Presentation is loading. Please wait.

Presentation is loading. Please wait.

What can we learn about neutrinos from cosmology? Credit: SDSS team, Andrew Hamilton Blame: Max Tegmark.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "What can we learn about neutrinos from cosmology? Credit: SDSS team, Andrew Hamilton Blame: Max Tegmark."— Presentation transcript:

1

2 What can we learn about neutrinos from cosmology? Credit: SDSS team, Andrew Hamilton Blame: Max Tegmark

3 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 What have we learned so far?

4 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 Flyabout + SDSS movie

5 Fluctuation generator Fluctuation amplifier (Graphics from Gary Hinshaw/WMAP team) Hot Dense Smooth Cool Rarefied Clumpy Brief History of the Universe

6 Fluctuation generator Fluctuation amplifier (Graphics from Gary Hinshaw/WMAP team) Hot Dense Smooth Cool Rarefied Clumpy What do we want to measure? Cosmological functions   (z), G(z,k), P s (k), P t (k)

7 Fluctuation generator Fluctuation amplifier (Graphics from Gary Hinshaw/WMAP team) Hot Dense Smooth Cool Rarefied Clumpy To 0th order: Cosmological functions   (z), G(z,k), P s (k), P t (k) H(z)

8 Fluctuation generator Fluctuation amplifier (Graphics from Gary Hinshaw/WMAP team) Hot Dense Smooth Cool Rarefied Clumpy Cosmological functions H(z) P(k,z) To 1st order:

9 SN Ia+CMB+LSS constraints Yun Wang & MT 2004, PRL 92, 241302 H = dlna/dt, H 2   Assumes k=0 Vanilla rules OK!

10 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 Measuring clustering (That’s where the neutrino signal is)

11 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 History CMB Foreground-cleaned WMAP map from Tegmark, de Oliveira-Costa & Hamilton, astro-ph/0302496

12 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 Boom zoom z = 1000

13 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 Boom zoom z = 2.4 Mathis, Lemson, Springel, Kauffmann, White & Dekel 2001

14 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 Boom zoom z = 0.8 Mathis, Lemson, Springel, Kauffmann, White & Dekel 2001

15 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 Boom zoom Mathis, Lemson, Springel, Kauffmann, White & Dekel 2001 z = 0

16 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 1par movies Ly  LSS Clusters Lensing Tegmark & Zaldarriaga, astro-ph/0207047 + updates CMB

17 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 Cmbgg OmOl

18 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 1par movies Ly  LSS Clusters Lensing Tegmark & Zaldarriaga, astro-ph/0207047 + updates CMB

19 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 000619 Galaxy power spectrum measurements 1999 (Based on compilation by Michael Vogeley)

20 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 1par movies LSS

21 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 1par movies LSS Clusters Tegmark & Zaldarriaga, astro-ph/0207047 + updates

22 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 1par movies LSS Clusters CMB Tegmark & Zaldarriaga, astro-ph/0207047 + updates

23 History (Figure from Wayne Hu) (Figure from WMAP team)

24 History

25 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 History CMB Foreground-cleaned WMAP map from Tegmark, de Oliveira-Costa & Hamilton, astro-ph/0302496

26 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 Boom zoom Guth & Kaiser 2005, Science

27 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 1par movies LSS Clusters CMB Tegmark & Zaldarriaga, astro-ph/0207047 + updates

28 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 1par movies Ly  LSS Clusters Tegmark & Zaldarriaga, astro-ph/0207047 + updates CMB

29 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 Boom zoom Lyman Alpha Forest Simulation: Cen et al 2001 You Quasar Ly  F

30 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 1par movies Ly  LSS Clusters Tegmark & Zaldarriaga, astro-ph/0207047 + updates CMB

31 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 1par movies Ly  LSS Clusters Lensing Tegmark & Zaldarriaga, astro-ph/0207047 + updates CMB

32 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 GRAVITATIONAL LENSING: A1689 imaged by Hubble ACS, Broadhurst et al 2004

33 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 distorti on Lensing

34 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 1par movies Ly  LSS Clusters Lensing Tegmark & Zaldarriaga, astro-ph/0207047 + updates CMB

35 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 000619 Galaxy power spectrum measurements 1999 (Based on compilation by Michael Vogeley)

