37 research outputs found
Magellan/MMIRS near-infrared multi-object spectroscopy of nebular emission from star forming galaxies at 2<z<3
To investigate the ingredients, which allow star-forming galaxies to present
Lyalpha line in emission, we studied the kinematics and gas phase metallicity
(Z) of the interstellar medium. We used multi-object NIR spectroscopy with
Magellan/MMIRS to study nebular emission from z=2-3 star-forming galaxies
discovered in 3 MUSYC fields. We detected emission lines from four active
galactic nuclei and 13 high-z star-forming galaxies, including Halpha lines
down to a flux of 4.E-17 erg/sec/cm^2. This yielded 7 new redshifts. The most
common emission line detected is [OIII]5007, which is sensitive to Z. We were
able to measure Z for 2 galaxies and to set upper(lower) limits for another
2(2). The Z values are consistent with 0.3<Z/Zsun<1.2. Comparing the Lyalpha
central wavelength with the systemic redshift, we find
Delta_v(Lyalpha-[OIII])=70-270 km/sec. High-redshift star-forming galaxies,
Lyalpha emitting (LAE) galaxies, and Halpha emitters appear to be located in
the low mass, high star-formation rate (SFR) region of the SFR versus stellar
mass diagram, confirming that they are experiencing burst episodes of star
formation, which are building up their stellar mass. Their Zs are consistent
with the relation found for z<2.2 galaxies in the Z versus stellar mass plane.
The measured Delta_v(Lyalpha-[OIII]) values imply that outflows of material,
driven by star formation, could be present in the z=2-3 LAEs of our sample.
Comparing with the literature, we note that galaxies with lower Z than ours are
also characterized by similar Delta_v(Lyalpha-[OIII]) velocity offsets. Strong
[OIII] is detected in many Lyalpha emitters. Therefore, we propose the
Lyalpha/[OIII] flux ratio as a tool for the study of high-z galaxies; while
influenced by Z, ionization, and Lyalpha radiative transfer in the ISM, it may
be possible to calibrate this ratio to primarily trace one of these effects.Comment: 22 pages, 13 figures, 6 table
Clustering of Intermediate Luminosity X-ray selected AGN at z~3
We present the first clustering results of X-ray selected AGN at z~3. Using
Chandra X-ray imaging and UVR optical colors from MUSYC photometry in the
ECDF-S field, we selected a sample of 58 z~3 AGN candidates. From the optical
data we also selected 1385 LBG at 2.8<z< 3.8 with R<25.5. We performed
auto-correlation and cross-correlation analyses, and here we present results
for the clustering amplitudes and dark matter halo masses of each sample. For
the LBG we find a correlation length of r_0,LBG = 6.7 +/- 0.5 Mpc, implying a
bias value of 3.5 +/- 0.3 and dark matter (DM) halo masses of log(Mmin/Msun) =
11.8 +/- 0.1. The AGN-LBG cross-correlation yields r_0,AGN-LBG = 8.7 +/- 1.9
Mpc, implying for AGN at 2.8<z<3.8 a bias value of 5.5 +/- 2.0 and DM halo
masses of log(Mmin/Msun) = 12.6 +0.5/-0.8. Evolution of dark matter halos in
the Lambda CDM cosmology implies that today these z~3 AGN are found in high
mass galaxies with a typical luminosity of 7+4/-2 L*.Comment: Accepted for publication in ApJ Letters. 4 pages, 4 figures (1 in
color
Present-Day Descendants of z=3 Ly-{\alpha} Emitting Galaxies in the Millennium-II Halo Merger Trees
Using the Millennium-II Simulation dark matter sub-halo merger histories, we
created mock catalogs of Lyman Alpha Emitting (LAE) galaxies at z=3.1 to study
the properties of their descendants. Several models were created by selecting
the sub-halos to match the number density and typical dark matter mass
determined from observations of these galaxies. We used mass-based and
age-based selection criteria to study their effects on descendant populations
at z~2, 1 and 0. For the models that best represent LAEs at z=3.1, the z=0
descendants have a median dark matter halo mass of 10^12.7 M_Sun, with a wide
scatter in masses (50% between 10^11.8 and 10^13.7 M_Sun). Our study
differentiated between central and satellite sub-halos and found that ~55% of
z=0 descendants are central sub-halos with M_Median~10^12 M_Sun. This confirms
that central z=0 descendants of z=3.1 LAEs have halo masses typical of L* type
galaxies. The satellite sub-halos reside in group/cluster environments with
