Simulating the 4%...
Transcript of Simulating the 4%...
![Page 1: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/1.jpg)
Simulating the 4% Universe Hydro-cosmology simulations and data analysis
Michael L. Norman SDSC/UCSD
![Page 2: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/2.jpg)
Lecture Plan
• Lecture 1: Hydro-cosmology simulations of baryons in the Cosmic Web – Lyman alpha forest (LAF) – Baryon Acoustic Oscillation (BAO)
• Lecture 2: Radiation hydro-cosmology
simulations of Cosmic Renaissance – Epoch of Reionization (EOR) – First Galaxies
ISSAC 2012 SDSC, San Diego, USA 2 7/17/2012
![Page 3: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/3.jpg)
Motivation • It’s the part of the Universe we can see • Involves real astrophysics which is complicated
and interesting • Can place constraints on the dark universe • Computational discoveries
Norman (1997) ISSAC 2012 SDSC, San Diego, USA 3 7/17/2012
![Page 4: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/4.jpg)
Computational Discoveries
• Physical nature of Lyman alpha forest absorption systems Cen+1994, Zhang+1995, Hernquist+1996
• Existence of the warm-hot intergalactic medium Cen & Ostriker 1999
• Mass scale of Pop III stars Abel+2001, Bromm+2002
ISSAC 2012 SDSC, San Diego, USA 4 7/17/2012
![Page 5: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/5.jpg)
What is Hydro-cosmology?
+ =
dark matter +
gravity
ideal gas dynamics +
“microphysics”
hydrodynamic cosmology
ISSAC 2012 SDSC, San Diego, USA 5 7/17/2012
![Page 6: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/6.jpg)
1990
adiabatic gas dynamics ISSAC 2012 SDSC, San Diego, USA 6 7/17/2012
![Page 7: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/7.jpg)
1990
adiabatic gas dynamics ISSAC 2012 SDSC, San Diego, USA 7 7/17/2012
![Page 8: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/8.jpg)
1991
gas dynamics + radiative cooling ISSAC 2012 SDSC, San Diego, USA 8 7/17/2012
![Page 9: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/9.jpg)
Baryons! (not the Bolshoi simulation)
ISSAC 2012 SDSC, San Diego, USA 9 7/17/2012
![Page 10: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/10.jpg)
http://enzo-project.org
ISSAC 2012 SDSC, San Diego, USA 10 7/17/2012
![Page 11: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/11.jpg)
http://hipacc.ucsc.edu/html/2010SummerSchool_archive.html
ISSAC 2012 SDSC, San Diego, USA 11 7/17/2012
![Page 12: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/12.jpg)
LECTURE 1 Hydro-cosmology simulations of
baryons in the cosmic web ***
(Lyman α forest)
ISSAC 2012 SDSC, San Diego, USA 12 7/17/2012
![Page 13: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/13.jpg)
Q: Where are the baryons? A: In the IGM mostly
Cen & Ostriker (1999)
IGM
ISSAC 2012 SDSC, San Diego, USA 13 7/17/2012
![Page 14: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/14.jpg)
Observing the intergalactic medium in quasar absorption line spectra
Source: M. Murphy
Lyman α forest
ISSAC 2012 SDSC, San Diego, USA 14 7/17/2012
![Page 15: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/15.jpg)
Kirkman & Tytler (1997)
High Resolution Spectrum
virtually every absorption line is H Ly α at a different redshift along the LOS ISSAC 2012 SDSC, San Diego, USA 15 7/17/2012
![Page 16: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/16.jpg)
Physical Origin of the Lyman Alpha Forest Cen et al. 1994, Zhang et al. 1995, Hernquist et al. 1996
• intergalactic medium exhibits cosmic web structure at high z
• models explain observed hydrogen absorption spectra
N=1283
Zhang, Anninos, Norman (1995)
5 Mpc/h
“The Cosmic Web”
ISSAC 2012 SDSC, San Diego, USA 7/17/2012
![Page 17: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/17.jpg)
Ly α absorption directly probes DM distribution
Zhang et al. (1998) ISSAC 2012 SDSC, San Diego, USA 17 7/17/2012
![Page 18: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/18.jpg)
Cosmology from the Ly α Forest
• What is measured • The standard model • Observations vs. simulations I:
– spectacular agreement at the ~10% level
• DM power spectrum estimation • Observations vs. simulations II:
– discrepancies at the 1-2% level
ISSAC 2012 SDSC, San Diego, USA 18 7/17/2012
![Page 19: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/19.jpg)
The Standard Model
• Your favorite cosmological model (Ωdm, Ωb , ΩΛ, H0, σ8, ns)
• IGM of primordial H and He photoionized by homogeneous but evolving UVB due to GALS and QSOs (JUVB(z))
• Ly α forest due to optically thin absorption in highly ionized gas in intergalactic filaments tracing the DM distribution
• LLS and DLAs due to optically thick absorption in denser ionized gas in halos
ISSAC 2012 SDSC, San Diego, USA 19 7/17/2012
![Page 20: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/20.jpg)
Kirkman & Tytler (1997)
What is Observed
ISSAC 2012 SDSC, San Diego, USA 20 7/17/2012
![Page 21: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/21.jpg)
And hundreds more…
ISSAC 2012 SDSC, San Diego, USA 21 7/17/2012
![Page 22: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/22.jpg)
Simulated Spectra and Fitting
Zhang et al. (1997)
ISSAC 2012 SDSC, San Diego, USA 22 7/17/2012
![Page 23: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/23.jpg)
Observations vs. Simulations I. Remarkable Agreement on Line Statistics
<b> = 23 σ = 14
Zhang, Anninos, Norman (1995)
Kirkman & Tytler (1997)
23 7/17/2012
![Page 24: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/24.jpg)
What is a Ly α Forest Absorber?
