HUBBLE
SPACE TELESCOPE - Continuing To Collect World Class Science
DAILY
REPORT #5090
PERIOD
COVERED: 05:00 am May 5, 2010 - 05:00 am May 6, 2010 (DOY 125/0900z -
126/0900z)
OBSERVATIONS
SCHEDULED:
COS/FUV
11687
SNAPing
Coronal Iron
This
is a Snapshot Survey to explore two forbidden lines of highly ionized iron in
late-type coronal
sources.
Fe XII 1349 (T~ 2 MK) and Fe XXI 1354 (T~ 10 MK) -- well known to Solar Physics
-- have
been
detected in about a dozen cool stars, mainly with HST/STIS. The UV coronal
forbidden lines are
important
because they can be observed with velocity resolution of better than 15 km/s,
whereas even
the
state-of-the-art X-ray spectrometers on Chandra can manage only 300 km/s in the
kilovolt band
where
lines of highly ionized iron more commonly are found. The kinematic properties
of hot coronal
plasmas,
which are of great interest to theorists and modelers, thus only are accessible
in the UV
at
present. The bad news is that the UV coronal forbidden lines are faint, and
were captured only in
very
deep observations with STIS. The good news is that 3rd-generation Cosmic
Origins Spectrograph,
slated
for installation in HST by SM4, in a mere 25 minute exposure with its G130M
mode can
duplicate
the sensitivity of a landmark 25-orbit STIS E140M observation of AD Leo, easily
the
deepest
such exposure of a late-type star so far. Our goal is to build up understanding
of the
properties
of Fe XII and Fe XXI in additional objects beyond the current limited sample:
how the
lineshapes
depend on activity, whether large scale velocity shifts can be detected, and
whether the
dynamical
content of the lines can be inverted to map the spatial morphology of the
stellar corona
(as
in "Doppler Imaging''). In other words, we want to bring to bear in the
coronal venue all the
powerful
tricks of spectroscopic remote sensing, well in advance of the time that this
will be
possible
exploiting the corona's native X-ray radiation. The 1290-1430 band captured by
side A of
G130M
also contains a wide range of key plasma diagnostics that form at temperatures
from below 10,
000
K (neutral lines of CNO), to above 200, 000 K (semi-permitted O V 1371),
including the important
bright
multiplets of C II at 1335 and Si IV at 1400; yielding a diagnostic gold mine
for the
subcoronal
atmosphere. Because of the broad value of the SNAP spectra, beyond the coronal
iron
project,
we waive the normal proprietary rights.
COS/FUV/COS/NUV
11645
HST
COS Observations of the Atmosphere and Airglow/Aurora of Enceladus
Recent
observations from several instruments on the Cassini spacecraft have revealed
plumes of dust
and
water from the southern polar region, and clearly shown that Enceladus
contributes large amounts
of
plasma to Saturn?s magnetosphere. This implies a global thin atmosphere
containing water and
likely
other species, and a local region with orders of magnitude higher density near
the plumes.
While
water and dust have been identified from the plumes, the presence of many other
species in the
atmosphere
is possible and not yet ruled out. The identification of all significant
species in the
atmosphere
of Enceladus is of key importance to speculation about the source of the water
plumes,
and
the implications for any form of life at or below the surface. In addition,
modeling suggests
that
Enceladus? mass loading region may be comparable in extent to Io?s, and
interacts strongly with
Saturn?s
corotating magnetic field and plasma. We have recently concluded a search for
an auroral
footprint
of Enceladus in HST images, which set a low upper limit implying that the
magnetospheric
interaction
is concentrated near Enceladus, rather than being communicated along field
lines to
Saturn?s
ionosphere. The next step will be to observe the interaction at the satellite,
and to learn
whatever
we can about the physics of the release of the atmospheric gas. We propose here
an
exploratory
set of spectral observations with HST COS to measure the solar reflection
spectrum over
a
broad range of UV wavelengths for atmospheric absorption signatures. This will
at the same time
measure
the emission spectrum of the atmosphere from both the leading and trailing
hemispheres ?
Enceladus
orbit apart, as was done in HST STIS observations of Io to study its
interaction at
Jupiter.
