hwr clustering

50 %
50 %
Information about hwr clustering
Science-Technology

Published on August 29, 2007

Author: Breezy

Source: authorstream.com

Observing the Clustering of Matter and Galaxies :  Observing the Clustering of Matter and Galaxies History: 1920- : galaxies in and around the local group are not distributed randomly 1950-1970: Shane and Wirtanen made maps of the (projected) galaxy distribution Non-random distribution on small to large scales 1980-1990: Geller, Huchra and many others made maps of the 3D galaxy distribution Depth variable redshift (not quite distance) 2000+: 2DF Redshift Survey / SDSS 100,000 galaxies with spectra (Literature: e.g. Peacock: Cosmological Physics, p500-509) State-of-the-Art Example: 2DFRS(from Peacock et al 2002):  State-of-the-Art Example: 2DFRS (from Peacock et al 2002) Describing the Statistics of Clustering:  Describing the Statistics of Clustering There is no unique way to describe clustering! Need to describe the degree of clustering not the particular configuration. Isotropy: clustering = f(x,y,z)  f(r) Often-used measures are: Angular or real-space correlation function Genus curve Smooth galaxies on different scales Which fraction of the volume is filled by curves of a given over-/under-density Counts-in cells Main practical problems/issues: Complicated search volumes Finite number of tracers Redshift space distortion Correlation Functions:  Correlation Functions Excess probability of finding one galaxy (mass element) 'near' another galaxy: - for a random (uniform) distribution: dP = n dV n: mean number density - a clustered distribution can be (incompletely) described by: dP(r) = n [1 + (r)] dV, where dP is the probability of finding a second object near an object at r = 0 (r): two-point (or, auto-) correlation function Note: (r) = andlt; (x) (x+r) andgt;, where (x) is the fractional over/under-density - to account for translation and rotation invariance (cosmological principle) often the Fourier transform is used P(k)   | k|2  =  (r) eikr d3r P(k): power spectrum - practical estimation: Slide5:  If no redshifts (distances) are available, one can define the angular correlation function dP () = n (1 + w() ) d Note: understanding the sampling window function of a survey is crucial usually one is measuring the correlation of tracers The Clustering of Galaxies in the Present Day Universe (from the 2DFRS):  The Clustering of Galaxies in the Present Day Universe (from the 2DFRS) Redshift-space correlation Finger-of-God and Inflow Signature:  Finger-of-God and Inflow Signature pairwise velocity dispersion from 'finger-of-god': 400km/s Cosmic density estimate from inflow: b = W0.6/b = 0.43  0.07 Galaxy Clustering vs. Galaxy Properties:  Galaxy Clustering vs. Galaxy Properties Galaxies with little star-formation (~ 'early types') are much more strongly clustered on small scales A.k.a. morphology-density relation Presumably: dense environments lead to rapid/early completion of the main star-formation Cosmological Parameters from the Clustering of (Nearby) Galaxies:  Cosmological Parameters from the Clustering of (Nearby) Galaxies Galaxy correlation now reflects: initial fluctuations growth rate (enter W and L) transfer-function Galaxy bias Comparison most straightforward in the linear regime andgt;5-10 Mpc Mass/Galaxy Clustering at high Redshift:  Mass/Galaxy Clustering at high Redshift Can one observe the growth of mass fluctuation and galaxy clustering directly? Put a 'point' between the CMB and the present epoch. Two possible probes at z~3: Galaxies (Ly-break galaxies) The fluctuation inter-galactic medium (IGM): Ly-alpha forest Galaxies: from Adelberger, Steidel and collaborators: Ly-break galaxies at z~3 are nearly as clustered as L* galaxies now  (massive) galaxies were more biased tracers of the mass fluctuations than they are now. The Ly-alpha Forest and Mass Fluctuations:  The Ly-alpha Forest and Mass Fluctuations What causes the fluctuation Ly-alpha absorption? Collapsed objects (mini halos) General density (+velocity) fluctuations Slide12:  Simulating the Ly-alpha forest(Cen, Ostriker, Miralda 1994-; Croft, Katz, Weinberg, Hernquist 1996-):  Simulating the Ly-alpha forest (Cen, Ostriker, Miralda 1994-; Croft, Katz, Weinberg, Hernquist 1996-) Much of the Ly-alpha forest arises from modest density fluctuations and convergent velocity flows!! Comparing Data and Simulations:  Comparing Data and Simulations The Correlation of IGM Absorptionat different redshifts:  The Correlation of IGM Absorption at different redshifts This probes the mass between galaxies One can follow the evolution of structure with redshift Combining the CMB with the low-z Universe:  Combining the CMB with the low-z Universe Until the last few years (BOOMERANG, MAXIMA, WMAP), the CMB fluctuations were measured on larger (co-moving) scales than the fluctuations measured in the low-z universe Only joint extrapolation in redshift and scale possible! With new generation of zandlt;5 LSS measurements and CMB experiments, a much more direct comparison is possible.  Impressive confirmation of structure growth prediction!! Joint Constraintsfrom large scale structure and the CMB:  Joint Constraints from large scale structure and the CMB Note: this is pre-WMAP, I.e. data from COBE + ground-based and baloon experiments! (from Peacock et al 2003) h  H0=100 Slide18:  Let’s Recapitulate:  Let’s Recapitulate Theory Big Bang Inflation FRW/cosmological parameters WM=0.27,L=0.7,H0=70 (Non-baryonic) dark matter dominates (small) initial fluctuations Growth of density fluctuations Linear Observations Expansion,CMB,BBN Space is flat, CMB is uniform, fluctuations are scale free SN Ia, Galaxy Clustering, CMB Dynamics,lensing,BBN,CMB CMB CMB vs large-scale structure IGM fluctuations Galaxy large scale struture Recapitulation II:  Recapitulation II Theory Non-linear growth of densities N-body,Press-Schechter (dark matter) halo profiles Hierarchical build-up of Structures Successive conversion of gas into stars Cooling, Feed-back Enrichment Remaining hot gas in clusters and IGM Observations Abundance, stellar mass and clustering of galaxies dynamics, lensing Observed merging, fewer massive galaxies at high-z(?) Galaxy Properties Recapitulation:  Galaxy Properties Recapitulation Observations Global star-formation history and QSO evolution (zandgt;6 to now) Galaxy luminosity function and colors (as function of z) Morphologies, Bulge/Disk, etc f(z) vs. mass vs. environment Typical Sizes Global Scaling Relations Fundamental plane, Tully-Fisher MBH – s relation Theory Hierarchical merging and gas supply Gas cooling, feed-back, cold gas supply Gas Disks Merging  Spheroids Hierarchical picture Hierarchical picture Angular momentum (but is it lost?) Constant star fraction; similar ang.mom. Good thing to work on…

