The Self-Similarity of Galactic Gaseous Halos: Clues to the Evolution of Galaxies Chris Churchill...
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Transcript of The Self-Similarity of Galactic Gaseous Halos: Clues to the Evolution of Galaxies Chris Churchill...
![Page 1: The Self-Similarity of Galactic Gaseous Halos: Clues to the Evolution of Galaxies Chris Churchill New Mexico State University Collaborators: Nikki Nielsen.](https://reader035.fdocuments.in/reader035/viewer/2022062515/56649cae5503460f94971e06/html5/thumbnails/1.jpg)
The Self-Similarity of Galactic Gaseous Halos: Clues to the Evolution of GalaxiesChris ChurchillNew Mexico State University
Collaborators:Nikki Nielsen (NMSU) Glenn Kacprzak (Swinburne)Sebastian Trujillo-Gomez (NMSU)Michael Murphy (Swinburne)
04/18/23 Churchill (NMSU) --- @Swinburne
Probing the CGM with QSO Absorption Lines
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04/18/23 Churchill (NMSU) --- @Swinburne
Constraints on galaxy evolution
The cycles of gas through the ISM, CGM, and IGM govern galactic processes
The CGM is the regulatory conduit.
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04/18/23 Churchill (NMSU) --- @Swinburne
• SFR is regulated by the mass of gas in a reservoir within the galaxy.
• Gas flows in to the halo, some fraction fgal flows into the galaxy reservoir.
• Stars continuously form out of the reservoir with a rate proportional gas mass and efficiency ε of gas consumption timescale τgas.
• A fraction of stellar mass is immediately returned to the reservoir, along with newly produced metals.
• Some gas may be expelled by a wind, assumed proportional to the SFR.
A Simple Picture… details, not so much
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04/18/23 Churchill (NMSU) --- @Swinburne
The recycling, in particular, is critical, yet unknown
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04/18/23 Churchill (NMSU) --- @Swinburne
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04/18/23 Churchill (NMSU) --- @Swinburne
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obs = 0 (1+z)
Time, Redshift, and Expansion
obs(Ly) = (1+z) = 4150
obs(CIV) = (1+z) = 5280
The wavelength at which a line is observed is redshifted via cosmological “stretching”, due to universal expansion, relative to the wavelength at which the emission or absorption event occurred
04/18/23 Churchill (NMSU) – Pizza Pizza!
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Very strong resonance doublet observable from the ground for z=0.2 to z=2.5
Established since 1991 to probe metal-enriched CGM gas out to ~150 kpc or more
Detects gas structures over five+ decades of N(HI), from 1015.5 to 1021.5 cm-2
- wide range of astronomical phenomenon: winds, filamentary infall, co-rotating accretion..
For z<1, galaxies easily observed with 3-4 meter class telescopes
MgII 2796,2803
04/18/23 Churchill (NMSU) --- @Swinburne
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MAGIICATMgII Absorber-Galaxy CatalogNielsen+ (2013)
http://astronomy.nmsu.edu/cwc/Group/magiicat/
MAGIICAT I: arXiv:1304.6716 MAGIICAT II: arXiv:1211.1380
Masses Paper (Letter): Churchill, C.W., Nielsen, N.M, Kacprzak, G.G., & Trujillo-Gomez, S. 2013, ApJ, 763, L42
Orientation Paper:Kacprzak, G.G., Churchill, C.W., & Nielsen, N.M, 2012, ApJ, 760, L7
• 182 spectroscopically identified galaxies• 0.07 < z < 1.1 • D < 200 kpc of background quasars• MgII coverage in optical quasar spectra• standardized to CDM “737” cosmology
Major contributions from surveys
Steidel+ 1994Bergeron+ 1997Chen+ 2010Kacprzak+ 2011
2 decades of data… compiled, standardized, and analyzed …
04/18/23 Churchill (NMSU) --- @Swinburne
Nikki Nielsen
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Rvir
Expectations with virial mass
“Cold” = cool/warm gas T<104-5 KMgII typically in T=3x104 K gas
Halos with Mh > M12 dominated by hot mode accretion; MgII should not survive - smaller Wr(2796) - vanishing covering fractionHalos with Mh < M12 dominated by cold mode accretion; MgII should survive -larger Wr(2796) -large covering fraction
virial mass
equi
vale
nt w
idth
virial mass
cove
ring
frac
tion
> M12
< M12
Rvir
Theory/Simulations•Birnboim/Dekel 03,06•Keres+ 05,09•Van de Voort+ 11,12•+ many others
M12 = 1012 MO
van de Voort + Schaye (2011)
1012.5
1012.0
1011.5
04/18/23 Churchill (NMSU) --- @Swinburne
Rvir
Halo Models•Mo & Miralde-Escude (1996)•Chen & Tinker (2010)•Maller & Bullock (2004)•+ others
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Observations of MgII covering fraction and virial mass
• Covering fraction decreases with increasing impact parameter (D)
• Higher mass halos have larger fc(D) for Wr>0.1 and Wr>0.3 Ang absorption
• The fc(D) is similar for Wr>0.6 Ang absorption
• The fc(D) is higher at smaller D for Wr>1.0 Ang
• Low mass halos exhibit fc(D)=0 for D>100 kpc
04/18/23 Churchill (NMSU) --- @Swinburne
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Observations of MgII covering fraction and virial mass
fc(v) is “self-similar” with halo mass04/18/23 Churchill (NMSU) --- @Swinburne
Define v = D/Rvir
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MgII covering fraction vs. halo mass
fc(v) as a function of virial mass
v < 0.25
v < 0.50
v < 1.0
fc(v) decreases with increasing Wr(2796) absorption threshold
No precipitous drop in fc(v) for Mh>M12
Covering fraction is effectively constant with virial mass out to virial radius
04/18/23 Churchill (NMSU) --- @Swinburne
T E N S I O N :Chen/Tinker (2010)Maller/Bullock (2004)Stewart (2011)
Winds? Recycling?
