DOCSLIB.ORG

Table of Contents (Print)

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Table of Contents (Print) PERIODICALS PHYSICAL REVIEW Dä For editorial and subscription correspondence, Postmaster send address changes to: please see inside front cover (ISSN: 1550-7998) APS Subscription Services P.O. Box 41 Annapolis Junction, MD 20701 THIRD SERIES, VOLUME 91, NUMBER 6 CONTENTS D15 MARCH 2015 The Table of Contents is a total listing of Parts A and B. Part A consists of articles 061301–064029, and Part B articles 064030–069907(E) PART A RAPID COMMUNICATIONS Magnetic field instability in a neutron star driven by the electroweak electron-nucleon interaction versus the chiral magnetic effect (6 pages) ........................................................................................................................... 061301(R) Maxim Dvornikov and Victor B. Semikoz Improving the sensitivity of gamma-ray telescopes to dark matter annihilation in dwarf spheroidal galaxies (6 pages) .... 061302(R) Eric Carlson, Dan Hooper, and Tim Linden Helical phase inflation (6 pages) ........................................................................................................... 061303(R) Tianjun Li, Zhijin Li, and Dimitri V. Nanopoulos Viscous modes, isocurvature perturbations, and CMB initial conditions (5 pages) ................................................ 061304(R) Massimo Giovannini Measuring the speed of cosmological gravitational waves (6 pages) ................................................................ 061501(R) Marco Raveri, Carlo Baccigalupi, Alessandra Silvestri, and Shuang-Yong Zhou Accelerated expansion in the effective field theory of a radiation dominated universe (5 pages) ............................... 061502(R) Bruno Balthazar and Pedro G. Ferreira Numerical determination of the operator-product-expansion coefficients in the 3D Ising model from off-critical correlators (5 pages) ................................................................................................................................... 061901(R) M. Caselle, G. Costagliola, and N. Magnoli ARTICLES First measurement of the cross-correlation of CMB lensing and galaxy lensing (11 pages) ..................................... 062001 Nick Hand, Alexie Leauthaud, Sudeep Das, Blake D. Sherwin, Graeme E. Addison, J. Richard Bond, Erminia Calabrese, Aldée Charbonnier, Mark J. Devlin, Joanna Dunkley, Thomas Erben, Amir Hajian, Mark Halpern, Joachim Harnois-Déraps, Catherine Heymans, Hendrik Hildebrandt, Adam D. Hincks, Jean-Paul Kneib, Arthur Kosowsky, Martin Makler, Lance Miller, Kavilan Moodley, Bruno Moraes, Michael D. Niemack, Lyman A. Page, Bruce Partridge, Neelima Sehgal, Huanyuan Shan, Jonathan L. Sievers, David N. Spergel, Suzanne T. Staggs, Eric R. Switzer, James E. Taylor, Ludovic Van Waerbeke, Charlotte Welker, and Edward J. Wollack Hemispherical asymmetry from an isotropy violating stochastic gravitational wave background (6 pages) ................... 062002 Suvodip Mukherjee Regression analysis with missing data and unknown colored noise: Application to the MICROSCOPE space mission (13 pages) ................................................................................................................................. 062003 Quentin Baghi, Gilles Métris, Joël Bergé, Bruno Christophe, Pierre Touboul, and Manuel Rodrigues Multivariate classification with random forests for gravitational wave searches of black hole binary coalescence (26 pages) 062004 Paul T. Baker, Sarah Caudill, Kari A. Hodge, Dipongkar Talukder,Prospects Collin for Capano, doubling and the Neil range J. of Cornish Advanced LIGO (6 pages) ............................................... Copyright 2015 American Physical Society (Continued) 1550-7998(20150315)91:6;1-Z Selected for a Viewpoint in Physics. Please visit http://physics.aps.org/. By suggesting a few manuscripts each week, we hope to promote reading across fields. Please see our Announcement Phys. Rev. D 90, 020001 (2014). CONTENTS - Continued PHYSICAL REVIEW D THIRD SERIES, VOLUME 91, NUMBER 6 D15 MARCH 2015 062005 John Miller, Lisa Barsotti, Salvatore Vitale, Peter Fritschel, Matthew Evans, and Daniel Sigg Measuring test mass acceleration noise in space-based gravitational wave astronomy (11 pages) .............................. 