t he case for massive spectroscopy in the south
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T he Case for Massive Spectroscopy in the South. Josh Frieman MS-DESI Meeting, LBNL , March 2013. Some details in DESpec White Paper arXiv : 1209.2451 ( Abdalla , etal ). Motivation. What is the physical cause of cosmic acceleration? - PowerPoint PPT PresentationTRANSCRIPT
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The Case for Massive Spectroscopy in the South
Josh FriemanMS-DESI Meeting, LBNL, March 2013
Some details in DESpec White Paper arXiv: 1209.2451 (Abdalla, etal)
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Motivation• What is the physical cause of cosmic acceleration?
– Dark Energy or modification of General Relativity?• If Dark Energy, is it Λ (the vacuum) or something else?
– What is the DE equation of state parameter w?• The DE program would be substantially enhanced
by a massive redshift survey that optimally synergizes (overlaps) with the DES imaging survey and by a larger redshift survey of LSST galaxies, capitalizing on those investments. Maximum overlap requires a southern site.
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• Probe dark energy through the history of the expansion rate:
• and the growth of large-scale structure:
• Weak Lensing cosmic shear Distances+growth Imaging
• Supernovae Distances Imaging• Cluster counting Distances+growth Imaging
Spectroscopy• Baryon Acoustic Oscillations Distances and H(z) Imaging Spectroscopy• Redshift Space Distortions Growth Spectroscopy
What can we probe?
Distance vs.Redshift
Growth of DensityPerturbations
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Massive Spectroscopic Surveys in the Southern Hemisphere
• 8-million Galaxy Redshift Survey in ~250 nights– Uniformly selected from deep, homogeneous DES+VHS
imaging over 5000 sq. deg. (2018+)• 15-million Galaxy Redshift Survey in ~500 nights
– Uniformly selected from deep, homogeneous LSST imaging of additional 10,000 sq. deg. (2021+) or from DES extension
• Photometric+Spectroscopic Surveys over same sky– Enable powerful new science beyond what either can
provide alone• Deep, uniform multiband imaging from DES, LSST
– Enable efficient, well-understood selection of spectroscopic targets, control systematic errors
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Massive Spectroscopy of DES and LSST Targets Enables New and Improved DE Probes
• Weak Lensing and Redshift-Space Distortions– Powerful new test of Dark Energy vs Modified Gravity
• Galaxy Clustering– Radial BAO for H(z) and improved DA(z)
• Photometric Redshift Calibration– Determine DES and LSST N(z) from angular correlation, improve
DE constraints from all methods in these imaging surveys• Galaxy clusters
– Dynamical masses for DES/LSST clusters from velocity dispersions, reduce the major cluster DE systematic
• Weak Lensing– Reduce systematics from intrinsic alignments for DES/LSST
• Supernovae– Reduce systematics from host-galaxy typing for DES/LSST
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Slide from Enrique Gaztanaga
RSD, BAO determine galaxy survey density~1500 per sq deg to z~1(for nP>1)
slide from Enrique Gaztanaga
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Weak Lensing and Redshift Space Distortions
• Powerful test of Dark Energy vs. Modified Gravity• RSD from MS-DESI
– Measures degenerate combination of growth f and bias b• Weak Lensing from DES and LSST
– Helps break degeneracy• RSD and WL over same sky
– RSD, shear-shear, plus galaxy-shear correlations
MacDonald & Seljak, Bernstein & Cai, Cai & Bernstein, Gaztanaga, etal, Kirk, et al (in prep)
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• Constraints much stronger if imaging and spectroscopy cover same sky: galaxy-shear cross-correlations
Weak Lensing and Redshift Space Distortions: DETF FoM for 15,000 sq. deg. surveys
LSST WL MSDESI RSD+BAO255 113
Combine:Different sky 1126Same sky 4240
Assuming GR Not Assuming GRM. Eriksen
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• Constraints much stronger if imaging and spectroscopy cover same sky: galaxy-shear cross-correlations constrain bias
Weak Lensing and Redshift Space Distortions: Jointly Constraining DE and Gravity
Assuming GR
LSST WL MS-DESI RSD+BAO
