ppt - NICADD
... common goal – to solve the most fundamental mysteries of nature. • It is a truly INTERNATIONAL effort. • We are living through a revolution in our understanding of the Universe on both the smallest and the largest scales. • The next decade or two will usher us into a new era of ...
... common goal – to solve the most fundamental mysteries of nature. • It is a truly INTERNATIONAL effort. • We are living through a revolution in our understanding of the Universe on both the smallest and the largest scales. • The next decade or two will usher us into a new era of ...
Linear Collider - University of Victoria
... focus on one of the many issues that a linear collider can provide further understanding: the origin of mass Dean Karlen / Carleton University ...
... focus on one of the many issues that a linear collider can provide further understanding: the origin of mass Dean Karlen / Carleton University ...
Report - Jefferson Lab
... experimental facility with new capabilities and much greater technical reach than has heretofore been possible. The PAC held an extended meeting on January 17-22, 2003 with an enlarged membership to respond to this charge. The agenda (Appendix C) included extended discussions with the JLab User comm ...
... experimental facility with new capabilities and much greater technical reach than has heretofore been possible. The PAC held an extended meeting on January 17-22, 2003 with an enlarged membership to respond to this charge. The agenda (Appendix C) included extended discussions with the JLab User comm ...
Study of direct photon polarization to shed on strong magnetic field
... magnetic field can reach beyond the critical field and interesting phenomena such as Chiral magnetic effects and non-linear QED effects can appear in such a strong field. Second, quark-gluon plasma (QGP) is expected to be created in a strong magnetic field thus the evolution of the plasma may have an effec ...
... magnetic field can reach beyond the critical field and interesting phenomena such as Chiral magnetic effects and non-linear QED effects can appear in such a strong field. Second, quark-gluon plasma (QGP) is expected to be created in a strong magnetic field thus the evolution of the plasma may have an effec ...
Color Strings
... The general formulation of the percolation problem is concerned with elementary geometrical objects placed at random in a d-dimensional lattice. The objects have a well defined connectivity radius λ, and two objects are said to communicate if the distance between them is less than λ. One is interest ...
... The general formulation of the percolation problem is concerned with elementary geometrical objects placed at random in a d-dimensional lattice. The objects have a well defined connectivity radius λ, and two objects are said to communicate if the distance between them is less than λ. One is interest ...
Strongly Focused He+ Beam Source for Alpha Particle
... and velocity distributions of the alpha particles in the core plasma have been proposed. One of the most promising methods is based upon the double-charge-exchange reaction of a fusion produced alpha particle in the core plasma. Fusion produced alphas capturing two electrons escape from the plasma. ...
... and velocity distributions of the alpha particles in the core plasma have been proposed. One of the most promising methods is based upon the double-charge-exchange reaction of a fusion produced alpha particle in the core plasma. Fusion produced alphas capturing two electrons escape from the plasma. ...
Document
... Strength of phase transition (Higgs Many-body EDMs: Engel,Flambaum, sector) •Bubble dynamics (expansion rate) ...
... Strength of phase transition (Higgs Many-body EDMs: Engel,Flambaum, sector) •Bubble dynamics (expansion rate) ...
BettoniPANDASpectroscopy
... be studied by analyzing their various decay modes e.g. , , K, SK, ... • baryons can also be studied, but cross sections lower by approximately two orders of magnitude. ...
... be studied by analyzing their various decay modes e.g. , , K, SK, ... • baryons can also be studied, but cross sections lower by approximately two orders of magnitude. ...
Exploring the fundamental properties of matter with
... rate a proton and the closer it getsT to the speed of light, the longer are the gluons that arise from the quantum fluctuations. An outside “observer” Confined Spatial moving proton would see the cascading of gluons last longer and longer the motion distribution city of the proton. So, in effect, by ...
... rate a proton and the closer it getsT to the speed of light, the longer are the gluons that arise from the quantum fluctuations. An outside “observer” Confined Spatial moving proton would see the cascading of gluons last longer and longer the motion distribution city of the proton. So, in effect, by ...
Particle Physics 2011
... “Matter and Technologies” in the upcoming third Helmholtz framework funding period (2015–2019) has been of highest relevance for DESY. A unique event that DESY hosted in May 2011 was the international symposium “Solar Energy for Science” under the auspices of UNESCO. International key authorities fr ...
