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THE CONNECTION OF NEUTRINO PHYSICS WITH COSMOLOGY AND ASTROPHYSICS STEEN HANNESTAD CERN, 1 OCTOBER 2009 e    

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Presentation on theme: "THE CONNECTION OF NEUTRINO PHYSICS WITH COSMOLOGY AND ASTROPHYSICS STEEN HANNESTAD CERN, 1 OCTOBER 2009 e    "— Presentation transcript:

1 THE CONNECTION OF NEUTRINO PHYSICS WITH COSMOLOGY AND ASTROPHYSICS STEEN HANNESTAD CERN, 1 OCTOBER 2009 e    

2 Where do Neutrinos Appear in Nature?Astrophysical Accelerators Soon ? Big Bang (Today 330 /cm 3 ) Indirect Evidence Indirect Evidence Nuclear Reactors Earth Crust (NaturalRadioactivity) Particle Accelerators Particle Accelerators Earth Atmosphere (Cosmic Rays) Sun Supernovae (Stellar Collapse) SN 1987A SN 1987A (2005) (2005)

3  Dirac CP violating phase   is the “solar’’ mixing angle   is the “atmospheric’’ mixing angle   FLAVOUR STATESPROPAGATION STATES MIXING MATRIX (UNITARY) LATE-TIME COSMOLOGY IS (ALMOST) INSENSITIVE TO THE MIXING STRUCTURE Possibly 2 additional Majorana phases

4 LIGHTEST INVERTED NORMAL HIERARCHICALDEGENERATE Lesgourgues and Pastor 2006 A COSMOLOGISTS’ VIEW OF NEUTRINO MASSES

5 THE ABSOLUTE VALUES OF NEUTRINO MASSES FROM COSMOLOGY NEUTRINOS AFFECT STRUCTURE FORMATION BECAUSE THEY ARE A SOURCE OF DARK MATTER HOWEVER, eV NEUTRINOS ARE DIFFERENT FROM CDM BECAUSE THEY FREE STREAM SCALES SMALLER THAN d FS DAMPED AWAY, LEADS TO SUPPRESSION OF POWER ON SMALL SCALES FROM

6 N-BODY SIMULATIONS OF  CDM WITH AND WITHOUT NEUTRINO MASS (768 Mpc 3 ) – GADGET 2 T Haugboelle, University of Aarhus 256 Mpc

7 AVAILABLE COSMOLOGICAL DATA

8 WMAP-5 TEMPERATURE POWER SPECTRUM M NOLTA ET AL., arXiv:0803.0593

9 LARGE SCALE STRUCTURE SURVEYS - 2dF AND SDSS

10 SDSS DR-7 LRG SPECTRUM (Reid et al ’09)

11 S m = 0.3 eV FINITE NEUTRINO MASSES SUPPRESS THE MATTER POWER SPECTRUM ON SCALES SMALLER THAN THE FREE-STREAMING LENGTH S m = 1 eV S m = 0 eV P(k)/P(k,m 

12 NOW, WHAT ABOUT NEUTRINO PHYSICS?

13 WMAP-5 ONLY ~ 1.3 eV WMAP + OTHER 0.67 eV Komatsu et al., arXiv:0803.0547 WHAT IS THE PRESENT BOUND ON THE NEUTRINO MASS?

14 THE NEUTRINO MASS FROM COSMOLOGY PLOT Larger model space More data CMB only + SDSS + SNI-a +WL +Ly-alpha Minimal  CDM +N +w+…… 1.3 eV 0.7 eV ~ 0.5 eV ~ 0.2 eV ~ 2 eV2.? eV??? eV ~ 1 eV1-2 eV 0.5-0.6 eV 0.2-0.3 eV

15 WHAT IS IN STORE FOR THE FUTURE? BETTER CMB TEMPERATURE AND POLARIZATION MEASUREMENTS (PLANCK) LARGE SCALE STRUCTURE SURVEYS AT HIGH REDSHIFT MEASUREMENTS OF WEAK GRAVITATIONAL LENSING ON LARGE SCALES

