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Searchable Data with the DARTS/Astro Query System
Schema of Tables about HITOMI
Satelite/Project | Abstract of the data product | Database table name | Number of entries in the database | Searhcable with Basic Search | Searchable with SQL/ADQL Search |
---|---|---|---|---|---|
HITOMI | Observation log of the HITOMI observations. Based on the HITOMASTER table created by NASA / GSFC, additional information supplemented. | hitomi_master_data | 42 | Yes | Yes |
HITOMI | Description of the observations by the Soft X-ray Spectrometer (SXS) onboard HITOMI, including the detector placements. | hitomi_sxs_data | 42 | Yes | Yes |
HITOMI | Description of the observations by the Soft X-ray Imager (SXI) onboard HITOMI, including the detector placements. | hitomi_sxi_data | 28 | Yes | Yes |
HITOMI | Description of the observations by the Hard X-ray Imager (HXI) onboard HITOMI, including the detector placements. | hitomi_hxi_data | 40 | Yes | Yes |
hitomi_master_data
Observation log of the HITOMI observations. Based on the HITOMASTER table created by NASA / GSFC, additional information supplemented.
No. | Column Name | Type | Unit | Description | NASA's HITOMASTER Column Name | NASA's HITOMASTER Type | NASA's HITOMASTER Unit | |
---|---|---|---|---|---|---|---|---|
1 | observation_id | character varying(11) | The unique number to identify an observation/sequence. This is a 9-digit number. |
OBSID | char11 | |||
2 | object_name | character varying(50) | Designation of the Pointed Source Observations that look at black sky have names related to the type of operations that occurred during that period. |
NAME | char50 | |||
3 | center_ra | double precision | degree | Nominal satellite pointing direction, Right Ascension J2000. Note that the pointing position can be different from the target position. |
RA | float8:.5f | degree | |
4 | center_dec | double precision | degree | Nominal satellite pointing direction, Declination J2000. Note that the pointing position can be different from the target position. |
DEC | float8:.5f | degree | |
5 | center_ra_b1950 | double precision | degree | Nominal satellite pointing direction, Right Ascension B1950. Calculated from (center_ra, center_dec). Note that the pointing position can be different from the target position. |
float8:.5f | degree | ||
6 | center_dec_b1950 | double precision | degree | Nominal satellite pointing direction, Declination B1950. Calculated from (center_ra, center_dec). Note that the pointing position can be different from the target position. |
float8:.5f | degree | ||
7 | center_ecliptic_lon | double precision | degree | Nominal satellite pointing direction, Ecliptic Longitude. Calculated from (center_ra, center_dec). Note that the pointing position can be different from the target position. |
float8:.5f | degree | ||
8 | center_ecliptic_lat | double precision | degree | Nominal satellite pointing direction, Ecliptic Latitude. Calculated from (center_ra, center_dec). Note that the pointing position can be different from the target position. |
float8:.5f | degree | ||
9 | center_galactic_lon | double precision | degree | Nominal satellite pointing direction, Galactic Longitude. Note that the pointing position can be different from the target position. |
LII | float8:.5f | degree | |
10 | center_galactic_lat | double precision | degree | Nominal satellite pointing direction, Galactic Latitude. Note that the pointing position can be different from the target position. |
BII | float8:.5f | degree | |
11 | roll_angle | double precision | degree | Roll angle of the observation given in degrees. | ROLL_ANGLE | float8:.5f | degree | |
12 | observation_start_time_mjd | numeric | MJD |
Start Time of the Observation in MJD If the sequence contains the incoming slew, the start time corresponds to the start of the incoming slew. |
TIME | float8:.9f | MJD | |
13 | observation_start_time | timestamp without time zone | UTC |
Start Time of the Observation in UTC. If the sequence contains the incoming slew, the start time corresponds to the start of the incoming slew. This is calculated from observation_start_time_mjd. |
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14 | observation_end_time_mjd | numeric | MJD | Start Time of the Observation in MJD. | STOP_TIME | float8:.9f | MJD | |
15 | observation_end_time | timestamp without time zone | UTC |
Stop Time of the Observation in MJD. This is calculated from observation_end_time_mjd. |
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16 | exposure_sec | double precision | sec | Effective total observation exposure, in seconds. This time is calculated using the cleaned event file from the SXS instrument. | EXPOSURE | float8:.5f | sec | |
17 | exposure | double precision | ksec | Effective total observation exposure, in ksec. This is calculated from exposure_sec. | ||||
18 | sxi_1st_mode_exposure_sec | double precision | sec | Effective exposure, in seconds on source for the SXI when operating in WINDOW1(normal full window) mode. This is calculated from GTI of the SXI cleaned events of the WINDOW1 mode. |
SXI_EXPO | float8:.5f | sec | |
19 | sxi_1st_mode_exposure | double precision | ksec | Effective exposure, in ksec on source for the SXI when operating in WINDOW1(normal full window) mode. This is calculated from sxi_1st_mode_exposure_sec. |
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20 | sxi_2nd_mode_exposure_sec | double precision | sec | Effective exposure, in seconds on source for the SXI when operating in WINDOW1BURST2( full window 0.1sec burst) mode. This is calculated from GTI of the SXI cleaned events of the WINDOWBURST2 mode. |
SXI_EXPO2 | float8:.5f | sec | |
21 | sxi_2nd_mode_exposure | double precision | ksec | Effective exposure, in seconds on source for the SXI when operating in WINDOW1BURST2( full window 0.1sec burst) mode. This is calculated from sxi_2nd_mode_exposure_sec. |
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22 | hxi1_exposure_sec | double precision | sec | HXI1 effective exposure, in seconds on source. This is calculated from GTI of the HXI1 cleaned events. |
HXI1_EXPO | float8:.5f | sec | |
23 | hxi1_exposure | double precision | ksec | HXI1 effective exposure, in ksec on source. This is calculated from hxi1_exposure_sec. |
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24 | hxi2_exposure_sec | double precision | sec | HXI2 effective exposure, in seconds on source. This is calculated from GTI of the HXI2 cleaned events. |
HXI2_EXPO | float8:.5f | sec | |
25 | hxi2_exposure | double precision | ksec | HXI2 effective exposure, in ksec on source. This is calculated from hxi2_exposure_sec. |
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26 | sgd1_exposure_sec | double precision | sec | SGD1 Effective exposure, in seconds on source. The exposure reported is the sum of the individual Compton Camera (CC) exposure from the GTI of the event files divided by the number of CCs actually operating. |
SGD1_EXPO | float8:.5f | sec | |
27 | sgd1_exposure | double precision | ksec | SGD1 Effective exposure, in ksec on source. This is calculated from sgd1_exposure_sec. |
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28 | sgd2_exposure_sec | double precision | sec | SGD2 Effective exposure, in seconds on source. The exposure reported is the sum of the individual Compton Camera (CC) exposure from the GTI of the event files divided by the number of CCs actually operating. |
SGD2_EXPO | float8:.5f | sec | |
29 | sgd2_exposure | double precision | ksec | SGD2 Effective exposure, in ksec on source. This is calculated from sgd2_exposure_sec. |
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30 | is_sxs_on | character varying(1) | SXS is operating or not : [Y(=on), N(=off) or W(=in waiting mode)] | SXSIFONFOV | char1 | |||
31 | is_sxs_fovin | character varying(1) | Target is in SXS FOV or not Y = in the FOV; N = not in the FOV; P = partially in the FOV; I = irrelevant gien to background observation; D = valid only for the SXI if the source is in the FOV of the SXI but not at the aim point and therefore not seen by the other instruments. |
char1 | ||||
32 | is_sxi_on | character varying(1) | SXI is operating or not : [Y(=on), N(=off) or W(=in waiting mode)] | SXIIFONFOV | char1 | |||
33 | is_sxi_fovin | character varying(1) | Target is in SXI FOV or not Y = in the FOV; N = not in the FOV; P = partially in the FOV; I = irrelevant gien to background observation; D = valid only for the SXI if the source is in the FOV of the SXI but not at the aim point and therefore not seen by the other instruments |
char1 | ||||
34 | is_hxi1_on | character varying(1) | HXI1 is operationg or not:Y = on; N = off; W = in waiting mode. | HXI1IFONFOV | char1 | |||
35 | is_hxi1_fovin | character varying(1) | Target is in HXI1 FOV or not Y = in the FOV; N = not in the FOV; P = partially in the FOV; I = irrelevant gien to background observation; D = valid only for the SXI if the source is in the FOV of the SXI but not at the aim point and therefore not seen by the other instruments |
char1 | ||||
36 | is_hxi2_on | character varying(1) | HXI2 is operating or not:Y = on; N = off; W = in waiting mode. | HXI2IFONFOV | char1 | |||
37 | is_hxi2_fovin | character varying(1) | Target is in HXI2 FOV or not Y = in the FOV; N = not in the FOV; P = partially in the FOV; I = irrelevant gien to background observation; D = valid only for the SXI if the source is in the FOV of the SXI but not at the aim point and therefore not seen by the other instruments |
