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INTSCWPUB - INTEGRAL Public Pointed Science Window Data |
HEASARC Archive |
Overview
Because of the pointing-slew-pointing dithering-nature of INTEGRAL operations, each observation of a celestial target is actually comprised of numerous individual S/C pointings and slews. In addition, there are periods within a given sequence where scheduled observations occur, i.e., engineering windows, yet the instruments still acquire data. The INTEGRAL Science Data Center (ISDC) generalizes all of these data acquisition periods into so-called `Science Windows.'A Science Window (ScW) is a continuous time interval during which all data acquired by the INTEGRAL instruments result from a specific S/C attitude orientation state. Pointing (fixed orientation), Slew (changing orientation), and Engineering (undefined orientation) windows are all special cases of a Science Window. The key is that the same attitude information may be associated with all acquired data of a given Science Window. Note that it is possible to divide a time interval that qualifies as a Science Window under this definition into several smaller Science Windows using arbitrary criteria.
The INTEGRAL Public Pointed Science Window Data Catalog is a subset of the INTEGRAL Science Window Data Catalog. It only includes pointed science windows that have non-private proprietary status and at least one instrument's "good" exposure time greater than zero.
References
This HEASARC database table is a slightly modified mirror of the database table maintained by the ISDC at the URL http://isdc.unige.ch/index.cgi?Data+browseFurther information and analysis results can be found linked from the INTEGRAL GOF page at the URL http://heasarc.gsfc.nasa.gov/docs/integral/integralgof.html
Provenance
This database table was first created at the HEASARC in October 2004. It is a slightly modified mirror of the online database maintained by the ISDC at the URL http://isdc.unige.ch/index.cgi?Data+browseThe HEASARC version of this table is updated automatically within a day of the ISDC updating their database table.
Data Products
The following data products are available (for data sets which have public proprietary status):
Science Window Data: This consists of the entire science window directory
tree.
Revolution Data: This consists of the data corresponding to the revolution
during which the science window occurred.
Auxiliary Revolution Data: Additional revolution data specific the
revolution during which the science window occurred.
Auxiliary Reference Data: This reference data is the same for all
observations. It is not necessary to download this each time.
Due to the extremely large size of INTEGRAL data sets, the HEASARC strongly
recommends using the Browse Retrieval Script feature to download INTEGRAL
data sets.
HEASARC Implementation
The HEASARC implementation of this database table differs slightly from the ISDC science windows catalog. The primary difference is that the INTEGRAL Public Pointed Science Window Data Catalog only includes pointed science windows that have non-private proprietary status and at least one instrument's "good" exposure time greater than zero. The INTEGRAL Science Window Data Catalog includes all entries from the ISDC version.Note that some of the parameter names were changed to make them more readable, easier to understand, and fit in better with HEASARC parameter naming conventions. The parameter name changes are as follows:
ISDC Parameter Name HEASARC Parameter Name
ra_x ra
dec_x dec
ing_dt ingest_date
crea_dt creation_date
jmx1mode jemx1_mode
jmx2mode jemx2_mode
spimode spi_mode
ibismode ibis_mode
omcmode omc_mode
dsize data_size
ps status
The HEASARC also added LII and BII parameters to the table. These parameters
are the result of converting the ISDC ra_x and dec_x parameters to Galactic
coordinates.
Parameters
PI_Name
The name(s) of the Principal Investigator(s).
Obs_Type
The type of observation: 'GPS', 'GCDE', 'Core', 'General', 'Special',
'Calibration', 'TOO', 'Engineering', 'ISWT survey', or 'not specified'.
ScW_Type
The type of science window: 'pointing', 'slew', or 'engineering'. Normally,
this should be set to 'pointing'.
Obs_ID
The observation identifier (AATPPPPOOOO) as defined by the INTEGRAL Science
Operations Center (ISOC), if any. Typically, each targeted observation under
a given proposal has a unique Obs_ID. Core Program GPS scans or GCDE
sequences may also have unique Obs_IDs.
This ID always consists of 11 digits of the following form:
AATPPPPOOOO
in which
* AA is set to the current AO number for GP and CP proposals
(proposal types 1, 2, and 9 -- see below).
AA is set to 88 for all proposals (CAL, TOO, ENG - proposal
types 6, 7, and 8) outside of AO cycle (outside TAC & CP) as they
are not related to a particular AO number. AA in the range [00..99].
* T is the proposal type in the range [1-9]:
0 = not specified (or multiple types)
1 = Core program pointed observation to be distributed to proposer
2 = General program pointed observation to be distributed to proposer
3 = reserved for "special distribution" purposes
4 = reserved for "special distribution" purposes
5 = reserved for "special distribution" purposes
6 = Calibration
7 = TOO outside the TAC process
8 = Engineering
9 = ISWT survey proposal
* PPPP is unique for a given AA in the range [0001..9999].