062006 Giuseppe Congedo Detectability of bigravity with graviton oscillations using gravitational wave observations (14 pages) ........................ 062007 Tatsuya Narikawa, Koh Ueno, Hideyuki Tagoshi, Takahiro Tanaka, Nobuyuki Kanda, and Takashi Nakamura Directed search for gravitational waves from Scorpius X-1 with initial LIGO data (20 pages) ................................. 062008 J. Aasi et al. (LIGO Scientific Collaboration, Virgo Collaboration) Effect of timing noise on targeted and narrow-band coherent searches for continuous gravitational waves from pulsars (9 pages) ................................................................................................................................... 062009 G. Ashton, D. I. Jones, and R. Prix Impact of precession on aligned-spin searches for neutron-star–black-hole binaries (11 pages) ................................. 062010 Tito Dal Canton, Andrew P. Lundgren, and Alex B. Nielsen Gravitational lensing by self-dual black holes in loop quantum gravity (11 pages) ............................................... 063001 Satyabrata Sahu, Kinjalk Lochan, and D. Narasimha Limit on the ultrahigh-energy neutrino flux from lunar observations with the Parkes radio telescope (10 pages) ........... 063002 J. D. Bray, R. D. Ekers, P. Roberts, J. E. Reynolds, C. W. James, C. J. Phillips, R. J. Protheroe, R. A. McFadden, and M. G. Aartsen A tale of tails: Dark matter interpretations of the Fermi GeV excess in light of background model systematics (18 pages) 063003 Francesca Calore, Ilias Cholis, Christopher McCabe, and Christoph Weniger Detectability of eccentric compact binary coalescences with advanced gravitational-wave detectors (9 pages) .............. 063004 M. Coughlin, P. Meyers, E. Thrane, J. Luo, and N. Christensen Effects of the speed of sound at large N (5 pages) ..................................................................................... 063005 Ivonne Zavala Quintessence’s last stand? (5 pages) ....................................................................................................... 063006 Eric V. Linder Braking index of isolated pulsars (9 pages) .............................................................................................. 063007 O. Hamil, J. R. Stone, M. Urbanec, and G. Urbancová Constraints on fðRÞ gravity through the redshift space distortion (8 pages) ....................................................... 063008 Lixin Xu Testing the dark energy consistency with geometry and growth (20 pages) ........................................................ 063009 Eduardo J. Ruiz and Dragan Huterer Dark fluid or cosmological constant: Why there are different de Sitter-type spacetimes (8 pages) ............................. 063010 M. Nouri-Zonoz, J. Koohbor, and H. Ramezani-Aval High-energy neutrino fluxes and flavor ratio in the Earth’s atmosphere (12 pages) ............................................... 063011 T. S. Sinegovskaya, A. D. Morozova, and S. I. Sinegovsky Applications of the Gaussian kinematic formula to CMB data analysis (17 pages) ............................................... 063501 Yabebal Fantaye, Domenico Marinucci, Frode Hansen, and Davide Maino Cosmological implications of light sterile neutrinos produced after the QCD phase transition (20 pages) .................... 