char1 | ||||
38 | is_sgd1_on | character varying(1) | SGD1 is operating or not:Y = on; N = off; W = in waiting mode. | SGD1IFONFOV | char1 | |||
39 | is_sgd1_fovin | character varying(1) | Target is in SGD1 FOV or not Y = in the FOV; N = not in the FOV; P = partially in the FOV; I = irrelevant gien to background observation; D = valid only for the SXI if the source is in the FOV of the SXI but not at the aim point and therefore not seen by the other instruments |
char1 | ||||
40 | is_sgd2_on | character varying(1) | SGD2 is operating or not:Y = on; N = off; W = in waiting mode. | SGD2IFONFOV | char1 | |||
41 | is_sgd2_fovin | character varying(1) | Target is in SGD2 FOV or not Y = in the FOV; N = not in the FOV; P = partially in the FOV; I = irrelevant gien to background observation; D = valid only for the SXI if the source is in the FOV of the SXI but not at the aim point and therefore not seen by the other instruments |
char1 | ||||
42 | sxs_data_mode | character varying(10) | The name of the SXS datamode for this observation. | SXS_DATAMODE | char10 | |||
43 | is_sxs_adr_cycle | character varying(1) | Flag [YN] indicates ADR cycle occurs during the observation | SXS_ADR | char1 | |||
44 | is_sxs_filter_fe55 | character varying(1) | Flag [YN] indicates SXS observation was collected with Fe55 filter on. | SXS_FIL_FE55 | char1 | |||
45 | is_sxs_filter_open | character varying(1) | Flag [YN] indicates SXS observation was collecter with Open filter on. | SXS_FIL_OPEN | char1 | |||
46 | sxs_threshould_setting_code | character varying(5) | SXS threshold setting code | SXS_THR | char5 | |||
47 | sxi_1st_data_mode | character varying(15) | Name of the SXI 1st datamode for this observation. | SXI_DATAMODE1 | char15 | |||
48 | sxi_1st_dataclass_threshold | character varying(64) | The dataclass and event threshold values encoded as AAAAAAAA-BBBB a BBBB [h] for SXI 1st datamode. The meaning of the 1st 8 digit value is the following: 1st digit always set to 1; 2nd indicates the CCD in use, if 0 all CCDs are in use, if 1 only CCD 1 and 2 are in use, if 2 only CCD 2 and 3 are in use; 3rd digit indicates the datamode, if 0=window1 (full mode), if 1=window2 (1/8 window), if 2=window1burst (full window + burst), 3=window2burst (1/8 window + burst); 4-7 digits indicate the dataclass; the last 8th digit indicates if the area discriminator is off/on for the +/- Z, if 0 is off, if 1 is on. The second value (BBBB) is just the event threshold and corresponds to the first PHA in use. If the aim point has a different threshold compared to the other CCD segments this is indicated by "a BBBB". Finally, the "h", if present, indicates that only half of the CCDs are on. |
SXI_DCLASS1_THR | char64 | |||
49 | sxi_2nd_data_mode | character varying(15) | Name of the SXI 2nd datamode for this observation. | SXI_DATAMODE2 | char15 | |||
50 | sxi_2nd_dataclass_threshold | character varying(72) | The dataclass and event threshold values encoded as AAAAAAAA-BBBB a BBBB [h] for SXI 2nd datamode. The meaning of the 1st 8 digit value is the following: 1st digit always set to 1; 2nd indicates the CCD in use, if 0 all CCDs are in use, if 1 only CCD 1 and 2 are in use, if 2 only CCD 2 and 3 are in use; 3rd digit indicates the datamode, if 0=window1 (full mode), if 1=window2 (1/8 window), if 2=window1burst (full window + burst), 3=window2burst (1/8 window + burst); 4-7 digits indicate the dataclass; the last 8th digit indicates if the area discriminator is off/on for the +/- Z, if 0 is off, if 1 is on. The second value (BBBB) is just the event threshold and corresponds to the first PHA in use. If the aim point has a different threshold compared to the other CCD segments this is indicated by "a BBBB". Finally, the "h", if present, indicates that only half of the CCDs are on. |
SXI_DCLASS2_THR | char72 | |||
51 | hxi1_data_mode | character varying(15) | Name of the HXI1 datamode for this observation. | HXI1_DATAMODE | char15 | |||
52 | hxi2_datamode | character varying(15) | Name of the HXI2 datamode for this observation. | HXI2_DATAMODE | char15 | |||
53 | sgd1_data_mode | character varying(15) | Name of the SGD1 datamode for this observation. | SGD1_DATAMODE | char10 | |||
54 | sgd2_data_mode | character varying(15) | Name of the SGD2 datamode for this observation. | SGD2_DATAMODE | char10 | |||
55 | sgd1_cc1_exposure_sec | double precision | sec | Effective exposure time (s) of the Compton Camera 1 in SGD1 | SGD1_EXP_CC1 | float8:.5f | sec | |
56 | sgd1_cc1_exposure | double precision | ksec | Effective exposure time (ksec) of the Compton Camera 1 in SGD1 | ||||
57 | sgd1_cc2_exposure_sec | double precision | ks | Effective exposure time (s) of the Compton Camera 2 in SGD1 | SGD1_EXP_CC2 | float8:.5f | sec | |
58 | sgd1_cc2_exposure | double precision | ksec | Effective exposure time (ksec) of the Compton Camera 2 in SGD1 | ||||
59 | sgd1_cc3_exposure_sec | double precision | sec | Effective exposure time (s) of the Compton Camera 3 in SGD1 | SGD1_EXP_CC3 | float8:.5f | sec | |
60 | sgd1_cc3_exposure | double precision | ksec | Effective exposure time (ksec) of the Compton Camera 3 in SGD1 | ||||
61 | sgd2_cc1_exposure_sec | double precision | sec | Effective exposure time (s) of the Compton Camera 1 in SGD2 | SGD2_EXP_CC1 | float8:.5f | sec | |
62 | sgd2_cc1_exposure | double precision | ksec | Effective exposure time (ksec) of the Compton Camera 1 in SGD2 | ||||
63 | sgd2_cc2_exposure_sec | double precision | sec | Effective exposure time (s) of the Compton Camera 2 in SGD2 | SGD2_EXP_CC2 | float8:.5f | sec | |
64 | sgd2_cc2_exposure | double precision | ksec | Effective exposure time (ksec) of the Compton Camera 2 in SGD2 | ||||
65 | sgd2_cc3_exposure_sec | double precision | sec | Effective exposure time (s) of the Compton Camera 3 in SGD2 | SGD2_EXP_CC3 | float8:.5f | sec | |
66 | sgd2_cc3_exposure | double precision | ksec | Effective exposure time (ksec) of the Compton Camera 3 in SGD2 | ||||
67 | hxi_code | character varying(5) | Five-digit number, ABCDE, to identify the type of data present for the HXI. The values for A indicate if the HXI science data are present: A=1 for only HXI1 data, A=2 for only the HXI2 data, A=3 for both HXI1 and HXI2. The values for B indicate if the CAMS data are present: B=1 only CAMS1 data, B=2 for only the CAMS2 data, B=3 for both CAMS1 and CAMS2 and B=4 if the CAMS data are simulated. The values for C indicate if the HXI housekeeping data are present: C=1 for only HXI1 data, C=2 for only the HXI2 data, C=3 for both HXI1 and HXI2. D and E are not used and set to 0. |
HXICODE | char5 | |||
68 | sgd_code | character varying(5) | Five-digit number, ABCDE, to identify the type of data present for the SGD. The values for A indicate if the SGD1 science data are present: A=1 only CC1 data, A=2 only the CC2 data, A=3 only CC3, A=4 ALL CC, A=5 only CC1 and CC2, A=6 only CC1 and CC3, A=7 only CC2 and CC3. The values for B indicate if the SGD2 science data are present: B=1 only CC1 data, B=2 only the CC2 data, B=3 only CC3, B=4 ALL CC, B=5 only CC1 and CC2, B=6 only CC1 and CC3, B=7 only CC2 and CC3. The values for C indicate if the SGD housekeeping data are present: C=1 for only SGD1 data, C=2 for only the SGD2 data, C=3 for both SGD1 and SGD2. D and E are not used and set to 0. |
SGDCODE | char5 | |||
69 | sxi_code | character varying(5) | Five-digit number, ABCDE, to identify the type of data present for the SXI. The value A=1 indicates if the SXI science data are present. The value B=1 indicates if the SXI exposure is present. The value C=1 indicates if SXI HK is present. D=1 if the hot pixel table is present. E is not used and set to 0. |
SXICODE | char5 | |||
70 | sxs_code | character varying(5) | Five-digit number, ABCDE, to identify the type of data present for the SXS. The values for A indicate if the SXS science data are present: A=1 only SXS pixel data, A=2 only the SXS antico data, A=3 both are present. The value B=1 indicates if the SXS lost GTIs are present. The values for C indicate if the SXS housekeeping data are present: C=1 means only SXS HK1 data, C=2 means only the SXS HK2 data, and C=3 means both HK1 and HK2 are present. The value for D indicates if other diagnostic data associated with the pixel array: D=1 for noise data, D=2 for pulse data, D=3 for wfrb, D=4 all, D=5 for noise and wfrb, D=6 for noise and pulse, and D= 7 for wfrb and pulse. The value for E indicates if other diagnostic data associated with the antico array: E=1 for noise data, E=2 for wfrb, E=3 for both. |
SXSCODE | char5 | |||
71 | gen_code | character varying(5) | Five-digit number, ABCDE, to identify the general auxiliary type of data present in the observation. The value A=1 indicates if the attitude data are present. The value B=1 indicates if the orbit data are present. The value of C is for the HK: C=1 for the HK1, C=2 for the HK2 and C=3 for both. The value D=1 indicates if the time file is present. E is not used and set to 0. |
GENCODE | char5 | |||
72 | processing_date_mjd | numeric | MJD | Date when the data were last processed, in MJD | PROCESSING_DATE | float8:.4f | MJD | |
73 | processing_date | timestamp without time zone | UTC | Date when the data were last processed, in UTC This is caluclated from processing_date_mjd. |
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74 | public_date_mjd | numeric | MJD | Date when the data became public in MJD | PUBLIC_DATE | int4 | MJD | |
