Документ взят из кэша поисковой машины. Адрес оригинального документа : http://www.eso.org/~cdebreuc/messenger.ps
Дата изменения: Tue Sep 30 12:15:14 2003
Дата индексирования: Mon Oct 1 22:32:58 2012
Кодировка:
Поисковые слова: п п п п п п п п gemini

stead recent massive formation.
The detection
of infrared contin
uum would help constrain char
acteristics total mass stellar
populations through comparison with
population synthesis models.
References
[1] Arnaboldi Freeman K.C., MИndez
1996,
[2] Charlot S.M. ApJ 580.
[3] Cowie E.M. 115,1319.
Feldmeier J.J., Ciardullo Jacoby
1998, 503,
Ferguson H.C., Tanvir N.R., Hippel
1998, Nature
Freeman K.C. 1999, Galaxy
Dynamics: Universe
to
Present, ASP Conf. Ser.,
F.
Combes, Mamon, Charmandaris,
press, astroph/9910057. 1998,ASP Ser.
E.M., Cowie McMahon
1998, 502,
Ford H.C., Freeman Dopi
ApJ 592.
Jacoby G.H., Ciardullo H.C.
332.
Madau Haardt Rees M.J. 1998,
preprint astroph/9809058
(4 Sep 1998).
MИndez R.H., Guerrero M.A., Freeman
1997, 491,
Steidel C.C., Adelberger K.L., Giavalis
co 1999, preprint astroph/
9811399v2 Jan 1999).
Thompson Djorgovski
S., Trauger
VLT Spectroscopy the 4.11 Radio Galaxy
TN J1338--1942
DE BREUCK
, W. VAN BREUGEL MINNITI 2,3
MILEY
1 RжTTGERING
1 S.A. STANFORD
2 and C. CARILLI
4
Sterrewacht Leiden, The Netherlands (debreuck,miley,rottgeri@strw.leidenuniv.nl)
Institute Geophysics and Planetary Physics, Lawrence Livermore
National Laboratory, Livermore, U.S.A. (wil,adam@igpp.llnl.gov)
Universidad CatСlica, Santiago, Chile (dante@astro.puc.cl)
National Radio Astronomy Observatory, Socorro, USA (ccarilli@nrao.edu)
Highredshift galaxies (HzRGs)
play important cosmology. They
to
of oldest and massive galaxies
at
shifts, therefore constrain
epoch which the generation
stars were formed. The nearIR Hub
K
-- diagram powerful radio
galaxies shows
a remarkably cor
relation from present
= despite significant Kcorrec
tions (van Breugel 1998, 1999).
This indicates follow
evolution
of hosts HzRGs from
near their formation epoch
to
redshift where powerful radio
sources inhabit massive elliptical gal
axies (e.g. Lilly
& Longair 1984; Best,
Longair RЖttgering 1998). exam
ple,
~ observe change
observed Kband morphologies
HzRGs largescale lowsur
face brightness emission bright
radioaligned clumps
at
<
~
3 smooth,
compact structures, sometimes show
elliptical shapes, like their ocal
Universe counterparts (van Breugel
1998). These surrounding clumps
have properties similar drop
galaxies similar redshifts (Pen
tericci
et 1999), indicate that
HzRGs often reside
in (proto)cluster
environments. evolution picture
seems consistent hierarchical
clustering formation models Kauff
mann
et 1999), where massive
jects form accretion
of smaller sys
tems located
in overdense regions.
Figure VLT spectrum
of J1338--1942.
The panel has boxcar smoothed
factor
9 better show shape
Lya forest Lyman limit.
Email: kudritzki@usm.unimuenchen.de