063502 Louis Lello and Daniel Boyanovsky Casimir, gravitational, and neutron tests of dark energy (17 pages) ................................................................. 063503 Philippe Brax and Anne-Christine Davis Inflation that runs naturally: Gravitational waves and suppression of power at large and small scales (19 pages) .......... 063504 Quinn E. Minor and Manoj Kaplinghat Irruption of massive particle species during inflation (34 pages) ..................................................................... 063505 Michael A. Fedderke, Edward W. Kolb, and Mark Wyman Testing the Copernican principle with the Hubble parameter (6 pages) ............................................................. 063506 Zhi-Song Zhang, Tong-Jie Zhang, Hao Wang, and Cong Ma Cosmology constraints from the weak lensing peak counts and the power spectrum in CFHTLenS data (15 pages) ....... 063507 Jia Liu, Andrea Petri, Zoltán Haiman, Lam Hui, Jan M. Kratochvil, and Morgan May Quantitative study of the AMS-02 electron/positron spectra: Implications for pulsars and dark matter properties (14 pages) 063508 Su-Jie Lin, Qiang Yuan, and Xiao-Jun Bi (Continued) Selected for a Viewpoint in Physics. Please visit http://physics.aps.org/. By suggesting a few manuscripts each week, we hope to promote reading across fields. Please see our Announcement Phys. Rev. D 90, 020001 (2014). CONTENTS - Continued PHYSICAL REVIEW D THIRD SERIES, VOLUME 91, NUMBER 6 D15 MARCH 2015 Modified Lyth bound and implications of BICEP2 results (8 pages) ................................................................ 063509 Qing Gao (郜青), Yungui Gong (龚云贵), and Tianjun Li (李田军) Primordial non-Gaussianity in noncanonical warm inflation (9 pages) .............................................................. 063510 Xiao-Min Zhang and Jian-Yang Zhu Spiral inflation with Coleman-Weinberg potential (5 pages) .......................................................................... 063511 Gabriela Barenboim and Wan-Il Park Spherical dust fluctuations:
Load more

Recommended publications
  • Synergy of Astroparticle Physics and Colliders
    Snowmass2021 - Letter of Interest Synergy of astro-particle physics and collider physics Thematic Areas: (check all that apply /) (CF1) Dark Matter: Particle Like (CF2) Dark Matter: Wavelike (CF3) Dark Matter: Cosmic Probes (CF4) Dark Energy and Cosmic Acceleration: The Modern Universe (CF5) Dark Energy and Cosmic Acceleration: Cosmic Dawn and Before (CF6) Dark Energy and Cosmic Acceleration: Complementarity of Probes and New Facilities (CF7) Cosmic Probes of Fundamental Physics (Other) EF06, EF07, NF05, NF06,AF4 Contact Information: Luis A. Anchordoqui (City University of New York) [[email protected]] Authors: Rana Adhikari, Markus Ahlers, Michael Albrow, Roberto Aloisio, Luis A. Anchordoqui, Ignatios Anto- niadis, Vernon Barger, Jose Bellido Caceres, David Berge, Douglas R. Bergman, Mario E. Bertaina, Lorenzo Bonechi, Mauricio Bustamante, Karen S. Caballero-Mora, Antonella Castellina, Lorenzo Cazon, Ruben Conceic¸ao,˜ Giovanni Consolati, Olivier Deligny, Hans P. Dembinski, James B. Dent, Peter B. Denton, Car- ola Dobrigkeit, Caterina Doglioni, Ralph Engel, David d’Enterria, Ke Fang, Glennys R. Farrar, Jonathan L. Feng, Thomas K. Gaisser, Carlos Garc´ıa Canal, Claire Guepin, Francis Halzen, Tao Han, Andreas Haungs, Dan Hooper, Felix Kling, John Krizmanic, Greg Landsberg, Jean-Philippe Lansberg, John G. Learned, Paolo Lipari, Danny Marfatia, Jim Matthews, Thomas McCauley, Hiroaki Menjo, John W. Mitchell, Marco Stein Muzio, Jane M. Nachtman, Angela V. Olinto, Yasar Onel, Sandip Pakvasa, Sergio Palomares-Ruiz, Dan Parson, Thomas C. Paul, Tanguy Pierog, Mario Pimenta, Mary Hall Reno, Markus Roth, Grigory Rubtsov, Takashi Sako, Fred Sarazin, Bangalore Sathyaprakash, Sergio J. Sciutto, Dennis Soldin, Jorge F. Soriano, Todor Stanev, Xerxes Tata, Serap Tilav, Kirsten Tollefson, Diego F.