75 | public_date | timestamp without time zone | UTC | Date when the data became public in UTC This is caluclated from public_date_mjd. |
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76 | distribution_date_mjd | numeric | MJD | Date when the data were first distributed to the SWG in MJD | DISTRIBUTION_DATE | float8:.4f | MJD | |
77 | distribution_date | timestamp without time zone | UTC | Date when the data were first distributed to the SWG in UTC This is caluclated from distribution_date_mjd. |
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78 | processing_version | character varying(15) | Version of processing script | PROCESSING_VERSION | char15 | |||
79 | caldb_version | character varying(60) | Version of CALDB Hitomi version for each of the instrument and used in the processing pipeline. The version is encoded as genYYYYMMDD_hxiYYYMMDD_sgdYYYMMDD_sxiYYYYMMDD_sxsYYYYMMDD. The date corresponds to the date to when the CALDB index was created. |
CALDB_VERSION | char60 | |||
80 | processing_software | character varying(45) | Version of the HEAsoft and Hitomi software used in the processing pipeline to generate the data products of the observation. | SOFTWARE_VERSION | char45 | |||
81 | proposal_abstract | character varying(102) | Full abstract (ex) SGD alignment and area | ABSTRACT | char102 | |||
82 | proposal_category | character varying(20) | Proposal category The following are the possible subject categories: non-pointing data; calibration; galactic point sources; galactic diffuse emission; extragalactic compact sources; extragalactic diffuse sources; Gamma-ray bursts and other non-proposed TOOs. |
SUBJECT_CATEGORY | char20 | |||
83 | proposal_category_code | smallint | Category code. 0=non-pointing data; 1=calibration; 4=galactic point sources; 5=galactic diffuse emission; 7=extragalactic compact sources; 8=extragalactic diffuse sources; 9=Gamma-ray bursts and other non-proposed TOOs. |
CATEGORY_CODE | int2 | |||
84 | pi_name | character varying(20) | Proposal Principal Investigator (PI) name | digest / full | PI_LNAME | char30 | ||
PI_FNAME | char30 | |||||||
85 | proposal_affiliated_country | character varying(5) |
The country or collaboration of the proposal's Principal Investigator (PI). This is a string with the following possible values: USA (PI from U.S.), JAP (PI from Japan), EUR (PI from Europe), JUS (merged proposal: PI from Japan, Co-PI from USA), USJ (merged proposal: PI from US, Co-PI from Japan). Set to SWG for to the early observation. |
COUNTRY | char5 | |||
86 | proposal_title | character varying(61) | The title of the proposal that originated the observation. | TITLE | char61 | |||
87 | data_access_url | character varying(255) | URL to the dataset |
hitomi_sxs_data
Description of the observations by the Soft X-ray Spectrometer (SXS) onboard HITOMI, including the detector placements.
No. | Column Name | Type | Unit | Description | NASA's HITOMASTER Column Name | NASA's HITOMASTER Type | NASA's HITOMASTER Unit | |
---|---|---|---|---|---|---|---|---|
1 | observation_id | character varying(11) | The unique number to identify an observation/sequence. This is a 9-digit number. |
OBSID | char11 | |||
2 | detector_name | character varying(5) | Detector name | |||||
3 | object_name | character varying(50) | Designation of the Pointed Source Observations that look at black sky have names related to the type of operations that occurred during that period. |
NAME | char50 | |||
4 | center_ra | double precision | degree | Nominal satellite pointing direction, Right Ascension J2000. Note that the pointing position can be different from the target position. |
RA | float8.5f | degree | |
5 | center_dec | double precision | degree | Nominal satellite pointing direction, Declination J2000. Note that the pointing position can be different from the target position. |
DEC | float8.5f | degree | |
6 | center_ra_b1950 | double precision | degree | Nominal satellite pointing direction, Right Ascension B1950. Calculated from (center_ra, center_dec). Note that the pointing position can be different from the target position. |
float8.5f | degree | ||
7 | center_dec_b1950 | double precision | degree | Nominal satellite pointing direction, Declination B1950. Calculated from (center_ra, center_dec). Note that the pointing position can be different from the target position. |
float8.5f | degree | ||
8 | center_ecliptic_lon | double precision | degree | Nominal satellite pointing direction, Ecliptic Longitude. Calculated from (center_ra, center_dec). Note that the pointing position can be different from the target position. |
float8.5f | degree | ||
9 | center_ecliptic_lat | double precision | degree | Nominal satellite pointing direction, Ecliptic Latitude. Calculated from (center_ra, center_dec). Note that the pointing position can be different from the target position. |
float8.5f | degree | ||
10 | center_galactic_lon | double precision | degree | Nominal satellite pointing direction, Galactic Longitude. Note that the pointing position can be different from the target position. |
LII | float8.5f | degree | |
11 | center_galactic_lat | double precision | degree | Nominal satellite pointing direction, Galactic Latitude. | BII | float8.5f | degree | |
12 | roll_angle | double precision | degree | Roll angle of the observation given in degrees. | ROLL_ANGLE | float8.5f | degree | |
13 | observation_start_time_mjd | numeric | MJD |
Start Time of the Observation in MJD If the sequence contains the incoming slew, the start time corresponds to the start of the incoming slew. |
TIME | float8.9f | MJD | |
14 | observation_start_time | timestamp without time zone | UTC |
Start Time of the Observation in UTC If the sequence contains the incoming slew, the start time corresponds to the start of the incoming slew. This is calculated from observation_start_time_mjd. |
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15 | observation_end_time_mjd | numeric | MJD | Stop Time of the Observation in MJD | STOP_TIME | float8.9f | MJD | |
16 | observation_end_time | timestamp without time zone | UTC | Stop Time of the Observation in MJD This is calculated from observation_stop_time_mjd. |
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17 | exposure_sec | double precision | sec | Effective total observation exposure, in seconds. This time is calculated using the cleaned event file from the SXS instrument. | EXPOSURE | float8:.5f | sec | |
18 | exposure | double precision | ksec | Effective total observation exposure, in ksec. This is calculated from exposure_sec. | ||||
19 | sxi_1st_mode_exposure_sec | double precision | sec | Effective exposure, in seconds on source for the SXI when operating in WINDOW1(normal full window) mode. This is calculated from GTI of the SXI cleaned events of the WINDOW1 mode. |
SXI_EXPO | float8:.5f | sec | |
20 | sxi_1st_mode_exposure | double precision | ksec | Effective exposure, in ksec on source for the SXI when operating in WINDOW1(normal full window) mode. This is calculated from sxi_1st_mode_exposure_sec. |
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21 | sxi_2nd_mode_exposure_sec | double precision | sec | Effective exposure, in seconds on source for the SXI when operating in WINDOW1BURST2( full window 0.1sec burst) mode. This is calculated from GTI of the SXI cleaned events of the WINDOWBURST2 mode. |
SXI_EXPO2 | float8:.5f | sec | |
22 | sxi_2nd_mode_exposure | double precision | ksec | Effective exposure, in seconds on source for the SXI when operating in WINDOW1BURST2( full window 0.1sec burst) mode. This is calculated from sxi_2nd_mode_exposure_sec. |
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23 | hxi1_exposure_sec | double precision | sec | HXI1 effective exposure, in seconds on source. This is calculated from GTI of the HXI1 cleaned events. |
HXI1_EXPO | float8:.5f | sec | |
24 | hxi1_exposure | double precision | ksec | HXI1 effective exposure, in ksec on source. This is calculated from hxi1_exposure_sec. |
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25 | hxi2_exposure_sec | double precision | sec | HXI2 effective exposure, in seconds on source. This is calculated from GTI of the HXI2 cleaned events. |
HXI2_EXPO | float8:.5f | sec | |
26 | hxi2_exposure | double precision | ksec | HXI2 effective exposure, in ksec on source. This is calculated from hxi2_exposure_sec. |
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27 | sgd1_exposure_sec | double precision | sec | SGD1 Effective exposure, in seconds on source. The exposure reported is the sum of the individual Compton Camera (CC) exposure from the GTI of the event files divided by the number of CCs actually operating. |
SGD1_EXPO | float8:.5f | sec | |
28 | sgd1_exposure | double precision | ksec | SGD1 Effective exposure, in ksec on source. This is calculated from sgd1_exposure_sec. |
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29 | sgd2_exposure_sec | double precision | sec | SGD2 Effective exposure, in seconds on source. The exposure reported is the sum of the individual Compton Camera (CC) exposure from the GTI of the event files divided by the number of CCs actually operating. |
SGD2_EXPO | float8:.5f | sec | |
30 | sgd2_exposure | double precision | ksec | SGD2 Effective exposure, in ksec on source. This is calculated from sgd2_exposure_sec. |
||||
31 | is_sxs_on | character varying(1) | SXS is operating or not : [Y(=on), N(=off) or W(=in waiting mode)] | SXSIFONFOV | char1 | |||
