Notice: For the foreseeable future, the daily reports may contain

apparent discrepancies between some proposal descriptions and the listed

instrument usage. This is due to the conversion of previously approved

ACS WFC or HRC observations into WFPC2, or NICMOS observations

subsequent to the loss of ACS CCD science capability in late January.

 

HUBBLE SPACE TELESCOPE - Continuing to collect World Class Science

 

DAILY REPORT      # 4370

 

PERIOD COVERED: UT May 24, 2007 (DOY 144)

 

OBSERVATIONS SCHEDULED

 

WFPC2 10877

 

A Snapshot Survey of the Sites of Recent, Nearby Supernovae

 

During the past few years, robotic {or nearly robotic} searches for

supernovae {SNe}, most notably our Lick Observatory Supernova Search

{LOSS}, have found hundreds of SNe, many of them in quite nearby

galaxies {cz < 4000 km/s}. Most of the objects were discovered before

maximum brightness, and have follow-up photometry and spectroscopy; they

include some of the best-studied SNe to date. We propose to conduct a

snapshot imaging survey of the sites of some of these nearby objects, to

obtain late-time photometry that {through the shape of the light and

color curves} will help reveal the origin of their lingering energy. The

images will also provide high-resolution information on the local

environments of SNe that are far superior to what we can procure from

the ground. For example, we will obtain color-color and color-magnitude

diagrams of stars in these SN sites, to determine the SN progenitor

masses and constraints on the reddening. Recovery of the SNe in the new

HST images will also allow us to actually pinpoint their progenitor

stars in cases where pre- explosion images exist in the HST archive.

This proposal is an extension of our successful Cycle 13 snapshot survey

with ACS. It is complementary to our Cycle 15 archival proposal, which

is a continuation of our long-standing program to use existing HST

images to glean information about SN environments.

 

ACS/SBC 10862

 

Comprehensive Auroral Imaging of Jupiter and Saturn during the

International Heliophysical Year A comprehensive set of observations of

the auroral emissions from Jupiter and Saturn is proposed for the

International Heliophysical Year in 2007, a unique period of especially

concentrated measurements of space physics phenomena throughout the

solar system. We propose to determine the physical relationship of the

various auroral processes at Jupiter and Saturn with conditions in the

solar wind at each planet. This can be accomplished with campaigns of

observations, with a sampling interval not to exceed one day, covering

at least one solar rotation. The solar wind plasma density approaching

Jupiter will be measured by the New Horizons spacecraft, and a separate

campaign near opposition in May 2007 will determine the effect of

large-scale variations in the interplanetary magnetic field {IMF} on the

Jovian aurora by extrapolation from near-Earth solar wind measurements.

A similar Saturn campaign near opposition in Jan. 2007 will combine

extrapolated solar wind data with measurements from a wide range of

locations within the Saturn magnetosphere by Cassini. In the course of

making these observations, it will be possible to fully map the auroral

footprints of Io and the other satellites to determine both the local

magnetic field geometry and the controlling factors in the

electromagnetic interaction of each satellite with the corotating

magnetic field and plasma density. Also in the course of making these

observations, the auroral emission properties will be compared with the

properties of the near-IR ionospheric emissions {from ground- based

observations} and non thermal radio emissions, from ground-based

observations for Jupiter?s decametric radiation and Cassini plasma wave

measurements of the Saturn Kilometric Radiation {SKR}.

 

WFPC2 10826

 

Galaxy Evolution During Half the Age of the Universe: ACS imaging of

rich galaxy clusters

 

Detailed studies of nearby galaxies {z<0.05} show that galaxies have

very complex histories of formation and evolution involving mergers,

bursts of star formation, and morphological changes. Even so, the global

properties of the galaxies {radii, luminosities, rotation velocities,

velocity dispersions, and absorption line strengths} follow a number of

very tight {empirical} scaling relations, e.g. the Tully-Fisher relation

and the Fundamental Plane {FP}. We use the scaling relations plus

quantative morphological measures for galaxy clusters up to z=1 to

constrain models for galaxy evolution. Here we request 24 orbits to

obtain ACS imaging of the remaining three clusters in our sample at

z~0.7-1.0. High resolution imaging of the clusters is critical for our

study of star formation histories and structural evolution in dense

environments since z<1. We have previously obtained deep spectroscopic

observations of the clusters with Gemini. The data will provide samples

large enough to establish the slope of the FP for each cluster. With

multiple clusters at similar redshifts, we can probe evolutionary

differences within a single epoch in order to decouple changes due to

different environments. Our two other high-z clusters exhibit different

chemical enrichment histories, which we argue are due to the different

merging histories of these clusters.

