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Intergalactic transmission and its impact on the Lyman a line

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Presentation on theme: "Intergalactic transmission and its impact on the Lyman a line"— Presentation transcript:

1 Intergalactic transmission and its impact on the Lyman a line
Peter Laursen Potsdam, 2011 Oskar Klein Centre | Inst. för Astronomi | Stockholms Universitet

2 Lyman a modeling Theoretically Numerically Osterbrock (1962)
Adams (1972) Harrington (1973) Neufeld (1990, 1991) Loeb & Rybicky (1999) Dijkstra+ (2006) Numerically Auer (1965) Avery & House (1968) Loeb & Rybicky (1999) Ahn et al. (2001, 2002) Zheng & Miralda-Escudé (2002) Cantalupo+ (2005) Dijkstra+ (2006) Hansen & Oh (2006) Tasitsiomi (2006) Verhamme+ (2006) Laursen+ (2007, 2009) Barnes+ (2010, 2011) Zheng+ (2010, 2011)

3 Standard approach • Ignore • Remove blue half
• Reduce full line by some factor e–<t> • Remove blue half

4 Numerical approach Cosmological N-body+hydro simulation (SPH, Sommer-Larsen et al. 2003, 2006) + ionizing UV RT (Razoumov & Sommer-Larsen 2006, 2007) + hi-res resimulations of interesting regions + galactic Monte Carlo Ly RT with dust + IGM RT

5 Galactic RT – MOCALATA*
Each cell: nHI, nHII, T, vbulk, LLya, Zi ⇒nd * PL et al. 2009, ApJ, 696, 853 and 2009, ApJ, 704, 1640

6 Galactic RT – MOCALATA*
No scattering With scattering Including dust * PL et al. 2009, ApJ, 696, 853 and 2009, ApJ, 704, 1640

7 Galactic RT – MOCALATA*
* PL et al. 2009, ApJ, 696, 853 and 2009, ApJ, 704, 1640

8 Intergalactic RT – IGMTRANSFER*
* PL et al. 2011, ApJ, 728, 52; the code can be downloaded from

9 Intergalactic RT – IGMTRANSFER*
* PL et al. 2011, ApJ, 728, 52; the code can be downloaded from

10 Intergalactic RT – IGMTRANSFER*
* PL et al. 2011, ApJ, 728, 52; the code can be downloaded from

11 Intergalactic RT – IGMTRANSFER*
z = 3.5 * PL et al. 2011, ApJ, 728, 52; the code can be downloaded from

12 Intergalactic RT – IGMTRANSFER*
z = 5.8 * PL et al. 2011, ApJ, 728, 52; the code can be downloaded from

13 Intergalactic RT – IGMTRANSFER*
z = 6.5 * PL et al. 2011, ApJ, 728, 52; the code can be downloaded from

14 Transmission function

15 The origin of the dip Velocity field Density field

16 Impact on the Lya profile
z = 3.5 Spectrum escaping galaxy Transmission function Observed spectrum

17 Impact on the Lya profile
z = 3.5

18 Impact on the Lya profile
z = 5.8

19 Impact on the Lya profile
z = 6.5

20 Transmitted fraction z = 3.5

21 Transmitted fraction z = 5.8

22 Transmitted fraction z = 6.5

23 Alternative to outflow model?
z = 3 – 4 ? However, as Roberto Maiolino mentioned yesterday, … Verhamme et al. 2008, A&A, 491, 89

24 Probing the very first galaxies
z = 8.8 Ultra-VISTA PIs Jim Dunlop, Marijn Franx, Johan Fynbo, & Olivier LeFèvre

25 Probing the very first galaxies
z = 8.8 Compare with Dijkstra & Wyithe 2010, MNRAS, 408, 352: ~5%

26 Probing the Epoch of Reionization
Songaila 2004, ApJ, 127, 2598 43

27 Probing the Epoch of Reionization
44

28 Summary IGM absorption may explain at least some of the asymmetric Ly profiles Transmitted fractions are at z = 3.5 –34 –18 at z = 5.8 at z = 6.5 –?? 0.05+?? at z = 8.8 Reionization may have initiated earlier than probed by WMAP

29 Extra stuff

30 Extra stuff

31 Extra stuff With Hannes Jensen (OKC), Garrelt Mellema (OKC),
Ilian Iliev (U. of Sussex), & Paul Shapiro (U. of Texas)

32 Extra stuff

33 Extra stuff

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