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Contents
Contents
List of Figures
List of Tables
1. Introduction
1.1 Purpose
1.2 Structure
1.3 How to Contact Us
1.4 ISOPHOT Publications
1.4.1 Acknowledgements and guidelines
1.4.2 Inventory of publications
2. Instrument Description
2.1 Introduction
2.2 Overview
2.3 Focal Plane Scale
2.4 Data Collection with ISOPHOT
2.4.1 Signal flow in ISOPHOT
2.4.2 Cold Readout Electronics (CRE)
2.4.3 Detector Interface Electronics (DIE)
2.4.4 Readout timing control
2.5 ISOPHOT Measurement Concept
2.6 Detector Subsystems
2.6.1 PHT-P
2.6.2 PHT-C
2.6.3 PHT-S
2.7 Fine Calibration Sources (FCSs)
2.8 Focal Plane Chopper (FPC)
2.9 Filters
3. Instrument Modes and Astronomical Observation Templates
3.1 Chopping
3.2 Single-Pointing Multi-Filter and Multi-Aperture Modes
3.3 Raster Mode
3.4 Absolute Photometry
3.5 Oversampled Linear Scans and Maps
3.6 Sparse Maps
3.7 Spectrophotometry
3.8 Polarimetry
3.9 Serendipity Mode
3.10 ISOPHOT Modes of Operation
3.10.1 PHT-P: PHT03, PHT04, PHT05, PHT17/18/19
3.10.2 PHT-C: PHT22, PHT25, PHT32, PHT37/38/39
3.10.3 PHT-S: PHT40
3.10.4 Polarisation observations: PHT50, PHT51
4. Instrumental Characteristics
4.1 Overview
4.2 Detector Properties
4.2.1 Detector responsivity
4.2.2 Signal non-linearities
4.2.3 Transient behaviour after flux change
4.2.4 Drift behaviour of responsivity
4.2.5 Curing procedures
4.2.6 Dark signal and noise
4.2.7 Detector flat-fields
4.2.8 Detector saturation
4.3 Features due to Electronics
4.3.1 Anomalous first readouts on a ramp
4.3.2 CRE (ramp) linearity
4.3.3 Signal dependence on reset interval
4.3.4 Detector bias: de-biasing effects
4.3.5 Readout saturation
4.3.6 Disturbances by chopper commanding
4.3.7 CRE latch-up
4.4 Effects of Ionising Radiation
4.5 Optical Performance
4.5.1 Instrumental footprint on the sky
4.5.2 Point source intensity fractions
4.5.3 Chopper vignetting/offset
4.5.4 Inhomogeneous FCS illumination
4.6 Spectral Performance
4.6.1 PHT-S instrumental line profile
4.6.2 PHT-S wavelength calibration
4.7 Straylight
4.7.1 Straylight during FCS calibrations
4.7.2 Instrumental straylight
4.7.3 Spectral straylight
4.8 Instrumental Polarisation
4.9 Backgrounds
4.9.1 Confusion due to diffuse galactic emission
4.9.2 Confusion by galaxies
4.9.3 Zodiacal light
4.10 Global Instrument Data
5. Photometric Calibration
5.1 Overview
5.2 Calibration Strategy
5.2.1 Calibration involving the FCS
5.2.2 Non-linear detector responsivity
5.2.3 Signal correction for chopped observations with PHT-P and -C
5.2.4 Absolute calibration of FCS
5.2.5 Photometry with PHT-P and PHT-C
5.2.6 Spectro-photometry with PHT-S
5.3 Point Sources Versus Extended Sources
5.4 Aperture Calibration
5.5 PHT-S Wavelength Calibration
5.6 Photometric Calibration in AOTs
5.6.1 General signal derivation
5.6.2 Multi-filter photometry: PHT03 and PHT22
5.6.3 Mapping: PHT03, PHT22, PHT32
5.6.4 Sparse maps: PHT17/18/19 and PHT37/38/39
5.6.5 Multi-aperture photometry: PHT04
5.6.6 Absolute photometry: PHT05 and PHT25
5.6.7 PHT-S: PHT40
5.7 Calibration Files
5.7.1 Calibration-G files
5.7.2 Calibration-A files
6. Data Processing Level: Derive_ERD
7. Data Processing Level: Derive_SPD
