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 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 75, NUMBER 2 CONTENTS D15 JANUARY 2007 Physical Review D Editorial Policies and Practices . iii Physical Review D Information for Contributors . vii RAPID COMMUNICATIONS Catching supermassive black hole binaries without a net (5 pages) . 021301(R) Neil J. Cornish and Edward K. Porter How well can (renormalized) perturbation theory predict dark matter clustering properties? (3 pages) . 021302(R) Niayesh Afshordi Monopole wall (4 pages) . 021701(R) R. S. Ward ARTICLES Future gravitational physics tests from ranging to the BepiColombo Mercury planetary orbiter (20 pages) . 022001 Neil Ashby, Peter L. Bender, and John M. Wahr Complete model of a spherical gravitational wave detector with capacitive transducers: Calibration and sensitivity optimization (22 pages) ...................................................................... 022002 Luciano Gottardi Detecting a stochastic background of gravitational waves in the presence of non-Gaussian noise: A performance of generalized cross-correlation statistic (12 pages) . 022003 Yoshiaki Himemoto, Atsushi Taruya, Hideaki Kudoh, and Takashi Hiramatsu Limits on neutron Lorentz violation from pulsar timing (5 pages) . 023001 Brett Altschul CMB anisotropies due to cosmological magnetosonic waves (14 pages) . 023002 Tina Kahniashvili and Bharat Ratra Impact of three years of data from the Wilkinson Microwave Anisotropy Probe on cosmological models with dynamical dark energy (5 pages) ............................................................... 023003 Michael Doran, Georg Robbers, and Christof Wetterich Search for continuous gravitational waves: Metric of the multidetector F -statistic (20 pages) . 023004 Reinhard Prix Supernova neutrinos: The accretion disk scenario (5 pages) . 023005 G. C. McLaughlin and R. Surman Kerr-Sen dilaton-axion black hole lensing in the strong deflection limit (15 pages) . 023006 Galin N. Gyulchev and Stoytcho S. Yazadjiev Detection potential for the diffuse supernova neutrino background in the large liquid-scintillator detector LENA (11 pages) ................................................................................. 023007 M. Wurm, F. von Feilitzsch, M. Go¨ger-Neff, K. A. Hochmuth, T. Marroda´n Undagoitia, L. Oberauer, and W. Potzel Chaotic dynamics around astrophysical objects with nonisotropic stresses (7 pages) . 023008 F. L. Dubeibe, Leonardo A. Pacho´n, and Jose´ D. Sanabria-Go´mez Copyright 2007 by The American Physical Society (Continued) 1550-7998(20070115)75:2;1-5 CONTENTS - Continued PHYSICAL REVIEW D THIRD SERIES, VOLUME 75, NUMBER 2 D15 JANUARY 2007 (Pseudo)issue of the conformal frame revisited (13 pages) . 023501 Valerio Faraoni and Shahn Nadeau Quintessence reconstructed: New constraints and tracker viability (14 pages) . 023502 Martin Sahle´n, Andrew R. Liddle, and David Parkinson Extra-weakly interacting dark matter (13 pages) . 023503 Daniel Feldman, Boris Kors, and Pran Nath Direct detection rates of dark matter coupled to dark energy (11 pages) . 023504 N. Tetradis, J. D. Vergados, and Amand Faessler Dynamics of scalar-tensor cosmology from a Randall-Sundrum two-brane model (14 pages) . 023505 Laur Ja¨rv, Piret Kuusk, and Margus Saal Supernova Hubble diagram for off-center observers in a spherically symmetric inhomogeneous universe (6 pages) 023506 Ha˚vard Alnes and Morad Amarzguioui Uncorrelated universe: Statistical anisotropy and the vanishing angular correlation function in WMAP years 1–3 (17 pages) ................................................................................. 023507 Craig J. Copi, Dragan Huterer, Dominik J. Schwarz, and Glenn D. Starkman Analysis of leptogenesis in a supersymmetric triplet seesaw model (10 pages) . 023508 Eung Jin Chun and Stefano Scopel Thermal gravitino production and collider tests of leptogenesis (5 pages) . 023509 Josef Pradler and Frank Daniel Steffen Crossing w ÿ1 by a single scalar on a Dvali-Gabadadze-Porrati brane (8 pages) . 023510 Hongsheng Zhang and Zong-Hong Zhu Limit to general relativity in f R theories of gravity (8 pages) . 023511 Gonzalo J. Olmo Power-law parametrized quintessence model (11 pages) . 023512 Sohrab Rahvar and M. Sadegh Movahed Detecting dark matter WIMPs in the Draco dwarf: A multiwavelength perspective (21 pages) . 