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Cross References to In-Flight Calibration Targets

Calibration Access and Data Handbook


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Next: Cross References between CCF Up: Applications of CCF Previous: Applications of CCF   Contents


Cross References to In-Flight Calibration Targets


Table 2: Cross reference of mirror CCF components to In-Flight Calibration Plan.
Target Name Primary Calibration Secondary CCF Files
  Goal Goal Verified
Hyades PSF Alignment Astromet, Boresight, LinCoord
      PSFpileup, XEncirEn, XPSF
MS0419.3+1943 Effective area near Au edge Contamination FilTransX, QuantumEf, XAreaEf
MS0737.9+7441      
MS0922.9+7459      
S5 0716+71      
A 496 Vignetting function   XAreaEF
LMC 30 Dor Vignetting function Plate scale LinCoord, PSFpileup, XAreaEf
NGC 6475 PSF Plate scale PSFpileup, XEncirEn, XPSF
X LMC X-2 X-ray straylight   XSLAreaEf, XSLDist
$\alpha$ Cen Visible straylight   FilterTransV, VPSF, VSLAreaEf
$\beta$ Cen      



Table 3: Cross reference of EPIC CCF components to In-Flight Calibration Plan.

Target Name Primary Calibration Secondary CCF Files
  Goal Goal Verified
Internal Source Gain and CTI Contamination ADUConv, Redist
      CalSourceData
      Contam, CTI
      EventSizeDist
NGC2516 EPIC Boresight PSF and focal plane scale LinCoord
  trend analysis   XPSF
LMC X-3 PN PSF vs pile-up MOS PSF wings XPSF,PSFPileUp
      RedistPileUp
PKS0312-770 MOS PSF PN PSF XPSF
Terzan 2 High energy Co-ordination with SAX QuantumEf
  effective area   XAreaEf
3C58 Effective area Y axis vignetting QuantumEf
  vs energy   XAreaEf
G21.5-09 Effective area Z axis vignetting QuantumEf
  vs energy   XAreaEf
N132D Gain CTI ADUConv, CTI, Redist
1ES0102-72 Gain CTI & AXAF ADUConv, CTI, Redist
    cross check XAreaEf
HZ43 C band filter transm. Contamin. ,FilterTransX,Contam,XAreaEf
CAL83 O band filter transm. Contamin. FilterTransX,Contam, XAreaEf
CAL87 M band filter transm. Contamin. FilterTransX,Contam,XAreaEf
PG0136 Contamination Gain Contam, ADOConv,XAreaEf
RXJ1856 Contamination Gain Contam, ADOConv,XAreaEf
PG1658 Contamination Gain Contam, ADOConv,XAreaEf
PG1634 Pile-UP Mode dependence PSFPileUp,RedistPileUp
Mkn205 Pile-UP Mode dependence PSFPileUp,RedistPileUp
PKS0558 Pile-UP Mode dependence PSFPileUp,RedistPileUp
Crab Nebula X-ray Stray light Fast timing XSLAreaEf,XSLDist
      TimeCorr
PSR0540 Timing   TimeCorr
EXO0748-676 Absolute timing   TimeCorr
Coma   Flat Field XAreaEf,QuantumEf
$\alpha$ Pic Vignetting   XAreaEf,VAreaEf
Various stars Filter stray light   VAreaEf, FilterTransV
All     Background,BadPix
      EventSizeDist,EXAFS
      HKParmInt,ModeParam

     



Table 4: Cross reference of EPIC Inflight Calibration Targets to CCF components

CCF Component

Calibration Target/ Comment
  Source  

LinCoord

NGC2516 Checked also for telescope ageing
    and other trends
XPSF LMC X-3 For PN, but produces pile-up in
  PKS0312-770 MOS, so we use 2 sources
PSFPileUp LMC X-3 Checked with various source
  PG1634  
ADUConv N132D Internal source has few lines
  Internal  
CTI 1ES0102-72 Via. multiple pointings
  N132D  
QuantumEf Terzan 2 Various power law spectra observed
  G21.5-09 in other observatories. Check for features
  3C58 attributable to CCD efficiency discrepancies
XAreaEf Terzan 2 As for Quantum efficiency but more
and G21.5-09 general effective area calibration
Redist 3C58  
  HZ43 Additional sources for limited
  Cal83 energy regions in
  Cal87 soft band
FilterTransX HZ43 Particular features of effective
  Cal83 area near filter edges
  Cal87 checked by these targets
EXAFS 3C58 Power law spectra and the mirror contamination
  G21.5-09 targets used to detect EPIC EXAFS features
RedistPileUp PG1634 Via. Mode dependence measurements
  Mkn205 measure changes in spectra with
  PKS0558 count rate
EventSizeDist All Monitored with PCS
Contam Various Soft sources checked for edge features
TimeCorr PSR0540  
  Crab Pulsar  
XSLAreaEf Crab Nebula Off axis leak
XSLDist " Spatial distribution
Background All Trend analysis of source
    excised regions
BadPix All Monitored with PCS
HKParmInt All Developed by experience
ModeParam All Only needed if modes change -
    observe standard candles
VAreaEf Various Stars Observe in diagnostic mode
FilTransV "  