Zhang, Anninos, Meiksin & Norman (1998)
LAF
ISSAC 2012 SDSC, San Diego, USA 24 7/17/2012
![Page 25: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/25.jpg)
What is a Ly α Forest Absorber?
Zhang, Anninos, Meiksin & Norman (1998)
Z=3
ISSAC 2012 SDSC, San Diego, USA 25 7/17/2012
![Page 26: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/26.jpg)
What is a Ly α Forest Absorber? • Sheet or filament of low
overdensity relative to the local mean
• Not gravitationally bound in 3D
• Unbiased WRT to dark matter
• Photo-ionized gas at ~104 K
• D ~ λJeans ~ 100 kpc
Zhang, Anninos, Meiksin & Norman (1998)
λJeans
λJeans
ISSAC 2012 SDSC, San Diego, USA 26 7/17/2012
![Page 27: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/27.jpg)
Resolving the Ly α Forest Bryan, Machacek, Anninos, Norman (1999)
• Observed linewidths reflect – Thermal broadening – Hubble broadening
(redshift, LOS, and NHI dependent)
– Possibly turbulent broadening
• Simulated linewidths reflect above plus – Numerical resolution
broadening
ISSAC 2012 SDSC, San Diego, USA 28 7/17/2012
![Page 28: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/28.jpg)
Higher resolution simulations predict lines that are too narrow
Bryan et al. (1999) ISSAC 2012 SDSC, San Diego, USA 29 7/17/2012
![Page 29: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/29.jpg)
Higher resolution simulations predict lines that are too narrow
• Possible reasons – Cosmological model wrong – UV background model wrong – Box too small (large scale power missing) – Missing heat sources (He II reionization, X-rays, …) – Missing turbulent broadening (galactic winds?) – Magnetic support?
13 years later, this discrepancy has not been resolved Opportunity for a fundamental contribution
ISSAC 2012 SDSC, San Diego, USA 30 7/17/2012
![Page 30: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/30.jpg)
N=10243
L = 80 Mpc Baryon Overdensity, z=3
Jena et al. (2005)
• 40 fully hydrodynamic simulations* varying – Cosmological parameters – Box size – Numerical resolution – UV background intensity – Extra heating put in by hand
• Sensitivity analysis and uncertainty quantification
• ObservationsConcordance model @z=1.95
*Data available at http://lca.ucsd.edu/data/concordance/ ISSAC 2012 SDSC, San Diego, USA 31 7/17/2012
![Page 31: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/31.jpg)
Sensitivity analysis and uncertainty quantification
• Derive simple parametric fits that connect key inputs to output
• Key inputs – σ8: amplitude of matter fluctuations – γ912: normalized HI photoionization rate – X228: normalized HeII photoheating rate – L: simulation box size – C: cell resolution
• Key outputs – <F>=exp(-τeff): mean transmitted flux – bσ: median Doppler width – P-2, P-1.5, P-1: flux power at log k=10-2, 10-1.5, 10-1 s/km
ISSAC 2012 SDSC, San Diego, USA 32 7/17/2012
![Page 32: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/32.jpg)
Flux Power
)( of FT 1D is )( );(*)()(
spectrumfor flux mean is ;)()(
υδδδδ
υυδ
fffff
f
kkkkP
ff
ff
=
−≡
P-2 P-1.5 P-1
Jena et al. (2005)
SIMS
OBS
ISSAC 2012 SDSC, San Diego, USA 33 7/17/2012
![Page 33: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/33.jpg)
Table of Simulations
ISSAC 2012 SDSC, San Diego, USA 34 7/17/2012
![Page 34: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/34.jpg)
Table of Simulations, cont’d
ISSAC 2012 SDSC, San Diego, USA 35 7/17/2012
![Page 35: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/35.jpg)
Scaling Relations
