Main Page

From Planck PLA Wiki
Revision as of 10:37, 7 February 2013 by Amoneti (talk | contribs)
Jump to: navigation, search

Very important information for new users: READ ME FIRST .

Very important information for all users: News .

If you are reading the printed version of this ES wiki, the online version can be found at the URL:

http://www.sciops.esa.int/wikiSI/planckpla/index.php?title=Main_Page&instance=Planck_PLA_ES.

For help with editing the Explanatory Supplement consult the User's Guide for a detailed User Guide of the MediaWiki software or the Explanatory Supplement Help page for the guidelines on editing the ES.

A set of books (a collection of pages that can easily be printed together as a pdf file) can be found here. We also have a page explaining how to create your own book.

PDF Book: A book with the full contents can be found here and a pdf version updated weekly can be found here:File:P28 Explanatory Supplement v28Jan13.pdf.

Explanatory supplement[edit]

By Planck Collaboration

The Explanatory Supplement is a reference text to the public data delivered from the operations of the European Space Agency’s Planck satellite during its mission.

  1. The Planck mission (Dupac)
  2. The satellite
    1. The service module
      1. Thermal design: Passive cooling | Active cooling | Qualification and performance (Mendes)
    2. HFI design, qualification, and performance (Lamarre/Pajot)
      1. Overview
      2. Cryogenics
      3. Cold optics
      4. Detection chain
      5. Time response
      6. Operations
      7. Performance summary
      8. Annexes
    3. LFI design, qualification, and performance(Gregorio)
    4. The telescope
    5. Others
      1. The standard radiation environment monitor (Mendes)
      2. The fiber optic gyro unit
  3. Ground Segment and Operations
    1. Ground segment overview (Dupac)
    2. Contingencies
    3. Operational history
    4. Survey scanning and performance (Dupac)
    5. Thermal environment
    6. Radiation environment (Mendes)
    7. Pointing performance (Dupac)
  4. Data processing
    1. Data flow overview
    2. On-board processing
    3. MOC data transfer and storage
    4. HFI Data Processing (Bouchet)
      1. Pre-processing (Vibert)
      2. TOI processing (Desert)
      3. Detectors pointing and beams (Crill/Jones/Jaffe)
      4. Map-making (Perdereau)
      5. Spectral response (Spencer)
      6. Internal overall validation (Ganga)
      7. Power spectra (Hivon)
      8. Summary of HFI data characteristics (Bouchet)
    5. LFI data processing: Introduction (Zacchei)
      1. Pre-processing (Frailis)
        1. Overview
        2. The LFI scientific telemetry
        3. From packets to raw TOIs
        4. On-board time reconstruction
      2. TOI processing (Mennella)
        1. To be completed
        2. ADC Correction (Galeotta/Watson)
        3. Spikes Removal (Tavagnacco)
        4. Gaps Filling (Galeotta/Polenta)
        5. Gain Modulation Factor
        6. Diode Combination
        7. Planet Flagging
        8. Photometric calibration (Galeotta)
        9. Noise estimation (Maino)
      3. Detector Pointing (Maris/Galeotta)
        1. Wobble Angle
        2. Stellar Aberration
      4. Beams (Sandri/Villa)
        1. Main Beams and Focal Plane calibration
        2. Effective beams
      5. Map-making (Keihanen)
        1. Frequency Maps (Elina Keihanen)
        2. Noise Covariance Matrix (Anna-Stiina Suur-Uski)
        3. Half-ring jackknife Noise Maps (Jussi Valiviita)
        4. Noise Montecarlo Simulation (Hannu Kurki-Suonio)
      6. LFI systematic effects uncertainties (Mennella)
      7. LFI internal overall validation (Maino)
      8. LFI specific L3 activities: masks, MCQA, etc
        1. power spectra: intra-frequency checks & aggregation, LFI specific checks, ...)
        2. Band pass information
        3. Polarisation information
      9. Summary of LFI data characteristics & the RIMO content
    6. HFI/LFI joint data processing
      1. Compact Source catalogues (Ashdown/Nuevo/Caniego)
      2. CMB map cleaning from Foreground emissions (Ashdown/Baccigalupi)
      3. CMB Power spectra and Planck likelihood code CLIK(Bouchet/Natoli)
      4. Simulations (TBC, bouchet)
    7. Scientific analyses products (bouchet)
    8. PSO processing (To be removed)
  5. Planck Legacy Archive(Dupac)
    1. Mission products
      1. Timelines: (Not in 1st Release)
      2. Single detector maps: (Not in 1st Release)
      3. Frequency Maps: Types of mapsList of productsFITS file structure
      4. Catalogues: ERCSC Compact Sources SZ Clusters
      5. Astrophysical component maps: CMB Foregrounds Dust opacityCO emission
      6. Angular power spectra
      7. The RIMO: Map-level data Band transmissions Beam Window Functions
      8. Effective Beams (Rocha??)
      9. Planck Likelihood Code (Benabed??)
    2. Additional products
      1. Specially processed maps: Lensing map
      2. Additional catalogues
      3. Additional angular power spectra
      4. The Planck Sky Model (Not in 1st Release)
    3. Ancillary data
      1. Scientific data used to generate Planck products
      2. Simulation data
    4. Mission history: Survey history data | Satellite history data (Dupac)
    5. Payload design, performance and calibration data
      1. Instrument performance
      2. Telescope
      3. Thermal and cooler system
      4. Fiber optic gyro (Not in 1st Release)
      5. Space radiation environment monitor
    6. Software utilities
      1. Unpack and display (ESA)
      2. Unit conversion and Color correction (DPC)
      3. Print and plot (ESA)
      4. Analysis (ESA)
      5. Format conversion (ESA)
  6. Glossary
  7. Appendix
  8. References

European Space Agency

Data Processing Center