... “Matter and Technologies” in the upcoming third Helmholtz framework funding period (2015–2019) has been of highest relevance for DESY. A unique event that DESY hosted in May 2011 was the international symposium “Solar Energy for Science” under the auspices of UNESCO. International key authorities fr ...
71_1.PDF
... are producing gradients in the region of 100 MeV/m (with peak fields possibly reaching several times this number). While at first glance this number seems to be much less interesting than the 100 GeV/m shown in the laser wakefield experments, this mostly has to do with the added expense and complexi ...
... are producing gradients in the region of 100 MeV/m (with peak fields possibly reaching several times this number). While at first glance this number seems to be much less interesting than the 100 GeV/m shown in the laser wakefield experments, this mostly has to do with the added expense and complexi ...
PowerPoint Presentation - Gravity on quantized space-times
... Note that the Standard Model Higgs boson is a particular and the simplest case of more general Higgs mechanism. Non-Standard Model properties of the resonance will indicate that more field are involved in the electroweak symmetry breaking or/and it is realised in a different way ...
... Note that the Standard Model Higgs boson is a particular and the simplest case of more general Higgs mechanism. Non-Standard Model properties of the resonance will indicate that more field are involved in the electroweak symmetry breaking or/and it is realised in a different way ...
Strong coupling QCD
... theoretical physics.” “EMPTY space may really be empty. Though quantum theory suggests that a ...
... theoretical physics.” “EMPTY space may really be empty. Though quantum theory suggests that a ...
EDG Report - Particle Physics Department (PPD)
... • Releases are only once every 2 months or more except for security updates. • Upgrades have been smooth, e.g. Cavendish and Imperial upgraded silently in a day or two. • Default VOs are Alice, Atlas, LHCb, CMS and DTeam. – Adding extra VOs is fine, e.g. RAL has support for BaBar and DZero. Steve Tr ...
... • Releases are only once every 2 months or more except for security updates. • Upgrades have been smooth, e.g. Cavendish and Imperial upgraded silently in a day or two. • Default VOs are Alice, Atlas, LHCb, CMS and DTeam. – Adding extra VOs is fine, e.g. RAL has support for BaBar and DZero. Steve Tr ...
Large Hadron Collider
The Large Hadron Collider (LHC) is the world's largest and most powerful particle collider, the largest, most complex experimental facility ever built, and the largest single machine in the world. It was built by the European Organization for Nuclear Research (CERN) between 1998 and 2008 in collaboration with over 10,000 scientists and engineers from over 100 countries, as well as hundreds of universities and laboratories. It lies in a tunnel 27 kilometres (17 mi) in circumference, as deep as 175 metres (574 ft) beneath the France–Switzerland border near Geneva, Switzerland. Its first research run took place from 30 March 2010 to 13 February 2013 at an initial energy of 3.5 teraelectronvolts (TeV) per beam (7 TeV total), almost 4 times more than the previous world record for a collider, rising to 4 TeV per beam (8 TeV total) from 2012. On 13 February 2013 the LHC's first run officially ended, and it was shut down for planned upgrades. 'Test' collisions restarted in the upgraded collider on 5 April 2015, reaching 6.5 TeV per beam on 20 May 2015 (13 TeV total, the current world record for particle collisions). Its second research run commenced on schedule, on 3 June 2015.The LHC's aim is to allow physicists to test the predictions of different theories of particle physics, high-energy physics and in particular, to prove or disprove the existence of the theorized Higgs boson and the large family of new particles predicted by supersymmetric theories, and other unsolved questions of physics, advancing human understanding of physical laws. It contains seven detectors, each designed for certain kinds of research. The proton-proton collision is the primary operation method, but the LHC has also collided protons with lead nuclei for two months in 2013 and used lead–lead collisions for about one month each in 2010, 2011, and 2013 for other investigations. The LHC's computing grid was (and currently is) a world record holder. Data from collisions was anticipated to be produced at an unprecedented rate for the time, of tens of petabytes per year, a major challenge at the time, to be analysed by a grid-based computer network infrastructure connecting 140 computing centers in 35 countries – by 2012 the Worldwide LHC Computing Grid was also the world's largest distributed computing grid, comprising over 170 computing facilities in a worldwide network across 36 countries.