36 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 1par movies Ly  LSS Clusters Lensing Tegmark & Zaldarriaga, astro-ph/0207047 + updates CMB

37 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 Measuring cosmological parameters

38 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006

39 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 Neutrinos

40 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 Boom zoom How neutrinos suppress cosmic fluctuation growth If all the matter can cluster:  a Net growth until today: a today /a primordial ≈ 4700 p ≈ 4700 e -4f Power suppression: P(k)/P(k) primordial ≈ e -8f f ≈ ∑ m i /94.4 eV  dm ≈ ∑ m i /12 eV, So 1 eV cuts power in half. If only a fraction  * can cluster:  a p, where p=[(1+24  * )-1]/4≈  * 3/5 ≈ (1-f ) 3/5 (Bond, Efstathiou & Silk 1980) Distinguish neutrinos from dark energy by time and scale dependence.

41 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 Cmbgg OmOl

42 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 Cmbgg OmOl

43 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 Cmbgg OmOl CMB

44 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 Cmbgg OmOl CMB + P(k)

45 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 Cmbgg OmOl CMB + Ly  F + P(k)

46 THE FUTURE It's tough to make predictions, especially about the future. Yogi Berra

47 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 Boom zoom Now: WMAP CMB + SDSS gals & Ly  F: ∑ m i < 0.4 eV E.g., Hu & Tegmark astro-ph/9811168, Hu astro-ph/9904153, Hannestad et al, astro-ph/0603019 Planck CMB + LSST lensing:  (∑ m i ) ~ 0.04 eV Seljak et al, astro-ph/0407372, Goobar et al astro-ph/0602155 Future:

48 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 Galaxy clustering progress

49 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 Why are LRGs so useful?

50 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 SDSS sphere anim

51 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 History CMB Foreground-cleaned WMAP map from Tegmark, de Oliveira-Costa & Hamilton, astro-ph/0302496

52 LSS Our observable universe

53 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 LSS Quasars

54 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 LSS LRG’s

55 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 LSS Common galaxies

56 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 LSS Common gals: too dense Quasars: too sparse LRG’s: just right! Why LRG’s are “Goldilocks galaxies”:

57 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 LSS LRG’s Also more strongly clustered

58 Max Tegmark Dept. of Physics, MIT tegmark@mit.edu FACT ISSworkshop BU, March 8, 2006 LSS Why LRG’s are “just right”: 60000 LRG’s have more statistical power than 2 million regular gals (Eisenstein et al 2005)

Download ppt "What can we learn about neutrinos from cosmology? Credit: SDSS team, Andrew Hamilton Blame: Max Tegmark."

Similar presentations

Max Tegmark University of Pennsylvania Max Tegmark University of Pennsylvania MEASURING THE UNIVERSE.

Max Tegmark University of Pennsylvania Max Tegmark University of Pennsylvania MEASURING THE UNIVERSE.
Observing Dark Energy SDSS, DES, WFMOS teams. Understanding Dark Energy No compelling theory, must be observational driven We can make progress on questions:

Observing Dark Energy SDSS, DES, WFMOS teams. Understanding Dark Energy No compelling theory, must be observational driven We can make progress on questions:
Weighing Neutrinos including the Largest Photometric Galaxy Survey: MegaZ DR7 Moriond 2010Shaun Thomas: UCL “A combined constraint on the Neutrinos” Arxiv:

Weighing Neutrinos including the Largest Photometric Galaxy Survey: MegaZ DR7 Moriond 2010Shaun Thomas: UCL “A combined constraint on the Neutrinos” Arxiv:
What Figure of Merit Should We Use to Evaluate Dark Energy Projects? Yun Wang Yun Wang STScI Dark Energy Symposium STScI Dark Energy Symposium May 6, 2008.

What Figure of Merit Should We Use to Evaluate Dark Energy Projects? Yun Wang Yun Wang STScI Dark Energy Symposium STScI Dark Energy Symposium May 6, 2008.
Christian Wagner - September 24 2009 - Potsdam Nonlinear Power Spectrum Emulator Christian Wagner in collaboration with Katrin Heitmann, Salman Habib,

Christian Wagner - September Potsdam Nonlinear Power Spectrum Emulator Christian Wagner in collaboration with Katrin Heitmann, Salman Habib,
Cosmological Information Ue-Li Pen Tingting Lu Olivier Dore.