The higher sensitivity of COS will be needed to study the much smaller and
relatively
weakly-interacting
Enceladus, and the outcome of these observations will determine the nature of
future
studies of the atmosphere of Enceladus and its plasma interaction with the
Saturnian
magnetosphere.
COS/FUV/COS/NUV
11698
The
Structure and Dynamics of Virgo's Multi-Phase Intracluster Medium
The
dynamical flows of the intracluster medium (ICM) are largely unknown. We
propose to map the
spatial
and kinematic distribution of the warm ICM of the nearby Virgo cluster using
the Cosmic
Origins
Spectrograph. 15 sightlines at a range of impact parameters within the virial
radius of the
cluster
(0.2 - 1.7 Mpc) will be probed for Lyman-alpha absorption and the data compared
to blind HI,
dust
and x-ray surveys to create a multi-phase map of the cluster's ICM. Absorption
line sightlines
are
commonly 40-100 kpc from a galaxy, allowing the flow of baryons between
galaxies and the ICM to
be
assessed. The velocity distribution of the absorbers will be directly compared
to simulations and
used
to constrain the turbulent motions of the ICM. This proposal will result in the
first map of a
cluster's
warm ICM and provide important tests for our theoretical understanding of
cluster
formation
and the treatment of gas cooling in cosmological simulations.
COS/NUV
11720
Detailed
analysis of carbon atmosphere white dwarfs
We
propose to obtain UV spectra for the newly discovered white dwarf stars with a
carbon-dominated
atmosphere.
Model calculations show that these stars emit most of their light in the UV
part of the
electromagnetic
spectrum and that an accurate determination of the flux in this region is
crucial
for
an accurate determination of the atmospheric parameters. It will also provide a
unique
opportunity
to test the atomic data and broadening theory in stellar conditions never met
before.
This
will play a primordial role in our path to understand the origin of these
objects as well to
obtain
a better understanding of the evolution of stars in general. The principal
objective we hope
to
achieve with these observations are 1) obtain accurate surface gravity/mass for
these stars, 2)
constrain/determine
the abundance of other elements (O, He, Mg, Ne etc.), especially oxygen, 3)
verify
the accuracy of the various theoretical atomic data used in the model
calculations, 4)
understand
the origin and evolution of carbon atmosphere white dwarfs, in particular
whether
progenitor
stars as massive as 10.5 solar masses can produce white dwarfs, rather than
supernovae.
We
propose to observe 5 objects chosen carefully to cover the range of observed
properties among
carbon
atmosphere white dwarfs (effective temperature, surface gravity, abundance of
hydrogen/helium
and
magnetic field).
S/C/WFC3/IR
11929
IR
Dark Current Monitor
Analyses
of ground test data showed that dark current signals are more reliably removed
from science
data
using darks taken with the same exposure sequences as the science data, than
with a single dark
current
image scaled by desired exposure time. Therefore, dark current images must be
collected
using
all sample sequences that will be used in science observations. These
observations will be
used
to monitor changes in the dark current of the WFC3-IR channel on a day-to-day
basis, and to
build
calibration dark current ramps for each of the sample sequences to be used by
GOs in Cycle 17.
For
each sample sequence/array size combination, a median ramp will be created and
delivered to the
calibration
database system (CDBS).
STIS/CCD
11845
CCD
Dark Monitor Part 2
Monitor
the darks for the STIS CCD.
STIS/CCD
11847
CCD
Bias Monitor-Part 2
Monitor
the bias in the 1x1, 1x2, 2x1, and 2x2 bin settings at gain=1, and 1x1 at gain
= 4, to build
up
high-S/N superbiases and track the evolution of hot columns.
STIS/MA1
11861
MAMA
FUV Flats
This
program will obtain FUV-MAMA observations of the STIS internal Krypton lamp to
construct an FUV
flat
applicable to all FUV modes.
WFC3/IR
11235
HST
NICMOS Survey of the Nuclear Regions of Luminous Infrared Galaxies in the Local
Universe
At
luminosities above 1011.4 L_sun, the space density of far-infrared selected
galaxies exceeds that
of
optically selected galaxies. These `luminous infrared galaxies' (LIRGs) are
primarily interacting
or
merging disk galaxies undergoing enhanced star formation and Active Galactic
Nuclei (AGN)
activity,
possibly triggered as the objects transform into massive S0 and elliptical
merger
remnants.