023513 Sergio Colafrancesco, Stefano Profumo, and Piero Ullio Assessing alternatives for directional detection of a halo of weakly interacting massive particles (5 pages) . 023514 Craig J. Copi, Lawrence M. Krauss, David Simmons-Duffin, and Steven R. Stroiney Covariant generalization of cosmological perturbation theory (10 pages) . 023515 Kari Enqvist, Janne Ho¨gdahl, Sami Nurmi, and Filippo Vernizzi Noninflationary model with scale invariant cosmological perturbations (10 pages) . 023516 Patrick Peter, Emanuel J. Pinho, and Nelson Pinto-Neto Limits of extended quintessence (9 pages) .......................................................... 023517 S. Nesseris and L. Perivolaropoulos Gauss-Bonnet quintessence: Background evolution, large scale structure, and cosmological constraints (20 pages) 023518 Tomi Koivisto and David F. Mota Separating dark physics from physical darkness: Minimalist modified gravity versus dark energy (9 pages) . 023519 Dragan Huterer and Eric V. Linder Realizing scale-invariant density perturbations in low-energy effective string theory (13 pages) . 023520 Zong-Kuan Guo, Nobuyoshi Ohta, and Shinji Tsujikawa Shadow of dark matter (9 pages) ................................................................. 023521 Stefano Profumo and Kris Sigurdson How robust are inflation model and dark matter constraints from cosmological data? (9 pages) . 023522 Jan Hamann, Steen Hannestad, Martin S. Sloth, and Yvonne Y. Wong Loop quantum cosmology and the k ÿ1 Robertson-Walker model (13 pages) . 023523 Kevin Vandersloot Geodesic measures of the landscape (7 pages) ....................................................... 023524 Vitaly Vanchurin General-relativistic decompression of binary neutron stars during dynamic inspiral (5 pages) . 024001 Mark Miller (Continued) CONTENTS - Continued PHYSICAL REVIEW D THIRD SERIES, VOLUME 75, NUMBER 2 D15 JANUARY 2007 Static wormhole solution for higher-dimensional gravity in vacuum (5 pages) . 024002 Gustavo Dotti, Julio Oliva, and Ricardo Troncoso Running of Newton’s constant and noninteger powers of the d’Alembertian (12 pages) . 024003 D. Lo´pez Nacir and F. D. Mazzitelli Inside the BTZ black hole (13 pages) ............................................................. 024004 G. de Berredo-Peixoto and M. O. Katanaev ‘‘Kludge’’ gravitational waveforms for a test-body orbiting a Kerr black hole (25 pages) . 024005 Stanislav Babak, Hua Fang, Jonathan R. Gair, Kostas Glampedakis, and Scott A. Hughes Testing the accuracy and stability of spectral methods in numerical relativity (13 pages) . 024006 Michael Boyle, Lee Lindblom, Harald P. Pfeiffer, Mark A. Scheel, and Lawrence E. Kidder Note on counterterms in asymptotically flat spacetimes (7 pages) . 024007 Dumitru Astefanesei, Robert B. Mann, and Cristian Stelea First law of black ring thermodynamics in higher dimensional Chern-Simons gravity (6 pages) . 024008 Marek Rogatko General relativity from a gauged Wess-Zumino-Witten term (5 pages) . 024009 Andre´s Anabalo´n, Steven Willison, and Jorge Zanelli Gravitational modification of the Berry phase and some other effects induced by high-power lasers (9 pages) 024010 Peiyong Ji, Ying Bai, and Long Wang Black holes at the IceCube neutrino telescope (10 pages) . 024011 Luis A. Anchordoqui, Matthew M. Glenz, and Leonard Parker Source coupled to the massive scalar field orbiting a stellar object (8 pages) . 024012 Jorge Castin˜eiras, Luı´s C. Crispino, and Damia˜o P. Filho Slowly rotating fluid balls of Petrov type D (14 pages) . 024013 Michael Bradley, Daniel Eriksson, Gyula Fodor, and Istva´nRa´cz Semiclassical states for quantum cosmology (7 pages) . 024014 Viqar Husain and Oliver Winkler Microlensing modulation by quadrupole variation (6 pages) . 024015 Florian Dubath, Maria Alice Gasparini, and Ruth Durrer Prospects of LIGO for constraining inclination of merging compact binaries associated with three-dimensionally localized short-hard GRBs (9 pages) ............................................................ 024016 Naoki Seto Stationary axisymmetric exteriors for perturbations of isolated bodies in general relativity, to second order (19 pages) ................................................................................. 024017 Malcolm A. MacCallum, Marc Mars, and Rau¨l Vera Gauss-Bonnet gravity, brane world models, and nonminimal coupling (7 pages) . 024018 K. Farakos and P. Pasipoularides Numerical implementation of isolated horizon boundary conditions (11 pages) . 024019 Jose´ Luis Jaramillo, Marcus Ansorg, and Franc¸ois Limousin Numeric simulation of relativistic stellar core collapse and the formation of Reissner-Nordstro¨m black holes (13 pages) ................................................................................. 024020 Cristian R. Ghezzi and Patricio S. Letelier Thermodynamics of black holes in (n 1)-dimensional Einstein-Born-Infeld-dilaton gravity (10 pages) . 024021 A. Sheykhi and N. Riazi Einstein-Yang-Mills solutions in higher dimensional de Sitter spacetime (11 pages) . 024022 Yves Brihaye,
