Your search keyword '"Robert Plunkett"' showing total 70 results

1. Accelerator/Experiment Operations - FY 2013

Author

Kevin McFarland and Robert Plunkett

Published

2014

2. Fundamental physics at the intensity frontier. Report of the workshop held December 2011 in Rockville, MD

Author

Thomas E Browder, William Louis, Richard Hill, Carl Albright, Sheldon Stone, Carlos Argüelles-Delgado, Ranjan Dharmapalan, Neal Weiner, Mayly Sanchez, Monika Blanke, Andrew Norman, William Wester, Wolfgang Lorenzon, Charles Lane, Paul Reimer, Lucio Ludovici, Petr Vogel, Teppei Katori, Ahmed Rashed, Carsten Rott, David Schmitz, Joachim Kopp, Susan Blessing, Ryan Patterson, Pavel Fileviez Perez, Andreas Kronfeld, Jonathan Link, Benjamin Jones, Krishna Kumar, David McKeen, Subir Sarkar, Radovan Dermisek, Brian Rebel, Philip Tanedo, Pedro Machado, Roy A. Briere, Joshua Spitz, Gavin Davies, Masashi Yokoyama, Cecilia Lunardini, Stephen Parke, Jian Tang, Nigel Smith, Tatsu Takeuchi, Kevin McFarland, Vladimir Shiltsev, Jennifer Raaf, Alexandre Sousa, Glenn Horton-Smith, Igor García Irastorza, Christopher Tunnell, Robert Group, Natalia Toro, Martin J. Frank, Mark Wise, Pilar Coloma, Rouven Essig, Robert Plunkett, Jure Zupan, David Tanner, Robert Wilson, Karsten Heeger, and Paul Langacker

Subjects

Quark, Physics, Hidden sector, Particle physics, High energy particle, Physics beyond the Standard Model, Dark matter, Dark energy, CP violation, Grand Unified Theory

Abstract

Particle physics aims to understand the universe around us. The Standard Model of particle physics describes the basic structure of matter and forces, to the extent we have been able to probe thus far. However, it leaves some big questions unanswered. Some are within the Standard Model itself, such as why there are so many fundamental particles and why they have different masses. In other cases, the Standard Model simply fails to explain some phenomena, such as the observed matter-antimatter asymmetry in the universe, the existence of dark matter and dark energy, and the mechanism that reconciles gravity with quantum mechanics. These gaps lead us to conclude that the universe must contain new and unexplored elements of Nature. Most of particle and nuclear physics is directed towards discovering and understanding these new laws of physics. These questions are best pursued with a variety of approaches, rather than with a single experiment or technique. Particle physics uses three basic approaches, often characterized as exploration along the cosmic, energy, and intensity frontiers. Each employs different tools and techniques, but they ultimately address the same fundamental questions. This allows a multi-pronged approach where attacking basic questions from different angles furthers knowledge and providesmore » deeper answers, so that the whole is more than a sum of the parts. A coherent picture or underlying theoretical model can more easily emerge, to be proven correct or not. The intensity frontier explores fundamental physics with intense sources and ultra-sensitive, sometimes massive detectors. It encompasses searches for extremely rare processes and for tiny deviations from Standard Model expectations. Intensity frontier experiments use precision measurements to probe quantum effects. They typically investigate very large energy scales, even higher than the kinematic reach of high energy particle accelerators. The science addresses basic questions, such as: Are there new sources of CP violation? Is there CP violation in the leptonic sector? Are neutrinos their own antiparticles? Do the forces unify? Is there a weakly coupled hidden sector that is related to dark matter? Do new symmetries exist at very high energy scales? To identify the most compelling science opportunities in this area, the workshop Fundamental Physics at the Intensity Frontier was held in December 2011, sponsored by the Office of High Energy Physics in the US Department of Energy Office of Science. Participants investigated the most promising experiments to exploit these opportunities and described the knowledge that can be gained from such a program. The workshop generated much interest in the community, as witnessed by the large and energetic participation by a broad spectrum of scientists. This document chronicles the activities of the workshop, with contributions by more than 450 authors. The workshop organized the intensity frontier science program along six topics that formed the basis for working groups: experiments that probe (i) heavy quarks, (ii) charged leptons, (iii) neutrinos, (iv) proton decay, (v) light, weakly interacting particles, and (vi) nucleons, nuclei, and atoms. The conveners for each working group included an experimenter and a theorist working in the field and an observer from the community at large. The working groups began their efforts well in advance of the workshop, holding regular meetings and soliciting written contributions. Specific avenues of exploration were identified by each working group. Experiments that study rare strange, charm, and bottom meson decays provide a broad program of measurements that are sensitive to new interactions. Charged leptons, particularly muons and taus, provide a precise probe for new physics because the Standard Model predictions for their properties are very accurate. Research at the intensity frontier can reveal CP violation in the lepton sector, and elucidate whether neutrinos are their own antiparticles. A very weakly coupled hidden-sector that may comprise the dark matter in the universe could be discovered. The search for proton decay can probe the unification of the forces with unprecedented reach and test sacrosanct symmetries to very high scales. Detecting an electric dipole moment for the neutron, or neutral atoms, could establish a clear signal for new physics, while limits on such a measurement would place severe constraints on many new theories. This workshop marked the first instance where discussion of these diverse programs was held under one roof. As a result, it was realized that this broad effort has many connections; a large degree of synergy exists between the different areas and they address similar questions. Results from one area were found to be pertinent to experiments in another domain.« less

Published

2012

3. Overview of the LBNE Neutrino Beam

Author

Moore, C. D., He, Yun, Hurh, Patrick, Hylen, James, Lundberg, Byron, Mcgee, Mike, Misek, Joel, Mokhov, Nikolai V., Papadimitriou, Vaia, Robert Plunkett, Schultz, Ryan, Velev, Gueorgui, Williams, Karlton, and Zwaska, Robert Miles

Subjects

Accelerator Physics (physics.acc-ph), Physics::Instrumentation and Detectors, High Energy Physics::Phenomenology, Physics::Accelerator Physics, FOS: Physical sciences, Physics - Accelerator Physics, High Energy Physics::Experiment

Abstract

The Long Baseline Neutrino Experiment (LBNE) will utilize a neutrino beamline facility located at Fermilab. The facility is designed to aim a beam of neutrinos toward a detector placed at the Deep Underground Science and Engineering Laboratory (DUSEL) in South Dakota. The neutrinos are produced in a three-step process. First, protons from the Main Injector hit a solid target and produce mesons. Then, the charged mesons are focused by a set of focusing horns into the decay pipe, towards the far detector. Finally, the mesons that enter the decay pipe decay into neutrinos. The parameters of the facility were determined by an amalgam of the physics goals, the Monte Carlo modeling of the facility, and the experience gained by operating the NuMI facility at Fermilab. The initial beam power is expected to be ~700 kW, however some of the parameters were chosen to be able to deal with a beam power of 2.3 MW., Comment: 3 pp. Particle Accelerator, 24th Conference (PAC'11) 2011. 28 Mar - 1 Apr 2011. New York, USA

Published

2012

4. Measurement of the bottom quark production cross section using semileptonic decay electrons inpp¯collisions at √s=1.8 TeV

Author

Marjorie Shapiro, William Wester, George Redlinger, Olivier Schneider, Paola Giannetti, James Mueller, Alan Fraser Sill, Rolland Johnson, Edward Kearns, Marco Incagli, Patrick Lukens, Aaron Roodman, Krzysztof Sliwa, and Robert Plunkett

Subjects

Physics, Semileptonic decay, Nuclear physics, Particle physics, Transverse momentum, General Physics and Astronomy, Production (computer science), Rapidity, B meson, Elementary particle, Electron, Bottom quark

Abstract

We present measurements of the bottom-quark production cross sections in pp\ifmmode\bar\else\textasciimacron\fi{} collisions at \ensuremath{\surd}s =1.8 TeV. From the inclusive electron production rate, we have determined the bottom-quark production cross sections to be 1010\ifmmode\pm\else\textpm\fi{}270, 168\ifmmode\pm\else\textpm\fi{}43, 37\ifmmode\pm\else\textpm\fi{}10 nb for the rapidity range of \ensuremath{\Vert}${\mathit{y}}^{\mathit{b}}$\ensuremath{\Vert}1.0 and the transverse momentum ranges of ${\mathit{p}}_{\mathit{T}}^{\mathit{b}}$g15, 23, 32 GeV/c, respectively. In addition, from the associated electron-${\mathit{D}}^{0}$ production rate, we have determined the bottom-quark cross section to be 364\ifmmode\pm\else\textpm\fi{}80(stat)\ifmmode\pm\else\textpm\fi{}95(syst) nb for \ensuremath{\Vert}${\mathit{y}}^{\mathit{b}}$\ensuremath{\Vert}1.0 and ${\mathit{p}}_{\mathit{T}}^{\mathit{b}}$g19 GeV/c.

Published

1993

5. Finite element analysis of progressive failure for laminated FRP plates with inplane loading

Author

Li-Ren Tsau and Robert Plunkett

Subjects

Materials science, Tension (physics), Structural mechanics, business.industry, Mechanical Engineering, Structural engineering, Fibre-reinforced plastic, Composite laminates, Finite element method, Mechanics of Materials, Catastrophic failure, Ultimate tensile strength, General Materials Science, Composite material, business, Stress concentration

Abstract

Composite materials can sustain a much higher load in inplane tension after the onset of local damage. The ultimate strength of composite laminates can be accurately predicted with finite element analysis if the proper increment is used in each step. An analysis of the appropriate nodal spacing both in the plane of the specimen and in the thickness direction has been made with particular attention to the problem of stress concentration at the free edges. The load for final catastrophic failure and the failure pattern in progressive failure both agree well with experimental results.

Published

1993

6. Statistical Analysis of Fatigue Data

Author

Robert Plunkett

Subjects

Computer science, Statistics, Statistical analysis

Published

2009

7. Damping Analysis: An Historical Perspective

Author

Robert Plunkett

Subjects

Materials science, Work (electrical), Engineering structures, Perspective (graphical), Mechanical engineering, Internal stress, Internal friction

Abstract

The history of damping measurement, analysis, and enhancement is examined mainly from an engineering viewpoint but with some reference to the contributions of materials science. The contributions from 1784 to 1920 were mostly by physicists and mathematicians. From 1920 to 1940 most of the pertinent work was done by application-oriented engineers. While materials scientists have used damping measurements as a microstructural research tool for almost 200 years, only recently have the basic principles of materials science been used to optimize the damping of engineering structures.

Published

2009

8. The NOvA Technical Design Report

Author

Manfred Lindner, Ronald Poling, Carl Albright, Mayly Sanchez, Andrew Norman, Aaron McGowan, Ryan Patterson, Leon Mualem, John Beacom, Brian Rebel, Stephen Parke, Gerald Guglielmo, Patrick Lukens, Daniel Broemmelsiek, Simona Murgia, and Robert Plunkett

Subjects

Physics, Upgrade, Work breakdown structure, Conceptual design, Neutrino detector, business.industry, Systems engineering, Electrical engineering, Nova (laser), Sensitivity (control systems), Fermilab, business, NuMI

Abstract

Technical Design Report (TDR) describes the preliminary design of the NOvA accelerator upgrades, NOvA detectors, detector halls and detector sites. Compared to the March 2006 and November 2006 NOvA Conceptual Design Reports (CDR), critical value engineering studies have been completed and the alternatives still active in the CDR have been narrowed to achieve a preliminary technical design ready for a Critical Decision 2 review. Many aspects of NOvA described this TDR are complete to a level far beyond a preliminary design. In particular, the access road to the NOvA Far Detector site in Minnesota has an advanced technical design at a level appropriate for a Critical Decision 3a review. Several components of the accelerator upgrade and new neutrino detectors also have advanced technical designs appropriate for a Critical Decision 3a review. Chapter 1 is an Executive Summary with a short description of the NOvA project. Chapter 2 describes how the Fermilab NuMI beam will provide a narrow band beam of neutrinos for NOvA. Chapter 3 gives an updated overview of the scientific basis for the NOvA experiment, focusing on the primary goal to extend the search for {nu}{sub {mu}} {yields} {nu}{sub e} oscillations and measure the sin{sup 2}(2{theta}{sub 13}) parameter. This parameter has not been measured in any previous experiment and NOvA would extend the search by about an order of magnitude beyond the current limit. A secondary goal is to measure the dominant mode oscillation parameters, sin{sup 2}(2{theta}{sub 23}) and {Delta}m{sub 32}{sup 2} to a more precise level than previous experiments. Additional physics goals for NOvA are also discussed. Chapter 4 describes the Scientific Design Criteria which the Fermilab accelerator complex, NOvA detectors and NOvA detector sites must satisfy to meet the physics goals discussed in Chapter 3. Chapter 5 is an overview of the NOvA project. The changes in the design relative to the NOvA CDR are discussed. Chapter 6 summarizes the NOvA design performance relative to the Design Criteria set out in Chapter 4. Chapter 7 presents the Work Breakdown Structure dictionary at Level 3 and the Milestone dictionary. Chapters 8 through 17 then take each Level 2 WBS element of the NOvA project and present each part of the design in more detail than the overview given in Chapter 5. Specific technical design criteria are delineated for each part of the project in addition to the scientific design criteria outlined in Chapter 4. Changes in the design since the NOvA CDR are discussed in detail. The work remaining to bring each part of this preliminary design to a final design is outlined. Appendix A is a guide to other NOvA Project documentation with links to those documents.

Published

2007

9. The MINOS Detectors (Technical Design Report)

Author

Mayly Sanchez, Leon Mualem, Phil Adamson, Yury Gornushkin, and Robert Plunkett

Published

1998

10. Probing the gluon distribution with the SS-OS dijet cross-section ratio

Author

Marjorie Shapiro, William Wester, Olivier Schneider, Paola Giannetti, Makoto Shimojima, James Mueller, Alan Fraser Sill, Andreas Warburton, Marco Incagli, Patrick Lukens, Krzysztof Sliwa, and Robert Plunkett

Published

1993

11. Top dilepton search at CDF

Author

William Wester, George Redlinger, Olivier Schneider, Paola Giannetti, James Mueller, Alan Fraser Sill, Andreas Warburton, Rolland Johnson, Edward Kearns, Marco Incagli, Patrick Lukens, Krzysztof Sliwa, and Robert Plunkett

Published

1993

12. HISTORY

Author

Robert Plunkett and C. E. Taylor

Subjects

Mechanics of Materials, Mechanical Engineering

Published

1998

13. Equipment for Measuring Complex Moduli of Thin Coatings at Elevated Temperatures

Author

P. Sridharan and Robert Plunkett

Subjects

Materials science, business.industry, Pendulum, Structural engineering, Bending, Low frequency, Atmospheric temperature range, Vitreous enamel, Moduli, Stress (mechanics), visual_art, visual_art.visual_art_medium, Composite material, business, Beam (structure)

Abstract

Porcelain enamels are thin, inorganic, glassy coatings, extensively used to protect metal surfaces exposed to the corrosive and erosive effects of hot gases. They are known to increase the fatigue life and vibratory damping of the coated member in some cases but the amount of improvement and the governing parameters are not known. Three pieces of equipment for measuring the damping and complex moduli of porcelain enamel coatings as a function of temperature, strain level and state of stress have been developed as part of a program now underway to determine these properties. All three are designed to cover the temperature range from room temperature to 2000 deg F. The first is an adaptation of the low frequency torsional pendulum equipment useful from about 1 to 20 Hz. The second uses a flat beam in bending to cover the frequency range from 10 Hz to 200 Hz and the third uses a hollow torsional specimen to cover the range from 150 Hz to 600 Hz. This paper describes the design details, advantages and disadvantages and error analysis of each of the three pieces of equipment.

Published

1974

14. Nonlinear Material Damping for Nonsinusoidal Strain

Author

M. Sax and Robert Plunkett

Subjects

Vibration, Nonlinear system, Steady state, Thermoelastic damping, Materials science, Cantilever, Strain (chemistry), Mechanics of Materials, Mechanical Engineering, Magnetic damping, Resonance, Composite material, Condensed Matter Physics

Abstract

The damping in uniform and nonuniform cantilever beams was measured at resonance for a range of amplitudes of simultaneous steady-state first and second mode vibration. For two linear materials, aluminum and crossply fiberglas, the damping factor in each mode is independent of amplitude and unaffected by the presence of the other mode. For a fully annealed tool steel with highly nonlinear damping, the damping factor in each mode is markedly increased by the presence of the other mode.