We propose NICMOS NIC2 imaging of the nuclear regions of a complete sample of
88 L_IR >
1011.4
L_sun luminous infrared galaxies in the IRAS Revised Bright Galaxy Sample
(RBGS: i.e., 60
micron
flux density > 5.24 Jy). This sample is ideal not only in its completeness
and sample size,
but
also in the proximity and brightness of the galaxies. The superb sensitivity
and resolution of
NICMOS
NIC2 on HST enables a unique opportunity to study the detailed structure of the
nuclear
regions,
where dust obscuration may mask star clusters, AGN and additional nuclei from
optical view,
with
a resolution significantly higher than possible with Spitzer IRAC. This survey
thus provides a
crucial
component to our study of the dynamics and evolution of IR galaxies presently
underway with
Wide-Field,
HST ACS/WFC and Spitzer IRAC observations of these 88 galaxies. Imaging will be
done
with
the F160W filter (H-band) to examine as a function of both luminosity and
merger stage (i) the
luminosity
and distribution of embedded star clusters, (ii) the presence of optically
obscured AGN
and
nuclei, (iii) the correlation between the distribution of 1.6 micron emission and
the mid-IR
emission
as detected by Spitzer IRAC, (iv) the evidence of bars or bridges that may
funnel fuel into
the
nuclear region, and (v) the ages of star clusters for which photometry is
available via ACS/WFC
observations.
The NICMOS data, combined with the HST ACS, Spitzer, and GALEX observations of
this
sample,
will result in the most comprehensive study of merging and interacting galaxies
to date.
WFC3/IR
11700
Bright
Galaxies at z>7.5 with a WFC3 Pure Parallel Survey
The
epoch of reionization represents a special moment in the history of the
Universe as it is during
this
era that the first galaxies and star clusters are formed. Reionization also
profoundly affects
the
environment where subsequent generations of galaxies evolve. Our overarching
goal is to test the
hypothesis
that galaxies are responsible for reionizing neutral hydrogen. To do so we
propose to
carry
out a pure parallel WFC3 survey to constrain the bright end of the redshift
z>7.5 galaxy
luminosity
function on a total area of 176 arcmin^2 of sky. Extrapolating the evolution of
the
luminosity
function from z~6, we expect to detect about 20 Lyman Break Galaxies brighter
than M_* at
z~8
significantly improving the current sample of only a few galaxies known at
these redshifts.
Finding
significantly fewer objects than predicted on the basis of extrapolation from
z=6 would set
strong
limits to the brightness of M_*, highlighting a fast evolution of the
luminosity function
with
the possible implication that galaxies alone cannot reionize the Universe. Our
observations
will
find the best candidates for spectroscopic confirmation, that is bright
z>7.5 objects, which
would
be missed by small area deeper surveys. The random pointing nature of the
program is ideal to
beat
cosmic variance, especially severe for luminous massive galaxies, which are
strongly clustered.
In
fact our survey geometry of 38 independent fields will constrain the luminosity
function like a
contiguous
single field survey with two times more area at the same depth. Lyman Break
Galaxies at
z>7.5
down to m_AB=26.85 (5 sigma) in F125W will be selected as F098M dropouts, using
three to five
orbits
visits that include a total of four filters (F606W, F098M, F125W, F160W)
optimized to remove
low-redshift
interlopers and cool stars. Our data will be highly complementary to a deep
field
search
for high-z galaxies aimed at probing the faint end of the luminosity function,
allowing us to
disentangle
the degeneracy between faint end slope and M_* in a Schechter function fit of
the
luminosity
function. We waive proprietary rights for the data. In addition, we commit to
release the
coordinates
and properties of our z>7.5 candidates within one month from the acquisition
of each
field.
WFC3/IR
11926
IR
Zero Points
We
will measure and monitor the zeropoints through the IR filters using
observations of the white
dwarf
standard stars, GD153, GD71 and GD191B2B and the solar analog standard star,
P330E. Data will
be
taken monthly during Cycle 17. Observations of the star cluster, NGC 104, are
made twice to check
color
transformations. We expect an accuracy of 2% in the wide filter zeropoints
relative to the HST
photometric
system, and 5% in the medium- and narrow-band filters.
