87,051 research outputs found

    Poincare submersions

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    We prove two kinds of fibering theorems for maps X --> P, where X and P are Poincare spaces. The special case of P = S^1 yields a Poincare duality analogue of the fibering theorem of Browder and Levine.Comment: Published by Algebraic and Geometric Topology at http://www.maths.warwick.ac.uk/agt/AGTVol5/agt-5-2.abs.html Version 5: Statement of Theorem B corrected, see footnote p2

    What's happening to Britain's National Health Service?

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    Electrodynamics at the Highest Energies

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    At very high energies, the bremsstrahlung and pair production cross sections exhibit complex behavior due to the material in which the interactions occur. The cross sections in dense media can be dramatically different than for isolated atoms. This writeup discusses these in-medium effects, emphasizing how the cross section has different energy and target density dependencies in different regimes. Data from SLAC experiment E-146 will be presented to confirm the energy and density scaling. Finally, QCD analogs of the electrodynamics effects will be discussed.Comment: 10 pages with 7 figures. Invited talk presented at the Workshop on Electromagnetic Probes of Fundamental Physics, Oct. 16-21, 2001, Erice, Ital

    Localized Beampipe Heating due to ee^- Capture and Nuclear Excitation in Heavy Ion Colliders

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    At heavy ion colliders, two major sources of beam loss are expected to be e+ee^+e^- production, where the ee^- is bound to one of the nuclei, and photonuclear excitation and decay via neutron emission. Both processes alter the ions charged to mass ratio by well defined amounts, creating beams of particles with altered magnetic rigidity. These beams will deposit their energy in a localized region of the accelerator, causing localized heating, The size of the target region depends on the collider optics. For medium and heavy ions, at design luminosity at the Large Hadron Collider, local heating may be more than an order of magnitude higher than expected. This could cause magnet quenches if the local cooling is inadequate. The altered-rigidity beams will also produce localized radiation damage. The beams could also be extracted and used for fixed target experiments.Comment: Numerical Error fixed; to appear in NIM. 15 pages, no figure

    ARIANNA: A radio detector array for cosmic neutrinos on the Ross Ice Shelf

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    ARIANNA (The Antarctic Ross Ice Shelf Antenna Neutrino Array) is a proposed 100 km^3 detector for ultra-high energy (above 10^17 eV) astrophysical neutrinos. It will study the origins of ultra-high energy cosmic rays by searching for the neutrinos produced when these cosmic rays interact with the cosmic microwave background. Over 900 independently operating stations will detect the coherent radio Cherenkov emission produced when astrophysical neutrinos with energy above 10^17 eV interact in the Antarctic Ross Ice Shelf. Each station will use 8 log periodic dipole antennas to look for short RF pulses, with the most important frequencies between 80 MHz and 1 GHz. By measuring the pulse polarization and frequency spectrum, the neutrino arrival direction can be determined. In one year of operation, the full array should observe a clear GZK neutrino signal, with different models predicting between 3 and 51 events, depending on the nuclear composition of the cosmic-rays and on the cosmic evolution of their sources.Comment: 8 pages, presented at SORMA12. Many small improvements, per referee comment

    The Return of Federal Judicial Discretion in Criminal Sentencing

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    Ultra-peripheral collisions and hadronic structure

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    Ultra-peripheral collisions are the energy frontier for photon-mediated interactions, reaching, at the Large Hadron Collider (LHC), γp\gamma-p center of mass energies five to ten times higher than at HERA and reaching γγ\gamma\gamma energies higher than at LEP. Photoproduction of heavy quarkonium and dijets in pppp and pApA collisions probes the gluon distribution in protons at Bjorken-xx values down to 3×1063\times10^{-6}, far smaller than can be otherwise studied. In AAAA collisions, these reactions probe the gluon distributions in heavy ions, down to xx values of a few 10510^{-5}. Although more theoretical work is needed to nail down all of the uncertainties, inclusion of these data in current parton distribution function fits would greatly improve the accuracy of the gluon distributions at low Bjorken-xx and low/moderate Q2Q^2. High-statistics ρ0\rho^0 data probe the spatial distribution of the interaction sites; the site distribution is given by the Fourier transform of dσ/dtd\sigma/dt. After introducing UPCs, this review presents recent measurements of dilepton production and light-by-light scattering and recent data on proton and heavy nuclei structure, emphasizing results presented at Quark Matter 2017 (QM2017).Comment: 8 pages, present at Quark Matter 2017 Final version, w/ 1 replaced figure and a few new reference
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