Published

1978

15. A Low-Frequency Axial Oscillation Technique for Composite Material Damping Measurement

Author

Chao-Hung Lin and Robert Plunkett

Subjects

Materials science, Oscillation, Mechanical Engineering, Loss factor, chemistry.chemical_element, Stiffness, 02 engineering and technology, Epoxy, Low frequency, 021001 nanoscience & nanotechnology, Transverse plane, 020303 mechanical engineering & transports, 0203 mechanical engineering, chemistry, Mechanics of Materials, Aluminium, visual_art, Materials Chemistry, Ceramics and Composites, visual_art.visual_art_medium, medicine, Composite material, medicine.symptom, Oscilloscope, 0210 nano-technology

Abstract

An axial deformation technique for damping measurement is described. An aluminum specimen coated with transverse carbon/epoxy composite material was sinusoidally loaded in the axial direction. The phase difference between the strain measured in the coated region and that in the uncoated region was found from measurements on a pro grammable digital oscilloscope. The loss factor was found from the measured values of phase shift and axial stiffness. The loss factor is frequency-independent from 0.05 to 10 Hz and independent of axial strain from —1150 to 1250 μ∈ for this specimen.

Published

1989

16. Finite element mesh for a complete solution of a problem with a singularity

Author

James G. Malone, Robert Plunkett, and Philip G. Hodge

Subjects

Fissure, Mechanical Engineering, Traction (engineering), Mathematical analysis, Stress–strain curve, Geometry, Finite element method, Displacement (vector), Computer Science Applications, Stress field, Singularity, medicine.anatomical_structure, Geometric series, Modeling and Simulation, medicine, General Materials Science, Civil and Structural Engineering, Mathematics

Abstract

It is well known that the stress field at the tip of a crack in an elastic body exhibits a singularity. In this paper, a complete elastic solution for a center cracked plate loaded under uniform tension is obtained by a finite element plane-stress analysis using constant strain elements. No a priori assumptions about the form of the stress singularity are required. The numerical results are compared with the exact analytic solution. It is shown that a particular mesh arrangement in which the size of the elements decreases in a geometric series as the crack tip is approached yields stress and strain fields which are accurate over the entire plate, even at distances very close to the crack tip. The effects of changes in mesh arrangements on the accuracy of the solution are considered. The computations are carried out on the CRAY-1 computer and the advantages of vectorization are discussed for this problem.

Published

1986

17. Dynamic Mechanical Behavior of Fiber-Reinforced Composites: Measurement and Analysis

Author

Robert Plunkett and Ronald F. Gibson

Subjects

Materials science, business.industry, Mechanical Engineering, Stiffness, 02 engineering and technology, Structural engineering, Fiber-reinforced composite, Epoxy, 021001 nanoscience & nanotechnology, 020303 mechanical engineering & transports, 0203 mechanical engineering, Mechanics of Materials, visual_art, Materials Chemistry, Ceramics and Composites, medicine, visual_art.visual_art_medium, Flexural vibration, medicine.symptom, Composite material, 0210 nano-technology, business

Abstract

This paper describes analytical and experimental efforts to find the internal damping and elastic stiffness of E-glass fiber-reinforced epoxy beams under flexural vibration. Stiffness and damping are expressed in terms of effective complex moduli. The parameters considered in the study are geometric configuration, vibration frequency, and vibration amplitude. Comparison. of measured values of the complex moduli with predicted moduli and with predicted bounds on the moduli shows that, for small amplitudes, the predicted values are reasonably accurate. Damping and stiffness are independent of amplitude as long as the maximum strain amplitude does not exceed the threshold strain for material damage. Once this threshold strain is exceeded, however, permanent changes occur in damping and stiffness. The resulting increase in damping is much more significant than the corresponding reduction in stiffness.

Published

1976

18. An elastic-plastic finite element solution for a cracked plate

Author

Philip G. Hodge, James G. Malone, and Robert Plunkett

Subjects

Engineering, Yield (engineering), Finite element limit analysis, business.industry, Applied Mathematics, General Engineering, Mechanics, Mixed finite element method, Structural engineering, Strain hardening exponent, Computer Graphics and Computer-Aided Design, Finite element method, Hardening (metallurgy), von Mises yield criterion, business, Analysis, Extended finite element method

Abstract

In this paper, the finite element method is applied to a center-cracked plate subject to opening mode tensile loading. A complete elastic-plastic plane-stress solution for strain hardening materials obeying a Von Mises yield condition and Prandtl-Reuss stress-strain relations is obtained using only constant strain elements. An accurate representation of the stress-strain field even at distances very close to the crack-tip, is achieved by the use of a mesh arrangement in which the size of the elements decreases in a geometric series as the crack tip is approached. The numerical solution is compared with and used to discuss the range of validity of the well-known HRR (Hutchinson-Rice-Rosengren) crack tip solution valid for small scale yielding. The influence of different amounts of hardening and the effect of changes in the mesh arrangements are also considered. Features of the finite element algorithm which reduce the total computing time are discussed. The finite element program is executed on a CRAY-1 computer and the effect of vectorization on computational speed is discussed for this problem.

Published

1986

19. Damping in Fiber Reinforced Laminated Composites at High Strain

Author

Robert Plunkett

Subjects

Materials science, Cantilever, Strain (chemistry), business.industry, Mechanical Engineering, 02 engineering and technology, Bending, Structural engineering, Epoxy, 021001 nanoscience & nanotechnology, High strain, 020303 mechanical engineering & transports, 0203 mechanical engineering, Mechanics of Materials, visual_art, Materials Chemistry, Ceramics and Composites, Damping factor, visual_art.visual_art_medium, Laminated composites, Fiber, Composite material, 0210 nano-technology, business

Abstract

Damping factors were determined for cantilever beams made of cross- plied epoxy fiberglass laminates as they were vibrated at different strain levels in first and second mode bending simultaneously. It was found that the damping factor could be calculated from the crack density and the strain volume function at maximum previous strain and was almost inde pendent of the current strain distribution. It was also found that the damp ing factor was almost the same in both first and second modes and that, unlike metals, there was very little interactive effect.

Published

1980

20. The Free Vibrations of Stiffened Drill Strings With Static Curvature

Author

D. A. Frohrib and Robert Plunkett

Subjects

Physics, Drill, Tension (physics), business.industry, Stiffness, Mechanics, Structural engineering, Curvature, Vibration, Deflection (engineering), Normal mode, medicine, medicine.symptom, business

Abstract

The natural frequencies of lateral vibration of a long drill string in static tension under its own weight are primarily the same as those of the equivalent catenary. These frequencies and the mode shapes are affected to a certain extent by the bending stiffness and to a greater extent by the static deflection curve due to lateral deflection of the bottom end. In this paper, the governing equations are derived and general solutions are given in an asymptotic expansion with the bending stiffness as the parameter. Specific numerical results are given in dimensionless form for the first three natural frequencies for a very wide range of horizontal tension and several appropriate values of bending stiffness for zero vertical static force at the bottom.

Published

1967

21. Natural Frequencies of Uniform and Non-Uniform Rectangular Cantilever Plates

Author

Robert Plunkett

Subjects

Physics, Cantilever, Simple (abstract algebra), business.industry, Mathematical analysis, General Engineering, Structural engineering, business

Abstract

Various methods of calculating the natural frequencies of flat rectangular cantilever plates are discussed, and it is shown both analytically and experimentally that relatively simple expressions based on technical beam theory give good results even for high order modes. Experimental results indicate that the mode shapes of plates of non-uniform thickness have modes so complex that a great many terms should be used in any vibration analysis, whether finite difference or Rayleigh-Ritz.

Published

1963

22. On the Solutions of Plates, Strips, Rods, and Cylinders Subjected to Arbitrary Dynamic Edge Load

Author

Chien-Heng Wu and Robert Plunkett

Subjects

Physics, law, Applied Mathematics, STRIPS, Composite material, Edge (geometry), Rod, law.invention

Published

1967

23. On the Contact Problem of Thin Circular Rings

Author

Robert Plunkett and Chien-Heng Wu

Subjects

Stress (mechanics), Materials science, Contact mechanics, Mechanics of Materials, Mechanical Engineering, medicine, Stiffness, Geometry, medicine.symptom, Composite material, Condensed Matter Physics

Abstract

It is well known that the solution of an elastica subjected to end loads can be obtained in terms of elliptic functions. In the present paper, the combined problem of elastic contact between uniform circular rings or cylinders is reduced to a set of end-loaded elasticas. The approach is demonstrated by finding the complete solution in closed form for two unequal rings pressed between rigid anvils of constant curvature. Numerical results are obtained for the set of problems of two rings with equal stiffness but unequal radii compressed between two rigid flat plates.

Published

1965

24. Static Bending Stresses in Catenaries and Drill Strings

Author

Robert Plunkett

Subjects

Static bending, Drill, business.industry, Differential equation, Catenary, C++ string handling, medicine, Stiffness, Structural engineering, medicine.symptom, business, Nonlinear differential equations, Geology

Abstract

A limp string loaded only by its own weight has a nonlinear differential equation which may be integrated as two first-order equations with arc length parameter. If bending stiffness is also included, such a procedure fails since the order of the differential equation increases by two. In this paper it is shown that relatively small stiffness causes an effect only in boundary regions near the end supports and that the deviation from the catenary can be found as a rapidly converging series. The bending stress and the correction to the sag and length can be found from these correction terms. This result is used to find the bending stress caused in cables by vertical suspenders and in drill pipe by end fixity or moment.

Published

1967

25. Free and Forced Vibrations of Rotating Blades

Author

Robert Plunkett

Subjects

Aerodynamic force, Vibration, Engineering, business.product_category, Cantilever, Blade (geometry), business.industry, Propeller, Natural frequency, Rotational speed, Structural engineering, business, Airplane

Abstract

SUMMARY The matrix equations governing transverse vibration of a rotat­ ing twisted cantilever beam, such as an airplane propeller or tur­ bine blade, are developed. From these equations the variation in natural frequency with rotational speed may be found, and some simplified methods for finding these curves are shown. The same approach is used for the case of forced vibrations of a blade due to oscillating loading, and the case of vibration in an airplane propeller due to yaw is considered as an example. It is shown that this approach can be expected to give results within about 10 per cent of experimentall y measured ones if a rather simplified determination of the aerodynamic forces is permissible, as it is in normal flight.

Published

1951

26. Vibration Response of Linear Damped Complex Systems

Author

Robert Plunkett

Subjects

Vibration, Physics, Shock absorber, Mechanics of Materials, Vibration response, Mechanical Engineering, Acoustics, Linear system, Complex system, Condensed Matter Physics, Damper

Abstract

Hahnkamm has found the changes in the amplitudes of each of the two maxima of the unit vibration response of a two-degree-of-freedom linear system as the strength of the single linear dashpot is changed. This paper develops two approximate expressions for the change in all of the response maxima of a multidegree or continuous system as the dashpot constant of the single linear damper is changed. One of these approximations is derived from a perturbation solution around the minimax values, and the other is derived from an expansion in normal modes. These expressions are useful in determining the sensitivity of the maximum response value to small changes in the damping constant.

Published

1963

27. A Method for the Calculation of Heat Transfer in Solids With Temperature-Dependent Properties

Author

Robert Plunkett

Abstract

The problem of heat transfer in a solid, whose conductivity and specific heat depend on the temperature, is converted by a simple change of variable to one in which the conductivity may be held constant, and only the specific-heat term varies with temperature in a way which depends upon the variation of both parameters. The method is illustrated by application to a problem previously solved by Dusinberre in a different way. The effect on the final solution of different finite approximations to the derivatives is also discussed.

Published

1951

28. On the convergence of matrix iteration processes

Author

Robert Plunkett

Subjects

Arnoldi iteration, Physics, Fixed-point iteration, Power iteration, Preconditioner, Applied Mathematics, Applied mathematics, Modified Richardson iteration, Eigenvalue algorithm, Rayleigh quotient iteration, Compact convergence

Published

1950

29. Attenuation of Plane Waves in Semiinfinite Composite Bar

Author

Robert Plunkett and Chien-Heng Wu

Subjects

Materials science, Acoustics and Ultrasonics, Bar (music), business.industry, Wave propagation, Plane (geometry), Attenuation, Plane wave, Viscoelasticity, Shear modulus, Wavelength, Optics, Arts and Humanities (miscellaneous), Composite material, business

Abstract

The attenuation of plane compressive waves in a semiinfinite composite bar is studied. The bar is composed of a main strip and two serrated septa symmetrically bonded to the main strip by viscoelastic material. The one‐dimensional solution gives two complex wavenumbers whose values depend on the complex shear modulus of the viscoelastic material, the frequency, and the relative dimensions. It is shown that maximum attenuation occurs for an optimum value of the loss tangent of the shear modulus. For a typical practical example, this attenuation is about 20 dB in the first three wavelengths for a loss tangent of 0.32.

Published

1965

30. Status of the top queark sarch at CDF

Author

Marjorie Shapiro, William Wester, George Redlinger, Paola Giannetti, Rolland Johnson, Edward Kearns, Krzysztof Sliwa, Robert Plunkett, and Maria Curatolo

Subjects

Physics, Quark, Top quark, Particle physics, Muon, High Energy Physics::Phenomenology, Tevatron, Particle identification, law.invention, Nuclear physics, law, Physics::Accelerator Physics, High Energy Physics::Experiment, Fermilab, Nuclear Experiment, Collider, Lepton

Abstract

A search for new heavy quarks is proton‐antiproton collisions at the Fermilab Tevatron Collider (√s=1.8 TeV) is described. Primary emphasis is given to the search for final states in which the charged‐current decays of a tt pair produce both an electron and a muon. The data taken during the first portion (2.0 pb−1) of the 1988–1989 run is analysed. The top quark (as well as a fourth generation b’ quark) is excluded at the 95% C. L. in the mass range 30 to 60 GeV/c2. Other prospects for heavy quark physics at CDF are discussed.

Published

1989

31. DAMPING MECHANISMS IN FIBER REINFORCED LAMINATES

Author

Robert Plunkett

Subjects

Materials science, technology, industry, and agriculture, food and beverages, Modulus, Fracture mechanics, Fiber-reinforced composite, respiratory system, Viscoelasticity, body regions, Thermoelastic damping, Damping factor, Shear stress, sense organs, Fiber, Composite material

Abstract

Low strain damping in fiber reinforced composite materials is due to material loss factors in both fibers and matrix materials. The high modulus of the fibers makes up for the low damping factor. Strains high enough to cause transverse layer cracking in laminates with organic matrix materials causes a large permanent increase in the damping factor. This increase is not due to the transverse cracks but rather to short microcracks in the high shear strain regions. Other damping mechanisms at high strains are also discussed.

Published

1983

32. Proposal for upgrading the Collider Detector at Fermilab

Author

Fridolin Dittus, Marjorie Shapiro, George Redlinger, Paola Giannetti, Edward Kearns, Robert Plunkett, and Maria Curatolo

Published

1986

33. Foreword

Author

EDWARD G. FISCHER, WM.H. HOPPMANN, DONALD E. HUDSON, DWIGHT C. KENNARD, ROBERT PLUNKETT, and CHARLES E. CREDE

Published

1963

34. THE DECAY OF THE B MESON INTO LEPTONS

Author

Giles, R., Hassard, J., Hempstead, M., Kinoshita, K., Mackay, W. W., Pipkin, F. M., Wilson, Richard, Jensen, T., Kagan, H., Behrends, S., Chadwick, K., Chauveau, J., Ganci, P., Gentile, T., Guida, Jan M., Guida, Joan A., Kass, R., Melissinos, A. C., Olsen, S. L., Parkhurst, G., Peterson, D., Poling, R., Rosenfeld, C., Rucinski, G., Thorndike, E. H., Tipton, P., Green, J., Hicks, R. G., Sannes, F., Skubic, P., Snyder, A., Stone, R., Chen, A., Goldberg, M., Horwitz, N., Jawahery, A., Lipari, P., Moneti, G. C., Trahern, C. G., Hecke, H., Alam, M. S., Csorna, S. E., Garren, L., Mestayer, M. D., Panvini, R. S., Yi, Xia, Avery, P., Bebek, C., Berkelman, Karl, Cassel, D. G., Dewire, J. W., Ehrlich, R., Ferguson, T., Galik, R. S., Gilchriese, M. G. D., Gittelman, B., Halling, M., Hartill, D. L., Herrup, D., Holzner, S., Ito, M., Kandaswamy, J., Kistiakowsky, V., Kreinick, D. L., Kubota, Y., Mistry, Nari B., Morrow, F., Nordberg, E., Ogg, M., Perchonok, R., Robert Plunkett, Silverman, A., Stein, P. C., Stone, S., Weber, D., Wilcke, R., and Sadoff, A. J.