Combined: Different Sky Same Sky
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Cai & Bernstein
Relative Gain in Modified Gravity Figure of Merit from Same Sky
Note WL data not available in the north
LSST WL
MS
DE
SI R
SD
DES WL
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2-parameter Modified Gravity model
Assuming GR Modified Gravity constraints
Kirk etal
Different SkySame Sky
Different SkySame Sky
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DES and LSST Photo-z Calibration
DES-BigBOSS Joint Working Group Report
Angular Cross-Correlation of Imaging with Redshift Survey
Requires same sky coverage of imaging and spectroscopy, improves with overlap area
Photo-z systematics could otherwise limit DES, LSST Dark Energy reach
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ClustersNumber of clusters above mass threshold
Dark Energy equation of state
• Spectroscopy of DES/LSST Clusters • Determine Cluster velocity dispersion (dynamical mass) using 10’s of redshifts per cluster calibrate mass-richness relation: complement WL, SZ, and X-ray estimates
Mohr
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Slide from Sarah Hansen
DETFFOMgain for clusters
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Dark Energy Spectrograph Concept for MS-DESI
• 4000-fiber optical spectrograph system for the Blanco 4m• Mohawk robotic fiber positioner
– Based on Echidna system, has demonstrated requisite pitch• High-throughput spectrographs• Fibers tile full 3.8 deg2 DECam Field of View• Fiber positioner rapidly interchangeable with DECam imager
– Maintain wide-field imaging capability for the Blanco• Use much of the DECam infrastructure installed on Blanco
– Prime focus cage, hexapod, 4 of the 5 optical corrector elements, shutter
• DESpec White Paper– arXiv: 1209.2451 (Abdalla, etal)
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DECam Prime FocusCage Installed on Blanco Telescope
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DECam Prime FocusCage Installed on Blanco Telescope
+DESpec
Saunders, etal
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High, dry site: 80% useable nights, 0.75” site seeingNext door to LSST and Gemini.
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Blanco Telescope
Cerro Tololo
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Dark Energy Spectroscopic Survey
• Redshift Survey optimized for– Baryon Acoustic Oscillations– Redshift Space Distortions
• Target DES+VHS Galaxies (from grizYJHK colors, fluxes)−19 million Emission Line Gals (to z~1.5, BAO) 1200/sq deg−4 million Luminous Red Gals (to z~1.3, RSD) 300/sq deg
• Strawman Survey Design−2 exposures each field to reach target density and high
completeness (1500 successful redshifts per sq. deg.)−20-min cumulative exposure times to reach requisite depth
(40 min for QSOs)−~750 total nights to cover 15,000 sq. deg.
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DES deepmultiband image
Excellent spectrosocopictarget sourceand WL shapes
Deep targetingimages with WLover large area not availablefrom Northernhemisphere
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Target Selection Simulations
Deep, homogeneous parent catalogs from DES, VHS, LSST enable efficient selection and sculpting of redshift distributions
ELG goal:1200/deg2
LRG goal:300/deg2
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Target Selection Simulations
Deep, homogeneous parent catalogs from DES, VHS, LSST enable efficient selection and sculpting of redshift distributions
ELG goal:1200/deg2
LRG goal:300/deg2LRG goal:300/deg2
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Conclusions• Two hemispheres better than one • Southern hemisphere has critical science advantages:
– DES and LSST photometric surveys for DE synergy (WL+RSD, clusters, photo-z cal) and deep, uniform target selection (Cf. SDSS): Figures of Merit increase by factor 2-3 with same sky
– Synergy with other southern facilities as well (SPT, SKA, …)• MS-DESI on the Blanco would capitalize on existing,
installed, tested DECam infrastructure– Reduce cost and technical and schedule risks– Fiber system interchangeable with DECam maintains Blanco
imaging capability into the LSST era and provide world-class imaging plus spectroscopy facility for the astronomy community