    [Show full text]
  • Arxiv:1912.08821V2 [Hep-Ph] 27 Jul 2020
    MIT-CTP/5157 FERMILAB-PUB-19-628-A A Systematic Study of Hidden Sector Dark Matter: Application to the Gamma-Ray and Antiproton Excesses Dan Hooper,1, 2, 3, ∗ Rebecca K. Leane,4, y Yu-Dai Tsai,1, z Shalma Wegsman,5, x and Samuel J. Witte6, { 1Fermilab, Fermi National Accelerator Laboratory, Batavia, IL 60510, USA 2University of Chicago, Kavli Institute for Cosmological Physics, Chicago, IL 60637, USA 3University of Chicago, Department of Astronomy and Astrophysics, Chicago, IL 60637, USA 4Center for Theoretical Physics, Massachusetts Institute of Technology, Cambridge, MA 02139, USA 5University of Chicago, Department of Physics, Chicago, IL 60637, USA 6Instituto de Fisica Corpuscular (IFIC), CSIC-Universitat de Valencia, Spain (Dated: July 29, 2020) Abstract In hidden sector models, dark matter does not directly couple to the particle content of the Standard Model, strongly suppressing rates at direct detection experiments, while still allowing for large signals from annihilation. In this paper, we conduct an extensive study of hidden sector dark matter, covering a wide range of dark matter spins, mediator spins, interaction diagrams, and annihilation final states, in each case determining whether the annihilations are s-wave (thus enabling efficient annihilation in the universe today). We then go on to consider a variety of portal interactions that allow the hidden sector annihilation products to decay into the Standard Model. We broadly classify constraints from relic density requirements and dwarf spheroidal galaxy observations. In the scenario that the hidden sector was in equilibrium with the Standard Model in the early universe, we place a lower bound on the portal coupling, as well as on the dark matter’s elastic scattering cross section with nuclei.
    [Show full text]
  • W-Boson and Trident Production in Tev--Pev Neutrino Observatories
    W -boson and trident production in TeV{PeV neutrino observatories Bei Zhou1, 2, ∗ and John F. Beacom1, 2, 3, y 1Center for Cosmology and AstroParticle Physics (CCAPP), Ohio State University, Columbus, OH 43210 2Department of Physics, Ohio State University, Columbus, OH 43210 3Department of Astronomy, Ohio State University, Columbus, OH 43210 (Dated: February 18, 2020) Detecting TeV{PeV cosmic neutrinos provides crucial tests of neutrino physics and astrophysics. The statistics of IceCube and the larger proposed IceCube-Gen2 demand calculations of neutrino- nucleus interactions subdominant to deep-inelastic scattering, which is mediated by weak-boson couplings to nuclei. The largest such interactions are W -boson and trident production, which are mediated instead through photon couplings to nuclei. In a companion paper [1], we make the most comprehensive and precise calculations of those interactions at high energies. In this paper, we study their phenomenological consequences. We find that: (1) These interactions are dominated by the production of on-shell W -bosons, which carry most of the neutrino energy, (2) The cross section on water/iron can be as large as 7.5%/14% that of charged-current deep-inelastic scattering, much larger than the quoted uncertainty on the latter, (3) Attenuation in Earth is increased by as much as 15%, (4) W -boson production on nuclei exceeds that through the Glashow resonance on electrons by a factor of ' 20 for the best-fit IceCube spectrum, (5) The primary signals are showers that will significantly affect the detection rate in IceCube-Gen2; a small fraction of events give unique signatures that may be detected sooner.
