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HUBBLE SPACE TELESCOPE - Continuing to Collect World Class Science

 

DAILY REPORT #5195

 

PERIOD COVERED: 8:00pm October 4 - 7:59pm October 5, 2010 (DOY

277/00:00z-277/23:59z)

 

FLIGHT OPERATIONS SUMMARY:

 

Significant Spacecraft Anomalies: (The following are preliminary reports

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

 

HSTARS:

12448 - SDF fails to properly output science data following software

           change starting at 277/0143z

 

           Observations possibly affected: WFC3 26-17, Proposal ID#12307; WFC3 8,

           Proposal ID#11929; WFC3 19-20, 22-24, 30-34 Proposal ID#12215; WFC3 21,

           Proposal ID#12215; WFC3 9-11, 13-18 Proposal ID#12348; WFC3 4-7 Proposal

           ID#11905; WFC3 28-29, 32 Proposal ID#11700; WFC 1-6 Proposal ID#11582;

           WFC 1, 8-14 Proposal ID#11996; WFC 15-18 Proposal ID#12209; COS 30-35

           Proposal ID#11741; STIS 3-4 Proposal ID#11845; STIS 5-7 Proposal ID#11847;

           STIS 1-2 Proposal ID#11849

 

12450 - GSAcq(1,2,1) at 277/18:04z results in fine lock back (1,0,1), stop

           flag on FGS-1 at 277/1807z

 

           Observations possibly affected: WFC3 26-27, Proposal ID#12307

 

 

COMPLETED OPS REQUEST:

18933-1  Inhibit NSSC-1 ATP pointer@277/19:08z

 

COMPLETED OPS NOTES: (None)

 

                       Scheduled   Successful

FGS GSAcq               8              8

FGS REAcq               8              8 

OBAD with Maneuver 8              8

 

SIGNIFICANT EVENTS:

 

FLASH SIC&DH ATP pointer halted

In response to the failure of the SDF to properly output science data at 277/19:10 the NSSC-1 ATP was inhibited and SDF input enabled via Ops Request 18933.  This will facilitate the recovery of the remaining science data in the SIs and interception of the reprocessed SMS.

 

OBSERVATIONS SCHEDULED:

 

 

COS/FUV 11895

 

FUV Detector Dark Monitor

 

Monitor the FUV detector dark rate by taking long science exposures

without illuminating the detector. The detector dark rate and spatial

distribution of counts will be compared to pre-launch and SMOV data in

order to verify the nominal operation of the detector. Variations of

count rate as a function of orbital position will be analyzed to find

dependence of dark rate on proximity to the SAA. Dependence of dark rate

as function of time will also be tracked.

 

COS/FUV 12169

 

The Frequency and Chemical Composition of Planetary Debris Discs around

Young White Dwarfs

 

Throughout the past few years, it has become increasingly clear that the

most plausible scenario to explain the metal-pollution observed in ~20%

of all cool white dwarfs is accretion from rocky debris material -

suggesting that these white dwarfs may have had, or may still have

terrestial planets as well. This hypothesis is corroborated through the

infrared detection of circumstellar dust around the most heavily

polluted white dwarfs. Traditionally, the detection of metal pollution

is done in the optical using the Ca H/K lines, leading to a strong bias

against hot/young white dwarfs. Hence, most of our knowledge about the

late evolution of planetary systems is based on white dwarfs with

cooling ages >0.5Gyr. We propose an HST/COS ultraviolet spectroscopic

snapshot survey to carry out the first systematic investigation of the

fraction of metal-pollution among young (20-100Myr) white dwarfs,

probing the correlation with white dwarf (and hence progenitor) mass,

and determining the Si/H, C/H, and potentially N/H and O/H abundance

ratios of their circumstellar debris material.

 

COS/FUV 12212

 

What are the Locations and Kinematics of Mass Outflows in AGN?

 

Mass outflows of ionized gas in AGN, first revealed through blueshifted

UV and X-ray absorption lines, are likely important feedback mechanisms

for the enrichment of the IGM, self-regulation of black-hole growth, and

formation of structure in the early Universe. To understand the origin,

dynamics, and impact of the outflowing absorbers on their surroundings,

we need to know their locations (radial positions and polar angles with

respect to the AGN rotation axes) and kinematics (radial and transverse

velocities). We will use COS high-resolution spectra of 11 Seyfert 1

galaxies to derive velocity-dependent covering factors, ionic column

densities, number densities (via metastable lines or variability), and

ionization parameters (via photoionization models) of the UV absorbers,

and thereby determine their radial locations as we have done for NGC

4151. We will use absorption variability over time scales of up to ~20

years, to determine transverse velocities and detect changes in radial

velocities. We will use STIS G430M long-slit spectra and WFC3 [OIII]

images to resolve the kinematics of the narrow-line region (NLR) and

determine the inclinations of the AGN, to investigate the connection

between nuclear absorption and NLR emission outflows and their

dependence on polar angle.

 

 

WFC3/UV 12324

 

The Temperature Profiles of Quasar Accretion Disks

 

We can now routinely measure the size of quasar accretion disks using

gravitational microlensing of lensed quasars. At optical wavelengths we

observe a size and scaling with black hole mass roughly consistent with

thin disk theory but the sizes are larger than expected from the

observed optical fluxes. One solution would be to use a flatter

temperature profile, which we can study by measuring the wavelength

dependence of the disk size over the largest possible wavelength

baseline. Thus, to understand the size discrepancy and to probe closer

to the inner edge of the disk we need to extend our measurements to UV

wavelengths, and this can only be done with HST. For example, in the UV

we should see significant changes in the optical/UV size ratio with

black hole mass. We propose monitoring 5 lenses spanning a broad range

of black hole masses with well-sampled ground based light curves,

optical disk size measurements and known GALEX UV fluxes during Cycles

17 and 18 to expand from our current sample of two lenses. We would

obtain 5 observations of each target in each Cycle, similar to our

successful strategy for the first two targets.