16 Distortion of background images by foreground matter UnlensedLensed WEAK LENSING – A POWERFUL PROBE FOR THE FUTURE

17 STH, TU, WONG 2006

18 STH, TU & WONG 2006 (ASTRO-PH/0603019, JCAP) THE SENSITIVITY TO NEUTRINO MASS WILL IMPROVE TO < 0.1 eV AT 95% C.L. USING WEAK LENSING COULD POSSIBLY BE IMPROVED EVEN FURTHER USING FUTURE LARGE SCALE STRUCTURE SURVEYS

19

20 THIS SOUNDS GREAT, BUT UNFORTUNATELY THEORY MUST BE AT THE SAME LEVEL OF PRECISION BY THE TIME DATA-TAKING STARTS

21 FUTURE SURVEYS LIKE LSST WILL PROBE THE POWER SPECTRUM TO ~ 1-2 PERCENT PRECISION WE SHOULD BE ABLE TO CALCULATE THE POWER SPECTRUM TO AT LEAST THE SAME PRECISION! ”LSST” ERROR BARS

22 FULL NON-LINEAR LINEAR THEORY Brandbyge, STH, Haugbølle, Thomsen, arXiv:0802.3700 (ApJ) NON-LINEAR EVOLUTION PROVIDES AN ADDITIONAL AND VERY CHARACTERISTIC SUPPRESSION OF FLUCTUATION POWER DUE TO NEUTRINOS (COULD BE USED AS A SMOKING GUN SIGNATURE)

23 RECENTLY THERE HAS BEEN RENEWED INTEREST IN THE POSSIBLE DETECTION OF THE COSMIC RELIC NEUTRINO BACKGROUND THE MOST PROMISING POSSIBILITY IS TO USE NEUTRINO CAPTURE FROM THE C B (dating back to Weinberg ’62) E.g. ANY EXPERIMENT DESIGNED TO MEASURE THE BETA ENDPOINT (E.G. KATRIN) CAN BE USED TO PROBE THE COSMIC NEUTRINO BACKGROUND PROBLEM: THE RATE IS TINY!!! ANY EXPERIMENT OF THIS KIND WHICH MEASURED THE COSMIC NEUTRINO BACKGROUND WILL AUTOMATICALLY PROVIDE AN EXCELLENT MEASUREMENT OF THE NEUTRINO MASS

24 KURIE PLOT FOR TRITIUM – ASSUMES INVERTED HIERARCHY AND  13 CLOSE TO THE CURRENT UPPER BOUND WITH INFINITELY GOOD ENERGY RESOLUTION THERE WILL BE 3 DISTINCT PEAKS FROM BACKGROUND ABSORPTION AMPLITUDE OF EACH PROPORTIONAL TO

25 AND FINALLY: IN THE FAR DISTANT FUTURE WE MIGHT BE OBSERVING THE C B ANISOTROPY FOR SMALL MASSES IT CAN BE CALCULATED IN A WAY SIMILAR TO THE PHOTON ANISOTROPY, WITH SOME IMPORTANT DIFFERENCES: AS SOON AS NEUTRINOS GO NON-RELATIVISTIC ALL HIGH l MULTIPOLES ARE SUPPRESSED (ESSENTIALLY A GEOMETRIC EFFECT) GRAVITATIONAL LENSING IS MUCH MORE IMPORTANT THAN FOR MASSLESS PARTICLES STH & Brandbyge, in preparation (see also Michney, Caldwell astro-ph/0608303)

26 REALISATIONS OF THE C B FOR DIFFERENT MASSES

27 CONCLUSIONS NEUTRINO PHYSICS IS PERHAPS THE PRIME EXAMPLE OF HOW TO USE COSMOLOGY TO DO (ORDINARY) PARTICLE PHYSICS THE BOUND ON NEUTRINO MASSES IS SIGNIFICANTLY STRONGER THAN WHAT CAN BE OBTAINED FROM DIRECT EXPERIMENTS, ALBEIT MUCH MORE MODEL DEPENDENT FUTURE OBSERVATIONS WILL CONTINUE TO IMPROVE THE SENSITIVITY TO NEUTRINO PROPERTIES

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