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• ~8 anti-correlation• much scatter
WHAT IS SOURCE OF SCATTER?
Inclination…..…..(Kacprzak+ 2011)MB, sSFR…….……….…(Chen+ 2010)
04/18/23 Churchill (NMSU) --- @Swinburne
The Wr-D plane
SYSTEMATIC VIRIAL MASS SEGREGATION
higher mass halos exhibits a larger MgII absorption strength at greater D, on average
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Clearer if sample split at median halo mass… 2DKS test yields 4
04/18/23 Churchill (NMSU) --- @Swinburne
The Wr-D plane
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Rvir ~ Mh1/3
IS THE FRACTIONAL PROJECTED DISTANCE RELATIVE TO THE VIRIAL RADIUS, v = D/Rvir, A FUNDAMENTAL PARAMETER?
Does the Wr-v plane provide the fundamental insight into the behavior of the CGM with projected galactocentric distance?
The Wr-D plane
04/18/23 Churchill (NMSU) --- @Swinburne
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The Wr-v (D/Rvir) plane
04/18/23 Churchill (NMSU) --- @Swinburne
The projected Wr(2796)-v profile is a tight inverse square power law out to the virial radius
Wr(2796) ~ v-2
The scatter is reduced at the 13 significance level and there is no systematic segregation of virial mass. The projected profile is the same regardless of virial mass.
SELF-SIMILARITY OF THE CGM
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Rvir ~ Mh1/3
Wr(2796) ~ v-2
Wr(2796) ~ D-2 Mh2/3
Fit to Wr(2796) vs D/Rvir
Deduced
We would expect to see that at fixed impact parameter
Wr(2796) will increase with virial mass
General scaling
Behavior of Wr(2796) with Mh and D
04/18/23 Churchill (NMSU) --- @Swinburne
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Mean Wr(2796) vs. D in Mh decades
In finite impact parameter ranges, the mean Wr(2796) is larger in higher mass halos
The mean Wr(2796) shows power law dependence with halo mass
The fits are to the unbinned data and include upper limits
04/18/23 Churchill (NMSU) --- @Swinburne
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R(Mh) – “absorption radius”
The absorption radius is more extended around higher mass galaxies.
The decrease in R* and with increasing absorption threshold reflects decreasing covering fraction with higher absorption threshold
04/18/23 Churchill (NMSU) --- @Swinburne
R(Mh) = R*(Mh/M*)
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v(Mh) – “mass-weighted absorption envelope”
Very flat dependence with virial mass*~0.3 for all absorption thresholds
Majority of cool/warm absorbing gas arises within inner 30% of virial radius
04/18/23 Churchill (NMSU) --- @Swinburne
(Mh) = *(Mh/M*)’
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Mean Wr(2796) vs. v in Mh decades
For v < 0.3, the mean Wr(2796) is independent of virial mass
Consistent with a Wr(2796) radial profile independent of virial mass
For v > 0.3, the mean Wr(2796) is suggestive of being independent of virial mass, but is less definitive
04/18/23 Churchill (NMSU) --- @Swinburne
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Mean Wr(2796) vs mean Mh
There is no correlation or anti-correlation between mean Wr(2796) and virial mass when all impact parameters are included;
even down to the smallest absorbing structures (panel b)
04/18/23 Churchill (NMSU) --- @Swinburne
Using LRG absorber cross-correlation techniques, several teams have suggested a general anti-correlation between Wr(2796) and virial mass
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04/18/23 Churchill (NMSU) --- @Swinburne
N(MgII) halo sizes vs mean Mh
Work by Amanda Ford 2013
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04/18/23 Churchill (NMSU) --- @Swinburne
MgII CGM Kinematicscheck it out!