before scaling after scaling
Jena et al. (2005) τeff
bσ
ISSAC 2012 SDSC, San Diego, USA 36 7/17/2012
![Page 36: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/36.jpg)
Findings • After scaling out boxsize and
resolution effects, a wide range of σ8 (0.8< σ8 <1.1) fit observations (<F>, bσ, P-1) by adjusting γ912 and X228
• Using only <F>, bσ, P-1 cannot uniquely determine σ8, γ912, X228 because bσ and P-1 are correlated
• Using <F> to fix γ912, then σ8 and X228 degenerate
Jena et al. (2005) ISSAC 2012 SDSC, San Diego, USA 37 7/17/2012
![Page 37: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/37.jpg)
Findings (cont’d) • Can potentially remove degeneracy using large scale
flux power P-2
• This was not explored in Jena+(2005) – box sizes too small – observational uncertainties at low k
• Based on scalings, need at least 100 Mpc boxes and at least 50 kpc resolution20003 but preferably 25 kpc40003
• Comparable to largest N-body simulations, but without the need to resolve halo substructure – Eulerian simulations on uniform grids are adequate
ISSAC 2012 SDSC, San Diego, USA 38 7/17/2012
![Page 38: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/38.jpg)
a 40963 hydro-cosmology simulation L=614 Mpc, Cell=150 kpc
ISSAC 2012 SDSC, San Diego, USA 39 7/17/2012
![Page 39: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/39.jpg)
ISSAC 2012 SDSC, San Diego, USA 40 7/17/2012
![Page 40: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/40.jpg)
• Key ansatz: • Where bias b(k) is determined from hydro simulations
(Croft et al. 1998, 2002) • Difficulty with SDSS spectra is that lines are not resolved,
and therefore PF(k) needs to be corrected for many systematics errors – Continuum level – Metal line contamination – High column density absorbers
• In practice, b(k) is estimated on large scales from non-hydrodynamic simulations of the LAF that model the absorption phenomenologically
• UPSHOT: lots of systematic uncertainties
),()(),( 2 zkPkbzkP MF =
Estimating P(k) from SDSS Quasars McDonald et al. (2005)
-- Noise -- UVB fluctuations
ISSAC 2012 SDSC, San Diego, USA 41 7/17/2012
![Page 41: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/41.jpg)
• Revisit Jena et al. (2005) suite of simulations with more analysis on the effect of box size on LAF observables, incl. PF(k)
• All parameters except L kept constant (incl. resolution)
• Bigger box means: – More total power – Higher peak densities – Higher peculiar velocities – Hotter gas
Observations vs. Simulations II. Tytler et al. (2009)
ISSAC 2012 SDSC, San Diego, USA 42 7/17/2012
![Page 42: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/42.jpg)
Effect of Box Size
Tytler et al. (2009)
IN: 1D Matter Power OUT: 1D Flux Power
76.8 Mpc ISSAC 2012 SDSC, San Diego, USA 43 7/17/2012
![Page 43: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/43.jpg)
Effect of Box Size
Tytler et al. (2009)
• Simulated spectra are visibly different for given path length
• As L increases: – Deeper absorption – Longer gaps – Wider lines
L
L/2
L/4
L/8
L/16
L/32
ISSAC 2012 SDSC, San Diego, USA 44 7/17/2012
![Page 44: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/44.jpg)
Have we converged?
• Largest box has – Converged <F> – Essentially converged for
PM(k) and PF(k) – Approaching
convergence for f(b), f(NHI)
10243
ISSAC 2012 SDSC, San Diego, USA 45 7/17/2012
![Page 45: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/45.jpg)
Does it agree with observations?