    [Show full text]
  • List of Participants
    Next-Generation Techniques for UHE Astroparticle Physics February 29 - March 2, 2016 KICP Workshop, 2016 Chicago, IL http://kicp-workshops.uchicago.edu/uheap2016/ LIST OF PARTICIPANTS http://kicp.uchicago.edu/ http://www.uchicago.edu/ The Kavli Institute for Cosmological Physics at the University of Chicago is hosting a workshop this winter on the Next Generation Techniques for Ultra-High Energy (UHE) Astroparticle Physics. The origin of the most energetic particles in the universe could be related to extremely energetic astronomical phenomena or other exotic processes, such as the decay of the super-heavy dark matter in the halo of our galaxy or topological defects created in an early phase of the development of the universe. In order to clarify their origin, it is essential to develop next-generation techniques for detection of their particles by large amounts of statistics. The workshop will address the road map and near-future prospects of cosmic rays and neutrinos above the PeV scale. Included topics are reviews of the latest results, upcoming detectors and techniques, and related theory topics. The anticipated structure is a series of presentations with ample time for discussion and working sessions. Organizing Committee Cosmin Deaconu Toshihiro Fujii Dan Hooper University of Chicago University of Chicago Kavli Institute for Cosmological Physics Eric Oberla Angela Olinto Paolo Privitera University of Chicago Kavli Institute for Cosmological Physics Kavli Institute for Cosmological Physics Abigail Vieregg Kavli Institute for Cosmological
    [Show full text]
  • Constraining Sterile Neutrino Interpretations of the LSND and Miniboone Anomalies with Coherent Neutrino Scattering Experiments
    PHYSICAL REVIEW D 101, 075051 (2020) Constraining sterile neutrino interpretations of the LSND and MiniBooNE anomalies with coherent neutrino scattering experiments Carlos Blanco ,1,2 Dan Hooper,2,3,4 and Pedro Machado5 1Department of Physics, University of Chicago, Chicago, Illinois 60637, USA 2Kavli Institute for Cosmological Physics, University of Chicago, Chicago, Illinois 60637, USA 3Theoretical Astrophysics Group, Fermi National Accelerator Laboratory, Batavia, Illinois 60510, USA 4Department of Astronomy and Astrophysics, University of Chicago, Chicago, Illinois 60637, USA 5Theoretical Physics Department, Fermi National Accelerator Laboratory, Batavia, Illinois 60510, USA (Received 14 February 2019; accepted 7 April 2020; published 29 April 2020) We propose to test the light sterile neutrino solution to the Liquid Scintillator Neutrino Detector (LSND) and MiniBooNE anomalies by measuring the coherent elastic scattering rate of neutrinos from a pulsed spallation source. Coherent scattering is universal across all active neutrino flavors, and thus can provide a measurement of the total Standard Model neutrino flux. By performing measurements over different baselines and making use of timing information, it is possible to significantly reduce the systematic uncertainties and to independently measure the fluxes of neutrinos that originate as νμ or as either νe or ν¯μ. We find that a 100 kg CsI detector would be sensitive to a large fraction of the sterile neutrino parameter space that could potentially account for the LSND and MiniBooNE anomalies. DOI: 10.1103/PhysRevD.101.075051 I. INTRODUCTION Together, these anomalies appear to point to the exist- A large number of neutrino oscillation experiments ence of a sterile neutrino with a mass near the electronvolt carried out over the past two decades have lead to the scale.
    [Show full text]
  • Spring 2021 International Seasonal
    Princeton University Press 6 Oxford Street, Woodstock, Oxfordshire OX20 1TR United Kingdom 41 William Street, Princeton, New Jersey 08540-5237 United States International Edition Princeton University Press spring 2021 spring 2021 Cover image: Tessera Mosaic: the Tietê River snakes across this tessera mosaic of multicolored shapes near Ibitinga, Brazil. Fields of sugarcane, peanuts, and corn vary in their stages of development. Lavender, purple, and bright blue indicate actively growing crops. Light yellow or white indicate little or no vegetation growth. The splotches of dark mustard yellow are urban areas. Landsat imagery courtesy of NASA Goddard Space Flight Center and U.S. Geological Survey. Princeton University Press United Kingdom Princeton University Press China 6 Oxford Street, Woodstock Princeton Asia (Beijing) Consulting Ltd. Oxfordshire, OX20 1TR Unit 2702, NUO Centre United Kingdom 2A Jiangtai Road, Chaoyang District Tel: +44 1993 814500 Beijing 100016, P.R. China Fax: +44 1993 814504 Tel: +86 10 8457 8802 [email protected] 北京市朝阳区将台路甲2号,诺金中心2702 International Sales Representation United Kingdom, Africa Malaysia Korea Europe & South Africa (except North Africa Lillian Koe Se-Yung Jun University Press Group Ltd & Southern Africa) APD Singapore Pte Ltd. Information & Culture Korea LEC 1 New Era Estate Kelvin van Hasselt Malaysia Office 49, Donggyo-ro 13-gil Oldlands Way, Bognor Regis 15 Hillside 24 & 26 Jalan SS3/41 Mapo-gu West Sussex, PO22 9NQ Cromer, Norfolk, NR27 0HY 47300 Petaling Jaya Seoul South Korea 03997 United Kingdom United Kingdom Selangor Malaysia Tel: +82 2 3141 4791 Tel: +44 1243 842165 Tel: +44 126 3 513560 Tel: +60 3 7877 6063 Fax: +82 2 3141 7733 upguk.com [email protected] Fax: +60 3 7877 3414 [email protected] [email protected] Simon Gwynn Australia & Managing Director Malta, Cyprus, Turkey, Jordan, Palestine, Taiwan & Hong Kong New Zealand [email protected] Morocco, Tunisia, Lillian Hsiao NewSouth Books Lois Edwards Algeria & Israel B.K.