Load more

Recommended publications
  • Arxiv:Astro-Ph/0402129V2 21 Sep 2004 Abstract
    Cosmological Perturbation Theory Ruth Durrer Universit´ede Gen`eve, D´epartement de Physique Th´eorique, 24 Quai E. Ansermet, CH–1211 Gen`eve, Switzerland [email protected] Abstract. This is a review on cosmological perturbation theory. After an intro- duction, it presents the problem of gauge transformation. Gauge invariant variables are introduced and the Einstein and conservation equations are written in terms of these variables. Some examples, especially perfect fluids and scalar fields are pre- sented in detail. The generation of perturbations during inflation is studied. Lightlike geodesics and their relevance for CMB anisotropies are briefly discussed. Perturba- tion theory in braneworlds is also introduced. February 5, 2004 arXiv:astro-ph/0402129v2 21 Sep 2004 2 Ruth Durrer 1 Introduction The idea that the large scale structure of our Universe might have grown our of small initial fluctuations via gravitational instability goes back to Newton (letter to Bentley, 1692[1]). The first relativistic treatment of linear perturbations in a Friedmann- Lemaˆıtre universe was given by Lifshitz (1946)[2]. There He found that the gravitational potential cannot grow within linear perturbation theory and he concluded that galaxies have not formed by gravitational instability. Today we know that it is sufficient that matter density fluctuations can grow. Nevertheless, considerable initial fluctuations with amplitudes of the 5 order of 10− are needed in order to reproduce the cosmic structures observed today. These are much larger than typical statistical fluctuations on scales of galaxies and we have to propose a mechanism to generate them. Furthermore, the measurements of anisotropies in the cosmic microwave background show that the amplitude of fluctuations is constant over a wide range of scales, the spectrum is scale independent.
    [Show full text]
  • The Cosmic Microwave Background: the History of Its Experimental Investigation and Its Significance for Cosmology
    REVIEW ARTICLE The Cosmic Microwave Background: The history of its experimental investigation and its significance for cosmology Ruth Durrer Universit´ede Gen`eve, D´epartement de Physique Th´eorique,1211 Gen`eve, Switzerland E-mail: [email protected] Abstract. This review describes the discovery of the cosmic microwave background radiation in 1965 and its impact on cosmology in the 50 years that followed. This discovery has established the Big Bang model of the Universe and the analysis of its fluctuations has confirmed the idea of inflation and led to the present era of precision cosmology. I discuss the evolution of cosmological perturbations and their imprint on the CMB as temperature fluctuations and polarization. I also show how a phase of inflationary expansion generates fluctuations in the spacetime curvature and primordial gravitational waves. In addition I present findings of CMB experiments, from the earliest to the most recent ones. The accuracy of these experiments has helped us to estimate the parameters of the cosmological model with unprecedented precision so that in the future we shall be able to test not only cosmological models but General Relativity itself on cosmological scales. Submitted to: Class. Quantum Grav. arXiv:1506.01907v1 [astro-ph.CO] 5 Jun 2015 The Cosmic Microwave Background 2 1. Historical Introduction The discovery of the Cosmic Microwave Background (CMB) by Penzias and Wilson, reported in Refs. [1, 2], has been a 'game changer' in cosmology. Before this discovery, despite the observation of the expansion of the Universe, see [3], the steady state model of cosmology still had a respectable group of followers.