 

NIC2 10858

 

NICMOS Imaging of the z ~ 2 Spitzer Spectroscopic Sample of

Ultraluminous Infrared Galaxies We propose to obtain NICMOS images of

the first large sample of high-z ultra-luminous infrared galaxies

{ULIRGs} whose redshifts and physical states have been determined with

Spitzer mid-IR spectra. The detection of strong silicate absorption

and/or PAH emission lines suggest that the these sources are a mixture

of highly obscured starbursts, AGNs and composite systems at z=2.

Although some of the spectra show PAH emission similar to local

starburst ULIRGs, their bolometric luminosities are roughly an order of

magnitude higher. One important question is if major mergers, which are

the trigger for 95% of local ULIRGs, also drive this enormous energy

output observed in our z=2 sample. The NICMOS images will allow us to

{1} measure surface brightness profiles of z~2 ULIRGs and establish if

major mergers could be common among our luminous sources at these early

epochs, {2} determine if starbursts and AGNs classified based on their

mid-IR spetra would have different morphological signatures, thus

different dynamic state; {3} make comparisons with the similar studies

of ULIRGs at z ~ 0 - 1, thus infer any evolutionary connections between

high-z ULIRGs and the formation of normal, massive galaxies and quasars

observed today.

 

WFPC2 10886

 

The Sloan Lens ACS Survey: Towards 100 New Strong Lenses

 

As a continuation of the highly successful Sloan Lens ACS {SLACS} Survey

for new strong gravitational lenses, we propose one orbit of ACS-WFC

F814W imaging for each of 50 high-probability strong galaxy-galaxy lens

candidates. These observations will confirm new lens systems and permit

immediate and accurate photometry, shape measurement, and mass modeling

of the lens galaxies. The lenses delivered by the SLACS Survey all show

extended source structure, furnishing more constraints on the projected

lens potential than lensed-quasar image positions. In addition, SLACS

lenses have lens galaxies that are much brighter than their lensed

sources, facilitating detailed photometric and dynamical observation of

the former. When confirmed lenses from this proposal are combined with

lenses discovered by SLACS in Cycles 13 and 14, we expect the final

SLACS lens sample to number 80--100: an approximate doubling of the

number of known galaxy-scale strong gravitational lenses and an

order-of-magnitude increase in the number of optical Einstein rings. By

virtue of its homogeneous selection and sheer size, the SLACS sample

will allow an unprecedented exploration of the mass structure of the

early- type galaxy population as a function of all other observable

quantities. This new sample will be a valuable resource to the

astronomical community by enabling qualitatively new strong lensing

science, and as such we will waive all but a short {3-month} proprietary

period on the observations.

 

NIC1/NIC2/NIC3 8794

 

NICMOS Post-SAA calibration - CR Persistence Part 5

 

A new procedure proposed to alleviate the CR-persistence problem of

NICMOS. Dark frames will be obtained immediately upon exiting the SAA

contour 23, and every time a NICMOS exposure is scheduled within 50

minutes of coming out of the SAA. The darks will be obtained in parallel

in all three NICMOS Cameras. The POST-SAA darks will be non- standard

reference files available to users with a USEAFTER date/time mark. The

keyword 'USEAFTER=date/time' will also be added to the header of each

POST-SAA DARK frame. The keyword must be populated with the time, in

addition to the date, because HST crosses the SAA ~8 times per day so

each POST-SAA DARK will need to have the appropriate time specified, for

users to identify the ones they need. Both the raw and processed images

will be archived as POST-SAA DARKSs. Generally we expect that all NICMOS

science/calibration observations started within 50 minutes of leaving an

SAA will need such maps to remove the CR persistence from the science

images. Each observation will need its own CRMAP, as different SAA

passages leave different imprints on the NICMOS detectors.