7.1 Overview
7.2 Ramp Processing
7.2.1 Discarding destructive readouts
7.2.2 Discarding disturbed non-destructive readouts
7.2.3 Discarding data with OTF or OPF `off'
7.2.4 Data identification and separation
7.2.5 Determine chopper position and step number
7.2.6 Conversion of digitised numbers to CRE output voltages
7.2.7 Discarding saturated readouts
7.2.8 Correction for non-linearities of the integration ramps
7.2.9 Ramp deglitching
7.2.10 Extraction of the signals and their uncertainties
7.3 Signal Processing: Staring PHT-P and PHT-C
7.3.1 Reset interval correction
7.3.2 Dark signal subtraction
7.3.3 Correction for non-linear detector response of PHT-P and PHT-C
7.3.4 Signal deglitching
7.3.5 Transient correction
7.3.6 Averaging signals of same instrument set-up
7.3.7 Obtaining the median of all photo-currents
7.3.8 Ramp statistics in SPD and Cal-A headers
7.4 Signal Processing: Staring PHT-S
7.4.1 Dark signal subtraction
7.4.2 Transient correction and calibration of signals
7.4.3 Computation of the weighted mean flux
7.5 Signal Processing: Chopped PHT-P and PHT-C
7.5.1 Processing overview for chopped observations
7.5.2 Setting up data for generic pattern construction
7.5.3 Generic pattern construction
7.5.4 Determination of source signal
7.5.5 Correction for chopped signal loss: Sky measurement
7.5.6 Correction for chopped signal loss: FCS measurement
7.6 Signal Processing: Chopped PHT-S
7.6.1 Obtaining the average signal per chopper plateau
7.6.2 Separation of source and background signal
7.6.3 Determine the signals averaged over a measurement
7.6.4 Spectral response function corrected for chopped signal losses
7.6.5 Determination of source and background spectrum
7.7 Signal Processing: PHT32 Raster Maps
7.7.1 Obtaining the average signal per chopper plateau
7.7.2 Correction for chopper vignetting
7.8 Signal Processing: PHT-S Raster Maps
7.8.1 Obtaining the average signal per raster point
7.8.2 Determination of the spectrum per raster point
7.9 Signal Processing: PHT04 Staring Multi-Aperture Photometry
7.9.1 Sorting out eligible PHT04 observations
7.9.2 Analysis of the background subtracted source signal
7.9.3 Summary of SPD warning messages for PHT04
7.10 In-band Power Calibration
7.10.1 Default responsivities
7.10.2 Determination of in-band power from FCS measurement
7.10.3 Signal to in-band power conversion for P detectors
7.10.4 Signal to in-band power conversion for C detectors
7.10.5 In-band power for PHT-P and PHT-C chopped observations
7.10.6 In-band power for raster and sparse maps
7.10.7 Dependencies on mission dates
7.11 Ancillary SPD Data
7.11.1 FCS measurements
7.11.2 PHT-S dark measurement
7.11.3 Dark signal measurement
7.11.4 FCS straylight measurement
7.12 Quality Flags for SPD Records
8. Data Processing Level: Derive_AAR
8.1 Overview
8.2 PHT Auto Analysis Processing Per AOT
8.2.1 PHT03
8.2.2 PHT04
8.2.3 PHT05
8.2.4 PHT17/18/19
8.2.5 PHT22
8.2.6 PHT25
8.2.7 PHT32
8.2.8 PHT37/38/39
8.2.9 PHT40
8.3 Common Processing Steps
8.3.1 Read SPD header
8.3.2 Read SPD record
8.3.3 Determine celestial coordinates of each pixel in record
8.3.4 Determination of the equatorial offsets of the detector centre