    [Show full text]
  • Model-Independent Cosmological Constraints from the CMB
    Outline Motivations Cosmic Microwave Background (CMB): basic ideas Model-independent analyze of the CMB Conclusion Model-independent cosmological constraints from the CMB. Marc Vonlanthen, Ruth Durrer, Syksy Ras¨anen University of Geneva Ascona, January 20th 2010 Marc Vonlanthen, Ruth Durrer, Syksy Ras¨anen Model-independent cosmological constraints from the CMB. Outline Motivations Cosmic Microwave Background (CMB): basic ideas Model-independent analyze of the CMB Conclusion Motivations Cosmic Microwave Background (CMB): basic ideas The Cosmic Microwave Background CMB anisotropies Model-independent analyze of the CMB Sensitivity of the CMB to the cosmological parameters Methodology Results Conclusion Marc Vonlanthen, Ruth Durrer, Syksy Ras¨anen Model-independent cosmological constraints from the CMB. Outline Motivations Cosmic Microwave Background (CMB): basic ideas Model-independent analyze of the CMB Conclusion What we want to study and why it is interesting... 1. The standard model of cosmology in which Ωm ∼ 0.3and ΩΛ ∼ 0.7seemstofitanimpressivevarietyofdata. Λ ρΛ 2. However, Λin ΩΛ = 2 = faces many problems: 3H0 ρc ! why is ρΛ so much smaller than we expect (120 order of magnitudes) ? ! what is the origin of the small nonzero energy that comprises 70% of the universe today ? ! why is the current value of the vacuum energy of the same order of magnitude as the matter density ΩΛ ∼ a3 ∼O(1) Ωm today ? 3. Answers are model-dependent and uncertain, it is therefore worthwhile to study model-independently our universe. Marc Vonlanthen, Ruth Durrer, Syksy Ras¨anen Model-independent cosmological constraints from the CMB. Outline Motivations The Cosmic Microwave Background Cosmic Microwave Background (CMB): basic ideas CMB anisotropies Model-independent analyze of the CMB Conclusion Dynamics of a Friedmann-Lemaˆıtre universe ln(ρ) radiation matter Cosmological constant ln(a) aeq arec adec aΛ a0 Marc Vonlanthen, Ruth Durrer, Syksy Ras¨anen Model-independent cosmological constraints from the CMB.
    [Show full text]
  • Cosmic String Searches in New Observational Windows
    Cosmic String Searches in New Observational Windows Rebecca Jean Danos Department of Physics McGill University Montreal, Quebec February 2011 A thesis submitted in partial fulfilment of the requirements for the degree of Doctor of Philosophy Doctor of Philosophy c Rebecca Jean Danos, 2011. All rights reserved Abstract Placing observational limits on cosmic strings would provide important con- firmation of or constraints on early universe models. Cosmic strings imprint the cosmic microwave background (CMB) with a distinct position space signa- ture, leaving line discontinuities in the temperature maps due to a combination of gravitational lensing and the Doppler effect. To improve theoretical obser- vational constraints, I wrote sky map simulations with and without cosmic strings, edge detection and counting algorithms, and programs to differentiate statistically between the ambient edges due to the inflationary background and the string signals. Our application of position space algorithms, specifically the Canny edge detection algorithm, was highly successful and allowed us to establish improved limits, by more than an order of magnitude, on the con- tribution of cosmic strings to the total fluctuation spectrum from simulated data. We extended our analysis of the Canny algorithm to distinguish between abelian cosmic strings and cosmic superstrings through the presence of three- string junctions in cosmic superstring maps. To this end, I wrote the first simulations of maps with junctions and found a disparity in the density of edges in maps of string networks with and without junctions. This work re- sulted in a statistic to differentiate between different cosmic string models including string theory models and models with different numbers of cosmic strings.