    [Show full text]
  • Dark Radiation and Dark Matter from Primordial Black Holes
    DARK RADIATION AND DARK MATTER FROM PRIMORDIAL BLACK HOLES Dan Hooper – Fermilab and the University of Chicago Next Frontiers in the Search for Dark Matter, GGI September 26, 2019 Dan Hooper – Dark Radiation & Dark Matter from PBHs This talk is based on Dark Radiation and Superheavy Dark Matter from Black Hole Domination With Gordan Krnjaic and Sam McDermott, JHEP 1908 (2019) 001, arXiv:1905.01301 For related work, see Morrison and Profumo, arXiv:1812.10606 and Lennon et al, arXiv:1712.07664 Dan Hooper – Dark Radiation & Dark Matter from PBHs Was the Early Universe Dominated by Black Holes? § Inhomogeneities in the early universe can led to the formation of primordial black holes § Very roughly, we expect the mass of these black holes to be similar to the energy enclosed within the horizon at or near the end of inflation: § In this mass range, black holes evaporate very rapidly, disappearing well before BBN § If even a small fraction of the energy density after inflation was in the form of black holes, this fraction would grow as the universe expands -3 (black holes evolve as matter, �BH � a , rather -4 than radiation, �rad � a ); § From this perspective, it is well-motivated to consider scenarios in which the early universe included an era in which the energy density was dominated by black holes Dan Hooper – Dark Radiation & Dark Matter from PBHs Was the Early Universe Dominated by Black Holes? § Quantitatively, the density of black holes will ultimately exceed the energy density in SM radiation (before the black holes evaporate) if the
    [Show full text]
  • Physical Review D
    PERIODICALS PHYSICAL REVIEW D Postmaster send address changes to: For editorial and subscription correspondence, PHYSICAL REVIEW D please see inside front cover APS Subscription Services (ISSN: 1550-7998) Suite 1NO1 2 Huntington Quadrangle Melville, NY 11747-4502 THIRD SERIES, VOLUME 72, NUMBER 6 CONTENTS D15 SEPTEMBER 2005 RAPID COMMUNICATIONS Dark matter annihilation: The origin of cosmic gamma-ray background at 1–20 MeV (5 pages) . 061301 Kyungjin Ahn and Eiichiro Komatsu Determination of the deceleration parameter from supernovae data (5 pages) . 061302 J.-M. Virey, P. Taxil, A. Tilquin, A. Ealet, C. Tao, and D. Fouchez Exactly solvable model of a wormhole supported by phantom energy (3 pages) . 061303 O. B. Zaslavskii Going nonlinear with dark energy cosmologies (3 pages) . 061304 Eric V. Linder and Martin White Modified gravity and the stability of de Sitter space (5 pages) . 061501 Valerio Faraoni Classification of cohomogeneity-one strings (4 pages) . 061701 Hideki Ishihara and Hiroshi Kozaki Anti-D-brane as dark matter in warped string compactification (5 pages) . 061901 Shinji Mukohyama Supersymmetry breaking at the end of a cascade of Seiberg dualities (5 pages) . 061902 M. Bertolini, F. Bigazzi, and A. L. Cotrone ARTICLES Upper limits on gravitational wave bursts in LIGO’s second science run (25 pages) . 062001 B. Abbott et al. (The LIGO Scientific Collaboration) Analysis of the SN 1987A neutrinos with a flexible spectral shape (6 pages) . 063001 Alessandro Mirizzi and Georg G. Raffelt Non-Gaussianity from cosmic magnetic fields (15 pages) . 063002 Iain Brown and Robert Crittenden Joint constraints on the lepton asymmetry of the Universe and neutrino mass from the Wilkinson Microwave Anisotropy Probe (11 pages) .................................................................