WFC3/UVI
11602
High-resolution
imaging of three new UV-bright lensed arcs
We
have identified and spectroscopically confirmed three new strongly lensed,
UV-bright star-forming
galaxies
at z ~ 2 that are similar to the well-studied gravitationally lensed Lyman
Break Galaxy
(LBG)
MS1512-cB58, and are of comparable brightness to the ''8 O'Clock Arc'' (Allam
et al. 2007) and
''Clone''
systems (Lin et al. 2008). The 8 O'Clock Arc and Clone have already been
awarded 20 orbits
for
deep WFPC2 and NICMOS imaging in five bands (HST cycle 16, Program 11167, PI:
Allam). Adding
these
three recently discovered objects thus completes a unique set of the brightest
known strongly
lensed
galaxies at z ~ 2, with magnitudes of r~20-21, and they provide a new window
into the
detailed
study of the properties of high redshift galaxies. We propose 21 orbits for
deep WFC3
imaging
in five bands (F475W, F606W, F814W, F110W, and F160W) in order to construct
detailed lensing
models,
to probe the mass and light profiles of the lensing galaxies and their environments,
and to
constrain
the spectral energy distributions, star formation histories, and morphologies
of the
lensed
galaxies.
WFC3/UVI
11650
Mutual
Orbits, Colors, Masses, and Bulk Densities of 3 Cold Classical Transneptunian
Binaries
Many
transneptunian objects (TNOs) have been found to be binary or multiple systems.
As in other
astrophysical
settings, trans?neptunian binaries (TNBs) offer uniquely valuable information.
Their
mutual
orbits allow the direct determination of their system masses, perhaps the most
fundamental
physical
quantity of any astronomical object. Their frequency of occurrence and
dynamical
characteristics
provide clues to formation conditions and evolution scenarios affecting both
the
binaries
and their single neighbors. Combining masses with sizes, bulk densities can be
measured.
Densities
constrain bulk composition and internal structure, key clues to TNO origins and
evolution
over
time. Several TNB bulk densities have been determined, hinting at interesting
trends. But none
of
them belongs to the Cold Classical sub-population, the one group of TNOs with
demonstrably
distinct
physical characteristics. Two top-priority Spitzer programs will soon observe
and measure
the
sizes of 3 Cold Classical TNBs. This proposal seeks to determine the mutual
orbits and thus
masses
of these systems, enabling computation of their densities.
WFC3/UVI
11729
Photometric
Metallicity Calibration with WFC3 Specialty Filters
The
community has chosen to include several filters in the WFC3 filter complement
that have been
designed
to allow fairly precise estimates of stellar metallicities, and many science
programs are
enabled
by this capability. Since these filters do not exactly match those used for
this purpose on
the
ground, however, the mapping of stellar colors to stellar metallicities needs
to be calibrated.
We
propose to achieve this calibration through observations of five stellar
clusters with well known
metallicities.
We will calibrate several different filter calibrations which will allow future
users
to
determine what filter combination best meets their science needs.
WFC3/UVI
11905
WFC3
UVIS CCD Daily Monitor
The
behavior of the WFC3 UVIS CCD will be monitored daily with a set of full-frame,
four-amp
bias<BR>and
dark frames. A smaller set of 2Kx4K subarray biases are acquired at less
frequent
intervals<BR>throughout
the cycle to support subarray science observations. The internals from this
proposal,<BR>along
with those from the anneal procedure (11909), will be used to generate the
necessary
superbias<BR>and superdark reference files for the calibration pipeline
(CDBS).
FLIGHT
OPERATIONS SUMMARY:
Significant
Spacecraft Anomalies: (The following are preliminary reports
of
potential non-nominal performance that will be investigated.)
HSTARs:
none
COMPLETED
OPS REQUEST:
none
COMPLETED
OPS NOTES:
none
SCHEDULED SUCCESSFUL
FGS
GSAcq
9
9
FGS
REAcq
6
6
OBAD
with Maneuver 4
4
SIGNIFICANT
EVENTS:
none