    [Show full text]
  • Lensing Corrections to the Eg(Z) Statistics from Large Scale Structure
    Prepared for submission to JCAP Lensing corrections to the Eg(z) statistics from large scale structure Azadeh Moradinezhad Dizgah and Ruth Durrer University of Geneva, Department of Theoretical Physics and Center for Astroparticle Physics, 24 quai E. Ansermet, CH-1211 Geneva 4, Switzerland E-mail: [email protected], [email protected] Abstract. We study the impact of the often neglected lensing contribution to galaxy number counts on the Eg statistics which is used to constrain deviations from GR. This contribution affects both the galaxy-galaxy and the convergence-galaxy spectra, while it is larger for the latter. At higher redshifts probed by upcoming surveys, for instance at z = 1:5, neglecting this term induces an error of (25 − 40)% in the spectra and therefore on the Eg statistics which is constructed from the combination of the two. Moreover, including it, renders the Eg statistics scale and bias-dependent and hence puts into question its very objective. arXiv:1604.08914v2 [astro-ph.CO] 7 Oct 2016 1 Introduction Understanding the cause of the current accelerated expansion of the universe remains a challenge since its discovery [1,2]. Within general relativity (GR), a finely tuned cosmological constant or a dynamical dark energy component can account for the observed acceleration. On the other hand, modifications to GR on cosmological scales can provide an alternative explanation. Distinguishing between these scenarios is one of the main tasks of current and upcoming cosmological large scale structure surveys. At the level of the background, the predictions of most modified gravity and dark energy models are indistinguishable from one another as they can both explain the cosmic acceleration.
    [Show full text]
  • Cosmology II: the Thermal History of the Universe
    Cosmology II: The thermal history of the Universe . Ruth Durrer Département de Physique Théorique et CAP Université de Genève Suisse August 6, 2014 . Ruth Durrer (Université de Genève) Cosmology II August 6, 2014 1 / 21 Contents 1. The thermal history of the Universe 2. The cosmic microwave background 3. Dark matter 4. Dark energy models 5. Conclusions . Ruth Durrer (Université de Genève) Cosmology II August 6, 2014 2 / 21 Nucleosyhthesis (the formation of Helium, Deuterium, ...) Inflation ? Thermal history In the past the Universe was not only much denser than today but also much hotter. The most remarkable events of the hot Universe: Recombination (electrons and protons combine to neutral hydrogen). Age of the Universe: t0 ' 13:7 billion years . Ruth Durrer (Université de Genève) Cosmology II August 6, 2014 3 / 21 Inflation ? Thermal history In the past the Universe was not only much denser than today but also much hotter. The most remarkable events of the hot Universe: Recombination (electrons and protons combine to neutral hydrogen). Nucleosyhthesis (the formation of Helium, Deuterium, ...) Age of the Universe: t0 ' 13:7 billion years . Ruth Durrer (Université de Genève) Cosmology II August 6, 2014 3 / 21 Thermal history In the past the Universe was not only much denser than today but also much hotter. The most remarkable events of the hot Universe: Recombination (electrons and protons combine to neutral hydrogen). Nucleosyhthesis (the formation of Helium, Deuterium, ...) Inflation ? Age of the Universe: t0 ' 13:7 billion years . Ruth Durrer (Université de Genève) Cosmology II August 6, 2014 3 / 21 At T ' 3000K (t ' 3000000years) the Universe is ’cold’ enough that protons and electrons can combine to neutral hydrogen.
    [Show full text]
  • Pos(Cargese)006 Ce
    The Cosmic Microwave Background PoS(cargese)006 Ruth Durrer∗ Université de Genève Département de Physique Théorique 24, Quai E. Ansrmet, 1211 Genève 4, Switzerland E-mail: [email protected] In these lectures on the cosmic microwave background (CMB) we shall first give an overview of cosmological perturbation theory. Then we derive CMB anisotropies in the instant decoupling approximation where we can obtain them by integrating lightlike geodesics from the last scat- tering surface until today. In a second step we use the Boltzmann equation to investigate also polarization and Silk damping. In the final lecture we discuss experimental data and parameter estimation from observations of CMB anisotropies and polarization. Cargèse Summer School: Cosmology and Particle Physics Beyond the Standard Models June 30-August 11 2007 Cargèse, France ∗Speaker. c Copyright owned by the author(s) under the terms of the Creative Commons Attribution-NonCommercial-ShareAlike Licence. http://pos.sissa.it/ The Cosmic Microwave Background Ruth Durrer 1. Introduction The cosmic microwave background (CMB) has been discovered accidentally in 1965 by Pen- zias and Wilson [1] who obtained the Nobel prize 1978 for this discovery. It was the decisive evidence which convinced most physicists in favor of the Big Bang model, initiated by Friedmann and Lemaître and worked out be Gamov, Dicke, Peebles and others, as compared to a steady state cosmology which had been advocated by Fred Hoyle and collaborators. More or less immediately after the discovery of the CMB cosmologists began to search for its fluctuations which must be there if the observed cosmic structures, galaxies, clusters, voids etc.
