Steve Kahn I LSST as a dark energy experiment Overall description of the LSST system Planned survey strategy and delivered data products Overview of dark energy science what is known what are we still trying to learn what are the ideas to test ID: 441411
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Slide1
Draft White Paper Outline
Steve KahnSlide2
I. LSST as a dark energy experiment.
Overall description of the LSST system
.
Planned survey strategy and delivered data products
.
Overview of dark energy science – what is known, what are we still trying to learn, what are the ideas to test
?
Review of precursor projects – where will
this field be
at the time LSST starts taking data
?
How will LSST extend our science reach? What are the key dark energy probes that LSST will enable, and roughly how far beyond Stage III can we potentially get.Slide3
II. The LSST dark energy science collaboration
Need
for the collaboration – clarification of the relation to the project and the community. Feedback to telescope, camera, and DM development
.
Overall governance and organization
.
Policies and procedures (to the extent they are defined)
.
Initial org chart and definition of roles
.
General structure of work plan for next three years.Slide4
III. The analysis framework and key systematics for investigation.
Common issues across multiple probes
.
Weak lensing: description of major analyses with primary systematics concerns for each
.
Large-scale structure: description of major analyses with primary systematics concerns for each
.
Clusters of galaxies: description of major analyses with primary systematics concerns for each
.
Supernovae: description of major analyses with primary systematics concerns for each
.
Strong Lensing: description of major analyses with primary systematics concerns for each.
Photometric redshifts: description of major
approaches
with primary systematics concerns.Slide5
IV. Tools for investigation – simulations, precursor and corollary datasets, etc.
Cosmological
simulations – current state, areas for improvement
.
Sky catalogues – how are they generated, areas for improvement
.
OpSim
– current state, areas for improvement that are DE specific
.
PhoSim
– current state, areas for improvement that are DE specific
.
What existing datasets are available, and how are they
useful
?
What upcoming datasets are available, how will we get access to them, and how will they be
useful
?
Use of datasets in other wavebands, spectroscopy, etc. Do we need to acquire new observations? If so, how will we get
them?Slide6
V. Detailed work plan for next three years.
Simulations
improvements and development
.
Analysis subtasks for each of the probes
.
Algorithmic investigations, development
.
New observations with existing facilities
.
Development of a software framework
.
Development of a computational model.
VI
. Cross-matrix by institution and task element.