35. DUNE Offline Computing Conceptual Design Report

Author

Abed Abud, Adam, babak abi, Acciarri, Roberto, Mario A Acero O, Adames, Marcio, Adamov, George, Adamowski, Mark, David Adams, Adinolfi, Marco, Adriano, Cris, Aduszkiewicz, Antoni, Aguilar, Jessica, Ahmad, Zubayer, Ahmed, Jhanzeb, Aimard, Benjamin, Faiza Akbar, Allison, Kyle, Saúl Alonso-Monsalve, Alrashed, Munera, Alt, Christoph, Alton, Andrew, Alvarez, Rodrigo, Amedo, Pablo, Anderson, John, Andrade Aldana, Diego, Constantinos Andreopoulos, Andreotti, Mirco, Andrews, Michael P., Andrianala, Fenompanirina, Sofia Andringa, Nikolay Anfimov, Anicézio Campanelli, Wallison Luiz, Artur Ankowski, Antoniassi, Marcelo, Antonova, Maria, Antoshkin, Alexander, Antusch, Stefan, Alfredo Aranda, Arellano, Luciano, Arnold, Lukas, Arroyave, Manuel, Asaadi, Jonathan, Asquith, Lily, Adam Aurisano, Aushev, Vladimir, Dario Autiero, Ayala-Torres, Marco Alberto, Azfar, Farrukh, Back, Ashley, Back, Henning, John Back, Bagaturia, Iuri, Bagby, Linda, Nikita Balashov, Balasubramanian, Supraja, Baldi, Pierre, Bruce Baller, Bambah, Bindu, Barao, F., Barenboim, Gabriela, Gary Barker, Barkhouse, Wayne, Barnes, Christopher, Barr, Giles, Barranco Monarca, Juan, Barros, Adilson, Barros, N., Barrow, J. L., Basharina-Freshville, Anastasia, Bashyal, Amit, Vincent Marc Basque, Batchelor, Charlie, James Battat, Battisti, Federico, Fatih Bay, Maria Cecilia Queiroga Bazetto, Jose Luis Bazo Alba, John Beacom, Bechetoille, Edouard, Biswaranjan Behera, Belchior, Ewerton, Leo Bellantoni, Bellettini, Giorgio, Bellini, Vincenzo, Beltramello, Olga, Nektarios Benekos, Benitez Montiel, Carlos, Douglas Benjamin, Francisco Neves, Berger, Joshua, Berkman, Sophie, Paolo Bernardini, Roman Matthias Berner, Andrea Bersani, Sergio Bertolucci, Betancourt, Minerba, Betancur Rodríguez, Amalia, Bevan, Adrian, Bezawada, Yashwanth, Bezerra, Anibal, Bezerra, T. J. C., Bhambure, Jay, Akhil Bhardwaj, Vipin Bhatnagar, Bhattacharjee, M., Bhattarai, Devesh, Bhuller, Shyam, Given Names Deactivated Family Name Deactivated, Simone Biagi, Jianming Bian, Biassoni, Matteo, Kurt Biery, Bilki, Burak, Mary Bishai, Bisignani, Valeria, Alexander Bitadze, Andrew Blake, Flor de Maria Blaszczyk, Blazey, Gerald C., Blend, Dylan, Edward Blucher, Boissevain, Jan, ANDREY BOBYSHEV, Bolognesi, Sara, Tim Bolton, Bomben, Luca, Maurizio Bonesini, Cesar Bonilla, Filiberto Bonini, Alexander Booth, Boran, Fatma, Stefania Bordoni, Aran Borkum, Nilay Bostan, Bour, Petr, Boyden, Daniel, Juraj Bracinik, Braga, Davide, Brailsford, Dominic, Antonio Branca, Brandt, Andrew, johan bremer, Chris Brew, Stephen Brice, Brizzolari, Claudia, Carl Bromberg, Jim Brooke, Bross, Alan, Giulia Brunetti, Brunetti, Maria, Buchanan, Norman, Budd, Howard, Buergi, Jonas, Caceres Vera, Gian, Cagnoli, Irene, Tejin Cai, Davide Caiulo, Calabrese, Roberto, Paolo Calafiura, Calcutt, Jacob, Calin, Marius, Livio Calivers, Calvez, Steven, Enrique Calvo Alamillo, Alessio Caminata, David Caratelli, Carber, Daniel, Carceller, J. C., Carini, Gabriella, Carlus, Bruno, Carneiro, Mateus, Paolo Carniti, Caro Terrazas, Ivan, Carranza, Hector, Carrara, Nicholas, Carroll, Lauren, Carroll, Thomas, Castaño Forero, Javier, Andres Castillo, Catano Mur, E., Cattadori, Carla, Fabien Cavalier, Cavallaro, Giuseppe, Flavio Cavanna, Centro, Sandro, Giuseppe Cerati, Alberto Cervelli, Cervera Villanueva, Anselmo, Kaustav Chakraborty, Chalifour, Michel, Andrew Chappell, Chardonnet, Etienne, Charitonidis, Nikolaos, Animesh Chatterjee, Chattopadhyay, Subhasish, Hucheng Chen, Mu-Chun Chen, Chen, Yifan, Chen, Zheyang, Chen-Wishart, Zachary, Cheon, Yoolim, Daniel Cherdack, Chi, Cheng-Yi, Childress, Sam, Robert Chirco, Chiriacescu, Ana, Chitirasreemadam, Namitha, Kihyeon Cho, Choate, Sarah, Chokheli, David, Chong, P. S., Chowdhury, Barnali, Christensen, Anne, David Christian, Georgios Christodoulou, Chukanov, Artem, Chung, Moses, Eric Church, Cicero, Valentina, Clarke, Peter, Cline, Gordon, Thomas Coan, Alfredo Giuseppe Cocco, Joao Coelho, Johann Collot, Erin Conley, Janet Conrad, Convery, Mark, Simone Copello, Cova, Paolo, Cremaldi, Lucien, Linda Cremonesi, José Ignacio Crespo Anadón, Michael Crisler, Cristaldo, Esteban, Crnkovic, Jason, Cross, Ryan, Cudd, Andrew, Clara Cuesta, Cui, Yanou, Cussans, David, Dalager, Olivia, Dallavalle, Ricardo, Da Motta, Helio, Dar, Zubair, Da Silva Peres, Leonardo, Claire David, David, Quentin, Gavin Davies, Stefano Davini, Dawson, Jaime, De, Kaushik, De, Shruti, Debbins, Paul, Bonis, Isabelle, Michal Patrick Decowski, Andre de Gouvea, Holanda, Pedro, Icaza Astiz, I. L., Deisting, Alexander, Paul de Jong, La Torre, Andres, Delbart, Alain, Leo, Veronica, David Delepine, Delgado, Maritza, Andrea Dell’Acqua, Nicola Delmonte, Lurgio, Patrick, Philip DeMar, Mello Neto, J. R. T., David DeMuth, Dennis, Steve, Densham, Chris, Grzegorz Deptuch, Albert De Roeck, Romeri, Valentina, Souza, Greg, Detje, J. P., Devi, Ritu, Ranjan Dharmapalan, Dias, Marco, Diaz, Jorge S., Félix Napoleón Díaz Desposorio, Francesco Di Capua, Antonio Di Domenico, Sergio Di Domizio, Di Giulio, Letizia, Pengfei Ding, Di Noto, Lea, Carla Distefano, Richard Diurba, Milind Diwan, Djurcic, Zelimir, Doering, Dionisio, Dolan, Stephen, furkan dolek, Michelle Dolinski, Domine, Laura, simone donati, Donon, Yann, Doran, Steven, Daniel Douglas, Angelo Dragone, Drielsma, Francois, Laura, Dominique Duchesneau, Duffy, K. E., Dugas, Katherine, Patrick Dunne, Bhaskar Dutta, Duyang, Hongyue, Olexiy Dvornikov, Dwyer, Daniel A., Dyshkant, Alexandre S., Eads, Michael, Earle, Antony, Edmunds, Daniel, Jonathan Eisch, Emberger, Lorenz, Englezos, Panagiotis, Antonio Ereditato, Erjavec, Tyler, CARLOS ESCOBAR, Evans, J. J., Erin Ewart, Ezeribe, A. C., Fahey, Kevin, Fajt, Lukas, Falcone, Andrea, Fani, Mattia, Farnese, Christian, Yasaman Farzan, Fedoseev, Dmitry, Julian Felix, Feng, Yue, Enrique Fernandez-Martinez, Federico Ferraro, Laura Fields, Filip, Peter, Amy Filkins, Frank Filthaut, Robert Fine, Giuliana Fiorillo, Fiorini, Massimiliano, Fischer, Vincent, Rory Fitzpatrick, Flanagan, Will, Fleming, Bonnie, Flight, Robert, Fogarty, Sam, William Foreman, Fowler, Jack, Jiří Franc, Domenico Franco, John Freeman, Freestone, Julian, Fried, Jack, Alexander Friedland, Stuart Fuess, Furic, I. K., Furman, Krzysztof, Andrew Furmanski, Alessandro Gabrielli, Alberto Martín Gago Medina, Gallagher, Hugh, Gallas, Alexandre, Gallego-Ros, Ana, Niccolò Gallice, Galymov, Vyacheslav, Enrico Gamberini, Gamble, Trevor, Ganacim, Francisco, Gandhi, Raj, Ganguly, Sudeshna, Gao, Fan, Gao, Shanshan, Diego Garcia Gamez, García-Peris, Miguel, Gardiner, Steven, Gastler, Dan, Gauch, Anja, Gauvreau, Jean-Luc, Paolo Gauzzi, Ge, Guanqun, Geffroy, Nicolas, Gelli, Bruno, Gendotti, Adamo, Gent, Stephen, Zahra Ghorbani moghaddam, Giammaria, Paola, Giammaria, Tommaso, Giangiacomi, Nico, Daniele Gibin, Gil-Botella, Ines, Gilligan, Sean, Gioiosa, Antonio, Girerd, Claude, Anjan Giri, Gnani, Dario, Olga Gogota, Gold, Michael, Gollapinni, Sowjanya, Gollwitzer, Keith, Ricardo Gomes, Gomez Bermeo, Laura Vanessa, Luz Stella Gomez Fajardo, Francesco Gonnella, Gonzalez-Diaz, Diego, Gonzalez-Lopez, Manuel, Maury Goodman, Goodwin, Owen, Goswami, Srubabati, Gotti, Claudio, Prof. Evgueni Goudzovski, Grace, Carl, Richard Gran, Granados, Everardo, Granger, Pierre, Grant, Christopher, Gratieri, Diego, Green, Patrick, Greenberg, Stephen, Greenler, Leland, Greer, Joel, Grenard, Jean-Louis, Griffith, W. C., Groetschla, Florian, Groh, Micah, Katarzyna Grzelak, Gu, Wenqiang, Elena Guardincerri, Guarino, Victor, Guarise, Marco, Guenette, Roxanne, Guerard, Eric, Marco Guerzoni, Daniele Guffanti, Alberto Guglielmi, Guo, Bing, Gupta, Aseem, Gupta, Vikas, Guthikonda, K. K., Pawel Guzowski, Guzzo, Marcelo, Gwon, Sunwoo, Chang Hyon Ha, Haaf, Kevin, Habig, A., Hadavand, Haleh, Haenni, Roger, Hagaman, Lee, Hahn, Alan, Haiston, James, Philip Hamacher-Baumann, Thomas Hamernik, Hamilton, Philip, Jiyeon Han, Deborah Harris, Hartnell, J., Hartnett, Trevor, Harton, John, Takuya Hasegawa, Hasnip, Ciaran, Robert Hatcher, Hatfield, Kaleb, Athanasios Hatzikoutelis, Hayes, Christopher, Hayrapetyan, Karen, Jonathan Hays, Hazen, Eric, He, Muyuan, Anne Heavey, Heeger, K. M., Jaret Heise, Henry, Sarah, Hernandez Morquecho, Miguel Angel, Kenneth Herner, Hewes, V., Hilgenberg, Christopher, Tony Hill, Stephen Hillier, Alexander Himmel, Hinkle, Elise, Hirsch, Luciana, Hoff, James, Holin, Anna, Hoppe, E. W., Glenn Horton-Smith, Matheus Hostert, Hourlier, Adrien, Howard, Bruce, Howell, Ryan, Hoyos Barrios, Jaime, Hristova, Ivana, Hronek, Maxine, Huang, Junying, Huang, Roger, Hulcher, Zachary, Iles, Gregory, Ilic, Nikolina, Mihail Antoniu Iliescu, Illingworth, Robert, Ingratta, Gianfranco, Ara Ioannisian, Irwin, Burke, Isenhower, Larry, Ismerio Oliveira, Marcelo, Ran Itay, Jackson, Christopher, Vivek Jain, James, Eric, Jang, Wooyoung, Benjamin Jargowsky, Jediny, Filip, Jena, Deepika, Yu Seon Jeong, César Jesús-Valls, Ji, Xiangpan, Jiang, Junjie, Jiang, Libo, Jipa, Alexandru, Jo, Jay Hyun, Joaquim, Filipe, Johnson, Walker, Benjamin Jones, Jones, Rhiannon, Jovancevic, Nikola, Judah, Matthew, Chang Kee Jung, Thomas Junk, Jwa, Yeon-Jae, Monireh Kabirnezhad, Kaboth, Asher, Igor Kadenko, Igor Kakorin, Kalitkina, Anastasia, Kalra, Daisy, Kamer Koseyan, Ohannes, Felipe Garcia Ken Kamiya, Daniel Kaplan, Georgia Karagiorgi, Karaman, Gurkan, Karcher, Armin, Karyotakis, Yannis, Kasai, Seiji, Kasetti, S. P., Kashur, Lane, Ioannis Katsioulas, Narine Kazarian, Edward Kearns, Pt, Keener, Kevin Kelly, Ernesto Kemp, Kemularia, Otari, Ketchum, Wes, steve kettell, Marat Khabibullin, Khotjantsev, Alexei, Khvedelidze, Arsen, Doojin Kim, King, Bonnie, Brian Kirby, Michael Kirby, Joshua Klein, Kleykamp, Jeffrey, Klustova, Anezka, Thomas Kobilarcik, Koehler, Kevin, Lisa Koerner, Koh, D. H., Samuel Kohn, Patrick Pascal Koller, Kolupaeva, Liudmila, Korablev, Denis, Michael Kordosky, Thomas Kosc, Kose, Umut, Kostelecky, V. Alan, Kunal Kothekar, Kotler, Ian, Kozhukalov, Vladimir, Kralik, Robert, Luke Kreczko, Krennrich, Frank, Igor Kreslo, William Kropp, Kroupova, Tereza, Yury Kudenko, Vitaly Kudryavtsev, Stephen Kuhlmann, Sergey Kulagin, Kumar, Jason, Kumar, Praveen, Kunze, Pablo, Kuravi, Ramachandra, Kurita, Nadine, Kuruppumullage Don Chatura Kuruppu, Václav Kůs, Kutter, Thomas, Kvasnicka, Jiri, Kwak, Donghyun, Lambert, Andrew, Benjamin Land, Charles Lane, Lang, Karol, Thomas Langford, Langstaff, Mark, Francesco Lanni, Oliver Lantwin, Larkin, Jacob, Pierre Lasorak, Last, David, Laundrie, Andy, Giuliano Laurenti, Lawrence, Andrew, Paul Laycock, Lazanu, Ionel, Massimo Lazzaroni, Le, Trung, Leardini, Sara, Learned, John, Lebrun, Patrice, Thomas LeCompte, Claire Lee, Zachary Lee, Legin, Vladyslav, Giovanna Lehmann Miotto, Lehnert, Ralf, Marcelo Augusto Leigui de Oliveira, Leitner, Matthaeus, Lepin, L. M., Shirley Li, Yichen Li, Liao, Heng-Ye, Cheng-Ju Lin, Lin, Shih-Kai, Lineros, Roberto A., Jiajie Ling, Lister, Adam, Littlejohn, Bryce, Liu, Junze, Liu, Yinrui, Sarah Lockwitz, Loew, Timothy, Milos Lokajicek, Lomidze, Irakli, Long, Ken, Lord, Tom, John LoSecco, William Louis, Xianguo Lu, Kam-Biu