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) PHYSICAL REVIEW D PERIODICALS 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 94, NUMBER 8 CONTENTS D15 OCTOBER 2016 The Table of Contents is a total listing of Parts A and B. Part A consists of articles 081101–084026, and Part B articles 084027–089902(E) PART A RAPID COMMUNICATIONS Coherent observations of gravitational radiation with LISA and gLISA (5 pages) ................................................ 081101(R) Massimo Tinto and José C. N. de Araujo Viscosity of fused silica and thermal noise from the standard linear solid model (5 pages) ..................................... 081102(R) N. M. Kondratiev and M. L. Gorodetsky Anomalous magnetohydrodynamics in the extreme relativistic domain (6 pages) ................................................. 081301(R) Massimo Giovannini Quantum simulation of traversable wormhole spacetimes in a dc-SQUID array (6 pages) ....................................... 081501(R) Carlos Sabín Black hole field theory with a firewall in two spacetime dimensions (6 pages) ................................................... 081502(R) C. T. Marco Ho (何宗泰), Daiqin Su (粟待欽), Robert B. Mann, and Timothy C. Ralph ARTICLES Modulation sensitive search for nonvirialized dark-matter axions (13 pages) ...................................................... 082001 J. Hoskins, N. Crisosto, J. Gleason, P. Sikivie, I. Stern, N. S. Sullivan, D. B. Tanner, C. Boutan, M. Hotz, R. Khatiwada, D. Lyapustin, A. Malagon, R. Ottens, L. J. Rosenberg, G. Rybka, J. Sloan, A. Wagner, D. Will, G. Carosi, D. Carter, L. D. Duffy, R. Bradley, J. Clarke, S. O’Kelley, K. van Bibber, and E. J. Daw Search for ultrarelativistic magnetic monopoles with the Pierre Auger observatory (12 pages) ................................. 082002 A. Aab et al. (Pierre Auger Collaboration) Mechanical loss of a hydroxide catalysis bond between sapphire substrates and its effect on the sensitivity of future gravitational wave detectors (9 pages) ................................................................................................ 082003 K. Haughian, D. Chen, L. Cunningham, G. Hofmann, J. Hough, P. G. Murray, R. Nawrodt, S. Rowan, A. A. van Veggel, and K. Yamamoto Cross-correlation search for continuous gravitational waves from a compact object in SNR 1987A in LIGO Science run 5 (30 pages) .................................................................................................... 082004 L. Sun, A. Melatos, P. D. Lasky, C. T. Y. Chung, and N. S. Darman Magnetic shielding and exotic spin-dependent interactions (8 pages) ................................................................ 082005 D. F. Jackson Kimball, J. Dudley, Y. Li, S. Thulasi, S. Pustelny, D. Budker, and M. Zolotorev Copyright 2016 American Physical Society (Continued) 2470-0010(20161015)94:8;1-N 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 94, NUMBER 8 D15 OCTOBER 2016 Search for low-mass WIMPs in a 0.6 kg day exposure of the DAMIC experiment at SNOLAB (11 pages) ................ 082006 A. Aguilar-Arevalo, D. Amidei, X. Bertou, M. Butner, G. Cancelo, A. Castañeda Vázquez, B. A. Cervantes Vergara, A. E. Chavarria, C. R. Chavez, J. R. T. de Mello Neto, J. C. D’Olivo, J. Estrada, G. Fernandez Moroni, R. Gaïor, Y. Guardincerri, K. P. Hernández Torres, F. Izraelevitch, A. Kavner, B. Kilminster, I. Lawson, A. Letessier-Selvon, J. Liao, V. B. B. Mello, J. Molina, J. R. Peña, P. Privitera, K. Ramanathan, Y. Sarkis, T. Schwarz, C. Sengul, M. Settimo, M. Sofo Haro, R. Thomas, J. Tiffenberg, E. Tiouchichine, D. Torres Machado, F. Trillaud, X. You, and J. Zhou (DAMIC Collaboration) Measurement of the ionization produced by sub-keV silicon nuclear recoils in a CCD dark matter detector (7 pages) .... 082007 A. E. Chavarria, J. I. Collar, J. R. Peña, P. Privitera, A. E. Robinson, B. Scholz, C. Sengul, J. Zhou, J. Estrada, F. Izraelevitch, J. Tiffenberg, J. R. T. de Mello Neto, and D. Torres Machado Einstein@Home search for continuous gravitational waves from Cassiopeia A (9 pages) ....................................... 082008 Sylvia J. Zhu, Maria Alessandra Papa, Heinz-Bernd Eggenstein, Reinhard Prix, Karl Wette, Bruce Allen, Oliver Bock, David Keitel, Badri Krishnan, Bernd Machenschalk, Miroslav Shaltev, and Xavier Siemens Gravitational memory charges of supertranslation and superrotation on Rindler horizons (16 pages) .......................... 083001 Masahiro Hotta, Jose Trevison, and Koji Yamaguchi X-ray line from exciting dark matter (7 pages) .......................................................................................... 