    [Show full text]
  • History of Dark Matter
    UvA-DARE (Digital Academic Repository) History of dark matter Bertone, G.; Hooper, D. DOI 10.1103/RevModPhys.90.045002 Publication date 2018 Document Version Final published version Published in Reviews of Modern Physics Link to publication Citation for published version (APA): Bertone, G., & Hooper, D. (2018). History of dark matter. Reviews of Modern Physics, 90(4), [045002]. https://doi.org/10.1103/RevModPhys.90.045002 General rights It is not permitted to download or to forward/distribute the text or part of it without the consent of the author(s) and/or copyright holder(s), other than for strictly personal, individual use, unless the work is under an open content license (like Creative Commons). Disclaimer/Complaints regulations If you believe that digital publication of certain material infringes any of your rights or (privacy) interests, please let the Library know, stating your reasons. In case of a legitimate complaint, the Library will make the material inaccessible and/or remove it from the website. Please Ask the Library: https://uba.uva.nl/en/contact, or a letter to: Library of the University of Amsterdam, Secretariat, Singel 425, 1012 WP Amsterdam, The Netherlands. You will be contacted as soon as possible. UvA-DARE is a service provided by the library of the University of Amsterdam (https://dare.uva.nl) Download date:25 Sep 2021 REVIEWS OF MODERN PHYSICS, VOLUME 90, OCTOBER–DECEMBER 2018 History of dark matter Gianfranco Bertone GRAPPA, University of Amsterdam, Science Park 904 1098XH Amsterdam, Netherlands Dan Hooper Center for Particle Astrophysics, Fermi National Accelerator Laboratory, Batavia, Illinois 60510, USA and Department of Astronomy and Astrophysics, The University of Chicago, Chicago, Illinois 60637, USA (published 15 October 2018) Although dark matter is a central element of modern cosmology, the history of how it became accepted as part of the dominant paradigm is often ignored or condensed into an anecdotal account focused around the work of a few pioneering scientists.
    [Show full text]
  • Charged Cosmic Rays and Particle Dark Matter
    Charged Cosmic Rays And Particle Dark Matter Dan Hooper Fermilab/University of Chicago University of Maryland Shedding Light on Dark Matter Workshop April 2, 2009 The Indirect Detection of Dark Matter 1. WIMP Annihilation χ Typical final states include heavyχ fermions, gauge or Higgs bosons 2.Fragmentation/Decay W- Annihilation products decay and/or q fragment into combinations of W+ electrons, protons, deuterium, neutrinos and gamma-rays q e+ ν 3.Synchrotron and Inverse Compton π0 Relativistic electrons up-scatter starlight/CMB to MeV-GeV energies, and emit synchrotron photons via p γ γ interactions with magnetic fields γ Dan Hooper - Charged Cosmic e+ Rays And Particle Dark Matter The Indirect Detection of Dark Matter Neutrinos from annihilations in the core of the Sun Gamma Rays from annihilations in the galactic halo, near the galactic center, in dwarf galaxies, etc. Positrons/Antiprotons from annihilations throughout the galactic halo Synchrotron Radiation from electron/positron interactions with the magnetic fields of the inner galaxy Dan Hooper - Charged Cosmic Rays And Particle Dark Matter Dark Matter With Charged Cosmic Rays WIMP annihilation products fragment and decay, generating equal numbers of electrons and positrons, and of protons and antiprotons Charged particles move under the influence of the Galactic Magnetic Field; Electrons/positrons lose energy via synchrotron and inverse Compton scattering Astrophysical sources are generally expected to produce far more matter than antimatter; large positron/antiproton content in the cosmic ray spectrum could provide evidence for dark matter Dan Hooper - Charged Cosmic Rays And Particle Dark Matter Charged Particle Astrophysics With Pamela Major step forward in sensitivity to GeV-TeV QuickTime™QuickTime™ andand aa cosmic ray electrons, TIFFTIFF (LZW)(LZW) decompressordecompressor areare neededneeded toto seesee thisthis picture.picture.