Detailed studies HzRG can
compared predictions the
hierarchical clustering scenarios.
Using newly available surveys,
have begun
a systematic search
>
3 radio galaxies Breuck
et
2000),
to
be followed more detailed
studies selected objects.
During second VLT
Antu operations
in 1999, used
FORS1 obtain
a spectrum the
second highest redshift radio galaxy
from sample, J1338--1942
at
z
4.11. We discovered object
March ESO 3.6m tele
scope Breuck 1999a). The
purpose these observations was
study emission and UV
continuum. used 600R grism 1.3І
wide and integrated
47 The
spectrum, shown Figures
1
dominated bright Lya
в
s
--2 restframe
equivalent width 210±50е,
a typical
value HzRGs.
Most notable from Figure
2
is the
large asymmetry emission pro
consistent with
a very wide 1400
km/s) blueward depression over the
entire spatial extent emission
(~10 kpc). Similar asymmetries have
been detected
in other HzRGs, and
have been interpreted ab
sorption cold
in
a halo sur
rounding galaxy (e.g. Ojik
1997; Dey 1999). The profile
fit
a simple model consisting
Gaussian emission profile and
single absorption function (see
Figure This model constrains
column density range
--
20
--2
. From
derive total mass absorber
--
в
7 , which is compara
slightly than the
mass, as derived from the Lya emis
sion Breuck 1999b). These
results show that J1338--1942
surrounded

large
reservoir

gas. We also detect continuum emission TN J1338--1942, second
time this is reported in the spectrum of
>
4 radio galaxy. continuum,
shown
in bottom panel
of Figure
shows
a discontinuity across Lya
line,
a tentative detection the
Lyman deficit bluewards
Lya interpreted
HI absorp
along cosmological sight,
and described parameter
A
=
(Oke Korycanski 1982).
J1338--1942, measure
A
= 0.37
similar
to
A
=
± 0.1
measured
= radio galaxy
1435+64 (Spinrad
et
al. 1995). Both
these values
>
4 radio
galaxies significantly lower than
D values found quasars
these redshifts (Schneider 1991).
Although based only measure
ments, results suggest
ground absorption
A
)
in quasars
could have been overestimated
cause highest redshift
>
4)
found from samples
optical colour selection, thereby
excluding quasars with relatively small
breaks across
It therefore particularly important
to expand number objects
z selected
by techniques other
optical colours. Radio galaxies
brightest objects
at
shifts which not outshined
central AGN quasars. Using
high sensitivity
of VLT instru
ments, able study
same origin and evolution
luminous halos
or ionised
and neutral
HI surrounding
them.
Acknowledgements. The work
C.D.B., W.v.B., S.A.S.
IGPP/LLNL performed under
auspices Department
Energy under contract W7405ENG
D.M.
is supported Fondecyt
grant 01990440 DIPUC.
supported
by
Formation Evolution Galaxies
network European
Commission under contract
FMRXCT96086 TMR
gramme.
Bibliography
[1] Longair,
& RЖttgering,
H.J.A. 1998, MNRAS,
[2] Breuck, Breugel, RЖttger
Miley, Carilli, 1999a,
``Looking Southern Sky'',
R. Morganti
& Couch (Berlin Heidel
Springer),
p. 246.
[3] Breuck, Breugel, Minniti,
Miley, RЖttgering, Stanford,
&
C. A&A, 1999b, 352,
[4] Breuck, Breugel, RЖttger
Miley, G.2000, A&AS, submit
[5] 1999,
in Distant Radio
Galaxies', RЖttgering,
P. Best
Lehnert (Amsterdam: KNAW),
[6] Kauffmann, Colberg, Diaferio,A.,
&White, M.1999, MNRAS,303,188.
[7]
& Longair, 1984, MNRAS,
833.
[8] J.B.,
& Korycanski, ApJ,
[9] Pentericci,
et 1999, A&A, 329.
Schneider, Schmidt, Gunn,
1991, 101,
Spinrad,
A.,
& Graham, J.R.
438,
Breugel, Stanford,
S. Spinrad,
Stern,
& Graham, 1998, ApJ,
614. Breugel, Breuck, Stanford,
S.
A., RЖttgering, Miley,
RЖttgering, Miley,
Hunstead, 1997, A&A, 358.
Figure spectrum around Lya The model consisting
of
Gaussian emission profile (dashed line) Voigt absorption profile with indicated
rameters.