8.4 Photometry
8.4.1 Determine source in-band power for chopped observations
8.4.2 Summation of the in-band powers over all PHT-C detector pixels
8.4.3 Fit two-dimensional Gaussian to point sources in the C-arrays
8.4.4 Interpolate missing pixels
8.4.5 Determination of Gaussian parameters
8.4.6 Photometry with PHT-P and PHT-C
8.4.7 Surface brightness determination for PHT-P and PHT-C
8.4.8 Write PHT-P point source photometry product
8.4.9 Write PHT-P extended source photometry product
8.4.10 Write PHT-C point source photometry product
8.4.11 Write PHT-C extended source photometry product
8.5 Mapping
8.5.1 Statistical flat-field correction for C100 and C200
8.5.2 Establish image pixel size
8.5.3 Establish maximum image size
8.5.4 Determination of the coverage by a sky sample in the image
8.5.5 Binning sky samples onto image pixels
8.5.6 Write image products
8.5.7 Write PHT-P raster scan photometry products
8.5.8 Write PHT-C raster scan photometry products
8.6 Spectroscopy with PHT40
8.6.1 PHT-S spectrum in wavelength units for point sources
8.6.2 PHT-S spectrum for extended sources
8.6.3 Write spectroscopy products
9. Photometric Calibration Accuracies
9.1 Overview
9.2 Calibration Accuracies per Detector
9.3 Status of Scientific Validation of PHT AOTs
10. Caveats
10.1 Overview
10.2 Caveat on this Document
10.3 Error Calculation and Propagation
10.4 Validity Ranges of FCS Calibration Files
10.5 Inhomogeneous FCS Illumination of PHT-P Apertures
10.6 Non-Geometric Aperture Beam Size Scaling
10.7 Detector Signal Transients
10.8 Long Term Detector Drifts
10.9 Limitations in Use of PHT Colour Correction Factors
10.10 Non-Linearity of Detector Responsivity with Flux
10.11 Incomplete Looking Raster Maps
10.12 Point Spread Function Fraction Factors in the Data Products
10.13 Residual Flat-Field Structures in PHT22 Raster Maps
10.14 Point Source Photometry from Mini-Maps
10.15 Filters with Less Reliable Photometry
10.16 PHT-S Dynamic Spectral Response Calibration
10.17 PHT-S Pointings Not Centred in the Aperture
11. Getting Started with ISOPHOT Data
11.1 Obtaining ISOPHOT Data
11.2 First Look at the Products
11.3 Further Processing
12. Guide to Data Products
12.1 Quick Reference: Synopsis of all ISOPHOT Products
12.1.1 ERD products
12.1.2 SPD products
12.1.3 AAR products
12.1.4 Cal-G products: Derive_SPD
12.1.5 Cal-G products: Derive_AAR
12.1.6 Cal-G products: auxillary
12.2 Product Types Sorted by AOT
13. Products Description
13.1 Overview
13.2 ERD Product Types
13.2.1 Rationale behind product design
13.2.2 Product PPER
13.2.3 Product P1ER
13.2.4 Product P2ER
13.2.5 Product P2ES
13.2.6 Product PSER
13.2.7 Product PSTA
13.3 SPD Product Types
13.3.1 Rationale behind product design
13.3.2 Product PPxS
13.3.3 Product PC1S
13.3.4 Product PC2S
13.3.5 Product PSSS
13.3.6 Product PSLS
13.3.7 Product PPxA
13.3.8 Product PCxA
13.3.9 Product PSSD
13.3.10 Product PSLD
13.3.11 Product PPxD
13.3.12 Product PC1D
13.3.13 Product PC2D
13.3.14 Pixel status flag
13.4 AAR Product Types
13.4.1 Rationale behind product design
13.4.2 Product PPAP
13.4.3 Product PPAE
13.4.4 Product PCAP
13.4.5 Product PCAE
13.4.6 Product PGAI