dark matter masses around 10^14 M_Sun. The median descendant mass is robust to
various methods of age determination, but it could vary by a factor of 5 due to
current observational uncertainties in the clustering of LAEs used to determine
their typical z=3.1 dark matter mass.Comment: Accepted for publication in Ap
Ly-alpha Emission-Line Galaxies at z = 3.1 in the Extended Chandra Deep Field South
We describe the results of an extremely deep, 0.28 deg^2 survey for z = 3.1
Ly-alpha emission-line galaxies in the Extended Chandra Deep Field South. By
using a narrow-band 5000 Anstrom filter and complementary broadband photometry
from the MUSYC survey, we identify a statistically complete sample of 162
galaxies with monochromatic fluxes brighter than 1.5 x 10^-17 ergs cm^-2 s^-1
and observers frame equivalent widths greater than 80 Angstroms. We show that
the equivalent width distribution of these objects follows an exponential with
a rest-frame scale length of w_0 = 76 +/- 10 Angstroms. In addition, we show
that in the emission line, the luminosity function of Ly-alpha galaxies has a
faint-end power-law slope of alpha = -1.49 +/- 0.4, a bright-end cutoff of log
L^* = 42.64 +/- 0.2, and a space density above our detection thresholds of 1.46
+/- 0.12 x 10^-3 h70^3 galaxies Mpc^-3. Finally, by comparing the emission-line
and continuum properties of the LAEs, we show that the star-formation rates
derived from Ly-alpha are ~3 times lower than those inferred from the
rest-frame UV continuum. We use this offset to deduce the existence of a small
amount of internal extinction within the host galaxies. This extinction,
coupled with the lack of extremely-high equivalent width emitters, argues that
these galaxies are not primordial Pop III objects, though they are young and
relatively chemically unevolved.Comment: 45 pages, 15 figures, accepted for publication in the Astrophysical
Journa
ALMA High-frequency Long Baseline Campaign in 2021: Highest Angular Resolution Submillimeter Wave Images for the Carbon-rich Star R Lep
The Atacama Large Millimeter/submillimeter Array (ALMA) was used in 2021 to
image the carbon-rich evolved star R Lep in Bands 8-10 (397-908 GHz) with
baselines up to 16 km. The goal was to validate the calibration, using
band-to-band (B2B) phase referencing with a close phase calibrator J0504-1512,
1.2 deg from R Lep in this case, and the imaging procedures required to obtain
the maximum angular resolution achievable with ALMA. Images of the continuum
emission and the hydrogen cyanide (HCN) maser line at 890.8 GHz, from the
J=10-9 transition between the (1110) and (0400) vibrationally excited states,
achieved angular resolutions of 13, 6, and 5 mas in Bands 8-10, respectively.
Self-calibration (self-cal) was used to produce ideal images as to compare with
the B2B phase referencing technique. The continuum emission was resolved in
Bands 9 and 10, leaving too little flux for self-cal of the longest baselines,
so these comparisons are made at coarser resolution. Comparisons showed that
B2B phase referencing provided phase corrections sufficient to recover 92%,
83%, and 77% of the ideal image continuum flux densities. The HCN maser was
sufficiently compact to obtain self-cal solutions in Band 10 for all baselines
(up to 16 km). In Band 10, B2B phase referencing as compared to the ideal
images recovered 61% and 70% of the flux density for the HCN maser and
continuum, respectively.Comment: 37 pages, 12 figures, 9 tables, accepted by ApJ (Aug 30, 2023
Lyman-Alpha-Emitting Galaxies at z = 2.1 in ECDF-S: Building Blocks of Typical Present-day Galaxies?
We discovered a sample of 250 Ly-Alpha emitting (LAE) galaxies at z=2.1 in an
ultra-deep 3727 A narrow-band MUSYC image of the Extended Chandra Deep
Field-South. LAEs were selected to have rest-frame equivalent widths (EW) > 20
A and emission line fluxes > 2.0 x 10^(-17)erg /cm^2/s, after carefully
subtracting the continuum contributions from narrow band photometry. The median
flux of our sample is 4.2 x 10^(-17)erg/cm^2/s, corresponding to a median Lya
luminosity = 1.3 x 10^(42) erg/s at z=2.1. At this flux our sample is > 90%
complete. Approximately 4% of the original NB-selected candidates were detected
in X-rays by Chandra, and 7% were detected in the rest-frame far-UV by GALEX.