Luk, Lunday, Benjamin, Xiao Luo, Luppi, Eleonora, Thorsten Lux, Vitor Prestes Luzio, Maalmi, Jihane, Macfarlane, David, Machado, Ana Amelia, Pedro Machado, Christopher Macias, Macier, Jolie R., maddalena antonello, Madera, Alfonso, Peter Madigan, Magill, Steve, Kendall Mahn, Amelia Maio, Major, Adryanna, Majumdar, Krishanu, James Maloney, Igor Mandrichenko, Mandrioli, Gianni, Mandujano, Roberto, Jose Maneira, Manenti, Laura, Steven Manly, Anthony Mann, Manolopoulos, Konstantinos, Manrique Plata, Maria, Venkata Narasimha Manyam, Marchan, Miquel, Alberto Marchionni, Marciano, William, Marfatia, Danny, Camillo Mariani, Jelena Maricic, Franciole Marinho, ALYSIA MARINO, Thomas Markiewicz, Marsden, David, Marvin Marshak, Christopher Marshall, John Marshall, Marteau, Jacques, Justo Martín-Albo, Martinez, Norman, David Martinez Caicedo, Francisco Martínez López, Martínez Miravé, Pablo, Sergey Martynenko, Valerio Mascagna, Katie Mason, Andrew Mastbaum, Matichard, Fabrice, Matsuno, Shigenobu, Matthews, J., Mauger, Christopher, Nicoletta Mauri, Konstantinos Mavrokoridis, Mawby, Isobel, Mazza, Roberto, Anna Mazzacane, Mcaskill, Tracy, Mccluskey, Elaine, Mcconkey, Nicola, Kevin McFarland, Clark McGrew, Andrew McNab, Mefodiev, Alexander, Poonam Mehta, Melas, Pantelis, Mena, Olga, Mendez, Hector, Mendez, Patricia, Méndez, Diana, Alessandro Menegolli, guang meng, Mark Messier, Metcalf, William, Mewes, Matthew, Holger Meyer, Miao, Ting, Michna, Gregory, Mikola, Veera, Milincic, Radovan, Miller, Graham, Miller, William, Joshua Mills, Mineev, Oleg, Minotti, Alessandro, Omar Gustavo Miranda, Miryala, Sandeep, Mishra, C. Shekhar, Sanjib Mishra, Mislivec, Aaron, Mitchell, Mote, Mladenov, Dimitar, Mocioiu, Irina, Kristian Moffat, Andrew Mogan, Niccolo' Moggi, Rukmani Mohanta, Tanaz Mohayai, Nikolai Mokhov, Molina, Jorge, Molina Bueno, Laura, Montagna, Elisabetta, Alessandro Montanari, Claudio Montanari, Montanari, David, Daniele Montanino, Montaño Zetina, L. M., Moon, Seok Ho, Mooney, Michael, Moor, Alexandra, Deywis Moreno Lopez, Moretti, Davide, Morris, Casandra, Christopher Mossey, Mitchell Mote, Motuk, Erdem, Moura, Celio A., Mousseau, Joel, Mouster, Gwenn, Mu, Wei, Mualem, Leon, Mueller, Justin, Mathew Muether, Muheim, Franz, Muir, Alan, Mulhearn, Mike, Munford, Donnie, Muramatsu, Hajime, Murphy, Matt, Murphy, Sebastien, Musser, Jim, Nachtman, Jane, YOSHIKAZU NAGAI, Nagu, Srishti, Nalbandyan, Mikayel, Nandakumar, Raja, Naples, Donna, Shinya Narita, Atanu Nath, Navrer-Agasson, Anyssa, Nitish Nayak, Miquel Nebot Guinot, Negishi, Kentaro, Jeffrey Nelson, Nelson, Matthew, Nesbit, Jake, Marzio Nessi, David Newbold, Newcomer, F. M., Newton, Hannah, Ryan Nichol, Nicolas-Arnaldos, Francisco, Nikolica, Adrian, Nikolov, Jovana, Evan Niner, Kurtis Nishimura, Andrew Norman, Norrick, Anne, Pau Novella, Jaroslaw Andrzej Nowak, Oberling, Michael, Ochoa-Ricoux, J. P., Olivier, Andrew, Alexander Olshevskiy, Onel, Yasar, Onishchuk, Yuriy, Luis Otiniano, Ott, Jordan, Luca Pagani, Guillermo Palacio, Ornella Palamara, Sandro Palestini, Jonathan Paley, Marco Pallavicini, Palomares, Carmen, Pan, Supriya, Jose Guillermo Panduro Vazquez, Pantic, Emilija, Paolone, Vittorio, Papadimitriou, Vaia, riccardo papaleo, Antonis Papanestis, Paramesvaran, Sudarshan, Stephen Parke, Parozzi, Elisabetta, Parsa, Saba, Parsa, Zohreh, Parveen, Sabila, Mihaela Parvu, Pasciuto, Daniele, Pascoli, Silvia, Ramon Pasetes, Pasqualini, Laura, Pasternak, Jaroslaw, Pater, Joleen, Cheryl Patrick, Laura Patrizii, Ryan Patterson, Patton, Simon John, Patzak, Thomas, Paudel, Ajib, Laura Paulucci, Zarko Pavlovic, Pawloski, Greg, Payne, David, Viktor Pěč, Jm, Prof Dr Ir Simon Peeters, Pena Perez, Aldo, Pennacchio, Elisabetta, Penzo, Aldo, Orlando Peres, Pernas, Carlos, Perry, James, Pershey, Daniel, Gianluigi Ezio Pessina, Gianluca Petrillo, Petta, Catia, Petti, Roberto, Valerio Pia, Pickering, Luke, Francesco Pietropaolo, Pimentel, V. L., Pinaroli, Giovanni, Plows, Komninos-John, Robert Plunkett, Pompa, Federica, Pons, Xavier, Navaneeth Poonthottathil, Poppi, Francesco, Stephen Pordes, Porter, Joshua, Salvatore Davide Porzio, Potekhin, Maxim, Potenza, Renato, Potukuchi, B. V., Pozimski, Juergen, Michele Pozzato, Suprabh Prakash, Prakash, Tarun, Pratt, Christian, MICHELA PREST, Fernanda Psihas, Pugnere, Denis, Xin Qian, Jennifer Raaf, Radeka, Veljko, Jonas Rademacker, Radev, R., Balint Radics, Aleena Rafique, Raguzin, Eric, Rai, Mousam, Rajaoalisoa, Miriama, Rakhno, Igor, Rakotonandrasana, Andrianjafy Michaël, Rakotondravohitra, Laza, Rameika, Regina, Manuel Alejandro Ramírez Delgado, Bryan Ramson, Andrea Rappoldi, Gian Luca Raselli, Peter Neil Ratoff, Raut, Sanil, Razafinime, Herilala, Razakamiandra, Rado F., Rea, E. M., Jean-Sébastien Real, Brian Rebel, Rechenmacher, Ronald, Reggiani-Guzzo, Marina, Juergen Reichenbacher, Reitzner, S. D., Rejeb Sfar, Haifa, Andrew Renshaw, Rescia, Sergio, Resnati, Filippo, Ribas, Marlos, STEFANO RIBOLDI, Riccio, Ciro, Riccobene, Giorgio, Rice, Logan, Ricol, Jean-Stephane, Rigamonti, Alberto, Rigaut, Yann-Axel, Rincón, Edgar, Ritchie-Yates, Asher, Rivera, David, Ryan Rivera, Robert, Arnaud, Rocabado Rocha, Jose Luis, Rochester, Leon, Marco Roda, Philip Rodrigues, Manuel Jesus Rodriguez Alonso, Rodriguez Rondon, Jairo, Romeo, Emanuele, Rosauro-Alcaraz, Salvador, Rosier, Philippe, Massimo Rossella, Rossi, Marco, Mark Ross-Lonergan, Rout, Jogesh, Roy, Palash, Rubbia, Andre, Rubbia, Carlo, Brooke Russell, Ruterbories, D., Rybnikov, Arseniy, Angela Saa Hernandez, Saakyan, Ruben, sabrina sacerdoti, Narendra Sahu, paola sala, Samios, Nicholas, Oleg Samoylov, Mayly Sanchez, Sandberg, Vern, David Sanders, David Sankey, Santoro, Danilo, Saoulidou, Niki, Piera Sapienza, Sarasty, Carlos, Sarcevic, Ina, Savage, Geoffrey, Savinov, Vladimir, Giacomo Scanavini, Scaramelli, Alberto, Andrew Scarff, Scarpelli, Andrea, Schefke, Tristan, Heidi Schellman, Sebastiano Fabio Schifano, Schlabach, Philip, Schmitz, David W., Austin Schneider, Kate Scholberg, Anne Schukraft, Segreto, Ettore, Selyunin, Alexander, Carlos Senise, Jonathon Sensenig, Davide Sgalaberna, Michael Shaevitz, Shafaq, Sheeba, Shaker, Fady, Shamma, Michael, Shanahan, Peter, Sharankova, Ralitsa, Sharma, H. R., Sharma, R., Sharma, R. K., KATE SHAW, Shaw, Terri, Shchablo, Konstantin, Shepherd-Themistocleous, Claire, Sheshukov, Andrey, Wei Shi, Seodong Shin, Shoemaker, Ian M., Shooltz, Dean, Robert Shrock, Silber, Joseph, Simard, Laurent, Frank Simon, James Sinclair, Sinev, Gleb, Jaydip Singh, Singh, Jyotsna, Singh, Lakwinder, Prabhjot Singh, Venktesh Singh, SUSHIL SINGH CHAUHAN, Roland Sipos, Gabriele Sirri, Andriaseta Sitraka, Siyeon, Kim, Skarpaas, Knut, Smith, Erica, Smith, Paul, Smolik, Jan, Smy, Michael, Erica Snider, Pavel Snopok, Snowden-Ifft, Daniel, Soares Nunes, Mônica, Sobel, Henry, Mitch Soderberg, Sokolov, Sergei, Carlos Javier Solano Salinas, Stefan Soldner-Rembold, Stefano Roberto Soleti, Solomey, Nicholas, Vladimir Solovov, Sondheim, Walter, Michel Sorel, Sotnikov, A., Soto-Oton, Jose, Alexandre Sousa, Soustruznik, Karel, Fabio Spagliardi, Spanu, Maura, Spitz, Joshua, Spooner, N. J., Spurgeon, Kyle, Stalder, D. H., Stancari, Michelle, Luca Stanco, Steenis, Jacob, Stein, Raul, Steiner, Herbert M., Andre Fabiano Steklain Lisboa, Stepanova, Anna, Stewart, James, Stillwell, Ben, Jason Stock, Francesca Stocker, Stokes, Tyler, Matthew Strait, Thomas Strauss, Louis Strigari, Alexander Stuart, Suarez, J. G., Subash, Joeal, Antonio Surdo, Susic, Vasja, Louise Suter, Concetta Maria Sutera, Suvorov, Yury, Svoboda, Robert, Szczerbinska, Barbara, Andrzej Szelc, Talukdar, Nibir, Tamara, Jose, Tanaka, H. A., Shaochun Tang, Beatriz Tapia Oregui, Alexander Tapper, Salman Tariq, Tarpara, Eaglekumar, Tata, Neeraj, Tatar, E., Rex Tayloe, Abraham Teklu, Tennessen, Peter, Matteo Tenti, Kazuhiro Terao, Francesco Terranova, Gemma Testera, Thakore, Tarak, Alessandro Thea, Adrian Thompson, Thorn, Craig, Steven Timm, Vladimir Tishchenko, Natasa Todorovic, Luca Tomassetti, Alessandra Tonazzo, Torbunov, Dmitri, Torti, Marta, Mariam Tortola, Francesco Tortorici, Nicolò Tosi, Totani, Dante, Matt Toups, Christos Touramanis, Riccardo Travaglini, Trevor, Jason, Trilov, Stoyan, Wladyslaw Henryk Trzaska, Tsai, Yu-Dai, Yun-Tse Tsai, Tsamalaidze, Zviadi, Tsang, Ka Vang, Tsverava, Nikolozi, Tufanli, Serhan, Tull, Craig, Jessica Turner, Tyler, Jennifer, Tyley, E., Tzanov, Martin, Uboldi, Lorenzo, Uchida, Melissa, Urheim, Jon, Tracy Usher, Utaegbulam, Hilary, Uzunyan, Sergey, Mark Vagins, Vahle, Patricia, Sammy Valder, Valdiviesso, G. A., Edgar, R Valentim R Valentim Da Costa Lima, R. V. C. Lima, Zoya Vallari, Vallazza, Erik, Jwf, Valle, Sofia Vallecorsa, Richard Van Berg, Richard Van de Water, David Vanegas Forero, David Vannerom, Filippo Varanini, Vargas Oliva, Danaisis, Gary Varner, Svetlana Vasina, Vaughan, Noah, Vaziri, Kamran, Juan Santiago Vega Martinez, Sandro Ventura, Antonio Verdugo de Osa, Vergani, Stefano, Vermeulen, M. A., Marco Verzocchi, Matteo Vicenzi, Souza, H. V., Chiara Vignoli, Cristovao Vilela, Viren, Brett, Vrba, Tomas, Vuong, Quynh, Wachala, Tomasz, Alexander Wagner, Waldron, Abigail, Michael Wallbank, Walton, Tammy, Wang, Hanguo, Wang, Jingbo, Wang, L., Michael Wang, Wang, Xiaoran, Wang, Y., Warburton, Karl, Warner, David, Morgan Wascko, Waters, David, Alan Watson, Wawrowska, Klaudia, Weatherly, Pierce, Alfons Weber, Michele Weber, Hanyu Wei, Weinstein, Amanda, Wenman, Dan, Wetstein, Matthew, Whilhelmi, James, White, A., Brandon White, Stephen White, Leigh Whitehead, Denver Whittington, Michael Wilking, Wilkinson, Alexander, Callum Wilkinson, Williams, Zachary, Fergus Wilson, Robert Wilson, William Wisniewski, Jeremy Wolcott, Wolfs, Jean, Wongjirad, Taritree, Wood, Anthony, Wood, Kevin, Worcester, Elizabeth, Worcester, Matthew, Marianette Wospakrik, Wresilo, Karolina, Clarence Wret, Wu, Shaowei, Wanwei Wu, Wu, Wenjie, Xiao, Yiwen, Xiotidis, Ioannis, Yaeggy, Barbara, Yandel, Erin, Guang Yang, Yang, Kang, Tingjun Yang, Yankelevich, Alejandro, Yershov, Nikolai, Katsuya Yonehara, Young Soo Yoon, Young, Tim, Bo Yu, Yu, H., Jaehoon Yu, Yiding Yu, Yuan, Wenlong, Zaki, Rowan, Jaroslav Zalesak, Zambelli, Laura, Bruno Zamorano, Zani, Andrea, Zazueta, Luis, Geralyn Zeller, Zennamo, Joseph, Zeug, Kyle, Chao Zhang, Zhang, Shuaixiang, Zhang, Yuze, Zhao, Manhong, Zhivun, Elena, Zimmerman, E. D., Stefano Zucchelli, Josef Zuklin, Zutshi, Vishnu, Robert Zwaska, HEP, INSPIRE, Laboratoire d'Annecy de Physique des Particules (LAPP), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Institut de Physique des 2 Infinis de Lyon (IP2I Lyon), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Institut de Recherches sur les lois Fondamentales de l'Univers (IRFU), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, Laboratoire de l'Accélérateur Linéaire (LAL), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), AstroParticule et Cosmologie (APC (UMR_7164)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité), Laboratoire de Physique Subatomique et de Cosmologie (LPSC), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP ), Université Grenoble Alpes (UGA), and DUNE