   



Table 5: Cross reference of RGS CCF components to In-Flight Calibration Plan.
Target Name Primary Calibration Secondary CCF Files
  Goal Goal Verified
Internal Source CCD gain, resolution contamination, CTI ADUConv, CCDrmf,
      Contam, CTI
Capella wavelength scale resolution, PSF BoreSight, CrossPSF,
      LinCoord
HR 1099 wavelength scale resolution, PSF BoreSight, CrossPSF,
      LinCoord
YY Men wavelength scale resolution, PSF BoreSight, CrossPSF,
      LinCoord
$\lambda$ And wavelength scale resolution, PSF BoreSight, CrossPSF,
      LinCoord
AB Dor wavelength scale resolution, PSF BoreSight, CrossPSF,
      LinCoord
$\alpha$ Cen wavelength scale resolution, PSF BoreSight, CrossPSF,
      LinCoord
3C273 eff. area   QuantumEf, MiscData,
      EXAFS
PKS2155 eff. area   QuantumEf, MiscData,
      EXAFS
Mkn 421 eff. area   QuantumEf, MiscData,
      EXAFS
GX13+1 eff. area   QuantumEf, MiscData,
      EXAFS
PSR0540-69 eff. area   QuantumEf, MiscData,
      EXAFS
Sco X-1 eff. area, CTI checkout, geometry BoreSight, CrossPSF, CTI,
      LinCoord, QuantumEf
Canopus straylight   FilterTransV
Diag. images dark current bad pixels DarkFrame


=44
Table 6: Cross reference of RGS CCF components to Inflight Calibration Targets.
CCF Component Calibration Target/ Comment
Source
BoreSight Capella
HR 1099
YY Men
$\lambda$ And
AB Dor
$\alpha$ Cen
Sco X-1
MiscData 3C273
Mkn 421
GX13+1
PSR0540-69
ADUConv Internal Source
Background -- combination of weak source observations
BadPix -- combination of all exposures
CalSourceData -- ground calibrations
CCDrmf Internal Source
ClockPatterns -- on-board s/w parameters
Contam Internal Source
CrossPSF Capella
HR 1099
YY Men
$\lambda$ And
AB Dor
$\alpha$ Cen
Sco X-1
CTI Internal Source
Sco X-1
DarkCurrent -- left empty -- unused
DarkFrame -- collection of diag. images
EventSizeDist -- from combination of observations
EXAFS 3C273
Mkn 421
GX13+1
PSR0540-69
FilterTransV Canopus
HKParmInt -- h/k limits to be used for analysis
LinCoord Capella
HR 1099
YY Men
$\lambda$ And
AB Dor
$\alpha$ Cen
Sco X-1
LineSpreadFunc -- left empty -- unused
ModeParam -- on-board s/w parameters
PSFPileUp -- left empty -- unused
QuantumEf 3C273
Mkn 421
GX13+1
PSR0540-69
Sco X-1
Redist -- unused; constructed by rgsrmfgen
RedistPileUp -- unused; constructed by rgsrmfgen
WavelengthScale -- unused; constructed by rgsrmfgen

=44
Table 7: Cross reference of In-Flight Calibration Targets to OM CCF components
Target Name Calibration Goal CCF Files
BPM16274 time sensitivity degradation PhotToNat
$\lambda$-scale Vis_grism Grismcal
photometric stability
GD153, Hz 2 spectrophotometry Grismcal
time sensitivity degradation PhotToNat
GD 153, Hz 2, flux conversion ColorTrans
GD 50, Hz 4, zero point definition ColorTrans
G 93-48, LTT9491,
LBB 227
HD 221996, $\lambda$-scale UV_grism Grismcal
HD 224317,
HD 13499 field
G 153 field Geometric distortion Astromet
PSF U, B and V filters PSF1DRB
LH9-LH10 field PSF UVW1 and UVM2 filters PSF1DRB
PSR0540-69.3 field PSF UVW2 filter PSF1DRB
Sco X-1 field Grism zero order position Astromet
G 153 field, UBV colour transformation ColorTrans
HD 5980 field,
M 67 field
EXO 0748-67 field Large scale Sensitivity variation PixToPixSens
PSF optical filters PSF1DRB
SA95-42 Large scale Sensitivity variation PixToPixSens
photometric accuracy
Internal calibration event detection setting PhotToNat
HV setting PhotToNat
image Cosmetics BadPix
dark count rate DarkFrame


next up previous contents
Next: Cross References between CCF Up: Applications of CCF Previous: Applications of CCF   Contents
Michael Smith 2011-09-20