 

WFPC2 10888

 

Complexity in the Smallest Galaxies: Star Formation History of the

Sculptor Dwarf Spheroidal

 

The Sculptor dwarf spheroidal galaxy {Scl dSph} is one of the most

luminous of the Milky Way dSph satellites, suffers virtually no

foreground confusion or reddening because of its high galactic latitude,

and is nearby at 80 kpc from the Sun. It is of great interest to

astronomy to understand the detailed histories of dSph galaxies because

they may be survivors of the hierarchical merging process that created

giant galaxies like our own. Despite this, the age distribution of stars

in Scl dSph remains remarkably poorly constrained because of a dearth of

high-quality color-magnitude diagrams {CMDs} of its central regions. Scl

dSph is known to be complex on the basis of shallower photometry, radial

velocity studies, and investigations of the metallicity; however, the

age range of significant star-formation and the proportion of stars

older and younger than 10 Gyr is still completely unknown. The age of

the centrally concentrated, metal-rich population has never been

measured. We propose to obtain deep optical images of the core of Scl

dSph with WFPC2 in order to measure the temporal evolution of its

star-formation rate over its entire lifetime. The ONLY way to reliably

measure the variation in star-formation rate on Gyr timescales at ages

of 10-13 Gyr is with photometry of a large number of stars at and below

the oldest main-sequence turnoffs to magnitudes of {B,I} = {25.1, 24.5}.

Because of the high stellar density and resulting image crowding, it is

impossible to achieve the required level of photometric precision except

with diffraction-limited imaging. These data will permit the first

reliable measurement of the star-formation history of the main body of

Scl dSph; limited inferences from WFPC2 data in an outer field have been

made, but they were hindered not only by small number statistics but by

the subsequent revelation of extremely strong population gradients in

Scl dSph, such that the stars in the existing WFPC2 field are not

representative of the galaxy as a whole. Our proposed program will shed

strong new light on the formation processes of the smallest galaxies.

Only by measuring the detailed early histories of galaxies like Scl dSph

can we evaluate the impact of outside influences like ram-pressure

stripping, tidal stirring, and photoionization feedback on the evolution

of small galaxies.

 

FLIGHT OPERATIONS SUMMARY:

 

Significant Spacecraft Anomalies: (The following are preliminary reports

of potential non-nominal performance that will be investigated.)

 

HSTARS:

10831 - REacq(1,2,1) failed due to search radius limit exceeded.

           REacq(1,2,1) scheduled at 144/12:05:59 failed due to search radius limit

           exceeded on FGS 1. OBAD1 showed errors of V1=-26.92, V2=-1645.61,

           V3=-27.15, and RSS=1646.06. OBAD2 showed errors of V1=-55.09, V2=-29.53,

           V3=-55.84, and RSS=83.81.

 

COMPLETED OPS REQUEST: (None)

18093-2 - PCS KF OOT Support, 144/13:17 @ 144/13:26z

18090-0 - MSS/CSS Initialization Test#9 for day 144 @ 144/13:52z

 

COMPLETED OPS NOTES: (None)

 

SIGNIFICANT EVENTS:

 

Evaluation of Universal Kalman Filter performance continued Details follow.

 

Background Kalman Filter Operation:

 

The KF was halted at 144/13:19. The filter was restarted at

144/13:25 with the MSS and CSS sensor inputs enabled. The filter was

restarted during a vehicle slew and just prior to EON (13:27) to monitor

how the penumbra would effect convergence performance (M_C_IVP, Test

#9). Only a short period of UKF converged was able to be monitored due

to the scheduled loss of return telemetry shortly after EON (data was

captured to the recorder). Subsequent UKF performance was nominal. The

filter was halted, reconfigured and restarted with only the MSS sensor

input enabled at 144/13:52.

 

This test completes the KF convergence testing for the 141 SMS. The

filter will be reconfigured to perform a long-term monitoring test of

MSS and Gyro1 sensor input (CSS disabled) on Friday due to the few

opportunities to perform the remaining KF convergence testing in the 148

SMS.