Subjects

Physics - Instrumentation and Detectors, DUNE, [PHYS.HEXP] Physics [physics]/High Energy Physics - Experiment [hep-ex], hep-ex, Other Fields of Physics, FOS: Physical sciences, Instrumentation and Detectors (physics.ins-det), [INFO] Computer Science [cs], programming, High Energy Physics - Experiment, physics.data-an, off-line, High Energy Physics - Experiment (hep-ex), [PHYS.PHYS.PHYS-INS-DET] Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det], Physics - Data Analysis, Statistics and Probability, [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex], [INFO]Computer Science [cs], [PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det], Detectors and Experimental Techniques, [PHYS.PHYS.PHYS-DATA-AN] Physics [physics]/Physics [physics]/Data Analysis, Statistics and Probability [physics.data-an], physics.ins-det, [PHYS.PHYS.PHYS-DATA-AN]Physics [physics]/Physics [physics]/Data Analysis, Statistics and Probability [physics.data-an], Particle Physics - Experiment, Data Analysis, Statistics and Probability (physics.data-an)

Abstract

This document describes the conceptual design for the Offline Software and Computing for the Deep Underground Neutrino Experiment (DUNE). The goals of the experiment include 1) studying neutrino oscillations using a beam of neutrinos sent from Fermilab in Illinois to the Sanford Underground Research Facility (SURF) in Lead, South Dakota, 2) studying astrophysical neutrino sources and rare processes and 3) understanding the physics of neutrino interactions in matter. We describe the development of the computing infrastructure needed to achieve the physics goals of the experiment by storing, cataloging, reconstructing, simulating, and analyzing $\sim$ 30 PB of data/year from DUNE and its prototypes. Rather than prescribing particular algorithms, our goal is to provide resources that are flexible and accessible enough to support creative software solutions and advanced algorithms as HEP computing evolves. We describe the physics objectives, organization, use cases, and proposed technical solutions., Comment: 229 pages, 67 figures

36. DECAY OF B MESONS TO psi

Author

Green, J., Hicks, R. G., Sannes, F., Skubic, P., Snyder, A., Stone, R., Chen, A., Goldberg, M., Horwitz, N., Jawahery, A., Lipari, P., Moneti, G. C., Trahern, C. G., Hecke, H., Alam, M. S., Csorna, S. E., Garren, L., Mestayer, M. D., Panvini, R. S., Yi, Xia, Avery, P., Bebek, C., Berkelman, Karl, Cassel, D. G., Dewire, J. W., Ehrlich, R., Ferguson, T., Galik, R., Gilchriese, M. G. D., Gittelman, B., Halling, M., Hartill, D. L., Herrup, D., Holzner, S., Ito, M., Kandaswamy, J., Kistiakowsky, V., Kreinick, D. L., Kubota, Y., Mistry, Nari B., Morrow, F., Nordberg, E., Ogg, M., Perchonok, R., Robert Plunkett, Silverman, A., Stein, P. C., Stone, S., Weber, D., Wilcke, R., Sadoff, A. J., Giles, R., Hassard, J., Hempstead, M., Kinoshita, K., Mackay, W. W., Pipkin, F. M., Wilson, Richard, Jensen, T., Kagan, H., Behrends, S., Chadwick, K., Chauveau, J., Ganci, P., Gentile, T., Guida, Jan M., Guida, Joan A., Kass, R., Melissinos, A. C., Olsen, S. L., Parkhurst, G., Petersen, D., Poling, R., Rosenfeld, C., Rucinski, G., Thorndike, E. H., and Tipton, P.

37. MEASUREMENT OF THE INCLUSIVE DIRECT DECAY OF UPSILON (1S) INTO PHOTONS

Author

Dewire, J. W., Ehrlich, R., Ferguson, T., Galik, R., Gilchriese, M. G. D., Gittelman, B., Halling, M., Hartill, D. L., Herrup, D., Holzner, S., Ito, M., Kandaswamy, J., Kistiakowsky, V., Kreinick, D. L., Kubota, Y., Mistry, Nari B., Morrow, F., Nordberg, E., Ogg, M., Perchonok, R., Robert Plunkett, Silverman, A., Stein, P. C., Stone, S., Weber, D., Wilcke, R., Sadoff, A. J., Giles, R., Hassard, J., Hempstead, M., Kinoshita, K., Mackay, W. W., Pipkin, F. M., Wilson, Richard, Jensen, T., Kagan, H., Behrends, S., Chadwick, K., Chauveau, J., Ganci, P., Gentile, T., Guida, Jan M., Guida, Joan A., Kass, R., Melissinos, A. C., Olsen, S. L., Parkhurst, G., Peterson, D., Poling, R., Rosenfeld, C., Rucinski, G., Thorndike, E. H., Tipton, P., Green, J., Hicks, R. G., Sannes, F., Skubic, P., Snyder, A., Stone, R., Chen, A., Goldberg, M., Horwitz, N., Jawahery, A., Lipari, P., Moneti, G. C., Trahern, C. G., Hecke, H., Alam, M. S., Csorna, S. E., Garren, L., Mestayer, M. D., Panvini, R. S., and Yi, Xia

38. EVIDENCE AGAINST EXOTIC DECAYS OF B MESONS. (TALK)

Author

Chadwick, K., Chauveau, J., Ganci, P., Gentile, T., Kagan, H., Kass, R., Lobkowicz, F., Melissinos, A. C., Olsen, S. L., Poling, R., Rosenfeld, C., Rucinski, G., Thorndike, E. H., Green, J., Mueller, J. J., Sannes, F., Skubic, P., Snyder, A., Stone, R., Brody, A., Chen, A., Goldberg, M., Horwitz, N., Kandaswamy, J., Kooy, H., Moneti, G. C., Pistilli, P., Alam, M. S., Csorna, S. E., Fridman, A., Hicks, R., Panvini, R. S., Andrews, D., Avery, P., Berkelman, Karl, Cabenda, R., Cassel, D. G., Sadoff, A. J., Pipkin, F. M., Rohlf, J., Tanenbaum, William M., Wilson, R., Izen, J. M., Longuemare, C., Loomis, W. A., Mackay, W. W., Dewire, J. W., Ehrlich, R., Ferguson, T., Gilchriese, M. G. D., Robert Plunkett, Shinsky, K. A., Siemann, R. H., Silverman, A., Kreinick, D. L., Mistry, Nari B., Nordberg, E., Perchonok, R., Gittelman, B., Hartill, D. L., Herrup, D., Herzlinger, M., Bebek, C., Haggerty, J., Hempstead, M., Stein, P. C., Stone, S., Talmann, R., Weber, D., and Wilcke, R.

39. The CDF-II detector: Technical design report

Author

Blair, R., Byrum, Karen L., Dawson, J., Guarino, V., Kuhlmann, S., Lecompte, Thomas Joseph, Nodulman, L., Proudfoot, James, Wagner, Robert G., Wicklund, Arthur Barry, Breccia, L., Deninno, M., Fiori, I., Mazzanti, Paolo, Piacentino, G. M., Rimondi, F., Semeria, F., Zucchelli, S., Behrends, S., Bensinger, James R., Blocker, Craig Alan, Kirsch, Lawrence E., Lamoureux, J., Bonushkin, Y., Chase, F., Dworkin, L., Hauser, J., Lindgren, Michael Allen, Saltzberg, David Paul, Scott, A., Shi, Y., Amadon, Alexis, Berryhill, Jeffrey W., Contreras, M., Culbertson, Ray L., Dusatko, J., Frisch, Henry J., Grosso-Pilcher, C., Hohlmann, Marcus, Northrup, R., Sanders, H., Shochet, Melvyn J., Toback, David A., Wahl, J., Wilson, P., Fortney, L., Goshaw, Alfred T., Kowald, W., Lee, Alfred Mcclung, Oh, S. H., Phillips, Thomas J., Robertson, W. H., Wang, C., Albrow, Michael G., Anderson, J., Andresen, J., Atac, M., Barsotti, E., Beretvas, Andrew F., Berge, J. P., Biery, K., Binkley, Morris, Bossert, R., Bowden, M., Buckley-Geer, E., Byon-Wagner, A., Carter, H., Chappa, S., Cihangir, Selcuk, Cooper, G., Dejongh, Don Frederic, Demaat, R., Demina, R., Derwent, P., Drake, G., Elias, John E., Erdmann, W., Flaugher, B., Foster, G. William, Freeman, J., Gao, M., Geer, S., Goeransson, G., Grozis, C., Hahn, Stephen R., Harris, Robert M., Haynes, B., Herber, Randolph J., Holm, S., Howell, J., Hrycyk, M., Husby, D., Incandela, Joseph R., Jensen, H., Joshi, Umeshwar P., Kephart, Robert D., Kerby, J., Knopf, Walter R., Kroll, J., Lammel, S., Lewis, Jonathan D., Limon, P., Lindenmeyer, M., Lukens, P., Maeshima, Kaori, Miao, Ting, Mukherjee, A., Nelson, C., Newman-Holmes, Catherine, Nobrega, F., Pangburn, J., Patrick, J., Pavlicek, V., Petravick, D., Pitts, K., Plunkett, R., Pordes, Ruth, Ratzmann, P., Rivetta, C., Schlabach, P., Schmidt, Eugene E., Segler, S., Sexton-Kennedy, Elizabeth, Shaw, T., Shenai, A., Silva, R., Spalding, J., Spiegel, Leonard Gordon, Srage, J., Stanek, R., Streets, Jonathan Mark, Stuart, D., Tkaczyk, S., Tollestrup, Alvin V., Tang, Z., Treptow, K., Vidal, R., Wagner, R. L., Wands, R., Wester, William Carl, Wicklund, Eric J., Woodbury, K., Yagil, A., Yeh, Gong Ping, Yoh, J., Yarema, R., Yu, I., Zimmermann, S., Zimmerman, T., Zmuda, T., Konigsberg, Jacobo, Klimenko, Sergey, Korytov, A., Mitselmakher, Guenakh, Nomerotski, Andrei, Barone, M., Cordelli, M., Donno, F., Parri, A., Sansoni, A., Clark, Allan Geoffrey, Couyoumtzelis, C., Kambara, H., Speer, Thomas, Wu, X., Franklin, M., Gay, C., Huth, John Edward, Spiropulu, Maria, Troconiz, J. F., Handa, Takanobu, Iwata, Y., Kurino, K., Nakano, I., Ohmoto, T., Ohsugi, T., Takashima, Ryuichi, Christofek, Leonard Steven, Costello, J., Downing, R., Errede, D., Errede, Steven Michael, Fan, Qun, Holloway, L., Keup, R., Liss, Tony M., Roser, Robert M., Simaitis, V., Strologas, John, Cropp, R., Hinrichsen, B., Kellerbauer, A., Kim, H., Kordas, K., Ragan, Kenneth J., Robinson, A., Saab, T., Sinervo, Pekka K., Strahl, K., Taylor, W., Theoret, C., Trischuk, William, Warburton, Andreas T., Barnett, Bruce A., Blumenfeld, Barry J., Feng, Z., Gerdes, David W., Guimaraes, J., Orndorff, J., Smith, C., Snider, F., Abe, F., Fukui, Yasuo, Kohriki, T., Morita, Y., Nagasaka, Yasushi, Mikamo, S., Unno, Y., Ashmanskas, William Joseph, Carithers, William C., Einsweiler, K., Ely, Robert P., Galtieri, L., Garcia-Sciveres, Maurice, Haber, Carl H., Kim, Young-Kee, Lancaster, M., Lys, J., Milgrome, Oren, Paulini, M., Reher, D., Shapiro, M., Shuman, D., Siegrist, J., Wenzel, Hans J., Yao, W., Bauer, G., Friedman, J., Hafen, Elizabeth Scott, Kelley, K., Ngan, C. Y. P., Rosenson, Lawrence, Shah, T., Sphicas, Paraskevas, Sumorok, K., Tether, S., Tseng, J., Vucinic, D., Bromberg, Carl Michael, Huston, J., Miller, R., Murgia, Simona, Richards, R., Wolinski, J., Amidei, Dante E., Campbell, M., Chapman, J., Huang, Z., James, Eric B., Kelly, M., Mann, J., Murphy, C., Tecchio, M., Truitt, S., Vejcik, S., Winn, D., Wolinski, David S., Bailey, Mark W., Bruner, N., Gold, Michael S., Hoeferkamp, M., Matthews, J., Moore, E., Seidel, Sally Carol, Tannenbaum, Benn, Thomas, T. L., Worm, Steven D., Yu, L., Hoftiezer, J., Hughes, R., Koehn, Phillip Todd, Winer, B., Kato, Y., Nakamura, K., Okusawa, T., Toyoda, Haruki, Yoshida, T., Azzi, P., Bacchetta, Nicola, Bisello, Dario, Busetto, Giovanni, Castro, Andrea, Dorigo, T., Gotra, Yuri N., Loreti, Maurizio, Mariotti, M., Pescara, L., Praticelli, N., Ribon, A., Stanco, Luca, Wyss, J., Bevensee, B., Gallinaro, Michele, Heinrich, Joel, Holck, C., Robert Plunkett, Kononenko, Walter, Lockyer, Nigel S., Long, Owen R., Metzler, S., Newcomer, F. Mitchell, Oliveira, R., Ukegawa, Fumihiko, Berg, Richard, Williams, H. H., Amendolia, R., Basti, A., Bedeschi, Franco, Belforte, Stefano, Bettelli, S., Bellettini, Giorgio, Cervelli, F., Chiarelli, Giorgio, Cocca, E., Orso, Mauro, Donati, S., Ferretti, C., Gatti, P., Galeotti, S., Giannetti, P., Giusti, G., Incagli, M., Lami, Stefano, Lanzoni, M., Leone, Sandra, Lucchesi, D., Mangano, Michelangelo L., Menzione, A., Meschi, Emilio, Morsani, F., Murat, P., Paoletti, R., Parashar, N., Pasuello, D., Punzi, G., Raffaelli, F., Rapisarda, S., Ristori, L., Scribano, A., Spinella, F., Stefanini, A., Turini, N., Velev, G., Wallace, N. B., Zetti, F., Boudreau, J., Engels, E., Huffman, Brian T., Rosati, R., Shepard, P., Barnes, V., Bolla, G., Bortoletto, D., Garfinkel, A. F., Hardman, A., Hoffman, Kara Dion, Keaffaber, T., Laasanen, Alvin Toivo, Shaw, N. M., Barbaro, Pawel, Blusk, Steven Roy, Bodek, Arie, Budd, Howard Scott, Cassada, J., Chan, K. M., Kim, Bock-Joo, Kruse, Mark Charles, Liu, J., Sakumoto, W., Tipton, Paul Louis, Tollefson, K., Ye, H., Akopian, A., Apollinari, G., Bagdasarov, S., Bhatti, Anwar Ahmad, Demortier, Luc, Giokaris, N., Goulianos, Konstantin A., Khazins, D., Melese, P., Mesropian, Christina, Titov, A., Conway, John S., Devlin, Thomas J., Jacobs, V., Loomis, C., Valls, Juan A., Walsh, M., Watts, T., Antos, J., Chang, P. S., Chang, P. T., Cheng, M. T., Chu, M. L., Guo, R. S., Liu, Y. C., Teng, P. K., Wang, C. H., Wang, Ming-Jer, Wu, S. C., Yeh, P., Chertok, Maxwell Benjamin, Done, J., Kamon, Teruki, Mcintyre, Peter M., Webb, Robert C., Benjamin, Douglas P., Frautschi, Mark A., Ganel, O., Hao, W., Liu, Q., Papadimitriou, Vaia, Sill, A., Wigmans, Richard, Aota, S., Asakawa, T., Hara, Kazuhiko, Ikeda, H., Kikuchi, T., Kim, S., Kondo, K., Kuwabara, T., Minato, H., Miyashita, S., Nakada, H., Seiya, Yoshihiro, Shibayama, T., Suzuki, J., Suzuki, T., Takano, T., Takikawa, Koji, Tanaka, M., Uchida, T., Watanabe, T., Yasuoka, K., Karr, K., Sliwa, K., Timko, M., Akimoto, H., Arisawa, T., Fujimoto, Y., Hasegawa, S., Iwai, J., Terashi, Koji, Uesaka, S., Yoda, Y., Bellinger, James Nugent, Carlsmith, Duncan L., Chung, W., Handler, R., Ott, G., Lusin, S., Pondrom, Lee, Chandler, T., Feild, R. G., Kasha, Henry, Martin, A., Pappas, S., Schmidt, M., Wandersee, A., Budagov, Yu, Cambiaghi, M., Caner, A., Cauz, D., Chlachidze, G., Cobal-Grassmann, Marina, Gerard, G., Grassmann, H., Hartmann, F., Introzzi, G., Kesten, P., Knoblauch, D., Kongeter, A., Kovacs, E., Mishina, M., Moggi, N., Muller, T., Musy, M., Neuberger, D., Pagliarone, C., Pauletta, G., Penzo, A., Perazzo, A., Rodrigo, T., Rolli, Simona, Santi, L., Semenov, A., Strohmer, R., Tartarelli, Giuseppe Francesco, Chirikov, I., Tung, M., Vilar, Rocio, and Zanetti, Anna Maria