083002 Douglas P. Finkbeiner and Neal Weiner Grammage of cosmic rays around Galactic supernova remnants (7 pages) ......................................................... 083003 Marta D’Angelo, Pasquale Blasi, and Elena Amato Self-interacting charged massive spin two particles in Minkowski spacetime (6 pages) .......................................... 083004 Yuichi Ohara Probing intergalactic magnetic fields with simulations of electromagnetic cascades (15 pages) ................................ 083005 Rafael Alves Batista, Andrey Saveliev, Günter Sigl, and Tanmay Vachaspati Relativistic dynamics of superfluid-superconducting mixtures in the presence of topological defects and an electromagnetic field with application to neutron stars (31 pages) ................................................................................... 083006 M. E. Gusakov and V. A. Dommes Collapse of a self-gravitating Bose-Einstein condensate with attractive self-interaction (39 pages) ............................. 083007 Pierre-Henri Chavanis Constraining spatial variations of the fine structure constant using clusters of galaxies and Planck data (11 pages) ........ 083008 I. de Martino, C. J. A. P. Martins, H. Ebeling, and D. Kocevski Impact of nucleon-nucleon bremsstrahlung rates beyond one-pion exchange (10 pages) ......................................... 083009 A. Bartl, R. Bollig, H.-T. Janka, and A. Schwenk Internal x-ray plateau in short GRBs: Signature of supramassive fast-rotating quark stars? (6 pages) ......................... 083010 Ang Li, Bing Zhang, Nai-Bo Zhang, He Gao, Bin Qi, and Tong Liu No practical lensing by Lambda: Deflection of light in the Schwarzschild–de Sitter spacetime (12 pages) .................. 083011 Luke M. Butcher Averaged universe confronted with cosmological observations: A fully covariant approach (6 pages) ........................ 083501 Tharake Wijenayake, Weikang Lin, and Mustapha Ishak Axion field and the quark nugget’s formation at the QCD phase transition (32 pages) .......................................... 083502 Xunyu Liang and Ariel Zhitnitsky Parity violation in the CMB trispectrum from the scalar sector (11 pages) ......................................................... 083503 Maresuke Shiraishi Primordial black holes as dark matter (28 pages) ....................................................................................... 083504 Bernard Carr, Florian Kühnel, and Marit Sandstad Neutrino flavor transformation in the lepton-asymmetric universe (18 pages) ...................................................... 083505 Lucas Johns, Mattia Mina, Vincenzo Cirigliano, Mark W. Paris, and George M. Fuller Do dark matter halos explain lensing peaks? (14 pages) ............................................................................... 083506 José Manuel Zorrilla Matilla, Zoltán Haiman, Daniel Hsu, Arushi Gupta, and Andrea Petri Constraints on decaying early modified gravity from cosmological observations (13 pages) .................................... 083507 Nelson A. Lima, Vanessa Smer-Barreto, and Lucas Lombriser Fluctuations in a cosmology with a spacelike singularity and their gauge theory dual description (16 pages) ............... 083508 Robert H. Brandenberger, Elisa G. M. Ferreira, Ian A. Morrison, Yi-Fu Cai, Sumit R. Das, and Yi Wang (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 94, NUMBER 8 D15 OCTOBER 2016 Configurational entropy as a constraint for Gauss-Bonnet braneworld models (8 pages) ........................................ 083509 R. A. C. Correa, P. H. R. S. Moraes, A. de Souza Dutra, W. de Paula, and T. Frederico Doubling strong lensing as a cosmological probe (7 pages) .......................................................................... 083510 Eric V. Linder General relativistic screening in cosmological simulations (14 pages) ............................................................... 083511 Oliver Hahn and Aseem Paranjape Duality and scale invariant magnetic fields from bouncing universes (11 pages) .................................................. 083512 Debika Chowdhury, L. Sriramkumar, and Rajeev Kumar Jain Bounce inflation in fðTÞ cosmology: A unified inflaton-quintessence field (23 pages) .......................................... 083513 Kazuharu Bamba, G. G. L. Nashed, W. El Hanafy, and Sh. K. Ibraheem Warm ekpyrosis (11 pages) ................................................................................................................