For ~75 of the galaxies, the MgII absorption is measured with HIRES/Keck or UVES/VLT high-resolution spectra; ~50 are detections that provide kinematics at ~6 km s-1 resolution
All profiles have been Voigt Profile modeled -> column densities, b parameters, velocities
Will exam: galaxy impact parameterf(N) distribution v = D/Rvir
f(b) distribution with luminosityf(v) distribution color virial mass redshift
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04/18/23 Churchill (NMSU) --- @Swinburne
TPCF, f(v) Bluer galaxies have higher velocity dispersion relative to Vcirc
(mass normalized)
Higher z galaxies have higher velocity dispersion (absolute and mass normalized)
Lower Mh galaxies have higher velocity dispersion, but only when mass normalized
Inner regions of CGM has higher velocity dispersion (absolute and mass normalized)
Velocity dispersion independent of v= D/Rvir for both absolute and mass normalized cases!
Paper IV: Nielsen+, in prep
TPCF =two-point correlation function
cloud-cloud v
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Measuring the Distribution of Gas Surrounding Galaxies
galaxy
background QSO
gas
azimuthal angle
The azimuthal angle is the angle measured from the plane of the galaxy disk to the background QSO
Findings: 1. majority of galaxies have gas out of there disks2. next most have gas near plane of disk3. paucity of gas at intermediated angular locations
Supports theoretical expectations: Gas winds out of the disk; gas accretion into the disk
0 20 40 60 80
azimuthal angle
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04/18/23 Churchill (NMSU) --- @Swinburne
Exploiting the power of hydrodynamical cosmological simulations…..
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z = 2.3
z = 1.3
z = 0.2
stars density cm-3 temp K Z solar
1000 kpc
04/18/23 Churchill (NMSU) – Pizza Pizza!
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How we get spatial and kinematic information
Putting it altogether…
04/18/23 Churchill (NMSU) – Pizza Pizza!
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04/18/23 Churchill (NMSU) --- @Swinburne
Need CGM metallicities, kinematics, ionization phases…
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04/18/23 Churchill (NMSU) --- @Swinburne
Putting the sample together….
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04/18/23 Churchill (NMSU) --- @Swinburne
Putting it altogether…
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04/18/23 Churchill (NMSU) --- @Swinburne
Still need Ground-based support (Keck/ESI is magic!!! …
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Self-Similarity of the CGM
MgII absorption is alive and well in high mass halos; the covering fraction is fairly invariant with virial mass, though decreases with increasing absorption threshold
The extend of the cool/warm CGM increases with virial mass
The D/Rvir radial behavior of the covering fraction is identical for the low halo mass and high halo mass subsample; the mean absorption strength depends pimarily on its location relative to the virial radius
Most MgII absorbing gas in the CGM arises with D/Rvir < 0.3, and in this region the mean absorption strength is independent of virial mass
In finite impact parameter ranges, MgII absorption strength increases with halo mass; we do not confirm the anti-correlation between mean absorption strength and virial mass from cross-correlation studies
The TPCF indicates that the gas velocity dispersion is independent of virial mass
04/18/23 Churchill (NMSU) --- @Swinburne
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04/18/23 Churchill (NMSU) --- @Swinburne
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04/18/23 Churchill (NMSU) --- @Swinburne
Possible additional material follows
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Halo masses – halo abundance matching
The halos were matched in the five redshift bins (z = 0. 3, 0. 5, 0. 7, 0. 9, 1. 1) of the COMBO-17 r –band luminosity functions (Wolf etal 2003)
“HAM” maps galaxy luminosity to halo mass in a monotonic fashion, reproducing the luminosity function by construction. Following Trujillo-Gomez et al. (2011), we adopt the maximum circular velocity, Vc
max , and solve for the unique relation n (<Mr ) = n (>Vcmax),
from the Bolshoi simulations (Klypin etal 2011).
Mr vs Vcmax (Mr,z) vs Mr Mh(z) vs Mr
04/18/23 Churchill (NMSU) --- @Swinburne
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“upper envelope” of Wr(2796)steepens with halo mass
Wr(2796)-D plane
Wr(2796) increases with halo mass in finite D ranges
Wr(2796)-Mh plane
Wr(2796), Mh , and D
MgII absorption strength knows about both virial mass AND impact parameter
•decreasing with D for fixed Mh
•Increasing with Mh for fixed D
04/18/23 Churchill (NMSU) --- @Swinburne