Add a comment

Related presentations

Related pages

E-Learning an der HWR Berlin: Didaktische Cluster

An der HWR Berlin sind in über 50 BA-, MA- oder MBA-Programmen im Bereich öffentliches und privates Management mehr als 9.000 Studierende immatrikuliert.
Read more

E-Learning Home

An der HWR Berlin sind in über 50 BA-, MA- oder MBA-Programmen im Bereich öffentliches und privates Management mehr als 9.000 Studierende immatrikuliert.
Read more

Israeli Cluster Munitions Hit Civilians in Lebanon | Human ...

Israel has used artillery-fired cluster munitions in populated areas of Lebanon, Human Rights Watch said today. Researchers on the ground in Lebanon ...
Read more

HWR Berlin - Prof. Dr. Mario Glowik: Lecturing

HWR Berlin . Prof. Dr. Mario Glowik. Background; Lecturing; Research; Selected Publications; Contact; ... Regional industry cluster and its development ...
Read more

Kontakt-Info - HWR Berlin - Startseite - Hochschule für ...

HWR Berlin; Studium; Forschung; Internationales; ... Computational Statistics in R, machine learning, clustering, prediction; Schwerpunkte in der Lehre ...
Read more

response clustering | Department of Hydrology and Water ...

Predicting hydraulic response: comparison of textural and response clustering approaches to soil classification
Read more

HRW: Kiev fails to probe cluster bomb use against Donbass ...

Human Rights Watch (HRW) says Kiev has failed to investigate its army’s use of prohibited cluster bombs against civilians in the country’s east.
Read more

Hochschule: Hochschule für Wirtschaft und Recht Berlin

Akkreditiert im Cluster 1 mit: Cluster 1: Economics (B.A.) ... Die Hochschule für Wirtschaft und Recht (HWR) Berlin ging am 1. April 2009 aus dem Zu-
Read more

Hochschule: Hochschule für Wirtschaft und Recht Berlin

einer internationalen Ausrichtung zielt der Studiengang nach Angaben der HWR Berlin auf ... Cluster 1: Kooperativer Studiengang Betriebswirtschaft (B.A.)
Read more

Automotive expertise database NRW

Automotiv expertise database NRW. ... www.hwr-mbt.de. ... 1 previous 2 3 4. Cluster management. Lothar Schneider. Phone: +49 208 9925 500 Email: schneider@
Read more