Load more

Recommended publications
  • Searching for Evaporating Primordial Black Holes Using Fermi Gamma Ray Telescope Data
    Searching for Evaporating Primordial Black Holes using Fermi Gamma Ray Telescope Data Jagdev Bains CID 00552650 Horns Group, DESY A thesis submitted for the degree of MSci May 2011 Abstract All confirmed photon event data (≥ 100MeV) recorded by the Fermi Gamma Ray Telescope's (FGRT's) Large Area Telescope (LAT) was used to attempt to locate photons emitted by evaporating primordial black holes (PBHs) via Hawking radiation. An 'event' is a single photon recorded by the LAT. HEALPix was used to group photons spatially into pixels with unique iden- tification numbers, and all events within these pixels were sorted in time. The time interval between subsequent photons in each pixel was calculated and a histogram made for each pixel. The expected time distribution of events was compared with the measured for each pixel to identify any can- didates for further analysis; if the expected varied significantly with the measured at the smallest time intervals (26µs − 10s). Several pixels were found that met the criteria for further analysis, however they were all found to include known high energy photon sources. No pixels were found with extra photons at short time intervals that could not be attributed to gamma- ray bursts (GRBs) or known sources. A limit was calculated on the range at which the LAT could detect a PBH burst, between 16.69 and 289.16pc. Alle photonischen (≥ 100MeV) und vom Large Area Telescope (LAT) des Fermi Gamma Ray Telescope's (FGRT's) dokumentierten, bestaetigten Ereignisse wurden benutzt, um Photonen zu lokalisieren, die durch sich verfluechti- gende primordiale schwarze Loecher (PBHs) mit Hilfe der Hawking Strahlung emittiert wurden.
    [Show full text]
  • Arxiv:2105.11481V1 [Astro-Ph.CO] 24 May 2021
    Ultrahigh-energy Gamma Rays and Gravitational Waves from Primordial Exotic Stellar Bubbles Yi-Fu Cai,1, 2, 3, ∗ Chao Chen,1, 2, 3, y Qianhang Ding,4, 5, z and Yi Wang4, 5, x 1Department of Astronomy, School of Physical Sciences, University of Science and Technology of China, Hefei, Anhui 230026, China 2School of Astronomy and Space Science, University of Science and Technology of China, Hefei, Anhui 230026, China 3CAS Key Laboratory for Research in Galaxies and Cosmology, University of Science and Technology of China, Hefei, Anhui 230026, China 4Department of Physics, The Hong Kong University of Science and Technology, Clear Water Bay, Kowloon, Hong Kong, P.R.China 5Jockey Club Institute for Advanced Study, The Hong Kong University of Science and Technology, Clear Water Bay, Kowloon, Hong Kong, P.R.China We put forward a novel class of exotic celestial objects that can be produced through phase transitions occurred in the primordial Universe. These objects appear as bubbles of stellar sizes and can be dominated by primordial black holes (PBHs). We report that, due to the processes of Hawking radiation and binary evolution of PBHs inside these stellar bubbles, both electromagnetic and gravitational radiations can be emitted that are featured on the gamma-ray spectra and stochastic gravitational waves (GWs). Our results reveal that, depending on the mass distribution, the exotic stellar bubbles consisting of PBHs provide not only a decent fit for the ultrahigh-energy gamma-ray spectrum reported by the recent LHAASO experiment, but also predict GW signals that are expected to be tested by the forthcoming GW surveys.