Subjects

Detectors and Experimental Techniques

40. OBSERVATION OF RADIATIVE DECAYS OF THE UPSILON (2S)

Author

Alam, M. S., Csorna, S. E., Garren, L., Mestayer, M. D., Panvini, R. S., Yi, Xia, Avery, P., Bebek, C., Berkelman, Karl, Cassel, D. G., Dewire, J. W., Ehrlich, R., Ferguson, T., Galik, R., Gilchriese, M. G. D., Gittelman, B., Halling, M., Hartill, D. L., Herrup, D., Holzner, S., Ito, M., Kandaswamy, J., Kistiakowsky, V., Kreinick, D. L., Kubota, Y., Mistry, Nari B., Morrow, F., Nordberg, E., Ogg, M., Perchonok, R., Robert Plunkett, Silverman, A., Stein, P. C., Stone, S., Weber, D., Wilcke, R., Sadoff, A. J., Giles, R., Hassard, J., Hempstead, M., Kinoshita, K., Mackay, W. W., Pipkin, F. M., Wilson, Richard, Jensen, T., Kagan, H., Behrends, S., Chadwick, K., Chauveau, J., Ganci, P., Gentile, T., Guida, Jan M., Guida, Joan A., Kass, R., Melissinos, A. C., Olsen, S. L., Parkhurst, G., Peterson, D., Poling, R., Rosenfeld, C., Rucinski, G., Thorndike, E. H., Tipton, P., Green, J., Hicks, R. G., Sannes, F., Skubic, P., Snyder, A., Stone, R., Chen, A., Goldberg, M., Horwitz, N., Jawahery, A., Lipari, P., Moneti, G. C., Trahern, C. G., and Hecke, H.

41. Deep Underground Neutrino Experiment (DUNE), Far Detector Technical Design Report, Volume II: DUNE Physics

Author

babak abi, Acciarri, Roberto, Mario A Acero O, Adamov, Giorge, David Adams, Adinolfi, Marco, Ahmad, Zubayer, Ahmed, Jhanzeb, Alion, Tyler, Saúl Alonso-Monsalve, Alt, Christoph, Anderson, John, Constantinos Andreopoulos, Andrews, Michael P., Manoa Andriamirado, Andrianala, Fenompanirina, Sofia Andringa, Artur Ankowski, Anthony, Jack, Mihail Antoniu Iliescu, Antonova, Maria, Antusch, Stefan, Alfredo Aranda, Akitaka Ariga, Arnold, Lukas, Arroyave, Manuel, Asaadi, Jonathan, Adam Aurisano, Aushev, Vladimir, Dario Autiero, Azfar, Farrukh, Ashley Back, Back, Henning, John Back, Given Names Deactivated Family Name Deactivated, Baesso, Paolo, Bagby, Linda, Bajou, Raphael, Balasubramanian, Supraja, Baldi, Pierre, Bambah, Bindu, Barao, F., Barenboim, Gabriela, Gary Barker, Barkhouse, Wayne, Barnes, Christopher, Barr, Giles, Barranco Monarca, Juan, Barros, N., Barrow, J. L., Bashyal, Amit, Vincent Marc Basque, Fatih Bay, Bazo Alba, J. L., John Beacom, Bechetoille, Edouard, Biswaranjan Behera, Leo Bellantoni, Bellettini, Giorgio, Bellini V., Beltramello, Olga, Belver, D., Nektarios Benekos, Francisco Neves, Berger, Joshua, Berkman, Sophie, Paolo Bernardini, Roman Matthias Berner, Berns, Hans-Gerd, Sergio Bertolucci, Betancourt, Minerba, Bezawada, Y., Bhattacharjee, M., Simone Biagi, Jianming Bian, Biassoni, Matteo, Kurt Biery, Bilki, Burak, Mary Bishai, Alexander Bitadze, Andrew Blake, Blanco Siffert, Beatriz, Flor de Maria Blaszczyk, Blazey, Gerald C., Edward Blucher, Boissevain, Jan, Bolognesi, Sara, Tim Bolton, Maurizio Bonesini, Bongrand, Mathieu, Filiberto Bonini, Alexander Booth, Christopher Booth, Stefania Bordoni, Aran Borkum, Tommaso Boschi, Nilay Bostan, Bour, Petr, Boyd, Steve B., Boyden, Daniel, Juraj Bracinik, Braga, Davide, Brailsford, Dominic, Brandt, Andrew, johan bremer, Chris Brew, Brianne, Eldwan, Stephen Brice, Brizzolari, Claudia, Carl Bromberg, Gustaaf Brooijmans, Bross, Alan, Giulia Brunetti, Buchanan, Norman, Budd, Howard, Davide Caiulo, Paolo Calafiura, Calcutt, Jacob, Calin, Marius, Calvez, Steven, Enrique Calvo Alamillo, Camilleri, Leslie, Alessio Caminata, Mario Campanelli, David Caratelli, Carini, Gabriella, Carlus, Bruno, Paolo Carniti, Caro Terrazas, Ivan, Carranza, Hector, Andres Castillo, Cesar Manuel Castromonte Flores, Cattadori, Carla, Fabien Cavalier, Flavio Cavanna, Centro, Sandro, Giuseppe Cerati, Alberto Cervelli, Cervera Villanueva, Anselmo, Chalifour, Michel, Chang, C., Chardonnet, Etienne, Animesh Chatterjee, Chattopadhyay, Subhasish, Jorge Chaves, Hucheng Chen, Mu-Chun Chen, Chen, Yifan, Daniel Cherdack, Chi, Cheng-Yi, Childress, Sam, Chiriacescu, Ana, Kihyeon Cho, Choubey, Sandhya, Christensen, Anne, David Christian, Georgios Christodoulou, Eric Church, Clarke, Peter, Thomas Coan, Alfredo Giuseppe Cocco, Joao Coelho, Erin Conley, Janet Conrad, Convery, Mark, Luke Corwin, Cotte, Philippe, Cremaldi, Lucien, Linda Cremonesi, José Ignacio Crespo Anadón, Cristaldo, Esteban, Cross, Ryan, Clara Cuesta, Cui, Yanou, Cussans, David, Dabrowski, Mieczyslaw, Da Motta, Helio, Peres, L. Da Silva, David, Quentin, Gavin Davies, Stefano Davini, Dawson, Jaime, De, Kaushik, Almeida, Rogerio, Debbins, Paul, Bonis, Isabelle, Michal Patrick Decowski, Andre de Gouvea, Holanda, Pedro, Icaza Astiz, Iker, Deisting, Alexander, Paul de Jong, Delbart, Alain, David Delepine, Delgado, Maritza, Andrea Dell’Acqua, Lurgio, Patrick, Erin Ewart, Grant, Nick, Hernandez Morquecho, Miguel Angel, Hewes, Jeremy, Junting Huang, Huang, Junying, Marcelo Augusto Leigui de Oliveira, Li, Shaorui, Shirley Li, Manuel Alejandro Ramírez Delgado, Jaydip Singh, Singh, Jyotsna, Smith, Adryanna, Smith, Andrew, Todd, Jacob, Mello Neto, J. R. T., David DeMuth, Dennis, Steve, Densham, Chris, Gregor Recalde, Derlis, Albert De Roeck, Romeri, Valentina, Jan Vries, Joris, Ranjan Dharmapalan, Félix Napoleón Díaz Desposorio, Diaz, Jorge S., Sergio Di Domizio, Di Giulio, Letizia, Pengfei Ding, Di Noto, Lea, Carla Distefano, Richard Diurba, Milind Diwan, Djurcic, Zelimir, Dokania, Neha, Michelle Dolinski, Domine, Laura, Daniel Douglas, Drielsma, Francois, Dominique Duchesneau, Duffy, K. E., Patrick Dunne, Durkin, Tim, Duyang, Hongyue, Olexiy Dvornikov, Dwyer, Daniel A., Dyshkant, Alexandre S., Eads, Michael, Edmunds, Daniel, Jonathan Eisch, Sandrine Emery-Schrenk, Antonio Ereditato, CARLOS ESCOBAR, Lorena Escudero, Evans, J. J., Ewart, E., Ezeribe, A. C., Fahey, Kevin, Falcone, Andrea, Farnese, Christian, Yasaman Farzan, Julian Felix, Enrique Fernandez-Martinez, Pablo Fernandez, Federico Ferraro, Laura Fields, Filkins, A., Frank Filthaut, Rory Fitzpatrick, Flanagan, Will, Fleming, Bonnie, Flight, Robert, Fowler, Jack, Fox, Walt, Jiří Franc, Francis, Kurt, Domenico Franco, John Freeman, Freestone, Julian, Fried, Jack, Alexander Friedland, Stuart Fuess, Furic, Ivan, Andrew Furmanski, Gago, A., Gallagher, Hugh, Gallego-Ros, Ana, Gallice, Niccolo, Galymov, Vyacheslav, Enrico Gamberini, Gamble, Trevor, Gandhi, Raj, Reddy Pratap Gandrajula, Gao, Shanshan, Diego Garcia Gamez, García-Peris, Miguel, Gardiner, Steven, Gastler, Dan, Ge, Guanqun, Gelli, Bruno, Gendotti, Adamo, Gent, Stephen, Zahra Ghorbani moghaddam, Daniele Gibin, Gil-Botella, Ines, Girerd, Claude, Anjan Giri, Gnani, D., Olga Gogota, Gold, Michael, Gollapinni, Sowjanya, Gollwitzer, Keith, Ricardo Gomes, Gomez Bermeo, Laura Vanessa, Luz Stella Gomez Fajardo, Francesco Gonnella, Gonzalez-Cuevas, Juan Alberto, Maury Goodman, Goodwin, Owen, Goswami, Srubabati, Gotti, Claudio, Prof. Evgueni Goudzovski, Grace, Carl, Graham, Mathew, Gramellini, E., Richard Gran, Granados, Everardo, Grant, Alan, Grant, Christopher, Gratieri, Diego, Green, Patrick, Steven Green, Greenler, Leland, Greenwood, M., Greer, Joel, Griffith, W. C., Groh, Micah, Grudzinski, James, Grzelak, Katarzyna, Gu, Wenqiang, Guarino, Victor, Guenette, Roxanne, Alberto Guglielmi, Guo, Bing, Guthikonda, K. K., Gutierrez, Rafael, Pawel Guzowski, Guzzo, Marcelo, Gwon, Sunwoo, Habig, A., Hackenburg, A., Hadavand, Haleh, Haenni, Roger, Hahn, Alan, Jennifer Haigh, Haiston, James, Thomas Hamernik, Hamilton, Philip, Jiyeon Han, Harder, Kristian, Harris, Debbie, Hartnell, J., Takuya Hasegawa, Robert Hatcher, Hazen, Eric, Anne Heavey, Heeger, K. M., Hennessy, Karol, Henry, Sarah, Kenneth Herner, Hertel, Lars, Hewes, V., Higuera Pichardo, Aaron, Tony Hill, Stephen Hillier, Alexander Himmel, Hoff, James, Hohl, Christian, Holin, Anna, Hoppe, E. W., Glenn Horton-Smith, Matheus Hostert, Hourlier, Adrien, Howard, Bruce, Howell, Ryan, Hugon, Justin, Iles, Gregory, Illingworth, Robert, Ara Ioannisian, Ran Itay, Izmaylov, Alexander, James, Eric, Jargowsky, B., Jediny, Filip, César Jesús-Valls, Ji, Xiangpan, Jiang, L., Jiménez, Sergio, Jipa, Alexandru, Connor Johnson, Randy Johnson, Benjamin Jones, Sebastian Jones, Chang Kee Jung, Thomas Junk, Jwa, Yeon-Jae, Monireh Kabirnezhad, Kaboth, Asher, Kadenko, Ihor M., Felipe Garcia Ken Kamiya, Georgia Karagiorgi, Karcher, A., Karolak, Mark, Karyotakis, Yannis, Kasai, Seiji, Kasetti, Siva, Kashur, Lane, Narine Kazarian, Edward Kearns, Pt, Keener, Kevin Kelly, Kemp, Ernesto, Ketchum, Wes, steve kettell, Marat Khabibullin, Khotjantsev, Alexei, Khvedelidze, Arsen, Kim, D., King, Bonnie, Brian Kirby, Michael Kirby, Joshua Klein, Koehler, Kevin, Lisa Koerner, Samuel Kohn, Patrick Pascal Koller, Michael Kordosky, Thomas Kosc, Kose, Umut, Kostelecky, V. Alan, Kunal Kothekar, Krennrich, Frank, Igor Kreslo, Yury Kudenko, Vitaly Kudryavtsev, Sergey Kulagin, Kumar, Jason, Kumar, Rajeev, Kuruppumullage Don Chatura Kuruppu, Václav Kůs, Kutter, Thomas, Lambert, A., Lande, Kenneth, Charles Lane, Lang, Karol, Thomas Langford, Pierre Lasorak, Last, David, Lastoria, Chiara, Laundrie, Andy, Lawrence, A., Lazanu, Ionel, Ryan LaZur, Le, Trung, Learned, John, Lebrun, Patrice, Giovanna Lehmann Miotto, Lehnert, Ralf, Leitner, M., Leyton, Michael, Li, Lingge, Li, Teng, Yichen Li, Liao, Heng-Ye, Cheng-Ju Lin, Lin, Shih-Kai, Lister, Adam, Littlejohn, Bryce, Liu, J., Sarah Lockwitz, Loew, Timothy, Milos Lokajicek, Lomidze, Irakli, Long, Ken, Loo, Kai, David Lorca Galindo, Lord, Tom, John LoSecco, William Louis, Kam-Biu Luk, Xiao Luo, Nicolas Lurkin, Thorsten Lux, Vitor Prestes Luzio, Macfarlane, David, Machado, Ana Amelia, Pedro Machado, Christopher Macias, Macier, Jolie R., maddalena antonello, Peter Madigan, Magill, Steve, Kendall Mahn, Amelia Maio, James Maloney, Mandrioli, Gianni, Jose Maneira, Manenti, Laura, Manly, S., Mann, W. A., Manolopoulos, Konstantinos, Manrique Plata, Maria, Alberto Marchionni, Marciano, William, Marfatia, Danny, Camillo Mariani, Jelena Maricic, Franciole Marinho, ALYSIA MARINO, Marvin Marshak, Christopher Marshall, John Marshall, Marteau, Jacques, Justo Martín-Albo, Martinez, Norman, David Martinez Caicedo, Sergey Martynenko, Katie Mason, Andrew Mastbaum, Mehedi Masud, Matsuno, Shigenobu, Matthews, J., Mauger, Christopher, Nicoletta Mauri, Konstantinos Mavrokoridis, Mazza, Roberto, Anna Mazzacane, Mazzucato, Edoardo, Mccluskey, Elaine, Mcconkey, Nicola, Kevin McFarland, Clark McGrew, Andrew McNab, Mefodiev, Alexander, Poonam Mehta, Melas, Pantelis, Mellinato, Michele, Mena, Olga, Menary, Scott, Mendes Santos, Lucas, Mendez, Hector, Alessandro Menegolli, guang meng, Mark Messier, Metcalf, William, Mewes, Matthew, Holger Meyer, Miao, Ting, Michna, Gregory, Miedema, Thijs, Jost Migenda, Milincic, Radovan, Miller, William H., Joshua Mills, Milne, Cody, Mineev, Oleg, Omar Gustavo Miranda, Miryala, Sandeep, Mishra, C. Shekhar, Sanjib Mishra, Mislivec, Aaron, Mladenov, Dimitar, Mocioiu, Irina, Kristian Moffat, Niccolo' Moggi, Rukmani Mohanta, Tanaz Mohayai, Nikolai Mokhov, Molina, Jorge, Molina Bueno, Laura, Alessandro Montanari, Claudio Montanari, Montanari, David, Montano Zetina, Luis, Moon, Jarrett, Mooney, Michael, Deywis Moreno Lopez, Morgan, Ben, Morris, Casandra, Christopher Mossey, Motuk, Erdem, Moura, Celio A., Mousseau, Joel, Mu, Wei, Mualem, Leon, Mueller, Justin, Mathew Muether, Mufson, Stuart, Muheim, Franz, Muir, Alan, Mulhearn, Mike, Muramatsu, Hajime, Murphy, Sebastien, Musser, Jim, Nachtman, Jane, Nagu, S., Nalbandyan, Mikayel, Nandakumar, Raja, Naples, Donna, Shinya Narita, Navas-Nicolas, D., Nitish Nayak, Miquel Nebot Guinot, Lina Necib, Negishi, Kentaro, Jeffrey Nelson, Nesbit, Jake, Marzio Nessi, David Newbold, Newcomer, F. M., Newhart, Duane, Ryan Nichol, Evan Niner, Kurtis Nishimura, Andrew Norman, Northrop, Rich, Pau Novella, Jaroslaw Andrzej Nowak, Oberling, Michael, Andres Olivares del Campo, Olivier, Andrew, Onel, Yasar, Onishchuk, Yuriy, Ott, Jordan, Luca Pagani, sandip pakvasa, Ornella Palamara, Sandro Palestini, Jonathan Paley, Marco Pallavicini, Palomares, Carmen, Pantic, Emilija, Paolone, Vittorio, Papadimitriou, Vaia, riccardo papaleo, Antonis Papanestis, Paramesvaran, Sudarshan, Stephen Parke, Parsa, Zohreh, Mihaela Parvu, Pascoli, Silvia, Pasqualini, Laura, Pasternak, Jaroslaw, Pater, Joleen, Cheryl Patrick, Laura Patrizii, Ryan Patterson, Patton, Simon John, Patzak, Thomas, Paudel, Ajib, Paulos, Bob, Laura Paulucci, Zarko Pavlovic, Pawloski, Greg, Payne, David, Viktor Pěč, Jm, Prof Dr Ir Simon Peeters, Penichot, Yves, Pennacchio, Elisabetta, Penzo, Aldo, Orlando Peres, Perry, James, Pershey, Daniel, Gianluigi Ezio Pessina, Gianluca Petrillo, Petta, Catia, Petti, Roberto, Piastra, Francesco, Pickering, Luke, Francesco Pietropaolo, Pillow, James, Robert Plunkett, Ronald Poling, Pons, Xavier, Navaneeth Poonthottathil, Stephen Pordes, Potekhin, Maxim, Potenza, Renato, Potukuchi, B. V. K. S., Pozimski, Juergen, Michele Pozzato, Suprabh Prakash, Prakash, Tarun, Prince, Sebastien, Pugnere, Denis, Qi, K., Xin Qian, Jennifer Raaf, Raboanary, R., Radeka, Veljko, Jonas Rademacker, Balint Radics, Aleena Rafique, Raguzin, Eric, Rai, Mousam, Rajaoalisoa, Miriama, Rakhno, Igor, Rakotondramanana, H. T., Rakotondravohitra, Laza, Yorck Ramachers, Rameika, Regina, Bryan Ramson, Andrea Rappoldi, Gian Luca Raselli, Peter Neil Ratoff, Ravat, Sylvain, Razafinime, H., Real, Jean-Sebastien, Brian Rebel, Redondo, David, Reggiani-Guzzo, Marina, Tyler Rehak, Reichenbacher, Juergen, Reitzner, S., Andrew Renshaw, Rescia, Sergio, Resnati, Filippo, Reynolds, Aidan, Riccobene, Giorgio, Rice, Logan, Keith Rielage, Rigaut, Yann-Axel, Rivera, David, Rochester, Leon, Marco Roda, Philip Rodrigues, Manuel Jesus Rodriguez Alonso, Rodriguez Rondon, Jairo, Roeth, Alison J., Rogers, Hannah, Rosauro-Alcaraz, Salvador, Massimo Rossella, Rout, Jogesh, Roy, Samiran, Rubbia, Andre, Rubbia, Carlo, Brooke Russell, James Russell, Ruterbories, D., Saakyan, Ruben, sabrina sacerdoti, Safford, Twymun, Narendra Sahu, paola sala, Samios, Nicholas, Mayly Sanchez, David Sanders, David Sankey, Santana, Samuel, Santos-Maldonado, Marvin, Saoulidou, Niki, Piera Sapienza, Sarasty, Carlos, Sarcevic, Ina, Savage, Geoffrey, Savinov, Vladimir, Scaramelli, Alberto, Andrew Scarff, Scarpelli, Andrea, Schaffer, Tom, Heidi Schellman, Schlabach, Philip, Schmitz, David W., Kate Scholberg, Anne Schukraft, Segreto, Ettore, Jonathon Sensenig, Seong, Ilsoo, Antonino Sergi, Sergiampietri, F., Davide Sgalaberna, Michael Shaevitz, Shafaq, Sheeba, Shamma, M., Sharma, Hans, Sharma, Rahul, Shaw, Terri, Shepherd-Themistocleous, Claire, Seodong Shin, Shooltz, Dean, Robert Shrock, Simard, Laurent, Simos, Nikolaos, James Sinclair, Sinev, Gleb, Roland Sipos, Sippach, F. W., Gabriele Sirri, Andriaseta Sitraka, Siyeon, Kim, Smargianaki, D., Smith, Erica, Smith, Paul, Smolik, Jan, Smy, Michael, Pavel Snopok, Soares Nunes, Mônica, Sobel, Henry, Mitch Soderberg, Carlos Javier Solano Salinas, Stefan Soldner-Rembold, Solomey, Nicholas, Vladimir Solovov, Sondheim, Walter, Michel Sorel, Soto-Oton, Jose, Alexandre Sousa, Soustruznik, Karel, Fabio Spagliardi, Spanu, Maura, Spitz, Joshua, Spooner, Neil Jc, Spurgeon, Kyle, Staley, Richard, Stancari, Michelle, Luca Stanco, Steiner, Herbert M., Stewart, James, Stillwell, Ben, Jason Stock, Francesca Stocker, Stokes, Tyler, Matthew Strait, Thomas Strauss, sergei striganov, Alexander Stuart, Donald Summers, Antonio Surdo, Susic, Vasja, Louise Suter, Concetta Maria Sutera, Svoboda, Robert, Szczerbinska, Barbara, Andrzej Szelc, Richard Talaga, Tanaka, H. A., Beatriz Tapia Oregui, Alexander Tapper, Salman Tariq, Tatar, E., Rex Tayloe, Abraham Teklu, Matteo Tenti, Kazuhiro Terao, Christoph Andreas Ternes, Francesco Terranova, Gemma Testera, Alessandro Thea, Joshua Thompson, Thorn, Craig, Steven Timm, Alessandra Tonazzo, Torti, Marta, Mariam Tortola, Francesco Tortorici, Totani, Dante, Matt Toups, Christos Touramanis, Trevor, Jason, Trzaska, Wladyslaw, Yun-Tse Tsai, Tsamalaidze, Zviadi, Tsang, Ka Vang, Tsverava, Nikolozi, Tufanli, Serhan, Tull, Craig, Tyley, E., Tzanov, Martin, Uchida, Melissa, Urheim, Jon, Tracy Usher, Vagins, Mark R., Vahle, Patricia, Valdiviesso, G. A., Valencia, E., Zoya Vallari, Jwf, Valle, Sofia Vallecorsa, Richard Van Berg, Richard Van de Water, David Vanegas Forero, Filippo Varanini, Vargas, Danaisis, Gary Varner, Justin Vasel, Vasseur, Georges, Vaziri, Kamran, Sandro Ventura, Antonio Verdugo de Osa, Vergani, Stefano, Vermeulen, Milo, Marco Verzocchi, Souza, H. V., Chiara Vignoli, Cristovao Vilela, Viren, Brett, Vrba, Tomas, Wachala, Tomasz, Waldron, Abigail, Michael Wallbank, Wang, Hanguo, Wang, Jingbo, Wang, Yi, Wang, Yue, Warburton, Karl, Warner, David, Morgan Wascko, Waters, David, Alan Watson, Weatherly, Pierce, Alfons Weber, Michele Weber, Hanyu Wei, Weinstein, Amanda, Wenman, Dan, Wetstein, Matthew, Yang, Shaokai, Geralyn Zeller, While, M. R., White, Andy, Leigh Whitehead, Denver Whittington, Michael Wilking, Callum Wilkinson, Williams, Zachary, Fergus Wilson, Robert Wilson, Jeremy Wolcott, Wongjirad, Taritree, Wood, Kevin, Lynn Wood, Worcester, Elizabeth, Worcester, Matthew, Clarence Wret, Wanwei Wu, Xiao, Y., Guang Yang, Tingjun Yang, Yershov, Nikolai, Katsuya Yonehara, Young, Tim, Bo Yu, Jaehoon Yu, Jaroslav Zalesak, Zambelli, Laura, Bruno Zamorano, Zani, Andrea, Zazueta, Luis, Zeller, G. P., Zennamo, Joseph, Zeug, Kyle, Chao Zhang, Zhao, Manhong, Zhivun, Elena, Guanying Zhu, Zimmerman, Eric, Zito, Marco, Stefano Zucchelli, Josef Zuklin, Zutshi, Vishnu, Robert Zwaska, Institut de Physique des 2 Infinis de Lyon (IP2I Lyon), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), AstroParticule et Cosmologie (APC (UMR_7164)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité), Institut de Recherches sur les lois Fondamentales de l'Univers (IRFU), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, Laboratoire de l'Accélérateur Linéaire (LAL), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire d'Annecy de Physique des Particules (LAPP), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique Subatomique et de Cosmologie (LPSC), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP ), Université Grenoble Alpes (UGA), DUNE, Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Université de Paris (UP), Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11), and HEP, INSPIRE