13.4.7 Product PGAU
13.4.8 Product PGAT
13.4.9 Product PPAS
13.4.10 Product PCAS
13.4.11 Product PSAP
13.4.12 Product PLAP
13.4.13 Product PSAE
13.4.14 Product PLAE
13.4.15 Product PSAS
13.4.16 Product PLAS
14. Calibration-G Products
14.1 Overview
14.2 Observation Time Dependent Calibration
14.2.1 Product PTIMEDEP: PHT calibration time dependency
14.3 DIE Power Calibration
14.3.1 Product PDIE1TRANS: PHT DIE1 power calibration table
14.3.2 Product PDIE2TRANS: PHT DIE2 power calibration table
14.4 Selection of Readouts
14.4.1 Product PSELNDR: PHT non-destructive readout selection
14.5 CRE Linearisation Corrections
14.5.1 Product PPCRELIN: linearisations for P1, P2, and P3
14.5.2 Product PC1CRELIN: linearisations for C100
14.5.3 Product PC2CRELIN: linearisations for C200
14.6 Signal Correction for Reset Interval
14.6.1 Product PP1RESETI: parameters for conversion to 1/4s reset interval for P1
14.6.2 Product PP2RESETI: parameters for conversion to 1/4s reset interval for P2
14.6.3 Product PP3RESETI: parameters for conversion to 1/4s reset interval for P3
14.6.4 Product PC1RESETI: parameters for conversion to 1/4s reset interval for C100
14.6.5 Product PC2RESETI: parameters for conversion to 1/4s reset interval for C200
14.7 Detector Dark Signals
14.7.1 Product PSDARK: PHT-S dark signals
14.7.2 Product PPDARK: dark signals for detectors P1, P2, and P3
14.7.3 Product PC1DARK: dark signals for detector C100
14.7.4 Product PC2DARK: dark signals for detector C200
14.8 Correction for Signal Non-Linearity
14.8.1 Product PP1SLINR: signal linearisation for PHT-P1
14.8.2 Product PP2SLINR: signal PHT-P2 linearisation
14.8.3 Product PP3SLINR: signal linearisation for PHT-P3
14.8.4 Product PC1SLINR: signal linearisation for PHT-C100
14.8.5 Product PC2SLINR: signal linearisation for PHT-C200
14.9 PHT-S Dynamic Calibration for Staring Observations
14.9.1 Product PSDYNAMIC: PHT-S dynamic calibration - flux correction
14.9.2 Product PSDYNWT: PHT-S dynamic calibration - weighting function
14.10 Correction for Signal Losses in Chopped Mode
14.10.1 Product PP1CHOPSIG: PHT-P1 chopped signal correction
14.10.2 Product PP2CHOPSIG: PHT-P2 chopped signal correction
14.10.3 Product PP3CHOPSIG: PHT-P3 chopped signal correction
14.10.4 Product PC1CHOPSIG: PHT-C100 chopped signal correction
14.10.5 Product PC2CHOPSIG: PHT-C200 chopped signal correction
14.11 Vignetting Corrections
14.11.1 Product PP1VIGN: vignetting corrections for P1
14.11.2 Product PP2VIGN: vignetting corrections for P2
14.11.3 Product PP3VIGN: vignetting corrections for P3
14.11.4 Product PC1VIGN: vignetting corrections for C100
14.11.5 Product PC2VIGN: vignetting corrections for C200
14.12 FCS Power Calibration
14.12.1 Product PP1FCSPOW: PHT-P1 FCS power calibration table
14.12.2 Product PP2FCSPOW: PHT-P2 FCS power calibration table
14.12.3 Product PP3FCSPOW_01/02: PHT-P3 FCS power calibration table
14.12.4 Product PC1FCSPOW_01/02: PHT-C100 FCS power calibration table
14.12.5 Product PC2FCSPOW_01/02: PHT-C200 FCS power calibration table
14.13 PHT-P and PHT-C Default Responsivities
14.13.1 Product PPRESP_01/02: PHT default responsivities for P1, P2 and P3 detectors