At luminosity>1.3 x 10^42 erg/s, the equivalent width distribution is unbiased
and is represented by an exponential with scale-length of 83+/-10 A. Above this
same luminosity threshold, we find a number density of 1.5+/-0.5 x 10^-3
Mpc^-3. Neither the number density of LAEs nor the scale-length of their EW
distribution show significant evolution from z=3 to z=2. We used the rest frame
UV luminosity to estimate a median star formation rate of 4 M_(sun) /yr. The
median rest frame UV slope, parametrized by B-R, is that typical of dust-free,
0.5-1 Gyr old or moderately dusty, 300-500 Myr old populations. Approximately
40% of the sample occupies the z~2 star-forming galaxy locus in the UVR two
color diagram. Clustering analysis reveals that LAEs at z=2.1 have
r_0=4.8+/-0.9 Mpc and a bias factor b=1.8+/-0.3. This implies that z=2.1 LAEs
reside in dark matter halos with median masses
Log(M/M_(sun))=11.5^(+0.4)_(-0.5), which are among of the lowest-mass halos yet
probed at this redshift. We used the Sheth-Tormen conditional mass function to
study the descendants of these LAEs and found that their typical present-day
descendants are local galaxies with L* properties, like the Milky Way.Comment: 35 pages, 9 figures, ApJ, in pres
Ly Alpha-Emitting Galaxies at z=3.1: L* Progenitors Experiencing Rapid Star Formation
We studied the clustering properties and multiwavelength spectral energy
distributions of a complete sample of 162 Ly Alpha-Emitting (LAE) galaxies at
z=3.1 discovered in deep narrow-band MUSYC imaging of the Extended Chandra Deep
Field South. LAEs were selected to have observed frame equivalent widths >80A
and emission line fluxes >1.5E-17 erg/cm^2/s. Only 1% of our LAE sample appears
to host AGN. The LAEs exhibit a moderate spatial correlation length of
r_0=3.6+0.8-1.0 Mpc, corresponding to a bias factor b=1.7+0.3-0.4, which
implies median dark matter halo masses of log10(M_med) = 10.9+0.5-0.9 M_sun.
Comparing the number density of LAEs, (1.5+-0.3)E-3/Mpc^3, with the number
density of these halos finds a mean halo occupation ~1-10%. The evolution of
galaxy bias with redshift implies that most z=3.1 LAEs evolve into present-day
galaxies with L3 galaxy populations typically evolve
into more massive galaxies. Halo merger trees show that z=0 descendants occupy
halos with a wide range of masses, with a median descendant mass close to that
of L*. Only 30% of LAEs have sufficient stellar mass (>~3E9 M_sun) to yield
detections in deep Spitzer-IRAC imaging. A two-population SED fit to the
stacked UBVRIzJK+[3.6,4.5,5.6,8.0]micron fluxes of the IRAC-undetected objects
finds that the typical LAE has low stellar mass (1.0+0.6-0.4 E9 M_sun),
moderate star formation rate (2+-1 M_sun/yr), a young component age of 20+30-10
Myr, and little dust (A_V<0.2). The best fit model has 20% of the mass in the
young stellar component, but models without evolved stars are also allowed.Comment: ApJ, in press, 7 pages including 4 color figure
The Physical Nature of Lyman Alpha Emitting Galaxies at z=3.1
We selected 40 candidate Lyman Alpha Emitting galaxies (LAEs) at z ~=3.1 with
observed frame equivalent widths >150A and inferred emission line fluxes
>2.5x10^-17 ergs/cm^2/s from deep narrow-band and broad-band MUSYC images of
the Extended Chandra Deep Field South. Covering 992 sq. arcmin, this is the
largest ``blank field'' surveyed for LAEs at z ~3, allowing an improved
estimate of the space density of this population of 3+-1x10^-4 h_70^3/Mpc^3.
Spectroscopic follow-up of 23 candidates yielded 18 redshifts, all at z ~=3.1.
Over 80% of the LAEs are dimmer in continuum magnitude than the typical Lyman
break galaxy spectroscopic limit of R= 25.5 (AB), with a median continuum
magnitude R ~=27 and very blue continuum colors, (V-z) ~=0. Over 80% of the
LAEs have the right UVR colors to be selected as Lyman break galaxies, but only
10% also have R<=25.5. Stacking the UBVRIzJK fluxes reveals that LAEs have
stellar masses ~=5x10^8 h_70^-2 M_sun and minimal dust extinction, A_V < ~ 0.1.
Inferred star formation rates are ~=6 h_70^-2 M_sun/yr, yielding a cosmic star
formation rate density of 2x10^-3 h_70 M_sun/yr/Mpc^3. None of our LAE
candidates show evidence for rest-frame emission line equivalent widths
EW_rest>240A which might imply a non-standard IMF. One candidate is detected by
Chandra, implying an AGN fraction of 2+-2% for LAE candidate samples. In
summary, LAEs at z ~ 3 have rapid star formation, low stellar mass, little dust
obscuration and no evidence for a substantial AGN component.Comment: ApJ Letters, in press, very minor revisions to match accepted
version, 4 pages with 2 color figure