32 | is_sxs_fovin | character varying(1) | Target is in SXS FOV or not Y = in the FOV; N = not in the FOV; P = partially in the FOV; I = irrelevant gien to background observation; D = valid only for the SXI if the source is in the FOV of the SXI but not at the aim point and therefore not seen by the other instruments. |
char1 | ||||
33 | is_sxi_on | character varying(1) | SXI is operating or not : [Y(=on), N(=off) or W(=in waiting mode)] | SXIIFONFOV | char1 | |||
34 | is_sxi_fovin | character varying(1) | Target is in SXI FOV or not Y = in the FOV; N = not in the FOV; P = partially in the FOV; I = irrelevant gien to background observation; D = valid only for the SXI if the source is in the FOV of the SXI but not at the aim point and therefore not seen by the other instruments |
char1 | ||||
35 | is_hxi1_on | character varying(1) | HXI1 is operationg or not:Y = on; N = off; W = in waiting mode. | HXI1IFONFOV | char1 | |||
36 | is_hxi1_fovin | character varying(1) | Target is in HXI1 FOV or not Y = in the FOV; N = not in the FOV; P = partially in the FOV; I = irrelevant gien to background observation; D = valid only for the SXI if the source is in the FOV of the SXI but not at the aim point and therefore not seen by the other instruments |
char1 | ||||
37 | is_hxi2_on | character varying(1) | HXI2 is operating or not:Y = on; N = off; W = in waiting mode. | HXI2IFONFOV | char1 | |||
38 | is_hxi2_fovin | character varying(1) | Target is in HXI2 FOV or not Y = in the FOV; N = not in the FOV; P = partially in the FOV; I = irrelevant gien to background observation; D = valid only for the SXI if the source is in the FOV of the SXI but not at the aim point and therefore not seen by the other instruments |
char1 | ||||
39 | is_sgd1_on | character varying(1) | SGD1 is operating or not:Y = on; N = off; W = in waiting mode. | SGD1IFONFOV | char1 | |||
40 | is_sgd1_fovin | character varying(1) | Target is in SGD1 FOV or not Y = in the FOV; N = not in the FOV; P = partially in the FOV; I = irrelevant gien to background observation; D = valid only for the SXI if the source is in the FOV of the SXI but not at the aim point and therefore not seen by the other instruments |
char1 | ||||
41 | is_sgd2_on | character varying(1) | SGD2 is operating or not:Y = on; N = off; W = in waiting mode. | SGD2IFONFOV | char1 | |||
42 | is_sgd2_fovin | character varying(1) | Target is in SGD2 FOV or not Y = in the FOV; N = not in the FOV; P = partially in the FOV; I = irrelevant gien to background observation; D = valid only for the SXI if the source is in the FOV of the SXI but not at the aim point and therefore not seen by the other instruments |
char1 | ||||
43 | sxs_data_mode | character varying(10) | The name of the SXS datamode for this observation. | SXS_DATAMODE | char10 | |||
44 | is_sxs_adr_cycle | character varying(1) | Flag [YN] indicates ADR cycle occurs during the observation | SXS_ADR | char1 | |||
45 | is_sxs_filter_fe55 | character varying(1) | Flag [YN] indicates SXS observation was collected with Fe55 filter on. | SXS_FIL_FE55 | char1 | |||
46 | is_sxs_filter_open | character varying(1) | Flag [YN] indicates SXS observation was collecter with Open filter on. | SXS_FIL_OPEN | char1 | |||
47 | sxs_threshould_setting_code | character varying(5) | SXS threshold setting code | SXS_THR | char5 | |||
48 | sxs_code | character varying(5) | Five-digit number, ABCDE, to identify the type of data present for the SXS. The values for A indicate if the SXS science data are present: A=1 only SXS pixel data, A=2 only the SXS antico data, A=3 both are present. The value B=1 indicates if the SXS lost GTIs are present. The values for C indicate if the SXS housekeeping data are present: C=1 means only SXS HK1 data, C=2 means only the SXS HK2 data, and C=3 means both HK1 and HK2 are present. The value for D indicates if other diagnostic data associated with the pixel array: D=1 for noise data, D=2 for pulse data, D=3 for wfrb, D=4 all, D=5 for noise and wfrb, D=6 for noise and pulse, and D= 7 for wfrb and pulse. The value for E indicates if other diagnostic data associated with the antico array: E=1 for noise data, E=2 for wfrb, E=3 for both. |
SXSCODE | char5 | |||
49 | gen_code | character varying(5) | Five-digit number, ABCDE, to identify the general auxiliary type of data present in the observation. The value A=1 indicates if the attitude data are present. The value B=1 indicates if the orbit data are present. The value of C is for the HK: C=1 for the HK1, C=2 for the HK2 and C=3 for both. The value D=1 indicates if the time file is present. E is not used and set to 0. |
GENCODE | char5 | |||
50 | processing_date_mjd | numeric | MJD | Date when the data were last processed, in MJD | PROCESSING_DATE | float8.4f | MJD | |
51 | processing_date | timestamp without time zone | UTC | Date when the data were last processed, in UTC This is caluclated from processing_date_mjd. |
||||
52 | public_date_mjd | numeric | MJD | Date when the data became public in MJD | PUBLIC_DATE | int4 | MJD | |
53 | public_date | timestamp without time zone | UTC | Date when the data became public in UTC This is caluclated from public_date_mjd. |
||||
54 | distribution_date_mjd | numeric | MJD | Date when the data were first distributed to the SWG in MJD | DISTRIBUTION_DATE | float8.4f | MJD | |
55 | distribution_date | timestamp without time zone | UTC | Date when the data were first distributed to the SWG in UTC This is caluclated from distribution_date_mjd. |
||||
56 | processing_version | character varying(15) | Version of processing script | PROCESSING_VERSION | char15 | |||
57 | caldb_version | character varying(60) | Version of CALDB Hitomi version for each of the instrument and used in the processing pipeline. The version is encoded as genYYYYMMDD_hxiYYYMMDD_sgdYYYMMDD_sxiYYYYMMDD_sxsYYYYMMDD. The date corresponds to the date to when the CALDB index was created. |
CALDB_VERSION | char60 | |||
58 | processing_software | character varying(45) | Version of the HEAsoft and Hitomi software used in the processing pipeline to generate the data products of the observation. | SOFTWARE_VERSION | char45 | |||
59 | proposal_abstract | character varying(102) | Full abstract (ex) SGD alignment and area | ABSTRACT | char102 | |||
60 | proposal_category | character varying(20) | Proposal category The following are the possible subject categories: non-pointing data; calibration; galactic point sources; galactic diffuse emission; extragalactic compact sources; extragalactic diffuse sources; Gamma-ray bursts and other non-proposed TOOs. |
SUBJECT_CATEGORY | char20 | |||
61 | proposal_category_code | smallint | Category code. 0=non-pointing data; 1=calibration; 4=galactic point sources; 5=galactic diffuse emission; 7=extragalactic compact sources; 8=extragalactic diffuse sources; 9=Gamma-ray bursts and other non-proposed TOOs. |
CATEGORY_CODE | int2 | |||
62 | pi_name | character varying(20) | Proposal Principal Investigator (PI) name | digest / full | PI_LNAME | char30 | ||
PI_FNAME | char30 | |||||||
63 | proposal_affiliated_country | character varying(5) |
The country or collaboration of the proposal's Principal Investigator (PI). This is a string with the following possible values: USA (PI from U.S.), JAP (PI from Japan), EUR (PI from Europe), JUS (merged proposal: PI from Japan, Co-PI from USA), USJ (merged proposal: PI from US, Co-PI from Japan). Set to SWG for to the early observation. |
COUNTRY | char5 | |||
64 | proposal_title | character varying(61) | The title of the proposal that originated the observation. | TITLE | char61 | |||
65 | ql_access_url | character varying(255) | URL to the observation information page | |||||
66 | ql_image_url | character varying(255) | URL to the quick look image | |||||
67 | data_access_url | character varying(255) | URL to the dataset | |||||
68 | corner1_ra | double precision | Coordinate of the vertex1 of the SXS observation field of view, Right Ascension J2000. | |||||
69 | corner1_dec | double precision | Coordinate of the vertex1 of the SXS observation field of view, Declination J2000. | |||||
70 | corner2_ra | double precision | Coordinate of the vertex2 of the SXS observation field of view, Right Ascension J2000. | |||||
71 | corner2_dec | double precision | Coordinate of the vertex2 of the SXS observation field of view, Declination J2000. | |||||
72 | corner3_ra | double precision | Coordinate of the vertex3 of the SXS observation field of view, Right Ascension J2000. | |||||
73 | corner3_dec | double precision | Coordinate of the vertex3 of the SXS observation field of view, Declination J2000. | |||||
74 | corner4_ra | double precision | Coordinate of the vertex4 of the SXS observation field of view, Right Ascension J2000. | |||||
75 | corner4_dec | double precision | Coordinate of the vertex4 of the SXS observation field of view, Declination J2000. | |||||
76 | corner5_ra | double precision | Coordinate of the vertex5 of the SXS observation field of view, Right Ascension J2000. | |||||
77 | corner5_dec | double precision | Coordinate of the vertex5 of the SXS observation field of view, Declination J2000. | |||||
78 | corner6_ra | double precision | Coordinate of the vertex6 of the SXS observation field of view, Right Ascension J2000. | |||||
79 | corner6_dec | double precision | Coordinate of the vertex6 of the SXS observation field of view, Declination J2000. | |||||
80 | corner1_ra_b1950 | double precision | Coordinate of the vertex1 of the SXS observation field of view, Right Ascension B1950. | |||||
81 | corner1_dec_b1950 | double precision | Coordinate of the vertex1 of the SXS observation field of view, Declination B1950. | |||||
