HUBBLE SPACE TELESCOPE - Continuing to collect World Class Science

 

DAILY REPORT       #4833

 

PERIOD COVERED: 5am April 14 - 5am April 15, 2009 (DOY

                           104/0900z-105/0900z)

 

OBSERVATIONS SCHEDULED

 

WFPC2 11974

 

High-resolution Imaging for 9 Very Bright, Spectroscopically Confirmed,

Group-scale Lenses

 

There are large samples of strong lenses that probe small (galaxy) scale

masses (e.g., SLACS, SQLS, COSMOS). There are also large samples of

strong lenses that probe large (rich cluster) scale masses (e.g.,

various rich Abell clusters, the Hennawi et al. 2008 SDSS sample). The

sample of strong lenses that probe intermediate (group/cluster-core)

scale masses, however, is sparse, and so any significant additions to

this sample are important. Here we present a sample of strong lenses

that not only probe these intermediate scales but are also quite bright,

since the sample is based almost entirely upon data from the SDSS, a

relatively shallow and poor-resolution survey, at least in comparison to

most other strong lens hunting grounds, such as COSMOS and CFHTLS. What

we lack are the high-resolution imaging data needed to construct

detailed lensing models, to probe the mass and light profiles of the

lensing galaxies and their environments, and to characterize the

morphologies of the lensed (source) galaxies. Only HST can provide these

data, and so we are proposing here for 81 orbits of deep WFPC2 F450W,

F606W and F814W imaging, for 9 of our best and brightest

intermediate-scale lensing systems with known spectroscopic redshifts

and with Einstein radii between 4 and 8 arcsec.

 

WFPC2 11978

 

Luminous and Dark Matter in Disk Galaxies from Strong Lensing and

Stellar Kinematics

 

The formation of realistic disk galaxies within the LCDM paradigm is

still an unsolved problem. Theory is only now beginning to make

predictions for how dark matter halos respond to galaxy formation and

for the properties of disk galaxies. Measuring the density profiles of

dark matter halos on galaxy scales is therefore a strong test for the

standard paradigm of galaxy formation, offering great potential for

discovery. However, from an observational point of view, the degeneracy

between the stellar and dark matter contributions to galaxy rotation

curves remains a major road block. Strong gravitational lensing, when

coupled to spatially-resolved kinematics and stellar population models,

can solve this long-standing problem. Unfortunately, this joint

methodology could not be exploited so far due to the paucity of known

edge-on spiral lenses. Exploiting the full SDSS-DR7 archive we have

identified a new sample of exactly these systems. We propose multi-color

HST imaging to confirm and measure a sample of twenty spiral lenses,

covering a range of bulge to disk ratios. By combining dynamical lensing

and stellar population information for this unique sample we will

deliver the first statistical constraints on halos and disk properties,

and a new stringent test of disk galaxy formation theories.

 

WFPC2 11981

 

FUV Imaging Survey of Galactic Open Clusters

 

We propose a WFPC2 FUV imaging survey of 6 Galactic open clusters with

ages ranging from 1 Myr to 300 Myr complemented with NUV/optical imaging

of the same fields. No such survey has ever been attempted before in the

FUV at the resolution of WFPC2 (indeed, no WFPC2 FUV images of any

Galactic open cluster exist in the HST archive) and, since WFPC2 will be

retired in SM4 and none of the other HST instruments can do FUV imaging

of bright objects, this is the last chance to do such a survey before

another UV telescope is launched. This survey will provide a new

perspective on young/intermediate age Galactic clusters and a key

template for the study of star formation at high redshift, where the

intensity peak we observe in the optical/NIR from Earth is located in

the FUV in its rest frame. For clusters still associated with an H II

region, UV imaging maps the continuum emission of the ionized gas and

the radiation scattered by background dust and, combined with optical

nebular images, can be used to determine the 3-D structure of the H II

region. For all young clusters, FUV+NUV+optical photometry can be used

to study the UV excesses of T-Tauri stars. For clusters older than ~40

Myr, the same photometric combination is the easiest method to detect

companion white dwarfs which are invisible using only the optical and

NIR. WFPC2 is also an excellent instrument to discover close companions

around bright stars and improve our knowledge of their multiplicity

fraction. Finally, for all clusters, the combination of

high-spatial-resolution UV and optical photometry can be used to

simultaneously measure the temperature, extinction, extinction law,

distance, and existence of companions (resolved and unresolved) and,

thus, produce clean HR diagrams with resolved cluster membership and

much-reduced systematic uncertainties.

 

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               06                  06               

FGS REAcq               08                  08                 

OBAD with Maneuver 28                  28               

 

SIGNIFICANT EVENTS: (None)