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Neutrino Physics from the Cosmic Microwave Background and Large Scale StructureThis is a report on the status and prospects of the quantification of neutrino properties through the cosmological neutrino background for the Cosmic Frontier of the Division of Particles and Fields Community Summer Study long-term planning exercise. Experiments planned and underway are prepared to study the cosmological neutrino background in detail via its influence on distance-redshift relations and the growth of structure. The program for the next decade described in this document, including upcoming spectroscopic galaxy surveys eBOSS and DESI and a new Stage-IV CMB polarization experiment CMB-S4, will achieve sigma (sigma*mass(sub v)= 16 meV and sigma (Effective number of neutrino species) = 0.020. Such a mass measurement will produce a high significance detection of non-zero sigma*mass(sub v), whose lower bound derived from atmospheric and solar neutrino oscillation data is about 58 meV. If neutrinos have a minimal normal mass hierarchy, this measurement will definitively rule out the inverted neutrino mass hierarchy, shedding light on one of the most puzzling aspects of the Standard Model of particle physics - the origin of mass. This precise a measurement of Neff will allow for high sensitivity to any light and dark degrees of freedom produced in the big bang and a precision test of the standard cosmological model prediction that the effective number of neutrino species = 3.046.
Document ID
20150009014
Acquisition Source
Goddard Space Flight Center
Document Type
Reprint (Version printed in journal)
Authors
K N Abazajian (University of California, Los Angeles Los Angeles, California, United States)
K Arnold (University of California, San Diego San Diego, California, United States)
J Austermann (University of Colorado Boulder Boulder, Colorado, United States)
B A Benson (University of Chicago Chicago, Illinois, United States)
C Bischoff (Harvard-Smithsonian Center for Astrophysics Cambridge, Massachusetts, United States)
J Bock (California Institute of Technology Pasadena, California, United States)
J R Bond (University of Toronto Toronto, Ontario, Canada)
J Borrill (Lawrence Berkeley National Laboratory Berkeley, California, United States)
E Calabrese (University of Oxford Oxford, Oxfordshire, United Kingdom)
J E Carlstrom (University of Chicago Chicago, Illinois, United States)
C S Carvalho (Universidade Nova de Lisboa Lisbon, Lisboa, Portugal)
C L Chang (University of Chicago Chicago, Illinois, United States)
H C Chiang (University of KwaZulu-Natal Durban, South Africa)
S Church (Stanford University Stanford, California, United States)
A Cooray (University of California, Irvine Irvine, California, United States)
T M Crawford (University of Chicago Chicago, Illinois, United States)
K S Dawson (University of Utah Salt Lake City, Utah, United States)
S Das (Argonne National Laboratory Lemont, Illinois, United States)
M J Devlin (University of Pennsylvania Philadelphia, Pennsylvania, United States)
M Dobbs (McGill University Montreal, Quebec, Canada)
S Dodelson (Fermilab Batavia, Illinois, United States)
O Dore (Jet Propulsion Lab La Cañada Flintridge, California, United States)
J Dunkley (University of Oxford Oxford, Oxfordshire, United Kingdom)
J Errard (University of California, Berkeley Berkeley, California, United States)
A Fraisse (Princeton University Princeton, New Jersey, United States)
J Gallicchio (University of Chicago Chicago, Illinois, United States)
N W Halverson (University of Colorado Boulder Boulder, Colorado, United States)
S Hanany (University of Minnesota Minneapolis, Minnesota, United States)
S R Hildebrandt (California Institute of Technology Pasadena, California, United States)
A Hincks (University of British Columbia Vancouver, British Columbia, Canada)
R Hlozek (Princeton University Princeton, New Jersey, United States)
G Holder (McGill University Montreal, Quebec, Canada)
W L Holzapfel (University of California, Berkeley Berkeley, California, United States)
K Honscheid (The Ohio State University Columbus, Ohio, United States)
W Hu (University of Chicago Chicago, Illinois, United States)
J Hubmayr (NIST Quantum Devices Group)
K Irwin (Stanford University Stanford, California, United States)
W C Jones (Princeton University Princeton, New Jersey, United States)
M Kamionkowski (Johns Hopkins University Baltimore, Maryland, United States)
B Keating (University of California, San Diego San Diego, California, United States)
R Keisler (University of Chicago Chicago, Illinois, United States)
L Knox (University of California, Davis Davis, California, United States)
E Komatsu (Max Planck Institute for Astrophysics Garching bei München, Germany)
J Kovac (Harvard-Smithsonian Center for Astrophysics Cambridge, Massachusetts, United States)
C L Kuo (Stanford University Stanford, California, United States)
C Lawrence (Jet Propulsion Lab La Cañada Flintridge, California, United States)
A T Lee (University of California, Berkeley Berkeley, California, United States)
E Leitch (University of Chicago Chicago, Illinois, United States)
E Linder (Lawrence Berkeley National Laboratory Berkeley, California, United States)
P Lubin (University of California, Santa Barbara Santa Barbara, California, United States)
J McMahon (University of Michigan–Ann Arbor Ann Arbor, Michigan, United States)
A Miller (Columbia University New York, New York, United States)
L Newburgh (Princeton University Princeton, New Jersey, United States)
M D Niemack (Cornell University Ithaca, New York, United States)
H Nguyen (Fermilab Batavia, Illinois, United States)
H T Nguyen (Jet Propulsion Lab La Cañada Flintridge, California, United States)
L Page (Princeton University Princeton, New Jersey, United States)
C Pryke (University of Minnesota Minneapolis, Minnesota, United States)
C L Reichardt (The Ohio State University Columbus, Ohio, United States)
J E Ruhl (Case Western Reserve University Cleveland, Ohio, United States)
N Sehgal (Stony Brook University Stony Brook, New York, United States)
U Seljak (The Ohio State University Columbus, Ohio, United States)
J Sievers (University of Toronto Toronto, Ontario, Canada)
E Silverstein (Stanford University Stanford, California, United States)
A Slosar (Brookhaven National Laboratory Upton, New York, United States)
K M Smith (Perimeter Institute Waterloo, Ontario, Canada)
D Spergel (Peyton Hall)
S T Staggs (Princeton University Princeton, New Jersey, United States)
A Stark (Harvard-Smithsonian Center for Astrophysics Cambridge, Massachusetts, United States)
R Stompor (Sorbonne University Paris, France)
A G Vieregg (University of Colorado Boulder Boulder, Colorado, United States)
G Wang (Argonne National Laboratory Lemont, Illinois, United States)
S Watson (Syracuse University Syracuse, New York, United States)
E J Wollack (Goddard Space Flight Center Greenbelt, Maryland, United States)
W L K Wu (Stanford University Stanford, California, United States)
K W Yoon (Stanford University Stanford, California, United States)
O Zahn (University of California, Berkeley Berkeley, California, United States)
Date Acquired
May 28, 2015
Publication Date
July 3, 2014
Publication Information
Publication: Astroparticle Physics
Publisher: Elsevier B.V.
Volume: 63
Issue Publication Date: March 15, 2015
ISSN: 0927-6505
DOI: doi:10.1016/j.astropartphys.2014.05.014
Subject Category
Astrophysics
Report/Patent Number
GSFC-E-DAA-TN21463
Distribution Limits
Public
Copyright
Portions of document may include copyright protected material.
Keywords
Neutrinos
radiation-dominated era
distance-redshift relations
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