    [Show full text]
  • Arxiv:1103.5331V3 [Astro-Ph.CO]
    What do we really know about Dark Energy? Ruth Durrer∗ CEA, Institut de Physique Th´eorique, 91191 Gif-sur-Yvette, France CNRS, URA-2306, 91191 Gif-sur-Yvette, France and Universit´ede Gen`eve, DPT and CAP, 1211 Gen`eve, Suisse May 28, 2018 Abstract In this paper we discuss what we truly know about dark energy. I shall argue that up to date our single indication for the existence of dark energy comes from distance measurements and their relation to redshift. Supernovae, cosmic microwave background anisotropies and observations of baryon acous- tic oscillations, they all simply tell us that the observed distance to a given redshift z is larger than the one expected from a Friedmann Lemˆıtre universe with matter only and the locally measured Hubble parameter. 1 Introduction Nearly thirteen years ago, measurements of the luminosity of type Ia supernovae (SN1a) as function of their redshift [1] have led to the interpretation that the ex- pansion our Universe is presently accelerated and therefore the energy density of the Universe is presently dominated by a component with strongly negative pres- sure, P < ρ/3, like during inflation. This was an entirely unexpected result but it has been− confirmed with many more observations from SN1a data [2], from observations of cosmic microwave background (CMB) anisotropies and polariza- tion [3], from weak lensing [4], from baryon acoustic oscillations (BAO) [5], from galaxy surveys [6] and from cluster data [7]. All this data is consistent with the so called concordance model, a Friedmann Lemaˆıtre (FL) universe with a nearly scale invariant spectrum of Gaussian initial fluctuations as predicted by inflation.
    [Show full text]
  • Cosmology of Brane Universes and Brane Gases
    UNIVERSITE¶ DE GENEVE FACULTE¶ DES SCIENCES D¶epartement de physique th¶eorique Professeur R. DURRER Cosmology of Brane Universes and Brane Gases THESE pr¶esent¶ee a la Facult¶e des sciences de l'Universit¶e de Geneve pour l'obtention du grade de Docteur es sciences, mention physique par Timon Georg BOEHM de B^ale (BS) These N± 3481 GENEVE Atelier de reproduction de la Section de physique 2004 . Abstract The standard big bang model gives a fairly good description of the cosmological evolution of our universe from shortly after the big bang to the present. The existence of an initial singularity, however, might be viewed as unsatisfactory in a comprehensive model of the universe. Moreover, if this singularity indeed exists, we are lacking initial conditions which tell us in what state the universe emerged from the big bang. The advent of string theory as a promising candidate for a theory of quantum gravity opened up new possibilities to understand our universe. The hope is that string theory can resolve the initial singularity problem and, in addition, provide initial conditions. String theory makes a number of predictions such as extra-dimensions, the existence of p-branes (fundamental objects with p spatial dimensions) as well as several new particles. Consequently, over the past few years, a new ¯eld of research emerged, which investigates how these predictions manifest themselves in a cosmological context. In particular, the idea that our universe is a 3-brane embedded in a higher-dimensional space received a lot of attention. In this thesis we investigate the dynamical and perturbative behavior of string theory inspired cosmological models.
