce a Higgs Boson.Such energies can only be achieved by particle accelerators like the Large Hadron Collider at CERN – The Higgs Boson was found in July 2012 at CERN with a rest mass ~ 126 GeV/c2 ...
The Standard Model of Particle Physics: An - LAPTh
... non-Abelian SU (2)L , which besides τ ± has also “a neutral” generator τ 3 . There will therefore be 3 compensating gauge fields: Wµ± , Wµ3 . SU (2)L symmetry predicts the coupling of W 3 : ĒL γµ Wµ3 τ 3 EL = ν̄e γµ Wµ3 νe − ēL γµ Wµ3 eL . Unfortunately this neutral current does not correspond to ...
... non-Abelian SU (2)L , which besides τ ± has also “a neutral” generator τ 3 . There will therefore be 3 compensating gauge fields: Wµ± , Wµ3 . SU (2)L symmetry predicts the coupling of W 3 : ĒL γµ Wµ3 τ 3 EL = ν̄e γµ Wµ3 νe − ēL γµ Wµ3 eL . Unfortunately this neutral current does not correspond to ...
neeman.pdf
... by that of the (homogeneous) Lorentz group, inverting the semi-direct product of the supergroup’s construction sP 3,1 = SL(2, C) × [R(1, 3)(+)S(1, 3)]. The rules of the game were clarified by L. Corwin, Y. Ne’eman and S. Sternberg [6], who also explored the field and collected examples – and by P.G.O. ...
... by that of the (homogeneous) Lorentz group, inverting the semi-direct product of the supergroup’s construction sP 3,1 = SL(2, C) × [R(1, 3)(+)S(1, 3)]. The rules of the game were clarified by L. Corwin, Y. Ne’eman and S. Sternberg [6], who also explored the field and collected examples – and by P.G.O. ...
No Slide Title
... •We introduced the same interaction term moments ago following electrodynamic arguments (Jackson) • the form of the current density is correctly reproduced •the transformation rule ...
... •We introduced the same interaction term moments ago following electrodynamic arguments (Jackson) • the form of the current density is correctly reproduced •the transformation rule ...
here - islam-science.net
... The Muon System detects muons, which is a one of CMS's key tasks. Muons are charged particles that are just like electrons and positrons but 200 times heavier. The detection of such particles is important because scientists expect muons to be produced in the decay of potential new particles like th ...
... The Muon System detects muons, which is a one of CMS's key tasks. Muons are charged particles that are just like electrons and positrons but 200 times heavier. The detection of such particles is important because scientists expect muons to be produced in the decay of potential new particles like th ...
Basic Constituents of Matter and their Interactions
... Our concept of the basic constituents of matter has undergone two revolutionary changes during this century. The first was the Rutherford scattering experiment of 1911, bombarding α particles on the Gold atom. While most of them passed through straight, occasionally a few were deflected at very larg ...
... Our concept of the basic constituents of matter has undergone two revolutionary changes during this century. The first was the Rutherford scattering experiment of 1911, bombarding α particles on the Gold atom. While most of them passed through straight, occasionally a few were deflected at very larg ...
arXiv:1501.01596v1 [cond-mat.mtrl-sci] 3 Jan 2015
... thickness of the working gas volume, but a thick ...
... thickness of the working gas volume, but a thick ...
Randall-Sundrum graviton spin determination using azimuthal
... Longitudinal modes of the W,Z gauge bosons are the pseudo-goldstone bosons of chiral symmetry breaking i.e. the pions π - π scattering is unitarized through exchange of heavy resonances such at the ρ Resonance might be very broad / No visible peak in the W-Z invariant mass plot ...
... Longitudinal modes of the W,Z gauge bosons are the pseudo-goldstone bosons of chiral symmetry breaking i.e. the pions π - π scattering is unitarized through exchange of heavy resonances such at the ρ Resonance might be very broad / No visible peak in the W-Z invariant mass plot ...
