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      # 4358

 

PERIOD COVERED: UT May 08, 2007 (DOY 128)

 

OBSERVATIONS SCHEDULED

 

WFPC2  10800

 

Kuiper Belt Binaries: Probes of Early Solar System Evolution

 

Binaries in the Kuiper Belt are a scientific windfall: in them we have

relatively fragile test particles which can be used as tracers of the

early dynamical evolution of the outer Solar System. We propose to

continue a Snapshot program using the ACS/HRC that has a demonstrated

discovery potential an order of magnitude higher than the HST

observations that have already discovered the majority of known

transneptunian binaries. With this continuation we seek to reach the

original goals of this project: to accumulate a sufficiently large

sample in each of the distinct populations collected in the Kuiper Belt

to be able to measure, with statistical significance, how the fraction

of binaries varies as a function of their particular dynamical paths

into the Kuiper Belt. Today's Kuiper Belt bears the imprints of the

final stages of giant-planet building and migration; binaries may offer

some of the best preserved evidence of that long-ago era.

 

WFPC2  10832

 

Solving the microlensing puzzle: An HST high-resolution imaging approach

 

We propose to use the HST Advanced Camera for Surveys High Resolution

Channel to obtain high resolution imaging data for 10 bona-fide LMC

microlensing events seen in the original MACHO survey. The purpose of

this survey will be to assess whether or not the lens and source stars

have separated enough to be resolved since the original microlensing

event took place - about a decade has passed since the original MACHO

survey and the HST WFPC2 follow-up observations of the microlensing

events. If the components of the lensing event are resolved, we will

determine the apparent magnitude and color of both the lens and the

source stars. These data, in combination with Spitzer/IRAC data and

Magellan near-IR JHK data, will be used to ascertain the basic

properties of the lens stars. With the majority of the microlensing

events in the original MACHO survey observed at the highest spatial

resolution currently possible, we will be able to draw important

conclusions as to what fraction of these events have lenses which belong

to some population of dwarf stars in the disk and what fraction must be

due to lenses in the halo or beyond. These data will greatly increase

our understanding of the structure of the Galaxy by characterizing the

stellar population responsible for the gravitational microlensing.

 

WFPC2 10788

 

Probing the Central Dark Mass Concentration of the Collapsed-Core

Globular Cluster M15

 

We plan to probe the central dark mass concentration in the

collapsed-core globular cluster M15 by analyzing the structure of its

central stellar cusp with the highest possible angular resolution. The

rapid rise of M/L toward the center of M15 can be alternatively

explained by a central concentration of several thousand compact

remnants {heavy white dwarfs and neutron stars} or instead by the

presence of an intermediate-mass black hole {IMBH} of a few thousand

solar masses. We propose to obtain one orbit of highly dithered WFPC2

F555W {V} imaging to supplement the available ACS/HRC F435W {B} imaging

from GO-10401. This will allow us {1} to improve the constraints on the

radius of the as yet unresolved core and {2} to investigate the relation

between cusp slope and stellar mass, the form of which depends on the

size and mix of the remnant population and on whether or not an IMBH is

present. We will compare the central cusp structure with predictions

from both Fokker-Planck and GRAPE-6 N-body models, with and without

IMBHs, to constrain the nature of the intriguing dark mass

concentration.

 

WFPC2 10791

 

Proper motion may nail counterpart of unique X-ray pulsar

 

1E 1207.4-5209 is one of the most puzzling X-ray compact sources in the

Galaxy. Long known to be a radio-quiet Neutron Star {NS} embedded in a

young {~7000 y} supernova remnant, it displays a unique phenomenology,

including multiple cyclotron absorption features in its thermal X-ray

spectrum, as well as a possible non-monotonous evolution of its 424 ms

rotational period. A candidate optical counterpart {I~23.4} with very

red colours {not consistent with the expected emission of a NS, but

rather with a low-mass stellar companion, or a fossil disk} was singled

out with HST/ACS in 2003, at the margin of the Chandra error box. In

order to test the reality of such an association, we propose to take

advantage of the high space velocities characteristics of NSs to search

for the expected displacement {~150 mas in the NE direction} of the

candidate counterpart over a 3 years time span. One orbit observation,

either unveiling the displacement or ruling it out, will settle the

problem of the optical identification of 1E1207.4-5209. We stress that a

null result would also be important for the understanding of this

source.

 

WFPC2 10823

 

The spectrum of a magnetar in the blue and ultraviolet.

 

Magnetars are natural laboratories for investigating the behaviour of

matter at the very extremes of nature. The magnetar CXOU

J010043.1-721134 was serendipitously discovered by WFPC2 imaging of the

SMC. Because of the low reddening to this source compared to the other

magnetars, this is a unique opportunity to measure the spectral shape in

the blue and ultraviolet. We hope also to establish the feasibility of

spectroscopic follow-up. We are asking for two orbits of ACS imaging.

 

WFPC2 10903

 

Resolving the LMC Microlensing Puzzle: Where are the Lensing Objects?

 

We are requesting 12 HST orbits to continue to investigate the nature of

the population that gives rise to the microlensing seen towards the LMC.

This proposal builds on the cycle 14 HST program {10583} and will

complement the study with 12 yet-to-be discovered microlensing

candidates from Fall 2006. Our SuperMacho project is an ongoing ground-

based survey on the CTIO 4m that has demonstrated the ability to detect

LMC microlensing events via frame subtraction. The combination of high

angular resolution and photometric accuracy with HST will allow us to 1}

confrim that the detected flux excursions arise from LMC stars, rather

than background supernovae or AGN, and 2} obtain reliable baseline flux

measurements for the objects in their unlensed state. This latter

measurement in important in determining the microlensing optical depth

towards the LMC.

 

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               05                  05               

FGS REacq               08                  08              

OBAD with Maneuver 26                  26              

 

SIGNIFICANT EVENTS:

 

Evaluation of Universal Kalman Filter performance continued. Details

follow.

 

Background Kalman Filter Operation Flash Report for day 127

 

The KF was halted at 127/18:15. The filter was restarted at 127/18:18

with the CSS disabled, the Gyro2 input enabled, during orbit day, during

a vehicle slew and during an M2G guiding interval and during a slow

changing B-field. All UKF parameters showed nominal operation. The test

was an MSS/Gyro2 Initialization test case during a vehicle slew with a

slow changing B-field (M_G2_IVS, Test #35).

 

The KF was reconfigured and restarted at 127/19:14 with the CSS and both

gyro inputs disabled to leave the filter in an MSS only configuration.

This configuration is to help provide a earlier baseline set of data for

PCS analysis and it will remain the default configuration outside of

other KF convergence testing for the remainder of the week.