82 | corner2_ra_b1950 | double precision | Coordinate of the vertex2 of the SXS observation field of view, Right Ascension B1950. | |||||
83 | corner2_dec_b1950 | double precision | Coordinate of the vertex2 of the SXS observation field of view, Declination B1950. | |||||
84 | corner3_ra_b1950 | double precision | Coordinate of the vertex3 of the SXS observation field of view, Right Ascension B1950. | |||||
85 | corner3_dec_b1950 | double precision | Coordinate of the vertex3 of the SXS observation field of view, Declination B1950. | |||||
86 | corner4_ra_b1950 | double precision | Coordinate of the vertex4 of the SXS observation field of view, Right Ascension B1950. | |||||
87 | corner4_dec_b1950 | double precision | Coordinate of the vertex4 of the SXS observation field of view, Declination B1950. | |||||
88 | corner5_ra_b1950 | double precision | Coordinate of the vertex5 of the SXS observation field of view, Right Ascension B1950. | |||||
89 | corner5_dec_b1950 | double precision | Coordinate of the vertex5 of the SXS observation field of view, Declination B1950. | |||||
90 | corner6_ra_b1950 | double precision | Coordinate of the vertex6 of the SXS observation field of view, Right Ascension B1950. | |||||
91 | corner6_dec_b1950 | double precision | Coordinate of the vertex6 of the SXS observation field of view, Declination B1950. | |||||
92 | corner1_ecliptic_lon | double precision | Coordinate of the vertex1 of the SXS observation field of view, Ecliptic Longitude. | |||||
93 | corner1_ecliptic_lat | double precision | Coordinate of the vertex1 of the SXS observation field of view, Ecliptic Latitude. | |||||
94 | corner2_ecliptic_lon | double precision | Coordinate of the vertex2 of the SXS observation field of view, Ecliptic Longitude. | |||||
95 | corner2_ecliptic_lat | double precision | Coordinate of the vertex2 of the SXS observation field of view, Ecliptic Latitude. | |||||
96 | corner3_ecliptic_lon | double precision | Coordinate of the vertex3 of the SXS observation field of view, Ecliptic Longitude. | |||||
97 | corner3_ecliptic_lat | double precision | Coordinate of the vertex3 of the SXS observation field of view, Ecliptic Latitude. | |||||
98 | corner4_ecliptic_lon | double precision | Coordinate of the vertex4 of the SXS observation field of view, Ecliptic Longitude. | |||||
99 | corner4_ecliptic_lat | double precision | Coordinate of the vertex4 of the SXS observation field of view, Ecliptic Latitude. | |||||
100 | corner5_ecliptic_lon | double precision | Coordinate of the vertex5 of the SXS observation field of view, Ecliptic Longitude. | |||||
101 | corner5_ecliptic_lat | double precision | Coordinate of the vertex5 of the SXS observation field of view, Ecliptic Latitude. | |||||
102 | corner6_ecliptic_lon | double precision | Coordinate of the vertex6 of the SXS observation field of view, Ecliptic Longitude. | |||||
103 | corner6_ecliptic_lat | double precision | Coordinate of the vertex6 of the SXS observation field of view, Ecliptic Latitude. | |||||
104 | corner1_galactic_lon | double precision | Coordinate of the vertex1 of the SXS observation field of view, Galactic Longitude. | |||||
105 | corner1_galactic_lat | double precision | Coordinate of the vertex1 of the SXS observation field of view, Galactic Latitude. | |||||
106 | corner2_galactic_lon | double precision | Coordinate of the vertex2 of the SXS observation field of view, Galactic Longitude. | |||||
107 | corner2_galactic_lat | double precision | Coordinate of the vertex2 of the SXS observation field of view, Galactic Latitude. | |||||
108 | corner3_galactic_lon | double precision | Coordinate of the vertex3 of the SXS observation field of view, Galactic Longitude. | |||||
109 | corner3_galactic_lat | double precision | Coordinate of the vertex3 of the SXS observation field of view, Galactic Latitude. | |||||
110 | corner4_galactic_lon | double precision | Coordinate of the vertex4 of the SXS observation field of view, Galactic Longitude. | |||||
111 | corner4_galactic_lat | double precision | Coordinate of the vertex4 of the SXS observation field of view, Galactic Latitude. | |||||
112 | corner5_galactic_lon | double precision | Coordinate of the vertex5 of the SXS observation field of view, Galactic Longitude. | |||||
113 | corner5_galactic_lat | double precision | Coordinate of the vertex5 of the SXS observation field of view, Galactic Latitude. | |||||
114 | corner6_galactic_lon | double precision | Coordinate of the vertex6 of the SXS observation field of view, Galactic Longitude. | |||||
115 | corner6_galactic_lat | double precision | Coordinate of the vertex6 of the SXS observation field of view, Galactic Latitude. |
hitomi_sxi_data
Description of the observations by the Soft X-ray Imager (SXI) onboard HITOMI, including the detector placements.
No. | Column Name | Type | Unit | Description | NASA's HITOMASTER Column Name | NASA's HITOMASTER Type | NASA's HITOMASTER Unit | |
---|---|---|---|---|---|---|---|---|
1 | observation_id | character varying(11) | The unique number to identify an observation/sequence. This is a 9-digit number. |
OBSID | char11 | |||
2 | detector_name | character varying(5) | Detector name | |||||
3 | object_name | character varying(50) | Designation of the Pointed Source Observations that look at black sky have names related to the type of operations that occurred during that period. |
NAME | char50 | |||
4 | center_ra | double precision | degree | Nominal satellite pointing direction, Right Ascension J2000. Note that the pointing position can be different from the target position. |
RA | float8.5f | degree | |
5 | center_dec | double precision | degree | Nominal satellite pointing direction, Declination J2000. Note that the pointing position can be different from the target position. |
DEC | float8.5f | degree | |
6 | center_ra_b1950 | double precision | degree | Nominal satellite pointing direction, Right Ascension B1950. Calculated from (center_ra, center_dec). Note that the pointing position can be different from the target position. |
float8.5f | degree | ||
7 | center_dec_b1950 | double precision | degree | Nominal satellite pointing direction, Declination B1950. Calculated from (center_ra, center_dec). Note that the pointing position can be different from the target position. |
float8.5f | degree | ||
8 | center_ecliptic_lon | double precision | degree | Nominal satellite pointing direction, Ecliptic Longitude. Calculated from (center_ra, center_dec). Note that the pointing position can be different from the target position. |
float8.5f | degree | ||
9 | center_ecliptic_lat | double precision | degree | Nominal satellite pointing direction, Ecliptic Latitude. Calculated from (center_ra, center_dec). Note that the pointing position can be different from the target position. |
float8.5f | degree | ||
10 | center_galactic_lon | double precision | degree | Nominal satellite pointing direction, Galactic Longitude. Note that the pointing position can be different from the target position. |
LII | float8.5f | degree | |
11 | center_galactic_lat | double precision | degree | Nominal satellite pointing direction, Galactic Latitude. Note that the pointing position can be different from the target position. |
BII | float8.5f | degree | |
12 | roll_angle | double precision | degree | Roll angle of the observation given in degrees. | ROLL_ANGLE | float8.5f | degree | |
13 | observation_start_time_mjd | numeric | MJD | Start Time of the Observation in MJD If the sequence contains the incoming slew, the start time corresponds to the start of the incoming slew. |
TIME | float8.9f | MJD | |
14 | observation_start_time | timestamp without time zone | UTC | Start Time of the Observation in UTC If the sequence contains the incoming slew, the start time corresponds to the start of the incoming slew. This is calculated from observation_start_time_mjd. |
||||
15 | observation_end_time_mjd | numeric | MJD | Stop Time of the Observation in MJD | STOP_TIME | float8.9f | MJD | |
16 | observation_end_time | timestamp without time zone | UTC | Stop Time of the Observation in UTC This is calculated from observation_end_time_mjd. |
||||
17 | exposure_sec | double precision | sec | Effective total observation exposure, in seconds. This time is calculated using the cleaned event file from the SXS instrument. | EXPOSURE | float8:.5f | sec | |
18 | exposure | double precision | ksec | Effective total observation exposure, in ksec. This is calculated from exposure_sec. | ||||
19 | sxi_1st_mode_exposure_sec | double precision | sec | Effective exposure, in seconds on source for the SXI when operating in WINDOW1(normal full window) mode. This is calculated from GTI of the SXI cleaned events of the WINDOW1 mode. |
SXI_EXPO | float8:.5f | sec | |
20 | sxi_1st_mode_exposure | double precision | ksec | Effective exposure, in ksec on source for the SXI when operating in WINDOW1(normal full window) mode. This is calculated from sxi_1st_mode_exposure_sec. |
||||
21 | sxi_2nd_mode_exposure_sec | double precision | sec | Effective exposure, in seconds on source for the SXI when operating in WINDOW1BURST2( full window 0.1sec burst) mode. This is calculated from GTI of the SXI cleaned events of the WINDOWBURST2 mode. |
SXI_EXPO2 | float8:.5f | sec | |
22 | sxi_2nd_mode_exposure | double precision | ksec | Effective exposure, in seconds on source for the SXI when operating in WINDOW1BURST2( full window 0.1sec burst) mode. This is calculated from sxi_2nd_mode_exposure_sec. |