Subjects

Particle physics, nucleon: decay, LBNF, Physics - Instrumentation and Detectors, [PHYS.HEXP] Physics [physics]/High Energy Physics - Experiment [hep-ex], media_common.quotation_subject, far detector, FOS: Physical sciences, 01 natural sciences, High Energy Physics - Experiment, Standard Model, High Energy Physics - Experiment (hep-ex), Component (UML), 0103 physical sciences, CP: violation, antimatter, [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex], Deep Underground Neutrino Experiment, Grand Unified Theory, neutrino: supernova, [PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det], Detectors and Experimental Techniques, capture, 010306 general physics, physics.ins-det, media_common, Physics, hep-ex, 010308 nuclear & particles physics, Instrumentation and Detectors (physics.ins-det), time projection chamber: liquid argon, deep underground detector, Universe, asymmetry: CP, neutrino: detector, grand unified theory, Neutrino detector, [PHYS.PHYS.PHYS-INS-DET] Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det], Systems engineering, CP violation, neutrino: burst, proposed experiment, Neutrino, Particle Physics - Experiment, signature

Abstract

The preponderance of matter over antimatter in the early universe, the dynamics of the supernovae that produced the heavy elements necessary for life, and whether protons eventually decay -- these mysteries at the forefront of particle physics and astrophysics are key to understanding the early evolution of our universe, its current state, and its eventual fate. DUNE is an international world-class experiment dedicated to addressing these questions as it searches for leptonic charge-parity symmetry violation, stands ready to capture supernova neutrino bursts, and seeks to observe nucleon decay as a signature of a grand unified theory underlying the standard model. The DUNE far detector technical design report (TDR) describes the DUNE physics program and the technical designs of the single- and dual-phase DUNE liquid argon TPC far detector modules. Volume II of this TDR, DUNE Physics, describes the array of identified scientific opportunities and key goals. Crucially, we also report our best current understanding of the capability of DUNE to realize these goals, along with the detailed arguments and investigations on which this understanding is based. This TDR volume documents the scientific basis underlying the conception and design of the LBNF/DUNE experimental configurations. As a result, the description of DUNE's experimental capabilities constitutes the bulk of the document. Key linkages between requirements for successful execution of the physics program and primary specifications of the experimental configurations are drawn and summarized. This document also serves a wider purpose as a statement on the scientific potential of DUNE as a central component within a global program of frontier theoretical and experimental particle physics research. Thus, the presentation also aims to serve as a resource for the particle physics community at large., 357 pages, 165 figures (updated typos in Table 6.1 and corrected errors in author list)

42. Measurement of $W$ + $\gamma$ and $Z$ + $\gamma$ Cross Sections in the Electron and Muon Channels in $\sqrt{s}$ = 1.8 TeV $\bar{p}p$ Collisions