    [Show full text]
  • Primordial Black Holes from Thermal Inflation
    IMPERIAL/TP/2019/TM/01 KCL-PH-TH/2019-33 Primordial Black Holes from Thermal Inflation Konstantinos Dimopoulos,a Tommi Markkanen,b;c Antonio Racioppic and Ville Vaskonend aConsortium for Fundamental Physics, Physics Department, Lancaster University, Lancaster LA1 4YB, UK bDepartment of Physics, Imperial College London, Blackett Laboratory, London, SW7 2AZ, UK cNational Institute of Chemical Physics and Biophysics, R¨avala 10, 10143 Tallinn, Estonia dPhysics Department, King's College London, London WC2R 2LS, UK E-mail: [email protected], [email protected], tommi.markkanen@kbfi.ee, antonio.racioppi@kbfi.ee, [email protected] Abstract. We present a novel mechanism for the production of primordial black holes (PBHs). The mechanism is based on a period of thermal inflation followed by fast-roll inflation due to tachyonic mass of order the Hubble scale. Large perturbations are generated at the end of the thermal inflation as the thermal inflaton potential turns from convex to concave. These perturbations can lead to copious production of PBHs when the relevant scales re-enter horizon. We show that such PBHs can naturally account for the observed dark matter in the Universe when the mass of the thermal inflaton is about 106 GeV and its coupling to the thermal bath preexisting the late inflation is of order unity. We consider also the possibility of forming the seeds of the supermassive black holes. In this case we find that the mass of the thermal inflaton is about 1 GeV, but its couplings have to be very small, ∼ 10−7. Finally we study a concrete realisation of our mechanism through a running mass model.
    [Show full text]
  • One Or Several Populations of Fast Radio Burst Sources?
    One or several populations of fast radio burst sources? M. Caleb1, L. G. Spitler2 & B. W. Stappers1 1Jodrell Bank Centre for Astrophysics, the University of Manchester, Manchester, UK. 2Max-Planck-Institut fu¨r Radioastronomie, Bonn, Germany. arXiv:1811.00360v1 [astro-ph.HE] 1 Nov 2018 1 To date, one repeating and many apparently non-repeating fast radio bursts have been de- tected. This dichotomy has driven discussions about whether fast radio bursts stem from a single population of sources or two or more different populations. Here we present the arguments for and against. The field of fast radio bursts (FRBs) has increasingly gained momentum over the last decade. Overall, the FRBs discovered to date show a remarkable diversity of observed properties (see ref 1, http://frbcat.org and Fig. 1). Intrinsic properties that tell us something about the source itself, such as polarization and burst profile shape, as well as extrinsic properties that tell us something about the source’s environment, such as the magnitude of Faraday rotation and multi-path propagation effects, do not yet present a coherent picture. Perhaps the most striking difference is between FRB 121102, the sole repeating FRB2, and the more than 60 FRBs that have so far not been seen to repeat. The observed dichotomy suggests that we should consider the existence of multiple source populations, but it does not yet require it. Most FRBs to date have been discovered with single-pixel telescopes with relatively large angular resolutions. As a result, the non-repeating FRBs have typically been localized to no bet- ter than a few to tens of arcminutes on the sky (Fig.
    [Show full text]
  • Planck Stars: New Sources in Radio and Gamma Astronomy? Nature Astronomy 1 (2017) 0065
    Planck stars: new sources in radio and gamma astronomy? Nature Astronomy 1 (2017) 0065 Carlo Rovelli CPT, Aix-Marseille Universit´e,Universit´ede Toulon, CNRS, F-13288 Marseille, France. A new phenomenon, recently studied in theoretical ble according to classical general relativity, but there is physics, may have considerable interest for astronomers: theoretical consensus that they decay via quantum pro- the explosive decay of old primordial black holes via cesses. Until recently, the only decay channel studied was quantum tunnelling. Models predict radio and gamma Hawking evaporation [6], a perturbative phenomenon too bursts with a characteristic frequency-distance relation slow to have astrophysical interest: evaporation time of making them identifiable. Their detection would be of a stellar black hole is 1050 Hubble times. major theoretical importance. What can bring black hole decay within potential ob- The expected signal may include two components [1]: servable reach is a different, non-perturbative, quantum (i) strong impulsive emission in the high-energy gamma phenomenon: tunnelling, the same phenomenon that spectrum (∼ T eV ), and (ii) strong impulsive signals triggers nuclear decay in atoms. The explosion of a black in the radio, tantalisingly similar to the recently dis- hole out of its horizon is forbidden by the classical Ein- covered and \very perplexing" [2] Fast Radio Bursts. stein equations but classical equations are violated by Both the gamma and the radio components are expected quantum tunnelling. Violation in a finite spacetime re- to display a characteristic flattening of the cosmological gion turns out to be sufficient for a black hole to tun- wavelength-distance relation, which can make them iden- nel into a white hole and explode [7].