14.13.2 Product PC1RESP_01/02: PHT default responsivities for the C100 detector
14.13.3 Product PC2RESP_01/02: PHT default responsivities for the C200 detector
14.14 Array Illumination by FCS
14.14.1 Product PC1ILLUM_01/02: FCS illumination correction for C100
14.14.2 Product PC2ILLUM_01/02: FCS illumination correction for C200
14.15 Inhomogeneous FCS illumination of PHT-P
14.15.1 Product PP1FCSAP: FCS aperture correction tables for P1
14.15.2 Product PP2FCSAP: FCS aperture correction tables for P2
14.15.3 Product PP3FCSAP: FCS aperture correction tables for P3
14.16 PHT-P Filter-to-Filter Corrections
14.16.1 Product PPFTOF: PHT-P filter-to-filter correction
14.17 Wavelength Dependent Detector Flat-Fields
14.17.1 Product PC1FLAT: PHT C100 filter-to-filter flat-field correction
14.17.2 Product PC2FLAT: PHT C200 filter-to-filter flat-field correction
14.18 Point Spread Function Corrections
14.18.1 Product PPPSF: PHT-P point spread function corrections
14.18.2 Product PCPSF: PHT-C point spread function corrections
14.19 PHT-S Wavelength and Signal Calibration
14.19.1 Product PSPECAL: PHT-S wavelength and signal calibration
14.20 Conversion from Power on Detector to Flux Density
14.20.1 Product PFLUXCONV: PHT-P/C power calibration
14.20.2 Product PFLUXCONV: PHT-P/C reference wavelengths
14.21 Effective Solid Angles of Apertures and Pixels
14.21.1 Product PPOMEGA: aperture dimensions and solid angles for P1, P2, and P3
14.21.2 Product PC1OMEGA: dimensions and solid angles for C100 pixels
14.21.3 Product PC2OMEGA: dimensions and solid angles for C200 pixels
14.22 Colour Corrections
14.22.1 Product PCCBB: black body colour correction
14.22.2 Product PCCMBBONE: modified black body colour correction
14.22.3 Product PCCMBBTWO: modified black body colour correction
14.22.4 Product PCCPOWER: Power-law colour correction
14.23 Footprint Matrices for PHT-P and C
14.23.1 Product PP2FOOTP: PHT-P2 footprint matrices
14.23.2 Product PP3FOOTP: PHT-P3 footprint matrices
14.23.3 Product PC1FOOTP: PHT-C100 footprint matrices
14.23.4 Product PC2FOOTP: PHT-C200 footprint matrices
14.24 Relative System Responses
14.24.1 Product PPFILTRAN: PHT-P relative system response
14.24.2 Product PCFILTRAN: PHT-C relative system response
A. Instrument Tables
A.1 Mean Filter/Aperture Specifications
A.1.1 PHT-P filters
A.1.2 PHT-P apertures
A.1.3 PHT-C filters
A.1.4 Other filterwheel components
A.2 Filter Transmission Data
B. Conversion Algorithms for ERD
B.1 Temperature Sensors
B.2 Selected FCS Power
B.3 Focal Plane Chopper Deflection
B.4 Description of the Pixel Status Flag PIXF in ERD Products
C. Colour Corrections
C.1 Application of Tabulated Colour Correction Factors
C.2 Computation of Colour Correction Factors
C.2.1 Derivation of flux density values from in-band power values
C.2.2 Flux density conversion factors for different spectral energy distributions
C.2.3 Derivation of colour correction factors from flux density conversion factors
C.3 Colour Correction Values
D. Magnitude System in ISOPHOT
E. List of Acronyms
F. List of Symbols
F.1 Roman Symbols
F.2 Greek Symbols
G. Glossary
Bibliography
Index
ISO Handbook Volume IV (PHT), Version 2.0.1, SAI/1999-069/Dc