• Mean flux, line widths can be made to agree to 5% for suitable choices of parameters
• Flux power underestimated on large scales by 50-100%
ISSAC 2012 SDSC, San Diego, USA 46 7/17/2012
![Page 46: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/46.jpg)
Baryon acoustic oscillations in the Lyman alpha forest
or What can intergalactic gas tell us
about dark energy? Michael L. Norman
Pascal Paschos Robert Harkness SDSC and UCSD
![Page 47: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/47.jpg)
Standard rulers to measure dark energy
ISSAC 2012 SDSC, San Diego, USA 49 7/17/2012
![Page 48: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/48.jpg)
Baryon Acoustic Oscillations (BAO) in the Cosmic Microwave Background
(148 Mpc)
ISSAC 2012 SDSC, San Diego, USA 50 7/17/2012
![Page 49: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/49.jpg)
BAO: Origin of Standard Ruler Overdense perturbations launch a spherical acoustic wave in the photon-baryon fluid which moves at speed c/sqrt(3) in a frame comoving with the expanding universe
rectcD3
=
Eisentstein & Bennett Physics Today 2008
ISSAC 2012 SDSC, San Diego, USA 51 7/17/2012
![Page 50: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/50.jpg)
Evolution of Point Perturbation
Eisentstein & Bennett Physics Today 2008
ISSAC 2012 SDSC, San Diego, USA 52 7/17/2012
![Page 51: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/51.jpg)
BAO in Galaxy LSS
ISSAC 2012 SDSC, San Diego, USA 53 7/17/2012
![Page 52: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/52.jpg)
Detection of BAO in SDSS luminous red galaxy LSS (Eisenstein et al. 2005)
Galaxy 2–pt correlation
function
Existence proof of BAO technique
ISSAC 2012 SDSC, San Diego, USA 54 7/17/2012
![Page 53: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/53.jpg)
Baryon Oscillation Spectroscopic Survey (BOSS)
ISSAC 2012 SDSC, San Diego, USA 55 7/17/2012
![Page 54: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/54.jpg)
BAO in the Ly α Forest • Not yet detected • BAO method more powerful at higher redshift
where survey volumes are larger • BAO modes are long wavelength (150 Mpc) and
in the linear part of the CDM spectrum • Ly α absorption arises near mean density of the
IGM and should show BAO modulation with minimal redshift space distortion
• Large numbers of absorbers per LOS, and large number of quasars makes for a very large statistical sample
ISSAC 2012 SDSC, San Diego, USA 56 7/17/2012
![Page 55: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/55.jpg)
Simulating BAO in the Lyman Alpha Forest Technical Difficulty: Range of Scales
• Wavelength of BAO is 150 Mpc – Need a box at least 4 x this to contain enough
modes
• Absorption filaments are 100 Kpc thick • Ncell=4 x 150,000 Kpc/100 Kpc = 6000 • Need 3D grid of size 60003
– 216 BILLION CELLS – 216 BILLION DARK MATTER PARTICLES
ISSAC 2012 SDSC, San Diego, USA 57 7/17/2012
![Page 56: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/56.jpg)
Simulation Campaign
Grid Box size (Mpc) Cell size (kpc) ICs 10243 614 600 WMAP5
no BAO 20483 307, 614 150, 300 WMAP3
WMAP5 40963
614 150 WMAP5
ISSAC 2012 SDSC, San Diego, USA 58 7/17/2012
![Page 57: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/57.jpg)
40963 = 68.7 billion cells and particles 16,384 processors 2 million CPU-hrs NICS Kraken
614 Mpc
ENZO Hydrodynamic Cosmology code
ISSAC 2012 SDSC, San Diego, USA 59 7/17/2012
![Page 58: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/58.jpg)
Correlation Analysis: 5,000 random lines-of-sight
~12.5 million pairs
ISSAC 2012 SDSC, San Diego, USA 60 7/17/2012
![Page 59: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/59.jpg)
Flux autocorrelation 20483
Log(NHI)>16
Log(NHI)<16
All lines
ISSAC 2012 SDSC, San Diego, USA 64 7/17/2012
![Page 60: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/60.jpg)
Flux cross-correlation 20483
All lines
ISSAC 2012 SDSC, San Diego, USA 65 7/17/2012
![Page 61: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/61.jpg)
Flux cross-correlation 20483
Log(NHI)>16
Log(NHI)<16
All lines
ISSAC 2012 SDSC, San Diego, USA 66 7/17/2012
![Page 62: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/62.jpg)
Cross-correlation of matter properties along LOS
ISSAC 2012 SDSC, San Diego, USA 67 7/17/2012
![Page 63: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/63.jpg)
Findings and Implications • Detecting the BAO in the Lyman alpha forest is
feasible • based on synthetic observations of fully
hydrodynamic simulations – Signal is statistically significant in flux cross-
correlation but not in the auto-correlation – Higher column density systems show signal better,
but are rarer and hence have higher statistical error – Signal more sensitive to spectroscopic resolution
than numerical resolution of simulation
ISSAC 2012 SDSC, San Diego, USA 68 7/17/2012
![Page 64: Simulating the 4% Universehipacc.ucsc.edu/LectureSlides/19/215/Simulating_the_4percent_Universe-I.pdf · highly ionized gas in intergalactic filaments tracing the DM distribution](https://reader030.fdocuments.net/reader030/viewer/2022040522/5e8236e5e3c2915d7167894b/html5/thumbnails/64.jpg)
Future Simulation Work • Need to understand why auto-correlation
signal is so weak (signal should be there!) – Redshift space distortion? – Masking by high column systems?
• Need to investigate reality of satellite peaks in cross-correlation
• Quantify effects of – spatial resolution (40963) – redshift evolution – a variety of astrophysical effects
ISSAC 2012 SDSC, San Diego, USA 69 7/17/2012