June_Yong_Yang
... My work was to model the propagation of light inside an optical fiber, which is used in a tagger microscope. The tagger microscope is a crucial part of the GlueX experiment apparatus. ...
... My work was to model the propagation of light inside an optical fiber, which is used in a tagger microscope. The tagger microscope is a crucial part of the GlueX experiment apparatus. ...
E1344: Oscillations between a site and a ring
... A given ring with length L = 1 has N sites, which have equal potential (V = 0). The hopping amplitude of a particle per time unit between neighbouring sites is c. Another site is added at the center of the ring. The relation energy of the particle in the central site is ε0 . The hopping amplitude pe ...
... A given ring with length L = 1 has N sites, which have equal potential (V = 0). The hopping amplitude of a particle per time unit between neighbouring sites is c. Another site is added at the center of the ring. The relation energy of the particle in the central site is ε0 . The hopping amplitude pe ...
Studentship2011
... and graduate lectures, an annual workshop and a final graduate conference. 6. Students with Mayflower funding are required to make a significant contribution to the teaching programme of the School, in this case for the two years spent in Southampton. Specifically they will be required to do up to 3 ...
... and graduate lectures, an annual workshop and a final graduate conference. 6. Students with Mayflower funding are required to make a significant contribution to the teaching programme of the School, in this case for the two years spent in Southampton. Specifically they will be required to do up to 3 ...
CHAPTER 3: The Experimental Basis of Quantum
... A positron passing through matter will likely annihilate with an electron. The electron and positron can form an atom-like configuration first, called positronium. Pair annihilation in empty space produces two photons to conserve momentum. Annihilation near a nucleus can result in a single photon. ...
... A positron passing through matter will likely annihilate with an electron. The electron and positron can form an atom-like configuration first, called positronium. Pair annihilation in empty space produces two photons to conserve momentum. Annihilation near a nucleus can result in a single photon. ...
Special Issue on Neutrino Research
... half-integer spin. All evidence suggests that neutrinos have mass but that their mass is tiny even by the standards of subatomic particles. Their mass has never been measured accurately. Neutrinos do not carry electric charge, which means that they are not affected by the electromagnetic forces that ...
... half-integer spin. All evidence suggests that neutrinos have mass but that their mass is tiny even by the standards of subatomic particles. Their mass has never been measured accurately. Neutrinos do not carry electric charge, which means that they are not affected by the electromagnetic forces that ...
2010 Q10 - Loreto Balbriggan
... (iii) A member of a meson family consists of two particles. Each particle is composed of up and down quarks and their anti-particles. Construct the possible combinations. Deduce the charge of each combination and identify each combination. What famous Irish writer first thought up the name ‘quark’? ...
... (iii) A member of a meson family consists of two particles. Each particle is composed of up and down quarks and their anti-particles. Construct the possible combinations. Deduce the charge of each combination and identify each combination. What famous Irish writer first thought up the name ‘quark’? ...
ppt - HEP Educational Outreach
... a deeper appreciation of the machinery of modern science Build inquiry-based learning environment … researchers build knowledge through inquiry, discussion, collaboration ...
... a deeper appreciation of the machinery of modern science Build inquiry-based learning environment … researchers build knowledge through inquiry, discussion, collaboration ...
Curriculum Vitae - Department of Physics, Panjab University
... ● XXVIII International Conference on High Energy Physics, 1996, Warsaw, Poland. ...
... ● XXVIII International Conference on High Energy Physics, 1996, Warsaw, Poland. ...
Plain text version - FCC Week 2016
... FCC-ee scenario involves a lepton-lepton collider, reaching energies of up to 350 GeV for electronpositron collisions. The hadron-lepton collider (FCC-he) option is also considered under the FCC study. The construction of these machines relies on leapfrog advancements of key enabling technologies, w ...
... FCC-ee scenario involves a lepton-lepton collider, reaching energies of up to 350 GeV for electronpositron collisions. The hadron-lepton collider (FCC-he) option is also considered under the FCC study. The construction of these machines relies on leapfrog advancements of key enabling technologies, w ...
Modern Physics Homework
... What is the percentage increase in the mass of a proton accelerated to a kinetic energy of 500 MeV? ...
... What is the percentage increase in the mass of a proton accelerated to a kinetic energy of 500 MeV? ...
Fermium does not occur naturally in the Earth`s crust. It was first
... Fermium does not occur naturally in the Earth’s crust. It was first identified in December 1952 by American scientists from the Argonne National Laboratory near Chicago, Illinois, the Los Alamos National Laboratory in Los Alamos, New Mexico, and The University of California Laboratory in Berkeley, C ...
... Fermium does not occur naturally in the Earth’s crust. It was first identified in December 1952 by American scientists from the Argonne National Laboratory near Chicago, Illinois, the Los Alamos National Laboratory in Los Alamos, New Mexico, and The University of California Laboratory in Berkeley, C ...
Adobe Acrobat file ()
... energy. Because the kinetic energy is the only type of energy an isolated particle can have, and we have argued that the particles have different energies, Equation 27.15 tells us that the particles do not have the same frequency. ...
... energy. Because the kinetic energy is the only type of energy an isolated particle can have, and we have argued that the particles have different energies, Equation 27.15 tells us that the particles do not have the same frequency. ...
#NSLive Mysteries of matter: What the LHC will discover next
... The LHC at CERN currently produces the highest energies we can create in lab conditions “Stable beams” for run 2: June 3rd, 2015 Collision Energy: 13 Tera-eV (~ 1 million times higher than nuclear fusion) ...
... The LHC at CERN currently produces the highest energies we can create in lab conditions “Stable beams” for run 2: June 3rd, 2015 Collision Energy: 13 Tera-eV (~ 1 million times higher than nuclear fusion) ...
History of Particle Physics
... What other forces exist? Why is the proton mass 1800x the electron mass? Where does mass come from? ...
... What other forces exist? Why is the proton mass 1800x the electron mass? Where does mass come from? ...
Lecture 1
... 1924 de Broglie proposes that matter has wave properties. 1925 Pauli formulates the exclusion principle for electrons in an atom. Bothe and Geiger demonstrate that energy and mass are conserved in atomic processes. 1926 Schroedinger develops wave mechanics, which describes the behavior of quantum sy ...
... 1924 de Broglie proposes that matter has wave properties. 1925 Pauli formulates the exclusion principle for electrons in an atom. Bothe and Geiger demonstrate that energy and mass are conserved in atomic processes. 1926 Schroedinger develops wave mechanics, which describes the behavior of quantum sy ...
DESY
The Deutsches Elektronen-Synchrotron (english German Electron Synchrotron) commonly referred to by the abbreviation DESY, is a national research center in Germany that operates particle accelerators used to investigate the structure of matter. It conducts a broad spectrum of inter-disciplinary scientific research in three main areas: particle and high energy physics; photon science; and the development, construction and operation of particle accelerators. Its name refers to its first project, an electron synchrotron. DESY is publicly financed by the Federal Republic of Germany, the States of Germany, and the German Research Foundation (DFG). DESY is a member of the Helmholtz Association and operates at sites in Hamburg and Zeuthen.