    [Show full text]
  • MATTEO VIEL Curriculum Vitae
    MATTEO VIEL Date of birth: September 5, 1975 Place of birth: Udine (Italy) Nationality: Italian Contact details: SISSA - Scuola Internazionale Studi Superiori Avanzati via Bonomea 265 I-34136 Trieste, Italy tel. +39-040-3787517 fax. +39-040-3787249 e-mail: [email protected] - [email protected] web-page: http://www.sissa.it/∼viel ORCID identifier: 0000-0002-2642-5707 Curriculum vitae - 7/1999: Degree in Physics, Università di Padova, Italy. Thesis: “A merger tree for the formation of cosmic structures” Thesis supervisors: Prof. Sabino Matarrese, Prof. Giuseppe Tormen. (grade: full mark 110/110 cum laude) - 9/1999 - 3/2000: Fellowship of Università di Padova for a period of six months at Max- Planck-Institut for Astrophysics (Garching, Germany) - 11/1999 - 11/2002: PhD position at the Physics Department of Università di Padova (Italy) - 02/2001 - 04/2001: Visiting period at Max-Planck-Institut für Astrophysik (Garching, Germany) - 04/2001 - 10/2001: EARA-Marie Curie Fellowship at Max-Planck-Institut fü«ír Astro- physik (Garching, Germany) - 02/2002 - 07/2002: EARA-Marie Curie Fellowship at Institute of Astronomy (Cambridge, UK) - 11/2002 - 10/2003: Research Associate - Institute of Astronomy (Cambridge, UK) - 02/2003: PhD from Università di Padova (Italy), Thesis “Numerical Models of the Intergalactic Medium” - Thesis supervisor: Prof. Sabino Matarrese 1 - 10/2003 - 10/2006: Research Associate - PPARC (Particle Physics Astronomy Re- search Council) fellowship, Institute of Astronomy (Cambridge, UK) - 11/2004 - 12/2004: Visiting period at
    [Show full text]
  • Springer Theses
    Springer Theses Recognizing Outstanding Ph.D. Research Aims and Scope The series “Springer Theses” brings together a selection of the very best Ph.D. theses from around the world and across the physical sciences. Nominated and endorsed by two recognized specialists, each published volume has been selected for its scientific excellence and the high impact of its contents for the pertinent field of research. For greater accessibility to non-specialists, the published versions include an extended introduction, as well as a foreword by the student's supervisor explaining the special relevance of the work for the field. As a whole, the series will provide a valuable resource both for newcomers to the research fields described, and for other scientists seeking detailed background information on special questions. Finally, it provides an accredited documentation of the valuable contributions made by today's younger generation of scientists. Theses are accepted into the series by invited nomination only and must fulfill all of the following criteria • They must be written in good English. • The topic should fall within the confines of Chemistry, Physics, Earth Sciences, Engineering and related interdisciplinary fields such as Materials, Nanoscience, Chemical Engineering, Complex Systems and Biophysics. • The work reported in the thesis must represent a significant scientific advance. • If the thesis includes previously published material, permission to reproduce this must be gained from the respective copyright holder. • They must have been examined and passed during the 12 months prior to nomination. • Each thesis should include a foreword by the supervisor outlining the signifi- cance of its content. • The theses should have a clearly defined structure including an introduction accessible to scientists not expert in that particular field.
    [Show full text]
  • Chiara Caprini
    Chiara Caprini Laboratoire Astroparticule et Cosmologie APC CNRS, UMR 7164 10, rue Alice Domon et L´eonieDuquet 75205 Paris cedex 13 (France) Phone: +33 1 57 27 60 43 E-mail: [email protected] http://www.apc.univ-paris7.fr/APC_CS/fr/users/caprini Current position: CNRS researcher September 2016 { now, at Laboratoire Astroparticule et Cosmologie APC, Paris October 2008 { August 2016, at Institut de Physique Th´eorique,CEA Saclay Employment and education: Universite´ Paris 7 Diderot December 2018 Habilitation `aDiriger des Recherches Thesis title: \Cosmological Stochastic Backgrounds of Gravitational Waves" Institut de Physique Theorique,´ CEA Saclay October 2007 { September 2008 Postdoc researcher University of Geneva November 2004 { September 2007 Postdoc researcher and teaching assistant University of Oxford October 2001 { October 2004 Ph.D. in Astrophysics Thesis advisor: Dr. Pedro G. Ferreira Thesis title: \The Observational Consequences of Primordial Fields" Graduate Scholar of Oriel College (2002 { 2004) Dan David Prize Scholar (2003) University of Parma and University of Geneva October 1995 { April 2001 Laurea in fisica. Final result: 110/110 cum laude Thesis advisors: Prof. Ruth Durrer, Prof. Massimo Pauri Thesis title: \Limiti sull'intensit`adel campo magnetico primordiale dallo spettro di onde gravitazionali indotte" Research interests: Cosmology and Gravitational Waves gravitational wave background of cosmological origin; gravitational waves from compact binaries and their propagation through the universe; primordial mag- netic fields (generation and constraints); cosmological applications of turbulence in plasmas; primordial phase transitions; dark energy and scalar fields in cosmology; physics of the Cosmic Microwave Background; cosmological perturbation theory Research management: • Member of the Astronomy Working Group of the European Space Agency, since 2020.
    [Show full text]