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HI beyond the Milky WayHI beyond the Milky Way
Riccardo GiovanelliRiccardo Giovanelli
Cornell UniversityCornell University
Union College, July 2005
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An HI view of a section of the MW, some 2000 l.y. (700 pc) across
Credit: Dominion Radio Astronomy Observatory
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408 MHz
2.7GHz
HI (21 cm)
CO
FIR (IRAS)
MIR (6-10m)
NIR (1.2-3.5 m)
Optical
X-ray(0.25-1.5KeV)
Gamma (300 MeV)
Multiwavelength Milky Way
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Galactic ComponentsGalactic Components
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Very near extragalactic space…Very near extragalactic space…
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High Velocity CloudsHigh Velocity Clouds
Credit: B. Wakker
?
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The Magellanic StreamThe Magellanic Stream
Discovered in 1974 byMathewson, Cleary & Murray Putman et al. 2003
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How much of the HI stuff do we detect in the Universe?
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The Universeis Flat:
= 1
The current expansion rate is Ho = 70 km/s/Mpc
WMAP
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less than that…
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Do all galaxies have lots of HI?
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Morphological ClassificationMorphological Classification
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Elliptical vs SpiralElliptical vs SpiralGalaxies can be classified based on appearance
EllipticalsEllipticals SpiralsSpirals
Smooth falloff of lightSmooth falloff of light Bulge+disk+armsBulge+disk+arms
Not forming stars nowNot forming stars now Lots of star formationLots of star formation
Dominant motion: Dominant motion: random orbitsrandom orbits
Dominant motion: Dominant motion: circular orbits in diskcircular orbits in disk
Prefer cluster coresPrefer cluster coresAvoid cluster coresAvoid cluster cores
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Morphology-Density Morphology-Density RelationRelation
The fraction of the population that is spiral decreases from the field to
high density regions. [Dressler 1980]
High Low
Ellipticals
S0
Spirals/Irr
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Disk Formation: a primerDisk Formation: a primer
The spin parameter l quantifies theThe spin parameter l quantifies thedegree of rotational support of a system :degree of rotational support of a system :
For E galaxies, l ~ 0.05For E galaxies, l ~ 0.05 For S galaxies, l ~ 0.5For S galaxies, l ~ 0.5
Angular momentum
Mass
Total Energy
• Protogalaxies acquire angular momentum through tidal torques Protogalaxies acquire angular momentum through tidal torques with nearest neighbors during the linear regime with nearest neighbors during the linear regime [Stromberg 1934; Hoyle 1949]
• As self-gravity decouples the protogalaxy from the Hubble flow, As self-gravity decouples the protogalaxy from the Hubble flow, [l/(d l/d t)] becomes v.large and the growth of l ceases[l/(d l/d t)] becomes v.large and the growth of l ceases
• N-body simulations show that at turnaround time N-body simulations show that at turnaround time values of l range between 0.01 and 0.1, for halos of values of l range between 0.01 and 0.1, for halos of all massesall masses
• The average for halos isThe average for halos is l = 0.05l = 0.05
• Only 10% of halos haveOnly 10% of halos have l < 0.025l < 0.025 or or l > 0.10l > 0.10
• halos achieve very halos achieve very
modest rotational supportmodest rotational support
• Baryons collapse dissipatively within the Baryons collapse dissipatively within the potential well of their halo. They lose energy potential well of their halo. They lose energy through radiative losses, largely conserving through radiative losses, largely conserving mass and angular momentummass and angular momentum
• Thus Thus l of disksl of disks increases, as they shrink to increases, as they shrink to the inner part of the halothe inner part of the halo.
[Fall & Efstathiou 1980][Fall & Efstathiou 1980](mass of disk) /(total mass)
•If the galaxy retains all baryons If the galaxy retains all baryons m_d~1/10 , and l_disk grows to ~ 0.5, m_d~1/10 , and l_disk grows to ~ 0.5, • R_disk ~ 1/10 R_hR_disk ~ 1/10 R_h
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Some galaxies formthrough multiple (andoften major) mergers
The orbits of theirconstituent stars arerandomly oriented
Kinetic energy of randommotions largely exceedsthat of orderly, large-scale motions such asrotation.