    [Show full text]
  • Conference Materials
    Identification of Dark Matter July 23-27, 2012 9th International Conference Chicago, IL http://kicp-workshops.uchicago.edu/IDM2012/ CONFERENCE MATERIALS http://kicp.uchicago.edu/ http://www.nsf.gov/ http://www.uchicago.edu/ http://www.fnal.gov/ International Advisory Committee Daniel Akerib Elena Aprile Rita Bernabei Case Western Reserve University, Columbia University, USA Universita degli Studi di Roma, Italy Cleveland, USA Gianfranco Bertone Joakim Edsjo Katherine Freese University of Amsterdam Oskar Klein Centre / Stockholm University of Michigan, USA University Richard Gaitskell Gilles Gerbier Anne Green Brown University, USA IRFU/ CEA Saclay, France University of Nottingham, UK Karsten Jedamzik Xiangdong Ji Lawrence Krauss Universite de Montpellier, France University of Maryland, USA Arizona State University, USA Vitaly Kudryavtsev Reina Maruyama Leszek Roszkowski University of Sheffield University of Wisconsin-Madison University of Sheffield, UK Bernard Sadoulet Pierre Salati Daniel Santos University of California, Berkeley, USA University of California, Berkeley, USA LPSC/UJF/CNRS Pierre Sikivie Daniel Snowden-Ifft Neil Spooner University of Florida, USA Occidental College University of Sheffield, UK Max Tegmark Karl van Bibber Kavli Institute for Astrophysics & Space Naval Postgraduate School Monterey, Research at MIT, USA USA Local Organizing Committee Daniel Bauer Matthew Buckley Juan Collar Fermi National Accelerator Laboratory Fermi National Accelerator Laboratory Kavli Institute for Cosmological Physics Scott Dodelson Aimee
    [Show full text]
  • UCLA2012-Dan Hooper
    Indirect Evidence For Light WIMPs Dan Hooper Fermilab/University of Chicago UCLA Dark Matter 2012 Symposium February 23, 2012 Dark Matter In The Galactic Center Region With Fermi § The region surrounding the Galactic Center is complex; backgrounds present are not necessarily well understood § This does not, however, necessarily make searches for dark matter in this region intractable § The signal from dark matter annihilation is large in most benchmark models (for a typical 10 GeV WIMP, comparable to total flux observed in inner 1°) § To separate dark matter annihilation products from backgrounds, we must focus on the distinct observational features of these components Dark Matter In The Galactic Center Region With Fermi The characteristics of a signal from dark matter annihilations: 1) Distinctive “bump-like” spectral feature 2) Signal highly concentrated around the Galactic Center (but not entirely point-like); precise morphology determined by dark matter distributution The Distribution of Dark Matter in the Inner Milky Way § Dark matter only simulations (Via Lactea, etc.) yield halos which possess -γ inner profiles of ρ α r where γ=1.0 to 1.2 § The inner volume (~10 kpc) of the Milky Way is dominated by baryons, not dark matter – significant departures from dark matter only results should be 10 expected 2.0 0.5 v0230 km s, R08.0 kpc v0230 km s, R08.0 kpc § For years, an active debate has taken place NFW , rs 20 kpc model5 Einasto, rs20 kpc in the literature over the question of how the ⇤ 0.4 ⇤ baryons alter the profiles of dark matter halos 1.5 0.3 § Existing microlensing and dynamical data γ ⇥ 1.0 ⇥ are not capable of determining the inner 0.2 slope, although γ~1.3 provides the best fit 0.5 0.1 model5 0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 3 3 ⇤0 GeV cm ⇤0 GeV cm FIG.
    [Show full text]