||||
23 | hxi1_exposure_sec | double precision | sec | HXI1 effective exposure, in seconds on source. This is calculated from GTI of the HXI1 cleaned events. |
HXI1_EXPO | float8:.5f | sec | |
24 | hxi1_exposure | double precision | ksec | HXI1 effective exposure, in ksec on source. This is calculated from hxi1_exposure_sec. |
||||
25 | hxi2_exposure_sec | double precision | sec | HXI2 effective exposure, in seconds on source. This is calculated from GTI of the HXI2 cleaned events. |
HXI2_EXPO | float8:.5f | sec | |
26 | hxi2_exposure | double precision | ksec | HXI2 effective exposure, in ksec on source. This is calculated from hxi2_exposure_sec. |
||||
27 | sgd1_exposure_sec | double precision | sec | SGD1 Effective exposure, in seconds on source. The exposure reported is the sum of the individual Compton Camera (CC) exposure from the GTI of the event files divided by the number of CCs actually operating. |
SGD1_EXPO | float8:.5f | sec | |
28 | sgd1_exposure | double precision | ksec | SGD1 Effective exposure, in ksec on source. This is calculated from sgd1_exposure_sec. |
||||
29 | sgd2_exposure_sec | double precision | sec | SGD2 Effective exposure, in seconds on source. The exposure reported is the sum of the individual Compton Camera (CC) exposure from the GTI of the event files divided by the number of CCs actually operating. |
SGD2_EXPO | float8:.5f | sec | |
30 | sgd2_exposure | double precision | ksec | SGD2 Effective exposure, in ksec on source. This is calculated from sgd2_exposure_sec. |
||||
31 | is_sxs_on | character varying(1) | SXS is operating or not : [Y(=on), N(=off) or W(=in waiting mode)] | SXSIFONFOV | char1 | |||
32 | is_sxs_fovin | character varying(1) | Target is in SXS FOV or not Y = in the FOV; N = not in the FOV; P = partially in the FOV; I = irrelevant gien to background observation; D = valid only for the SXI if the source is in the FOV of the SXI but not at the aim point and therefore not seen by the other instruments. |
char1 | ||||
33 | is_sxi_on | character varying(1) | SXI is operating or not : [Y(=on), N(=off) or W(=in waiting mode)] | SXIIFONFOV | char1 | |||
34 | is_sxi_fovin | character varying(1) | Target is in SXI FOV or not Y = in the FOV; N = not in the FOV; P = partially in the FOV; I = irrelevant gien to background observation; D = valid only for the SXI if the source is in the FOV of the SXI but not at the aim point and therefore not seen by the other instruments |
char1 | ||||
35 | is_hxi1_on | character varying(1) | HXI1 is operationg or not:Y = on; N = off; W = in waiting mode. | HXI1IFONFOV | char1 | |||
36 | is_hxi1_fovin | character varying(1) | Target is in HXI1 FOV or not Y = in the FOV; N = not in the FOV; P = partially in the FOV; I = irrelevant gien to background observation; D = valid only for the SXI if the source is in the FOV of the SXI but not at the aim point and therefore not seen by the other instruments |
char1 | ||||
37 | is_hxi2_on | character varying(1) | HXI2 is operating or not:Y = on; N = off; W = in waiting mode. | HXI2IFONFOV | char1 | |||
38 | is_hxi2_fovin | character varying(1) | Target is in HXI2 FOV or not Y = in the FOV; N = not in the FOV; P = partially in the FOV; I = irrelevant gien to background observation; D = valid only for the SXI if the source is in the FOV of the SXI but not at the aim point and therefore not seen by the other instruments |
char1 | ||||
39 | is_sgd1_on | character varying(1) | SGD1 is operating or not:Y = on; N = off; W = in waiting mode. | SGD1IFONFOV | char1 | |||
40 | is_sgd1_fovin | character varying(1) | Target is in SGD1 FOV or not Y = in the FOV; N = not in the FOV; P = partially in the FOV; I = irrelevant gien to background observation; D = valid only for the SXI if the source is in the FOV of the SXI but not at the aim point and therefore not seen by the other instruments |
char1 | ||||
41 | is_sgd2_on | character varying(1) | SGD2 is operating or not:Y = on; N = off; W = in waiting mode. | SGD2IFONFOV | char1 | |||
42 | is_sgd2_fovin | character varying(1) | Target is in SGD2 FOV or not Y = in the FOV; N = not in the FOV; P = partially in the FOV; I = irrelevant gien to background observation; D = valid only for the SXI if the source is in the FOV of the SXI but not at the aim point and therefore not seen by the other instruments |
char1 | ||||
43 | sxi_1st_data_mode | character varying(15) | Name of the SXI 1st datamode for this observation. | SXI_DATAMODE1 | char15 | |||
44 | sxi_1st_dataclass_threshold | character varying(64) | The dataclass and event threshold values encoded as AAAAAAAA-BBBB a BBBB [h] for SXI 1st datamode. The meaning of the 1st 8 digit value is the following: 1st digit always set to 1; 2nd indicates the CCD in use, if 0 all CCDs are in use, if 1 only CCD 1 and 2 are in use, if 2 only CCD 2 and 3 are in use; 3rd digit indicates the datamode, if 0=window1 (full mode), if 1=window2 (1/8 window), if 2=window1burst (full window + burst), 3=window2burst (1/8 window + burst); 4-7 digits indicate the dataclass; the last 8th digit indicates if the area discriminator is off/on for the +/- Z, if 0 is off, if 1 is on. The second value (BBBB) is just the event threshold and corresponds to the first PHA in use. If the aim point has a different threshold compared to the other CCD segments this is indicated by "a BBBB". Finally, the "h", if present, indicates that only half of the CCDs are on. |
SXI_DCLASS1_THR | char64 | |||
45 | sxi_2nd_data_mode | character varying(15) | Name of the SXI 2nd datamode for this observation. | SXI_DATAMODE2 | char15 | |||
46 | sxi_2nd_dataclass_threshold | character varying(72) | The dataclass and event threshold values encoded as AAAAAAAA-BBBB a BBBB [h] for SXI 2nd datamode. The meaning of the 1st 8 digit value is the following: 1st digit always set to 1; 2nd indicates the CCD in use, if 0 all CCDs are in use, if 1 only CCD 1 and 2 are in use, if 2 only CCD 2 and 3 are in use; 3rd digit indicates the datamode, if 0=window1 (full mode), if 1=window2 (1/8 window), if 2=window1burst (full window + burst), 3=window2burst (1/8 window + burst); 4-7 digits indicate the dataclass; the last 8th digit indicates if the area discriminator is off/on for the +/- Z, if 0 is off, if 1 is on. The second value (BBBB) is just the event threshold and corresponds to the first PHA in use. If the aim point has a different threshold compared to the other CCD segments this is indicated by "a BBBB". Finally, the "h", if present, indicates that only half of the CCDs are on. |
SXI_DCLASS2_THR | char72 | |||
47 | sxi_code | character varying(5) | Five-digit number, ABCDE, to identify the type of data present for the SXI. The value A=1 indicates if the SXI science data are present. The value B=1 indicates if the SXI exposure is present. The value C=1 indicates if SXI HK is present. D=1 if the hot pixel table is present. E is not used and set to 0. |
SXICODE | char5 | |||
48 | gen_code | character varying(5) | Five-digit number, ABCDE, to identify the general auxiliary type of data present in the observation. The value A=1 indicates if the attitude data are present. The value B=1 indicates if the orbit data are present. The value of C is for the HK: C=1 for the HK1, C=2 for the HK2 and C=3 for both. The value D=1 indicates if the time file is present. E is not used and set to 0. |
GENCODE | char5 | |||
49 | processing_date_mjd | numeric | MJD | Date when the data were last processed, in MJD | PROCESSING_DATE | float8.4f | MJD | |
50 | processing_date | timestamp without time zone | UTC | Date when the data were last processed, in UTC This is caluclated from processing_date_mjd. |
||||
51 | public_date_mjd | numeric | MJD | Date when the data became public in MJD | PUBLIC_DATE | int4 | MJD | |
52 | public_date | timestamp without time zone | UTC | Date when the data became public in UTC This is caluclated from public_date_mjd. |
||||
53 | distribution_date_mjd | numeric | MJD | Date when the data were first distributed to the SWG in MJD | DISTRIBUTION_DATE | float8.4f | MJD | |
54 | distribution_date | timestamp without time zone | UTC | Date when the data were first distributed to the SWG in UTC This is caluclated from distribution_date_mjd. |
||||
55 | processing_version | character varying(15) | Version of processing script | PROCESSING_VERSION | char15 | |||
56 | caldb_version | character varying(60) | Version of CALDB Hitomi version for each of the instrument and used in the processing pipeline. The version is encoded as genYYYYMMDD_hxiYYYMMDD_sgdYYYMMDD_sxiYYYYMMDD_sxsYYYYMMDD. The date corresponds to the date to when the CALDB index was created. |
CALDB_VERSION | char60 | |||
57 | processing_software | character varying(45) | Version of the HEAsoft and Hitomi software used in the processing pipeline to generate the data products of the observation. | SOFTWARE_VERSION | char45 | |||
58 | proposal_abstract | character varying(102) | Full abstract (ex) SGD alignment and area | ABSTRACT | char102 | |||
59 | proposal_category | character varying(20) | Proposal category The following are the possible subject categories: non-pointing data; calibration; galactic point sources; galactic diffuse emission; extragalactic compact sources; extragalactic diffuse sources; Gamma-ray bursts and other non-proposed TOOs. |
SUBJECT_CATEGORY | char20 | |||
60 | proposal_category_code | smallint | Category code. 0=non-pointing data; 1=calibration; 4=galactic point sources; 5=galactic diffuse emission; 7=extragalactic compact sources; 8=extragalactic diffuse sources; 9=Gamma-ray bursts and other non-proposed TOOs. |