Cosmological Information Ue-Li Pen Tingting Lu Olivier Dore.
Å rhus, 4 September 2007 Julien Lesgourgues (LAPTH, Annecy, France)

Å rhus, 4 September 2007 Julien Lesgourgues (LAPTH, Annecy, France)
1 Latest Measurements in Cosmology and their Implications Λ. Περιβολαρόπουλος Φυσικό Τμήμα Παν/μιο Κρήτης και Ινστιτούτο Πυρηνικής Φυσικής Κέντρο Ερευνών.

1 Latest Measurements in Cosmology and their Implications Λ. Περιβολαρόπουλος Φυσικό Τμήμα Παν/μιο Κρήτης και Ινστιτούτο Πυρηνικής Φυσικής Κέντρο Ερευνών.
Probing dark matter clustering using the Lyman-  forest Pat McDonald (CITA) COSMO06, Sep. 28, 2006.

Probing dark matter clustering using the Lyman-  forest Pat McDonald (CITA) COSMO06, Sep. 28, 2006.
Max Tegmark Dept. of Physics, MIT SLAC Summer Institute August 3-4, 2009 SDSS slideshow.

Max Tegmark Dept. of Physics, MIT SLAC Summer Institute August 3-4, 2009 SDSS slideshow.
MATTEO VIEL THE LYMAN-  FOREST: A UNIQUE TOOL FOR COSMOLOGY Bernard’s cosmic stories – Valencia, 26 June 2006 Trieste Dark matter Gas.

MATTEO VIEL THE LYMAN-  FOREST: A UNIQUE TOOL FOR COSMOLOGY Bernard’s cosmic stories – Valencia, 26 June 2006 Trieste Dark matter Gas.
Max Tegmark Dept. of Physics, MIT Cosmologia en la Playa January 11-15, 2010 SDSS slideshow.

Max Tegmark Dept. of Physics, MIT Cosmologia en la Playa January 11-15, 2010 SDSS slideshow.
Progress on Cosmology Sarah Bridle University College London.

Progress on Cosmology Sarah Bridle University College London.
Neutrinos in Cosmology Alessandro Melchiorri Universita’ di Roma, “La Sapienza” INFN, Roma-1 NOW-2004, 16th September, 2004.

Neutrinos in Cosmology Alessandro Melchiorri Universita’ di Roma, “La Sapienza” INFN, Roma-1 NOW-2004, 16th September, 2004.
NEUTRINO MASS FROM LARGE SCALE STRUCTURE STEEN HANNESTAD CERN, 8 December 2008 e    

NEUTRINO MASS FROM LARGE SCALE STRUCTURE STEEN HANNESTAD CERN, 8 December 2008 e    
Inflationary Freedom and Cosmological Neutrino Constraints Roland de Putter JPL/Caltech CosKASI 4/16/2014.

Inflationary Freedom and Cosmological Neutrino Constraints Roland de Putter JPL/Caltech CosKASI 4/16/2014.
Neutrinos and the large scale structure

Neutrinos and the large scale structure
Modern State of Cosmology V.N. Lukash Astro Space Centre of Lebedev Physics Institute Cherenkov Conference-2004.

Modern State of Cosmology V.N. Lukash Astro Space Centre of Lebedev Physics Institute Cherenkov Conference-2004.
Relic Neutrinos, thermal axions and cosmology in early 2014 Elena Giusarma arXiv:1403.4852 Based on work in collaboration with: E. Di Valentino, M. Lattanzi,

Relic Neutrinos, thermal axions and cosmology in early 2014 Elena Giusarma arXiv: Based on work in collaboration with: E. Di Valentino, M. Lattanzi,
What can we learn from galaxy clustering? David Weinberg, Ohio State University Berlind & Weinberg 2002, ApJ, 575, 587 Zheng, Tinker, Weinberg, & Berlind.

What can we learn from galaxy clustering? David Weinberg, Ohio State University Berlind & Weinberg 2002, ApJ, 575, 587 Zheng, Tinker, Weinberg, & Berlind.

Similar presentations

Ads by Google