* OOOO is unique for a given AATPPPP in the range [0001..9999].
For GPS scans:
- PPPP will be in the range [9800..9899]
- OOOO = WW0C where WW is the week number (one scan per week) and
C is set to [1,2,3]. Three observations are entered per
GPS scans for scheduling purposes.
For GCDE Scans:
- PPPP will be in the range [9900..9999]. It is set to
99CG where C is the cycle number (2 cycles are foreseen per
year) and G is the pattern number (the CGDE is constituted of 4
patterns repeated twice a year).
- OOOO ranges from [1..M] where M is the column number within the
pattern.
For core observations:
- PPPP = 9700
- T is set to the type of the amalgamated observations if all types
are identical, 0 otherwise.
- AA is set to the common AO number of all observations being
amalgamated
ScW_ID
The name of any Science Window is the Science Window IDentifier (ScW_ID).
This ID always consists of 12 digits of the following form:
RRRRPPPPSSSF
in which
* RRRR is the revolution number of the S/C as defined from perigee passage,
* PPPP is the pointing number within the revolution and is always reset
to "0000" when the revolution number increments,
* SSS is the subdivision number for a Science Window with a given RRRR
and PPPP value. The minimum value of SSS allowed is "001" and always
resets with a change of value of PPPP, and
* F is the type identifier of the Science Window with allowed values of
(0) for "Pointing", (1) for "Slew", and (2) for "Engineering".
ScW_Ver
The Science Window Version, usually '001'.
RA
The Right Ascension of the spacecraft's x-axis. Note that the spacecraft's
coordinate system is defined in such a way that the x-axis (rather than z) is
the instrument pointing direction.
Dec
The Declination of the spacecraft's x-axis. Note that the spacecraft's
coordinate system is defined in such a way that the x-axis (rather than z) is
the instrument pointing direction.
LII
The Galactic Longitude of the spacecraft's x-axis. Note that the spacecraft's
coordinate system is defined in such a way that the x-axis (rather than z) is
the instrument pointing direction.
BII
The Galactic Latitude of the spacecraft x-axis. Note that the spacecraft's
coordinate system is defined in such a way that the x-axis (rather than z) is
the instrument pointing direction.
RA_Z
The Right Ascension of the spacecraft's z-axis. Note that the spacecraft's
coordinate system is defined in such a way that the x-axis (rather than z) is
the instrument pointing direction.
Dec_Z
The Declination of the spacecraft's z-axis. Note that the spacecraft's
coordinate system is defined in such a way that the x-axis (rather than z) is
the instrument pointing direction.
PosAngle
The position angle of the spacecraft, in degrees.
IJD_Start
The start date of the science window, in ISDC Julian Date (IJD) format. Note:
Julian Date - ISDC Julian Date = 2,451,544.5, or, equivalently, IJD = MJD -
51544. Note that the IJD system adopted by the INTEGRAL Project is on the
Terrestrial Time (TT) system.
IJD_End
The end date of the science window, in ISDC Julian Date (IJD) format. Note:
Julian Date - ISDC Julian Date = 2,451,544.5, or, equivalently, IJD = MJD -
51544. Note that the IJD system adopted by the INTEGRAL Project is on the
Terrestrial Time (TT) system.
Start_Date
The date and time of the start of the science window in UTC.
End_Date
The date and time of the end of the science window in UTC.
OBT_Start
The on-board start time of the science window, in spacecraft (OBT) time
units.
OBT_End
The on-board end time of the science window, in spacecraft (OBT) time units.