MINERVA Teacher`s Manual - HST
... (electron, muon, tauon, and their corresponding neutrinos). The defining property of the quarks is that they carry color charge, and hence, interact via the strong force. The infrared confining behavior of the strong force results in quarks being perpetually (or at least since very soon after the st ...
... (electron, muon, tauon, and their corresponding neutrinos). The defining property of the quarks is that they carry color charge, and hence, interact via the strong force. The infrared confining behavior of the strong force results in quarks being perpetually (or at least since very soon after the st ...
Common problem against B and L genesis and its possible resolution
... mX O[0.01] mpl 10 GeV ...
... mX O[0.01] mpl 10 GeV ...
PARTICLE PHYSICS
... How do we know there are quarks inside the nucleons? Ans: We can do electron-quark “scattering” and see (e.g. at the HERA electron-proton collider) ...
... How do we know there are quarks inside the nucleons? Ans: We can do electron-quark “scattering” and see (e.g. at the HERA electron-proton collider) ...
Intro to particle physics 1. Particles, Fields
... So far we have used the group U(1) for QED:Every symmetry is described as a "group" The mathematics for symmetry is called Group Theory. Here, we need to use Lie Groups like U(1), SU(2), SU(3)… Electroweak and strong interactions (Quantum chromodynamics) involve SU(2) and SU(3). Hypothetical "grand ...
... So far we have used the group U(1) for QED:Every symmetry is described as a "group" The mathematics for symmetry is called Group Theory. Here, we need to use Lie Groups like U(1), SU(2), SU(3)… Electroweak and strong interactions (Quantum chromodynamics) involve SU(2) and SU(3). Hypothetical "grand ...
Machine Learning Techniques to Identify Higgs Boson Events from
... The discovery of the Higgs Boson, the theorized particle that gives all other particles mass, was announced by CERN physicists on July 4th, 2012. 1,2The existence of the Higgs particle (the quantum excitation of the Higgs field) had been hypothesized since the 1960s, however, its large mass-125.09 G ...
... The discovery of the Higgs Boson, the theorized particle that gives all other particles mass, was announced by CERN physicists on July 4th, 2012. 1,2The existence of the Higgs particle (the quantum excitation of the Higgs field) had been hypothesized since the 1960s, however, its large mass-125.09 G ...
Standard Model
... non-zero amplitude in its ground state. The field can be pictured as a pool of molasses where Higgs bosons "stick" to the otherwise massless fundamental particles that travel through the field, converting them into particles with mass that form the components of atoms. As of December 2011, the Higgs ...
... non-zero amplitude in its ground state. The field can be pictured as a pool of molasses where Higgs bosons "stick" to the otherwise massless fundamental particles that travel through the field, converting them into particles with mass that form the components of atoms. As of December 2011, the Higgs ...
PARTICLE PHYSICS - STFC home | Science & Technology
... How do we know there are quarks inside the nucleons? Ans: We can do electron-quark “scattering” and see (e.g. at the HERA electron-proton collider) ...
... How do we know there are quarks inside the nucleons? Ans: We can do electron-quark “scattering” and see (e.g. at the HERA electron-proton collider) ...
UIC Colloquium on CMS - University of Colorado Boulder
... Charged leptons like electrons and muons are easy to see as they can interact via the electromagnetic force. Quarks interact via the strong force which prevent quarks from being observed. Quarks are always confined inside hadrons. Hadrons are divided into baryons and mesons: Baryons contain 3 quarks ...
... Charged leptons like electrons and muons are easy to see as they can interact via the electromagnetic force. Quarks interact via the strong force which prevent quarks from being observed. Quarks are always confined inside hadrons. Hadrons are divided into baryons and mesons: Baryons contain 3 quarks ...
Higgs in SUSY - IIT Guwahati
... Couplings to WW, ZZ and γγ are as expected in SM. Couplings are proportional to Masses as predicted by Higgs mechanism. Hence, it is a “125 GeV Boson/new state”…. ...
... Couplings to WW, ZZ and γγ are as expected in SM. Couplings are proportional to Masses as predicted by Higgs mechanism. Hence, it is a “125 GeV Boson/new state”…. ...