CATEGORY_CODE | int2 | |||
61 | pi_name | character varying(20) | Proposal Principal Investigator (PI) name | digest / full | PI_LNAME | char30 | ||
PI_FNAME | char30 | |||||||
62 | proposal_affiliated_country | character varying(5) |
The country or collaboration of the proposal's Principal Investigator (PI). This is a string with the following possible values: USA (PI from U.S.), JAP (PI from Japan), EUR (PI from Europe), JUS (merged proposal: PI from Japan, Co-PI from USA), USJ (merged proposal: PI from US, Co-PI from Japan). Set to SWG for to the early observation. |
COUNTRY | char5 | |||
63 | proposal_title | character varying(61) | The title of the proposal that originated the observation. | TITLE | char61 | |||
64 | ql_access_url | character varying(255) | URL to the observation information page | |||||
65 | ql_image_url | character varying(255) | URL to the quick look image | |||||
66 | data_access_url | character varying(255) | URL to the dataset | |||||
67 | corner1_ra | double precision | Coordinate of the vertex1 of the SXI observation field of view, Right Ascension J2000. | |||||
68 | corner1_dec | double precision | Coordinate of the vertex1 of the SXI observation field of view, Declination J2000. | |||||
69 | corner2_ra | double precision | Coordinate of the vertex2 of the SXI observation field of view, Right Ascension J2000. | |||||
70 | corner2_dec | double precision | Coordinate of the vertex2 of the SXI observation field of view, Declination J2000. | |||||
71 | corner3_ra | double precision | Coordinate of the vertex3 of the SXI observation field of view, Right Ascension J2000. | |||||
72 | corner3_dec | double precision | Coordinate of the vertex3 of the SXI observation field of view, Declination J2000. | |||||
73 | corner4_ra | double precision | Coordinate of the vertex4 of the SXI observation field of view, Right Ascension J2000. | |||||
74 | corner4_dec | double precision | Coordinate of the vertex4 of the SXI observation field of view, Declination J2000. | |||||
75 | corner1_ra_b1950 | double precision | Coordinate of the vertex1 of the SXI observation field of view, Right Ascension B1950. | |||||
76 | corner1_dec_b1950 | double precision | Coordinate of the vertex1 of the SXI observation field of view, Declination B1950. | |||||
77 | corner2_ra_b1950 | double precision | Coordinate of the vertex2 of the SXI observation field of view, Right Ascension B1950. | |||||
78 | corner2_dec_b1950 | double precision | Coordinate of the vertex2 of the SXI observation field of view, Declination B1950. | |||||
79 | corner3_ra_b1950 | double precision | Coordinate of the vertex3 of the SXI observation field of view, Right Ascension B1950. | |||||
80 | corner3_dec_b1950 | double precision | Coordinate of the vertex3 of the SXI observation field of view, Declination B1950. | |||||
81 | corner4_ra_b1950 | double precision | Coordinate of the vertex4 of the SXI observation field of view, Right Ascension B1950. | |||||
82 | corner4_dec_b1950 | double precision | Coordinate of the vertex4 of the SXI observation field of view, Declination B1950. | |||||
83 | corner1_ecliptic_lon | double precision | Coordinate of the vertex1 of the SXI observation field of view, Ecliptic Longitude. | |||||
84 | corner1_ecliptic_lat | double precision | Coordinate of the vertex1 of the SXI observation field of view, Ecliptic Latitude. | |||||
85 | corner2_ecliptic_lon | double precision | Coordinate of the vertex2 of the SXI observation field of view, Ecliptic Longitude. | |||||
86 | corner2_ecliptic_lat | double precision | Coordinate of the vertex2 of the SXI observation field of view, Ecliptic Latitude. | |||||
87 | corner3_ecliptic_lon | double precision | Coordinate of the vertex3 of the SXI observation field of view, Ecliptic Longitude. | |||||
88 | corner3_ecliptic_lat | double precision | Coordinate of the vertex3 of the SXI observation field of view, Ecliptic Latitude. | |||||
89 | corner4_ecliptic_lon | double precision | Coordinate of the vertex4 of the SXI observation field of view, Ecliptic Longitude. | |||||
90 | corner4_ecliptic_lat | double precision | Coordinate of the vertex4 of the SXI observation field of view, Ecliptic Latitude. | |||||
91 | corner1_galactic_lon | double precision | Coordinate of the vertex1 of the SXI observation field of view, Galactic Longitude. | |||||
92 | corner1_galactic_lat | double precision | Coordinate of the vertex1 of the SXI observation field of view, Galactic Latitude. | |||||
93 | corner2_galactic_lon | double precision | Coordinate of the vertex2 of the SXI observation field of view, Galactic Longitude. | |||||
94 | corner2_galactic_lat | double precision | Coordinate of the vertex2 of the SXI observation field of view, Galactic Latitude. | |||||
95 | corner3_galactic_lon | double precision | Coordinate of the vertex3 of the SXI observation field of view, Galactic Longitude. | |||||
96 | corner3_galactic_lat | double precision | Coordinate of the vertex3 of the SXI observation field of view, Galactic Latitude. | |||||
97 | corner4_galactic_lon | double precision | Coordinate of the vertex4 of the SXI observation field of view, Galactic Longitude. | |||||
98 | corner4_galactic_lat | double precision | Coordinate of the vertex4 of the SXI observation field of view, Galactic Latitude. |
hitomi_hxi_data
Description of the observations by the Hard X-ray Imager (HXI) onboard HITOMI, including the detector placements.
No. | Column Name | Type | Unit | Description | NASA's HITOMASTER Column Name | NASA's HITOMASTER Type | NASA's HITOMASTER Unit | |
---|---|---|---|---|---|---|---|---|
1 | observation_id | character varying(11) | The unique number to identify an observation/sequence. This is a 9-digit number. |
OBSID | char11 | |||
2 | detector_name | character varying(5) | Detector name | |||||
3 | object_name | character varying(50) | Designation of the Pointed Source Observations that look at black sky have names related to the type of operations that occurred during that period. |
NAME | char50 | |||
4 | center_ra | double precision | degree | Nominal satellite pointing direction, Right Ascension J2000. Note that the pointing position can be different from the target position. |
RA | float8.5f | degree | |
5 | center_dec | double precision | degree | Nominal satellite pointing direction, Declination J2000. Note that the pointing position can be different from the target position. |
DEC | float8.5f | degree | |
6 | center_ra_b1950 | double precision | degree | Nominal satellite pointing direction, Right Ascension B1950. Calculated from (center_ra, center_dec). Note that the pointing position can be different from the target position. |
float8.5f | degree | ||
7 | center_dec_b1950 | double precision | degree | Nominal satellite pointing direction, Declination B1950. Calculated from (center_ra, center_dec). Note that the pointing position can be different from the target position. |
float8.5f | degree | ||
8 | center_ecliptic_lon | double precision | degree | Nominal satellite pointing direction, Ecliptic Longitude. Calculated from (center_ra, center_dec). Note that the pointing position can be different from the target position. |
float8.5f | degree | ||
9 | center_ecliptic_lat | double precision | degree | Nominal satellite pointing direction, Ecliptic Latitude. Calculated from (center_ra, center_dec). Note that the pointing position can be different from the target position. |
float8.5f | degree | ||
10 | center_galactic_lon | double precision | degree | Nominal satellite pointing direction, Galactic Longitude. | LII | float8.5f | degree | |
11 | center_galactic_lat | double precision | degree | Nominal satellite pointing direction, Galactic Latitude. | BII | float8.5f | degree | |
12 | roll_angle | double precision | degree | Roll angle of the observation given in degrees. | ROLL_ANGLE | float8.5f | degree | |
13 | observation_start_time_mjd | numeric | MJD | Start Time of the Observation in MJD If the sequence contains the incoming slew, the start time corresponds to the start of the incoming slew. |
TIME | float8.9f | MJD | |
14 | observation_start_time | timestamp without time zone | UTC |
Start Time of the Observation in UTC If the sequence contains the incoming slew, the start time corresponds to the start of the incoming slew. This is calculated from observation_start_time_mjd. |
||||
15 | observation_end_time_mjd | numeric | MJD | Stop Time of the Observation in MJD | STOP_TIME | float8.9f | MJD | |
16 | observation_end_time | timestamp without time zone | UTC |
Stop Time of the Observation in UTC This is calculated from observation_start_time_mjd. |
||||
17 | exposure_sec | double precision | sec | Effective total observation exposure, in seconds. This time is calculated using the cleaned event file from the SXS instrument. | EXPOSURE | float8:.5f | sec | |
18 | exposure | double precision | ksec | Effective total observation exposure, in ksec. This is calculated from exposure_sec. | ||||
19 | sxi_1st_mode_exposure_sec | double precision | sec | Effective exposure, in seconds on source for the SXI when operating in WINDOW1(normal full window) mode. This is calculated from GTI of the SXI cleaned events of the WINDOW1 mode. |
SXI_EXPO | float8:.5f | sec | |
20 | sxi_1st_mode_exposure | double precision | ksec | Effective exposure, in ksec on source for the SXI when operating in WINDOW1(normal full window) mode. This is calculated from sxi_1st_mode_exposure_sec. |