These galaxies have low “spin parameter”
Elliptical galaxiesElliptical galaxies
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Other galaxies formin less crowdedenvironments
They accrete materialat a slower pace andare unaffected by major mergers for long intervals of time
Baryonic matter (“gas”)collapses slowly (anddissipatively – losingenergy) within thepotential well of Darkmatter, forming a disk
Baryonic matter hashigh spin parameter:large-scale rotationis important
Spiral GalaxySpiral Galaxy
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Galaxy ExoticaGalaxy Exotica
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The AntennaeThe Antennae
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Toomre & Toomre 1972Toomre & Toomre 1972
Restricted 3-body problem
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A ComputerSimulation of theMerger of twoSpiral galaxies
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Sensing Dark MatterSensing Dark Matter
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Just as we use observations of the orbits of stars near the center of our Milky Way to infer the presence of a Supermassive Black Hole…
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The M(r) at the center of the Galaxy is best fitted by the combination of - point source of 2.6+/-0.2 x 106 M_sun - and a cluster of visible stars with a core radius of 0.34 pc and o=3.9x106 M_sun/pc3
Schoedel et al (2002)
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M31M31 Effelsberg dataEffelsberg data
Roberts, WhitehurstRoberts, Whitehurst& Cram 1978& Cram 1978
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Milky Way Rotation CurveMilky Way Rotation Curve Dark Matteris needed toexplain theMilky Way (andother galaxies’)dynamics
The fractionalcontribution of the Dark Matter to the total mass contained within a given radius increasesoutwards
The total massof the Galaxyis dominated byDark Matter
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[Van Albada, Bahcall, Begeman & Sancisi 1985]
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[Cote’, Carignan & Sancisi 1991]
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[Bosma 1981]
A page from Dr. Bosma’s Galactic Pathology Manual
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We use HI maps of galaxies to infer their masses, their dynamical circumstances, to date their interactions with companions, to infer their star formation (“fertility”) rates…
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HI Deficiency in groups and clustersHI Deficiency in groups and clusters
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Morphological Alteration Morphological Alteration MechanismsMechanisms
I. Environment-independenta. Galactic windsb. Star formation without replenishment
II. Environment dependent a. Galaxy-galaxy interactions
i. Direct collisionsii. Tidal encountersiii. Mergersiv. Harassment
b. Galaxy-cluster medium i. Ram pressure stripping ii. Thermal evaporationiii. Turbulent viscous stripping
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Virgo ClusterVirgo Cluster
HI DeficiencyHI Deficiency
HI Disk DiameterHI Disk Diameter
[Giovanelli & Haynes 1983]
Arecibo dataArecibo data
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Virgo Virgo ClusterCluster
VLA dataVLA data
[Cayatte, van Gorkom,[Cayatte, van Gorkom,Balkowski & Kotanyi Balkowski & Kotanyi 1990]1990]
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Solanes et al. 2002Solanes et al. 2002
Dots: galaxies w/ measured HI
Contours: HI deficiency
Grey map: ROSAT 0.4-2.4 keV
VIRGOVIRGOClusterCluster
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Galaxy “harassment” within a cluster environment
Credit: Lake et al.
Credit:Moore et al.
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Way beyond the starsWay beyond the stars
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Carignan & Beaulieu 1989 VLA D-array HI column density contours
Arecibo map outer extent [Hoffman et al. 1993]DDO 154DDO 154
Extent ofopticalimage
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M(total)/M(stars)
M(total)/M(HI)
Carignan &Beaulieu 1989
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… … and where there aren’t any starsand where there aren’t any stars
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M96 RingM96 Ring
Schneider, Salpeter & Terzian 19Schneider, Helou, Salpeter &Terzian 1983
Arecibo map
Schneider et al 1989 VLA map
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… … and then some Cosmologyand then some Cosmology
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Arecibo as a redshift machineArecibo as a redshift machine
Perseus-Pisces SuperclusterPerseus-Pisces Supercluster
~11,000 galaxy redshifts:
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Perseus-Pisces SuperclusterPerseus-Pisces Supercluster
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TF Relation TemplateTF Relation Template
SCI : cluster Sc sample
I band, 24 clusters, 782 galaxies
Giovanelli et al. 1997
“Direct” slope is –7.6“Inverse” slope is –7.8
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Measuring the Hubble ConstantMeasuring the Hubble Constant
A TF template relation is derived independently on the value of H_not.It can be derived for, or averaged over, a large number of galaxies, regions or environments.When calibrators are included,the Hubble constant can be gauged over the volume sampled by the template.From a selected sample of Cepheid Calibrators, Giovanelli et al. (1997) obtainedH_not = 69+/-6 (km/s)/Mpcaveraged over a volume ofcz = 9500 km/s radius.
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TF and the Peculiar Velocity FieldTF and the Peculiar Velocity Field
Given a TF template relation, the peculiar velocity Given a TF template relation, the peculiar velocity of a galaxy can be derived from its offset Dm of a galaxy can be derived from its offset Dm from that template, viafrom that template, via
For a TF scatter of 0.35 mag, the error on the For a TF scatter of 0.35 mag, the error on the peculiar velocity of a single galaxy is typically peculiar velocity of a single galaxy is typically ~0.16cz~0.16cz
For clusters, the error can be reduced by a factor For clusters, the error can be reduced by a factor , , if N galaxies per cluster are observed , , if N galaxies per cluster are observedN
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CMB Dipole
T = 3.358 mK
V_sun w.r.t CMB:
369 km/s towardsl=264o , b=+48o
Motion of the Local Group:
V = 627 km/s towards l = 276o b= +30o
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Convergence DepthConvergence Depth
Given a field of density fluctuations d(r) , anobserver at r=0 will have a peculiar velocity:
33
6.0
)(4
rdr
rr
HV opec
where W is W_mass
The contribution to by fluctuationsin the shell , asymptoticallytends to zero as
pecV
),( 21 RRR
The cumulative by all fluctuationsWithin R thus exhibits the behavior :
pecV
If the observer is the LG,the asymptotic matches the CMB dipolepecV
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The Dipole The Dipole of the of the
Peculiar Peculiar Velocity Velocity
FieldField
The reflex motion of the LG,w.r.t. field galaxies in shells of progressively increasing radius, shows : convergence with the CMB dipole,both in amplitude and direction,near cz ~ 5000 km/s.[Giovanelli et al. 1998]