    [Show full text]
  • Primordial Black Holes As a Dark Matter Candidate Are Severely Constrained by the Galactic Center 511 Kev Γ-Ray Line
    PHYSICAL REVIEW LETTERS 123, 251101 (2019) Primordial Black Holes as a Dark Matter Candidate Are Severely Constrained by the Galactic Center 511 keV γ-Ray Line Ranjan Laha * Theoretical Physics Department, CERN, 1211 Geneva 23, Switzerland (Received 25 June 2019; revised manuscript received 9 October 2019; published 16 December 2019) We derive the strongest constraint on the fraction of dark matter that can be composed of low mass primordial black holes by using the observation of the Galactic Center 511 keV γ-ray line. Primordial black holes of masses ≲1015 kg will evaporate to produce eÆ pairs. The positrons will lose energy in the Galactic Center, become nonrelativistic, then annihilate with the ambient electrons. We derive robust and conservative bounds by assuming that the rate of positron injection via primordial black hole evaporation is less than what is required to explain the SPI/INTEGRAL observation of the Galactic Center 511 keV γ-ray line. Depending on the primordial black hole mass function and other astrophysical uncertainties, these constraints are the most stringent in the literature and show that primordial black holes contribute to less than 1% of the dark matter density. Our technique also probes part of the mass range which was completely unconstrained by previous studies. DOI: 10.1103/PhysRevLett.123.251101 Introduction.—Is it possible to constrain the primordial a few hundred M⊙. PBHs are one of the oldest candidates black hole (PBH) density such that it cannot contribute to of dark matter, and their abundance has been studied in a the entire dark matter density over its viable mass range? Answering this question will have important implications 0 for the search of the identity of dark matter and inflationary 10 dynamics which can give rise to PBHs [1–6].
    [Show full text]
  • Solving Puzzles of GW150914 by Primordial Black Holes
    Prepared for submission to JCAP Solving puzzles of GW150914 by primordial black holes S. Blinnikov,a;b;c;d;1 A. Dolgov,b;a N.K. Poraykoe;a and K.Postnovc;a;f aITEP, Bol. Cheremushkinsaya ul., 25, 117218 Moscow, Russia bNovosibirsk State University, Novosibirsk, 630090, Russia cSternberg Astronomical Institute, Moscow M.V. Lomonosov State University, Universitetskij pr., 13, Moscow 119234, Russia dKavli IPMU (WPI), Tokyo University, Kashiwa, Chiba, Japan eMax-Planck-Institut f¨urRadioastronomie, Bonn, Germany f Faculty of Physics, Moscow M. V. Lomonosov State University, 119991 Moscow, Russia E-mail: [email protected], [email protected], [email protected], [email protected] Abstract. The black hole binary properties inferred from the LIGO gravitational wave signal GW150914 posed several serious problems. The high masses and low effective spin of black hole binary can be explained if they are primordial (PBH) rather than the products of the stellar binary evolution. Such PBH properties are postulated ad hoc but not derived from fundamental theory. We show that the necessary features of PBHs naturally follow from the slightly modified Affleck-Dine (AD) mechanism of baryogenesis. The log-normal distribution of PBHs, predicted within the AD paradigm, is adjusted to provide an abundant population of low-spin stellar mass black holes. The same distribution gives a sufficient number of quickly growing seeds of supermassive black holes observed at high redshifts and may comprise an appreciable fraction of Dark Matter which does not contradict any existing observational limits. Testable predictions of this scenario are discussed. arXiv:1611.00541v2 [astro-ph.HE] 29 Nov 2016 1Corresponding author.
