liyigu(univ.oftokyo;sjtu) · rampressure,coldfront,shock,turbulence,mhdeffects, dynamical...
TRANSCRIPT
Liyi Gu (Univ. of Tokyo; SJTU) Naohisa Inada (Nara Na;onal College of Tech.) Tadayuki Kodama (NAOJ) Saori Konami (Tokyo Univ. of Science/Riken) Kazuhiro Nakazawa (Univ. of Tokyo) Madoka Kawaharada (ISAS) Poshak Gandhi (ISAS) Kazuhiro Shimasaku (Univ. of Tokyo) Kazuo Makishima (Univ. of Tokyo)
XMM-‐Newton Workshop on Galaxy Clusters, Madrid, 2012/5/23
Ø Ram pressure, cold front, shock, turbulence, MHD effects, dynamical fric;on…
Ø Free energy transfered from galaxy to ICM Ø Galaxy more and more concentrated than the ICM
M86 Randall+08
A3627 Sun+09
NGC 6338
More individual case study? Galaxy environmental effect? ICM hea;ng/turbulence probe? Metal mass-‐to-‐light ra;o? Why not do more directly
108 109 1010 yrs
Time to consume total galaxy energy
one cross ;me ICM conduc;on ;me ISM strip & morphology change
cluster age
Long-‐term process
On-‐going process Quick
smearing
Galaxy light distribu0on vs. ICM distribu0on for different-‐z
We study a sample of clusters, with redshie range of . The sample is selected via Ø Similar average ICM temperature
(5±2 keV) Ø Relaxed X-‐ray morphology Ø Apparent central dominate galaxy Ø Offset between X-‐ray/op;cal peak
< 0.02 R500 Datasets Ø UH88 I-‐band image (PI: Dr. Inada) Ø XMM-‐Newton for z<0.5 Ø Chandra (if available) for z>0.5
Normalized to innermost
Normalized to innermost
filtering
Background subtrac;on
Mul;-‐band
Field observa;on
Projec;on along line-‐of-‐sight
Deprojected spectral analysis
Chandra/XMM data
3-‐D density profiles
2-‐D mass profiles
UH88 photo-‐ metric data
Cosmic background
B-‐R (B-‐I, R-‐I) color-‐magnitude
diagram
2-‐D integrated light profiles
Galaxy light vs ICM mass profiles
Normalized to innermost
Normalized to innermost
filtering
Background subtrac;on
Two-‐band
Field observa;on
Projec;on along line-‐of-‐sight
Deprojected spectral analysis
Chandra/XMM data
3-‐D density profiles
2-‐D mass profiles
UH88 photo-‐ metric data
Background/foreground
B-‐R (B-‐I, R-‐I) color-‐magnitude
diagram
2-‐D integrated light profiles
Galaxy light vs ICM mass profiles
Selected red-‐sequence Central dominant galaxy
Schechter LF
Normalized to innermost
Normalized to innermost
filtering
Background subtrac;on
Two-‐band
Field observa;on
Projec;on along line-‐of-‐sight
Deprojected spectral analysis
Chandra/XMM data
3-‐D density profiles
2-‐D mass profiles
UH88 photo-‐ metric data
background/foreground
B-‐R (B-‐I, R-‐I) color-‐magnitude
diagram
2-‐D integrated light profiles
Galaxy light vs ICM mass profiles
z=0.1-‐0.2,BS z=0.1-‐0.2,CMF z=0.2-‐0.5,BS z=0.2-‐0.5,CMF z=0.5-‐0.9,BS z=0.5-‐0.9,CMF
z=0.1-‐0.2,BS z=0.1-‐0.2,CMF z=0.2-‐0.5,BS z=0.2-‐0.5,CMF z=0.5-‐0.9,BS z=0.5-‐0.9,CMF
z=0.1-‐0.2,BS z=0.1-‐0.2,CMF z=0.2-‐0.5,BS z=0.2-‐0.5,CMF z=0.5-‐0.9,BS z=0.5-‐0.9,CMF
✗ Cluster color gradient ✗ Over-‐luminous BCG ✗ Varia;on of galaxy luminosity by e.g., star forma;on
z=0.1-‐0.2,CMF,same-‐RF z=0.1-‐0.2,CMF z=0.2-‐0.5,CMF,same-‐RF z=0.2-‐0.5,CMF z=0.5-‐0.9,CMF,same-‐RF z=0.5-‐0.9,CMF
z=0.1-‐0.2,BS,total mass z=0.1-‐0.2,BS z=0.2-‐0.5,BS,total mass z=0.2-‐0.5,BS z=0.5-‐0.9,BS,total mass z=0.5-‐0.9,BS
Ø Galaxy/ICM/DM follow similar distribu;on at high-‐z Ø Concentra;on: galaxy<DM<ICM
FDF = -4πρtotal(GMgalaxy)2 lnΛ [erf(X)-(2X/√π)exp(-X2)] /v2 Dynamical fric;on Ram pressure
FRP = πRInt2 ρgv2, RInt ~ RD
Dynamical fric0on only effec0ve for most massive galaxies 0 109 2×109 3×109 4×109 5×109
100
1000
200
500
0 109 2×109 3×109 4×109 5×109
100
1000
200
500
r (kpc)
t (yr)
Mgalaxy=1×1011 M¤ Dynamical friction alone Dynamical friction + ram pressure
1×1012 M¤
Dynamical fric0on alone insufficient to explain the evolu0on
z=0.1-‐0.2,BS,m<1011M¤ z=0.1-‐0.2,BS z=0.2-‐0.5,BS,m<1011M¤ z=0.2-‐0.5,BS z=0.5-‐0.9,BS,m<1011M¤ z=0.5-‐0.9,BS
Ø Stellar component concentrated faster than the ICM from z=0.9-‐0.1; galaxy light-‐to-‐ICM mass ra0os drop by ~2 within 0.5 R500
Ø The evolu0on is robust against various redshiN-‐dependent biases
Ø This result provides important supports for galaxy-‐ICM interac0on
XMM-‐Newton Workshop on Galaxy Clusters, Madrid, 2012/5/23