SLAC-2017:Foregrounds

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Foregrounds and simulations

Post talks here:

• r -- Lloyd Knox slides
• TT/TE/EE -- Erminia Calabrese slides
• Lensing -- Blake Sherwin slides
• Clusters -- Colin Hill slides

Notes from session

r: Lloyd Knox

• From Science Book, expect two distinct surveys for r: one at low resolution with many frequencies (for tensors), one with high resolution but fewer frequencies (for delensing)
• Defined a staged series of data challenges. Simulated maps exist at NERSC, analysis of first data challenge is underway. Start simple, update survey and signals in later rounds.
• Science Book used Fisher forecast to allocate sensitivity between eight frequency bands for low-res survey plus high-res survey.
• Important question: Do we need additional frequencies below 30 GHz?
• Survey definitions:
  • X=1: Science Book case with fsky=3% (check codes to confirm that we can reproduce Science Book results)
  • X=2: Updated set of bandpasses, multiple values of fsky.
  • X=3: Include both low-res and high-res surveys
• Signal definitions:
  • Y=0: Lensed and partially-delensed CMB, Gaussian dust and synchrotron, no extragalactic foregrounds
  • Y=1: PySM 'standard' model = Galactic foregrounds (non-Gaussian, spatially varying indices for sync/dust), no extragalactic foregrounds
  • Y=2: PySM 'alternate' model
  • Y>2: Ben Thorne and Brandon Hensley working to add Hensley / Drain dust model, add extragalactic foregrounds consistent with CMB lensing (Alvarez/Battaglia/Bond)
• Currently working on data challenge 1.0 -- recover the answer from Science Book. Check for biases and statistical uncertainty.
• Need to connect with instrument working groups, start to include systematic effects in maps.

TT/TE/EE: Erminia Calabrese

• Study impact of CMB secondaries, Galactic and extragalactic foregrounds on science from small-scale T/E. Build a covariance matrix including foreground uncertainty.
• Use templates and nuisance parameters for tSZ, kSZ, tSZxCIB, CIB-P, CIB-C, Radio-P, Cirrus in TT, Radio-P in TE/EE.
• Make simulations and multi-frequency covariance matrix. Repeat for different experiment configurations. Then analyze to solve for nuisance parameters, CMB, and eventually cosmological parameters.
• Some constraints on secondary / Galactic / extragalactic nuisance parameters are orders of magnitude better than current limits. Will these models hold up at that precision?
• Five frequencies vs three improves secondary/foreground constraints, but doesn't impact damping tail science (Neff). TE is most constraining spectrum.
• No systematics currently included.

Lensing: Blake Sherwin

Clusters: Colin Hill

Action items/Next steps

Summarize action items here