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Cosmology with the 21 cm Transition

Cosmology with the 21 cm Transition. Steve Furlanetto Yale University September 25, 2006. Outline. The 21 cm transition The Dark Ages First Light Reionization Measuring the Matter Power Spectrum Summary.

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Cosmology with the 21 cm Transition

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  1. Cosmology with the 21 cm Transition Steve Furlanetto Yale University September 25, 2006

  2. Outline • The 21 cm transition • The Dark Ages • First Light • Reionization • Measuring the Matter Power Spectrum • Summary See our Physics Reports review (Furlanetto, Oh, & Briggs 2006, astro-ph/0608032) for more information!

  3. The 21 cm Transition • Map emission (or absorption) from IGM gas • Dark Ages: only probe! • Spectral line: measure entire history • Direct measurement of IGM properties SF, AS, LH (2004)

  4. The Spin Temperature • In the absence of coupling mechanisms, TS=TCMB • Collisions couple TS to TK • Efficient when d > 15 [10/(1+z)]2 if relatively hot • Dominated by electron exchange in H-H collisions in neutral medium (Zygelman 2005), or H-e- collisions in partially ionized medium (Furlanetto & Furlanetto 2006) • The Wouthuysen-Field Effect • Pump triplet state with absorption/re-emission of Ly photons • Becomes effective when ~0.1 Ly photon/baryon

  5. Observing the Signal • The Challenges • Terrestrial radio frequency interference • Ionospheric “seeing” • Foregrounds • Instrumental issues (polarization leakage, sidelobe control,…) • Noise so large, imaging extremely difficult! LOFAR

  6. Error Estimates: z=8 • Survey parameters • z=8 • Tsys=440 K • tint=1000 hr • B=6 MHz • No systematics! • MWA (solid black) • Aeff=7000 m2 • 1.5 km core • SKA (dotted blue) • Aeff=1 km2 • 5 km core MWA SKA Foreground limit after McQuinn et al. (2005)

  7. Error Estimates: z=12 • Survey parameters • z=12 • Tsys=1000 K • tint=1000 hr • B=6 MHz • No systematics! • MWA (solid black) • Aeff=9000 m2 • 1.5 km core • SKA (dotted blue) • Aeff=1 km2 • 5 km core MWA SKA Foreground limit

  8. The Global Signal:The Dark Ages • Straightforward physics • Fluctuations directly trace matter power spectrum (Loeb & Zaldarriaga 2004) • 3D dataset • Small-scale power SF, PO, FB (2006)

  9. The Dark Ages: Dark Matter Decay Dark matter decay models ~1016 yr ~1019 yr Standard calculation SF, PO, EP (2006)

  10. The Global Signal:First Light • First stars (quasars?) flood Universe with photons • Heating • W-F effect • Ionization • Timing depends on f*, fesc, fX, stellar population feedback weak X-rays Pop II Stars SF (2006)

  11. The Ly and Heating Eras • Ly photons create fluctuations around first sources (Barkana & Loeb 2004, Pritchard & Furlanetto 2006) • X-rays seed fluctuations in TS (and hence Tb) • Discrete (biased) sources and 1/r2 flux • Soft X-rays have shorter mean free paths • Rapid structure formation Pritchard & Furlanetto (2006)

  12. 21 cm Observations: Reionization z=18.3 13 Mpc comoving Dn=0.1 MHz SF, AS, LH (2004)

  13. 21 cm Observations: Reionization z=16.1 13 Mpc comoving Dn=0.1 MHz SF, AS, LH (2004)

  14. 21 cm Observations: Reionization z=14.5 13 Mpc comoving Dn=0.1 MHz SF, AS, LH (2004)

  15. 21 cm Observations: Reionization z=13.2 13 Mpc comoving Dn=0.1 MHz SF, AS, LH (2004)

  16. 21 cm Observations: Reionization z=12.1 13 Mpc comoving Dn=0.1 MHz SF, AS, LH (2004)

  17. 21 cm Observations: Reionization z=11.2 13 Mpc comoving Dn=0.1 MHz SF, AS, LH (2004)

  18. 21 cm Observations: Reionization z=10.4 13 Mpc comoving Dn=0.1 MHz SF, AS, LH (2004)

  19. 21 cm Observations: Reionization z=9.8 13 Mpc comoving Dn=0.1 MHz SF, AS, LH (2004)

  20. 21 cm Observations: Reionization z=9.2 13 Mpc comoving Dn=0.1 MHz SF, AS, LH (2004)

  21. 21 cm Observations: Reionization z=8.7 13 Mpc comoving Dn=0.1 MHz SF, AS, LH (2004)

  22. 21 cm Observations: Reionization z=8.3 13 Mpc comoving Dn=0.1 MHz SF, AS, LH (2004)

  23. 21 cm Observations: Reionization z=7.9 13 Mpc comoving Dn=0.1 MHz SF, AS, LH (2004)

  24. 21 cm Observations: Reionization z=7.5 13 Mpc comoving Dn=0.1 MHz SF, AS, LH (2004)

  25. 21 cm Observations: Reionization z=9.2 13 Mpc comoving Dn=0.1 MHz SF, AS, LH (2004)

  26. The Power Spectrum • Rich set of information from bubble distribution: • Timing: growth of structure • Underlying source population (SF, MM, LH 2005) • Uniform ionizing component (SF, MZ, LH 2004b) • Feedback (SF, MZ, LH 2004b) • Correlation with density field (SF, MZ, LH 2004b) • Also must consider higher-order statistics! xi=0.59 xi=0.78 xi=0.69 xi=0.48 xi=0.36 xi=0.13 z=10

  27. Fundamental Cosmology? • Probably a period where density dominates before reionization: measure matter power spectrum • Modest improvements to small scales (neutrinos, tilt, etc.; McQuinn et al. 2005, Bowman et al. 2005) • Redshift space distortions • Anisotropic: can extract matter power spectrum (Bharadwaj & Ali 2004, Barkana & Loeb 2004) SF (2006)

  28. Anisotropic Power Spectrum: Error Estimates at z=8 • Survey parameters • z=8 • Tsys=440 K • tint=1000 hr • B=6 MHz • No systematics! • MWA (solid black) • Aeff=7000 m2 • 1.5 km core • SKA (dotted blue) • Aeff=1 km2 • 5 km core MWA SKA Foreground limit after McQuinn et al. (2005)

  29. Conclusions • The 21 cm line is a unique probe of the high-redshift universe • Reionization: measures distribution of ionized gas and its relation to sources, at every redshift • First Light: measures the impact of these sources on their environment • Dark Ages: “clean” probe of cosmology and of exotic processes like dark matter decay See our Physics Reports review (Furlanetto, Oh, & Briggs 2006, astro-ph/0608032) for more information!

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