    [Show full text]
  • Table of Contents (Print)
    PHYSICAL REVIEW D PERIODICALS 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 94, NUMBER 6 CONTENTS D15 SEPTEMBER 2016 The Table of Contents is a total listing of Parts A and B. Part A consists of articles 061501–064038, and Part B articles 064039–069903(E) PART A RAPID COMMUNICATIONS Spacetime foam induced collective bundling of intense fields (7 pages) ............................................................ 061501(R) Teodora Oniga and Charles H.-T. Wang New dynamical instability in asymptotically anti–de Sitter spacetime (6 pages) ................................................... 061901(R) Umut Gürsoy, Aron Jansen, and Wilke van der Schee Low energy signatures of nonlocal field theories (6 pages) ........................................................................... 061902(R) Alessio Belenchia, Dionigi M. T. Benincasa, Eduardo Martín-Martínez, and Mehdi Saravani ARTICLES Light dark matter scattering in outer neutron star crusts (7 pages) ................................................................... 063001 Marina Cermeño, M.Ángeles Pérez-García, and Joseph Silk Implications of gamma-ray observations on proton models of ultrahigh energy cosmic rays (10 pages) ...................... 063002 A. D. Supanitsky Analogue black holes in relativistic BECs: Mimicking Killing and universal horizons (14 pages) ............................. 063003 Bethan Cropp, Stefano
    [Show full text]
  • Primordial Black Hole Dark Matter from Single Field Inflation
    IFT-UAM/CSIC-17-084 Primordial black hole dark matter from single field inflation Guillermo Ballesteros a and Marco Taoso b a Institut de Physique Théorique, Université Paris Saclay, CEA, CNRS b Instituto de Física Teórica UAM/CSIC, Calle Nicolás Cabrera 13-15, Cantoblanco E-28049 Madrid, Spain. Abstract We propose a model of inflation capable of generating a population of light black holes (about 10−16 – 10−14 solar masses) that might account for a significant fraction of the dark matter in the Universe. The effective potential of the model features an approximate inflection point arising from two-loop order logarithmic corrections in well-motivated and perturbative particle physics examples. This feature decelerates the inflaton before the end of inflation, enhancing the primordial spectrum of scalar fluctuations and triggering efficient black hole production with a peaked mass distribution. At larger field values, inflation occurs thanks to a generic small coupling between the inflaton and the curvature of spacetime. We compute accurately the peak mass and abundance of the primordial black holes using the Press-Schechter and Mukhanov-Sasaki formalisms, showing that the slow-roll approximation fails to reproduce the correct results by orders of magnitude. We study as well a qualitatively similar implementation of the idea, where the approximate inflection point is due to competing terms in a generic polynomial potential. In both models, requiring a significant part of the dark matter abundance to be in the form of black holes implies a small blue scalar tilt with a sizable negative running and a tensor spectrum that may be detected by the next-generation probes of the cosmic microwave background.
    [Show full text]
  • X-Ray and Gamma-Ray Limits on the Primordial Black Hole Abundance
    Physics Letters B 808 (2020) 135624 Contents lists available at ScienceDirect Physics Letters B www.elsevier.com/locate/physletb X-ray and gamma-ray limits on the primordial black hole abundance from Hawking radiation ∗ ∗ ∗ Guillermo Ballesteros a,b, , Javier Coronado-Blázquez a,b, , Daniele Gaggero a, a Instituto de Física Teórica UAM/CSIC, Calle Nicolás Cabrera 13-15, Cantoblanco E-28049 Madrid, Spain b Departamento de Física Teórica, Universidad Autónoma de Madrid (UAM), Campus de Cantoblanco, 28049 Madrid, Spain a r t i c l e i n f o a b s t r a c t 16 Article history: The non-observation of extragalactic Hawking radiation from primordial black holes of 10 g sets a Received 28 April 2020 conservative strong bound on their cosmological abundance. We revisit this bound and show how it can Received in revised form 4 July 2020 be improved (both in mass reach and strength) by an adequate modeling of the combined AGN and blazar Accepted 13 July 2020 emission in the MeV range. We also estimate the sensitivity to the primordial black hole abundance of Available online 16 July 2020 a future X-ray experiment capable of identifying a significantly larger number of astrophysical sources Editor: M. Trodden contributing to the diffuse background in this energy range. © 2020 The Author(s). Published by Elsevier B.V. This is an open access article under the CC BY license 3 (http://creativecommons.org/licenses/by/4.0/). Funded by SCOAP . 1. Introduction from the observed distribution of white dwarfs [7], as well as from the disruption of neutron stars in the PBH mass range from 19 23 The isotropic background radiation that fills the Universe and 10 g to 10 g [8] has been challenged [9], opening the possibil- 22 extends over more than 16 orders of magnitude in frequency ity that PBHs of mass below ∼ 5 × 10 g –with higher masses –from radio waves all the way up to high-energy gamma rays [1]– being constrained by microlensing [10]– could explain all the carries information on the emission mechanisms of different astro- DM.