Author

Abe, F., Albrow, Michael G., Amidei, Dante E., Anway, Carol E., Apollinari, G., Atac, M., Auchincloss, Priscilla S., Azzi, P., Bacchetta, Nicola, Baden, Andrew R., Badgett, W., Bailey, Mark W., Bamberger, A., Barbaro, Pawel, Barbaro-Galtieri, Angela, Barnes, V. E., Barnett, Bruce A., Bauer, G., Baumann, T., Bedeschi, Franco, Behrends, S., Belforte, Stefano, Bellettini, Giorgio, Bellinger, James Nugent, Benjamin, Douglas P., Benlloch, J., Bensinger, James R., Beretvas, Andrew F., Berge, J. P., Bertolucci, S., Biery, K., Bhadra, S., Binkley, Morris, Bisello, Dario, Blair, R., Blocker, Craig Alan, Bodek, Arie, Bolognesi, V., Booth, A. W., Boswell, C., Brandenburg, George W., Brown, David Nathan, Buckley-Geer, E., Budd, H. S., Busetto, Giovanni, Byon-Wagner, A., Byrum, K. L., Campagnari, Claudio, Campbell, M., Caner, A., Carey, R., Carithers, William C., Carlsmith, Duncan L., Carroll, J. T., Cashmore, R., Castro, A., Cen, Y., Cervelli, F., Chadwick, K., Chapman, J., Chiarelli, Giorgio, Chinowsky, William, Cihangir, Selcuk, Clark, Allan Geoffrey, Cobal-Grassmann, Marina, Connor, D., Contreras, M., Cooper, John W., Cordelli, M., Crane, D., Cunningham, J. D., Day, C., Dejongh, Don Frederic, Agnello, S., Orso, Mauro, Demortier, Luc, Denby, Bruce Hayes, Derwent, P. F., Devlin, Thomas J., Dibitonto, D., Dickson, Mark, Drucker, R. B., Dunn, A., Einsweiler, K., Elias, John E., Ely, Robert P., Eno, Sarah C., Errede, D., Errede, Steven Michael, Etchegoyen, A., Farhat, B., Frautschi, Mark A., Feldman, Gary J., Flaugher, B., Foster, G. William, Franklin, M., Freeman, J., Frisch, Henry J., Fuess, T., Fukui, Yasuo, Garfinkel, A. F., Gauthier, A., Geer, S., Gerdes, David W., Giannetti, P., Giokaris, N., Giromini, P., Gladney, Larry D., Gold, Michael S., Gonzalez, J., Goulianos, Konstantin A., Grassmann, H., Grieco, G., Grindley, R., Grosso-Pilcher, C., Haber, Carl H., Hahn, Stephen R., Handler, R., Hara, Kazuhiko, Harral, B., Harris, Robert M., Hauger, S. A., Hauser, J., Hawk, C., Hessing, T., Robert Plunkett, Holloway, L., Holscher, A., Hong, S., Houk, G., Hu, P., Hubbard, B., Huffman, Brian T., Hughes, R., Hurst, Peter T., Huth, John Edward, Hylen, James Edward, Incagli, M., Ino, T., Iso, H., Jensen, H., Jessop, Colin Philip, Johnson, R. P., Joshi, Umeshwar P., Kamon, Teruki, Kanda, S., Kardelis, D. A., Karliner, Inga, Kearns, E., Keeble, L., Kephart, Robert D., Kesten, P., Keup, Randy Michael, Keutelian, H., Kim, D., Kim, S. B., Kim, S. H., Kim, Young-Kee, Kirsch, Lawrence E., Kondo, K., Konigsberg, Jacobo, Kordas, K., Kovacs, E., Krasberg, M., Kuhlmann, S. E., Kuns, Edward W., Laasanen, Alvin Toivo, Lammel, S., Lamoureux, J. I., Leone, Sandra, Lewis, J., Li, W., Limon, P., Lindgren, Michael Allen, Liss, Tony M., Lockyer, Nigel S., Loreti, Maurizio, Low, E. H., Lucchesi, D., Luchini, C. B., Lukens, P., Maas, Peter, Maeshima, Kaori, Mangano, Michelangelo L., Marriner, J. P., Mariotti, M., Markeloff, R., Markosky, L. A., Matthews, J., Mattingly, R., Mcintyre, Peter M., Menzione, A., Meschi, Emilio, Meyer, T., Mikamo, S., Miller, M., Mimashi, T., Miscetti, S., Mishina, M., Miyashita, S., Morita, Y., Moulding, S., Mueller, J., Mukherjee, A., Muller, T., Nakae, L. F., Nakano, I., Nelson, C., Neuberger, D., Newman-Holmes, Catherine, Ng, J. S. T., Ninomiya, M., Nodulman, L., Ogawa, S., Paoletti, R., Papadimitriou, Vaia, Para, A., Pare, E., Park, S., Patrick, J., Pauletta, G., Pescara, L., Phillips, Thomas J., Piacentino, A. G., Plunkett, R., Pondrom, Lee, Proudfoot, James, Ptohos, F., Punzi, G., Quarrie, David R., Ragan, Kenneth J., Redlinger, George, Rhoades, J., Roach, M., Rimondi, F., Ristori, L., Robertson, W. J., Rodrigo, T., Rohaly, T., Roodman, Aaron J., Sakumoto, W. K., Sansoni, A., Sard, R. D., Savoy-Navarro, A., Scarpine, V., Schlabach, P., Schmidt, Eugene E., Schneider, Olivier, Schub, M. H., Schwitters, R., Sciacca, G., Scribano, A., Segler, S., Seidel, Sally Carol, Seiya, Yoshihiro, Sganos, George Serafim, Shapiro, M., Shaw, N. M., Sheaff, Marleigh C., Shochet, Melvyn J., Siegrist, J., Sill, A., Sinervo, Pekka K., Skarha, J., Sliwa, K., Smith, D. A., Snider, F. D., Song, L., Song, T., Spahn, M., Sphicas, Paraskevas, Spies, A., St Denis, Richard Dante, Stanco, Luca, Stefanini, A., Sullivan, G., Sumorok, K., Swartz, R. L., Takano, M., Takikawa, Koji, Tarem, S., Tartarelli, Giuseppe Francesco, Tether, S., Theriot, D., Tipton, Paul Louis, Tkaczyk, S., Tollestrup, Alvin V., Tonnison, J., Trischuk, William, Tsay, Y., Tseng, J., Turini, N., Ukegawa, Fumihiko, Underwood, D., Vejcik, S., Vidal, R., Vondracek, M., Wagner, Robert G., Wagner, R. L., Wainer, N., Walker, R. C., Walsh, J., Warburton, Andreas T., Watts, G., Watts, T., Webb, Robert C., Wendt, C., Wenzel, Hans J., Wester, William Carl, Westhusing, T., White, Sebastian N., Wicklund, Arthur Barry, Wicklund, Eric J., Williams, H. H., Winer, B. L., Wolinski, J., Wu, D. Y., Wu, X., Wyss, J., Yagil, A., Yasuoka, K., Ye, Y., Yeh, Gong Ping, Yoh, J., Yokoyama, M., Yun, Jae-Chul, Zanetti, Anna Maria, Zetti, F., Zhang, S., Zhang, W., and Zucchelli, S.

43. BARYON PRODUCTION IN THE UPSILON REGION. (TALK)

Author

Brody, A., Chen, A., Goldberg, M., Horwitz, N., Kandaswamy, J., Kooy, H., Moneti, G. C., Pistilli, P., Alam, M. S., Csorna, S. E., Fridman, A., Hicks, R., Panvini, R. S., Andrews, D., Avery, P., Berkelman, Karl, Cabenda, R., Cassel, D. G., Dewire, J. W., Ehrlich, R., Ferguson, T., Gilchriese, M. G. D., Gittelman, B., Hartill, D. L., Herrup, D., Herzlinger, M., Kreinick, D. L., Mistry, Nari B., Nordberg, E., Perchonok, R., Robert Plunkett, Shinsky, K. A., Siemann, R. H., Silverman, A., Stein, P. C., Stone, S., Talmann, R., Weber, D., Wilcke, R., Bebek, C., Haggerty, J., Mackay, W. W., Pipkin, F. M., Rohlf, J., Tanenbaum, William M., Wilson, R., Lobkowicz, F., Melissinos, A. C., Olsen, S. L., Poling, R., Sadoff, A. J., Chadwick, K., Hempstead, M., Izen, J. M., Longuemare, C., Loomis, W. A., Stone, R., Rosenfeld, C., Rucinski, G., Thorndike, E. H., Green, J., Mueller, J. J., Sannes, F., Skubic, P., Snyder, A., Chauveau, J., Ganci, P., Gentile, T., Kagan, H., and Kass, R.

44. phi MESON PRODUCTION AT THE UPSILON RESONANCES AND THE NEARBY CONTINUUM

Author

Chen, A., Goldberg, M., Horwitz, N., Jawahery, A., Lipari, P., Moneti, G. C., Trahern, C. G., Hecke, H., Alam, M. S., Csorna, S. E., Garren, L., Mestayer, M. D., Panvini, R. S., Yi, Xia, Avery, P., Bebek, C., Berkelman, Karl, Cassel, D. G., Dewire, J. W., Ehrlich, R., Ferguson, T., Galik, R., Gilchriese, M. G. D., Gittelman, B., Halling, M., Hartill, D. L., Herrup, D., Holzner, S., Ito, M., Kandaswamy, J., Kistiakowsky, V., Kreinick, D. L., Kubota, Y., Mistry, Nari B., Morrow, F., Nordberg, E., Ogg, M., Perchonok, R., Robert Plunkett, Silverman, A., Stein, P. C., Stone, S., Weber, D., Wilcke, R., Sadoff, A. J., Giles, R., Hassard, J., Hempstead, M., Kinoshita, K., Mackay, W. W., Pipkin, F. M., Wilson, Richard, Jensen, T., Kagan, H., Behrends, S., Chadwick, K., Chauveau, J., Ganci, P., Gentile, T., Guida, Jan M., Guida, Joan A., Kass, R., Melissinos, A. C., Olsen, S. L., Parkhurst, G., Peterson, D., Poling, R., Rosenfeld, C., Rucinski, G., Thorndike, E. H., Tipton, P., Green, J., Hicks, R. G., Sannes, F., Skubic, P., Snyder, A., and Stone, R.

45. THE SMALL ANGLE SILICON DETECTOR SYSTEM OF CDF

Author

Bertolucci, S., Cordelli, M., Curatolo, M., Dulach, B., Esposito, B., Giromini, P., Miozzi, S., Sansoni, A., Bedeschi, Franco, Bellettini, G., Bosi, F., Bosisio, L., Cervelli, F., Del Fabbro, R., Orso, M., Di Virgilio, A., Focardi, E., Giannetti, P., Giorgi, M., Menzione, A., Ristori, L., Scribano, A., Sestini, P., Stefanini, A., Tonelli, G., Zetti, F., Belforte, S., Chapin, T., Chiarelli, G., Giokaris, N., Goulianos, Konstantin A., Robert Plunkett, and White, Sebastian N.

46. A HIGH STATISTICS STUDY OF UPSILON (2S) ---> pi+ pi- UPSILON (1S)

Author

Giles, R., Hassard, J., Hempstead, M., Kinoshita, K., Mackay, W. W., Pipkin, F. M., Wilson, Richard, Jensen, T., Kagan, H., Avery, P., Bebek, C., Berkelman, Karl, Cassel, D. G., Dewire, J. W., Ehrlich, R., Ferguson, T., Galik, R., Gilchriese, M. G. D., Gittelman, B., Halling, M., Hartill, D. L., Herrup, D., Holzner, S., Ito, M., Kandaswamy, J., Kistiakowsky, V., Kreinick, D. L., Kubota, Y., Mistry, Nari B., Morrow, F., Nordberg, E., Ogg, M., Perchonok, R., Robert Plunkett, Silverman, A., Stein, P. C., Stone, S., Weber, D., Wilcke, R., Sadoff, A. J., Behrends, S., Chadwick, K., Chauveau, J., Ganci, P., Gentile, T., Guida, Jan M., Guida, Joan A., Kass, R., Melissinos, A. C., Olsen, S. L., Parkhurst, G., Peterson, D., Poling, R., Rosenfeld, C., Rucinski, G., Thorndike, E. H., Tipton, P., Green, J., Hicks, R. G., Sannes, F., Skubic, P., Snyder, A., Stone, R., Chen, A., Goldberg, M., Horwitz, N., Jawahery, A., Lipari, P., Moneti, G. C., Trahern, C. G., Hecke, H., Alam, M. S., Csorna, S. E., Garren, L., Mestayer, M. D., Panvini, R. S., and Yi, Xia

47. NOvA Short-Baseline Tau Neutrino Appearance Search

Author

Keloth, Rijeesh, Aurisano, Adam, Sousa, Alexander, Davies, Gavin S., Suter, Louise, and Robert Plunkett

Subjects

High Energy Physics - Experiment (hep-ex), Physics - Instrumentation and Detectors, Physics::Instrumentation and Detectors, High Energy Physics::Phenomenology, FOS: Physical sciences, High Energy Physics::Experiment, Instrumentation and Detectors (physics.ins-det), High Energy Physics - Experiment

Abstract

Standard three-flavor neutrino oscillations have well explained by a wide range of neutrino experiments. However, the anomalous results, such as electron-antineutrino excess seen by LSND and MiniBooNE do not fit the three-flavor paradigm. This can be explained by an additional fourth flavor sterile neutrino at a larger scale than the existing three flavor neutrinos. The NOvA experiment consists of two finely segmented, liquid scintillator detectors operating 14 .6 mrad off-axis from the NuMI muon-neutrino beam. The Near Detector is located on the Fermilab campus, 1 km from the NuMI target, while the Far Detector is located at Ash River, MN, 810 km from the NuMI target. The NOvA experiment is primarily designed to measure electron-neutrino appearance at the Far Detector using the Near Detector to control systematic uncertainties; however, the Near Detector is well suited for searching for anomalous short-baseline oscillations. This poster will present a novel method for selecting tau neutrino interactions with high purity at the Near Detector using a convolutional neural network. Using this method, the sensitivity to anomalous short-baseline tau-neutrino appearance due to sterile neutrino oscillations will be presented., Talk presented at the APS Division of Particles and Fields Meeting (DPF 2017), July 31-August 4, 2017, Fermilab. C170731

48. A MEASUREMENT OF THE LEPTONIC BRANCHING RATIO OF THE UPSILON (2S). (TALK)

Author

Chadwick, K., Chauveau, J., Ganci, P., Gentile, T., Kagan, H., Kass, R., Lobkowicz, F., Melissinos, A. C., Olsen, S. L., Poling, R., Rosenfeld, C., Rucinski, G., Thorndike, E. H., Green, J., Mueller, J. J., Sannes, F., Skubic, P., Snyder, A., Stone, R., Brody, A., Chen, A., Goldberg, M., Horwitz, N., Kandaswamy, J., Kooy, H., Moneti, G. C., Pistilli, P., Alam, M. S., Csorna, S. E., Fridman, A., Hicks, R., Panvini, R. S., Andrews, D., Avery, P., Berkelman, Karl, Cabenda, R., Cassel, D. G., Dewire, J. W., Ehrlich, R., Ferguson, T., Gilchriese, M. G. D., Gittelman, B., Loomis, W. A., Mackay, W. W., Pipkin, F. M., Rohlf, J., Tanenbaum, William M., Hartill, D. L., Herrup, D., Herzlinger, M., Kreinick, D. L., Shinsky, K. A., Siemann, R. H., Silverman, A., Stein, P. C., Stone, S., Talmann, R., Weber, D., Wilcke, R., Bebek, C., Wilson, R., Sadoff, A. J., Haggerty, J., Hempstead, M., Izen, J. M., Longuemare, C., Mistry, Nari B., Nordberg, E., Perchonok, R., and Robert Plunkett

49. CHARGED HADRON PRODUCTION IN THE UPSILON REGION

Author

Avery, P., Bebek, C., Berkelman, Karl, Cassel, D. G., Dewire, J. W., Ehrlich, R., Ferguson, T., Galik, R., Gilchriese, M. G. D., Gittelman, B., Halling, M., Hartill, D. L., Herrup, D., Holzner, S., Ito, M., Kandaswamy, J., Kistiakowsky, V., Kreinick, D. L., Kubota, Y., Mistry, Nari B., Morrow, F., Nordberg, E., Ogg, M., Perchonok, R., Robert Plunkett, Silverman, A., Stein, P. C., Stone, S., Weber, D., Wilcke, R., Sadoff, A. J., Giles, R., Hassard, J., Hempstead, M., Kinoshita, K., Mackay, W. W., Pipkin, F. M., Wilson, Richard, Jensen, T., Kagan, H., Behrends, S., Chadwick, K., Chauveau, J., Ganci, P., Gentile, T., Guida, Jan M., Guida, Joan A., Kass, R., Melissinos, A. C., Olsen, S. L., Parkhurst, G., Peterson, D., Poling, R., Rosenfeld, C., Rucinski, G., Thorndike, E. H., Tipton, P., Green, J., Hicks, R. G., Sannes, F., Skubic, P., Snyder, A., Stone, R., Chen, A., Goldberg, M., Horwitz, N., Jawahery, A., Lipari, P., Moneti, G. C., Trahern, C. G., Hecke, H., Alam, M. S., Csorna, S. E., Garren, L., Mestayer, M. D., Panvini, R. S., and Yi, Xia

50. KAON PRODUCTION FROM THE UPSILON RESONANCES. (TALK)

Author

Bebek, C., Haggerty, J., Hempstead, M., Izen, J. M., Longuemare, C., Loomis, W. A., Mackay, W. W., Pipkin, F. M., Rohlf, J., Tanenbaum, William M., Wilson, R., Sadoff, A. J., Chadwick, K., Chauveau, J., Ganci, P., Gentile, T., Kagan, H., Kass, R., Lobkowicz, F., Melissinos, A. C., Olsen, S. L., Poling, R., Rosenfeld, C., Rucinski, G., Thorndike, E. H., Green, J., Mueller, J. J., Sannes, F., Skubic, P., Snyder, A., Stone, R., Brody, A., Chen, A., Goldberg, M., Horwitz, N., Kandaswamy, J., Kooy, H., Moneti, G. C., Pistilli, P., Alam, M. S., Csorna, S. E., Fridman, A., Ehrlich, R., Ferguson, T., Gilchriese, M. G. D., Gittelman, B., Avery, P., Berkelman, Karl, Cabenda, R., Cassel, D. G., Dewire, J. W., Hartill, D. L., Herrup, D., Herzlinger, M., Kreinick, D. L., Talmann, R., Weber, D., Wilcke, R., Mistry, Nari B., Nordberg, E., Perchonok, R., Robert Plunkett, Hicks, R., Panvini, R. S., Andrews, D., Shinsky, K. A., Siemann, R. H., Silverman, A., Stein, P. C., and Stone, S.