SPI_Mode
The SPI mode code [11..99]. For most purposes, this can be ignored; the
following codes are possible:
Value Meaning
11 SPI OFF (Launch)
12 SPI Inactive
21 SPI STDBY
22 SPI Eclipse
31 SPI Configuration
41 SPI Operational Normal
42 SPI Emergency
51 SPI Diagnostic
61 SPI PSD Calibration
71 SPI Cooling
72 SPI Heat Pipes Thaw
73 SPI Annealing
74 SPI Outgassing
96 SPI Unknown Mode
98 SPI Mode change within science window
99 SPI Undefined
IBIS_Mode
The IBIS mode code [11..99]. For most purposes, this can be ignored; the
following codes are possible:
Value Meaning
11 IBIS OFF
21 IBIS Initialization (power safe)
22 IBIS STDBY
41 IBIS Observation standard
42 IBIS Observation polarimetry
43 IBIS Observation photon by photon
51 IBIS Diagnostic
52 IBIS Patch & Dump
96 IBIS Unknown Mode
98 IBIS Mode change within science window
99 IBIS Undefined
JEMX1_Mode
The JEMX detector 1 mode code [11..99]. For most purposes, this can be
ignored; the following codes are possible:
Value Meaning
11 JEMX OFF
21 JEMX STDBY CSSW
22 JEMX STDBY IASW
23 JEMX Safe
31 JEMX Setup
32 JEMX Setup HV ready
41 JEMX Data taking (full imaging)
42 JEMX Data taking (spectral-timing)
43 JEMX Data taking (restricted imaging)
44 JEMX Data taking (timing)
45 JEMX Data taking (spectrum)
51 JEMX Diagnostic
52 JEMX Patch & Dump
61 JEMX Calibration
96 JEMX Unknown Mode
98 JEMX Mode change within science window
99 JEMX Undefined
JEMX2_Mode
The JEMX detector 2 mode code [11..99]. For most purposes, this can be
ignored; the following codes are possible:
Value Meaning
11 JEMX OFF
21 JEMX STDBY CSSW
22 JEMX STDBY IASW
23 JEMX Safe
31 JEMX Setup
32 JEMX Setup HV ready
41 JEMX Data taking (full imaging)
42 JEMX Data taking (spectral-timing)
43 JEMX Data taking (restricted imaging)
44 JEMX Data taking (timing)
45 JEMX Data taking (spectrum)
51 JEMX Diagnostic
52 JEMX Patch & Dump
61 JEMX Calibration
96 JEMX Unknown Mode
98 JEMX Mode change within science window
99 JEMX Undefined
OMC_Mode
The OMC mode code [11..99]. For most purposes, this can be ignored; the
following codes are possible:
Value Meaning
11 OMC OFF
21 OMC STDBY
22 OMC Safe
41 OMC Science Fast Monitor
42 OMC Science Normal
43 OMC Science Trigger
51 OMC Testing Standard
61 OMC DC Calibration (Dark Current)
62 OMC FF Calibration (Flat Field)
71 OMC Baking
96 OMC Unknown Mode
98 OMC Mode change within science window
99 OMC Undefined
Good_SPI
The "good" SPI exposure time, in seconds. Note that slew data typically have
good exposures of less than 120 seconds, so that selecting values of this
parameter > 120 s is is a good way to exclude slew data.
Good_PICSIT
The "good" PICSIT exposure time, in seconds. Note that slew data typically
have good exposures of less than 120 seconds, so that selecting values of
this parameter > 120 s is a good way to exclude slew data.
Good_ISGRI
The "good" ISGRI exposure time, in seconds. Note that slew data typically
have good exposures of less than 120 seconds, so that selecting values of
this parameter > 120 s is a good way to exclude slew data.
Good_JEMX1
The "good" JEMX1 exposure time, in seconds. Note that slew data typically
have good exposures of less than 120 seconds, so that selecting values of
this parameter > 120 s is a good way to exclude slew data.
Good_JEMX2
The "good" JEMX2 exposure time, in seconds. Note that slew data typically
have good exposures of less than 120 seconds, so that selecting values of
this parameter > 120 s is a good way to exclude slew data.
Good_OMC
The "good" OMC exposure time, in seconds. Note that slew data typically have
good exposures of less than 120 seconds, so that selecting values of this
parameter > 120 s is a good way to exclude slew data.
Status
The proprietary status of the science window: 'private' or 'public'. All
INTEGRAL data products are expected to enter the public domain approximately
one year after they are processed.
Data_Size
The total size of all data stored in the science window directory tree for
the specified dataset, in bytes.
Creation_Date
The creation (processing) date and time of the science window.
Ingest_Date
The ingest date of the science window, i.e, the date when the processed data
were ingested into the ISDC Archive. In general, data will become public one
year after their ingest date.
Exp_ID
The Exposure IDentifier parameter uniquely identifies the exposure.
Data_In_HEASARC
This flag is set to 'Y' or 'N' to indicate whether or not the science window
is available in the HEASARC Archive. Some INTEGRAL observations for which the
archived data has become publicly available (as indicated by the Status
parameter) may not be currently available at the HEASARC.
Contact Person
Questions regarding the INTSCWPUB database table can be addressed to the HEASARC Help Desk.Page Author: Browse Software Development Team
Last Modified: Monday, 16-Sep-2024 17:29:20 EDT
- HEASARC Director: Vacant
- NASA Official: Ryan Smallcomb
- Web Curator: J.D. Myers
- Last Modified: 16-Sep-2024