    [Show full text]
  • Cosmological Implications of Primordial Black Holes
    Prepared for submission to JCAP Cosmological implications of Primordial Black Holes Jos´eLuis Bernala;b Nicola Bellomoa;b Alvise Raccanellia Licia Verdea;c aICC, University of Barcelona, IEEC-UB, Mart´ıi Franqu`es,1, E08028 Barcelona, Spain bDept. de F´ısica Qu`antica i Astrof´ısica, Universitat de Barcelona, Mart´ı i Franqu`es1, E08028 Barcelona, Spain cICREA, Pg. Llu´ısCompanys 23, 08010 Barcelona, Spain E-mail: [email protected], [email protected], [email protected], [email protected] Abstract. The possibility that a relevant fraction of the dark matter might be comprised of Pri- mordial Black Holes (PBHs) has been seriously reconsidered after LIGO's detection of a ∼ 30M binary black holes merger. Despite the strong interest in the model, there is a lack of studies on possible cosmological implications and effects on cosmological parameters inference. We investigate correlations with the other standard cosmological parameters using cosmic microwave background observations, finding significant degeneracies, especially with the tilt of the primordial power spec- trum and the sound horizon at radiation drag. However, these degeneracies can be greatly reduced with the inclusion of small scale polarization data. We also explore if PBHs as dark matter in simple extensions of the standard ΛCDM cosmological model induces extra degeneracies, especially between the additional parameters and the PBH's ones. Finally, we present cosmic microwave background con- straints on the fraction of dark matter in PBHs, not only for monochromatic PBH mass distributions but also for popular extended mass distributions. Our results show that extended mass distribution's constraints are tighter, but also that a considerable amount of constraining power comes from the high-` polarization data.
    [Show full text]
  • Palatini-Born-Infeld Gravity and Bouncing Universe
    Windows on Quantum Gravity @Madrid, Spain 2015/10/30 Palatini-Born-Infeld Gravity and Bouncing Universe Taishi Katsuragawa (Nagoya Univ.) In collaboration with Meguru Komada (Nagoya Univ.), Shin’ichi Nojiri (Nagoya Univ. & KMI) Based on arXiv:1409.1663 Alternative Theories to General Relativity GR is simple but successful theory. Combining the SM based on QFT, our Universe is described well. Planck (2013) However, there are many reasons and motivations to consider alternative theories of gravity to GR. 1 Modification inspired by IR and UV Physics Low energy scale The observation implies the existence of Dark energy and Dark matter. 120 • Cosmological constant problem Λ푡ℎ푒표 ∼ 10 Λ표푏푠 • Origin of Cold Dark Matter etc. It may be possible to explain these two “dark” components in terms of modified gravity. High energy scale GR loses the predictability at the Planck scale where both GR and QFT are required simultaneously. • Singularity and evaporation of black holes ← Today’s topic • Initial singularity (Big Bang scenario) We can regard modified gravity as effective field theory of quantum gravity. 2 Table of contents 1. Introduction 2. Born-Infeld Gravity in Palatini Formalism 3. Bouncing Universe 4. Black Hole Formation 5. Summary and Discussion 3 Born-Infeld Gravity in Palatini Formalism 4 Born-Infeld Electrodynamics The Born-Infeld type theory was first proposed as a non-linear model of electromagnetics. In the Born-Infeld model, a new scale is introduced. 1. Gauge invariant 2. Lorentz invariant 3. To restore the Maxwell theory Born and Infeld (1934) where, 휆 is a parameter with dimension 푙푒푛푔푡ℎ 2. Because the action includes the square root, there appear the upper limit in the strength given by the scale, which may have suggested that there might not appear the divergence.
    [Show full text]