||||
21 | sxi_2nd_mode_exposure_sec | double precision | sec | Effective exposure, in seconds on source for the SXI when operating in WINDOW1BURST2( full window 0.1sec burst) mode. This is calculated from GTI of the SXI cleaned events of the WINDOWBURST2 mode. |
SXI_EXPO2 | float8:.5f | sec | |
22 | sxi_2nd_mode_exposure | double precision | ksec | Effective exposure, in seconds on source for the SXI when operating in WINDOW1BURST2( full window 0.1sec burst) mode. This is calculated from sxi_2nd_mode_exposure_sec. |
||||
23 | hxi_exposure_sec | double precision | sec | HXI or HXI2 effective exposure, in seconds on source. This is calculated from GTI of the HXI or HXI2 cleaned events. |
HXI1_EXPO or HXI2_EXPO | float8:.5f | sec | |
24 | hxi_exposure | double precision | ksec | HXI1 or HXI2 effective exposure, in ksec on source. This is calculated from hxi_exposure_sec. |
||||
25 | sgd1_exposure_sec | double precision | sec | SGD1 Effective exposure, in seconds on source. The exposure reported is the sum of the individual Compton Camera (CC) exposure from the GTI of the event files divided by the number of CCs actually operating. |
SGD1_EXPO | float8:.5f | sec | |
26 | sgd1_exposure | double precision | ksec | SGD1 Effective exposure, in ksec on source. This is calculated from sgd1_exposure_sec. |
||||
27 | sgd2_exposure_sec | double precision | sec | SGD2 Effective exposure, in seconds on source. The exposure reported is the sum of the individual Compton Camera (CC) exposure from the GTI of the event files divided by the number of CCs actually operating. |
SGD2_EXPO | float8:.5f | sec | |
28 | sgd2_exposure | double precision | ksec | SGD2 Effective exposure, in ksec on source. This is calculated from sgd2_exposure_sec. |
||||
29 | is_sxs_on | character varying(1) | SXS is operating or not : [Y(=on), N(=off) or W(=in waiting mode)] | SXSIFONFOV | char1 | |||
30 | is_sxs_fovin | character varying(1) | Target is in SXS FOV or not Y = in the FOV; N = not in the FOV; P = partially in the FOV; I = irrelevant gien to background observation; D = valid only for the SXI if the source is in the FOV of the SXI but not at the aim point and therefore not seen by the other instruments. |
char1 | ||||
31 | is_sxi_on | character varying(1) | SXI is operating or not : [Y(=on), N(=off) or W(=in waiting mode)] | SXIIFONFOV | char1 | |||
32 | is_sxi_fovin | character varying(1) | Target is in SXI FOV or not Y = in the FOV; N = not in the FOV; P = partially in the FOV; I = irrelevant gien to background observation; D = valid only for the SXI if the source is in the FOV of the SXI but not at the aim point and therefore not seen by the other instruments |
char1 | ||||
33 | is_hxi_on | character varying(1) | HXI is operationg or not:Y = on; N = off; W = in waiting mode. | HXI1IFONFOV or HXI2FONFOV | char1 | |||
34 | is_hxi_fovin | character varying(1) | Target is in HXI FOV or not Y = in the FOV; N = not in the FOV; P = partially in the FOV; I = irrelevant gien to background observation; D = valid only for the SXI if the source is in the FOV of the SXI but not at the aim point and therefore not seen by the other instruments |
char1 | ||||
35 | is_sgd1_on | character varying(1) | SGD1 is operating or not:Y = on; N = off; W = in waiting mode. | SGD1IFONFOV | char1 | |||
36 | is_sgd1_fovin | character varying(1) | Target is in SGD1 FOV or not Y = in the FOV; N = not in the FOV; P = partially in the FOV; I = irrelevant gien to background observation; D = valid only for the SXI if the source is in the FOV of the SXI but not at the aim point and therefore not seen by the other instruments |
char1 | ||||
37 | is_sgd2_on | character varying(1) | SGD2 is operating or not:Y = on; N = off; W = in waiting mode. | SGD2IFONFOV | char1 | |||
38 | is_sgd2_fovin | character varying(1) | Target is in SGD2 FOV or not Y = in the FOV; N = not in the FOV; P = partially in the FOV; I = irrelevant gien to background observation; D = valid only for the SXI if the source is in the FOV of the SXI but not at the aim point and therefore not seen by the other instruments |
char1 | ||||
39 | hxi_data_mode | character varying(15) | Name of the HXI datamode | HXI1_DATAMODE or HXI2_DATAMODE | char15 | |||
40 | hxi_code | character varying(5) | Five-digit number, ABCDE, to identify the type of data present for the HXI. The values for A indicate if the HXI science data are present: A=1 for only HXI1 data, A=2 for only the HXI2 data, A=3 for both HXI1 and HXI2. The values for B indicate if the CAMS data are present: B=1 only CAMS1 data, B=2 for only the CAMS2 data, B=3 for both CAMS1 and CAMS2 and B=4 if the CAMS data are simulated. The values for C indicate if the HXI housekeeping data are present: C=1 for only HXI1 data, C=2 for only the HXI2 data, C=3 for both HXI1 and HXI2. D and E are not used and set to 0. |
HXICODE | char5 | |||
41 | gen_code | character varying(5) | Five-digit number, ABCDE, to identify the general auxiliary type of data present in the observation. The value A=1 indicates if the attitude data are present. The value B=1 indicates if the orbit data are present. The value of C is for the HK: C=1 for the HK1, C=2 for the HK2 and C=3 for both. The value D=1 indicates if the time file is present. E is not used and set to 0. |
GENCODE | char5 | |||
42 | processing_date_mjd | numeric | MJD | Date when the data were last processed, in MJD | PROCESSING_DATE | float8.4f | MJD | |
43 | processing_date | timestamp without time zone | UTC | Date of data processing in UTC This is caluclated from processing_date_mjd. |
||||
44 | public_date_mjd | numeric | MJD | Date when the data became public in MJD | PUBLIC_DATE | int4 | MJD | |
45 | public_date | timestamp without time zone | UTC | Date when the data became public in UTC This is caluclated from public_date_mjd. |
||||
46 | distribution_date_mjd | numeric | MJD | Date when the data were first distributed to the SWG in MJD | DISTRIBUTION_DATE | float8.4f | MJD | |
47 | distribution_date | timestamp without time zone | UTC | Date when the data were first distributed to the SWG in UTC This is caluclated from distribution_date_mjd. |
||||
48 | processing_version | character varying(15) | Version of processing script | PROCESSING_VERSION | char15 | |||
49 | caldb_version | character varying(60) | Version of CALDB Hitomi version for each of the instrument and used in the processing pipeline. The version is encoded as genYYYYMMDD_hxiYYYMMDD_sgdYYYMMDD_sxiYYYYMMDD_sxsYYYYMMDD. The date corresponds to the date to when the CALDB index was created. |
CALDB_VERSION | char60 | |||
50 | processing_software | character varying(45) | Version of the HEAsoft and Hitomi software used in the processing pipeline to generate the data products of the observation. | SOFTWARE_VERSION | char45 | |||
51 | proposal_abstract | character varying(102) | Full abstract (ex) SGD alignment and area | ABSTRACT | char102 | |||
52 | proposal_category | character varying(20) | Proposal category The following are the possible subject categories: non-pointing data; calibration; galactic point sources; galactic diffuse emission; extragalactic compact sources; extragalactic diffuse sources; Gamma-ray bursts and other non-proposed TOOs. |
SUBJECT_CATEGORY | char20 | |||
53 | proposal_category_code | smallint | Category code. 0=non-pointing data; 1=calibration; 4=galactic point sources; 5=galactic diffuse emission; 7=extragalactic compact sources; 8=extragalactic diffuse sources; 9=Gamma-ray bursts and other non-proposed TOOs. |
CATEGORY_CODE | int2 | |||
54 | pi_name | character varying(20) | Proposal Principal Investigator (PI) name | digest / full | PI_LNAME | char30 | ||
PI_FNAME | char30 | |||||||
55 | proposal_affiliated_country | character varying(5) |
The country or collaboration of the proposal's Principal Investigator (PI). This is a string with the following possible values: USA (PI from U.S.), JAP (PI from Japan), EUR (PI from Europe), JUS (merged proposal: PI from Japan, Co-PI from USA), USJ (merged proposal: PI from US, Co-PI from Japan). Set to SWG for to the early observation. |
COUNTRY | char5 | |||
56 | proposal_title | character varying(61) | The title of the proposal that originated the observation. | TITLE | char61 | |||
57 | ql_access_url | character varying(255) | URL to the observation information page | |||||
58 | ql_image_url | character varying(255) | URL to the quick look image | |||||
59 | data_access_url | character varying(255) | URL to the dataset | |||||
60 | corner1_ra | double precision | Coordinate of the vertex1 of the HXI observation field of view, Right Ascension J2000. | |||||
61 | corner1_dec | double precision | Coordinate of the vertex1 of the HXI observation field of view, Declination J2000. | |||||
62 | corner2_ra | double precision | Coordinate of the vertex2 of the HXI observation field of view, Right Ascension J2000. | |||||
63 | corner2_dec | double precision | Coordinate of the vertex2 of the HXI observation field of view, Declination J2000. | |||||
64 | corner3_ra | double precision | Coordinate of the vertex3 of the HXI observation field of view, Right Ascension J2000. | |||||
65 | corner3_dec | double precision | Coordinate of the vertex3 of the HXI observation field of view, Declination J2000. | |||||
66 | corner4_ra | double precision | Coordinate of the vertex4 of the HXI observation field of view, Right Ascension J2000. | |||||
67 | corner4_dec | double precision | Coordinate of the vertex4 of the HXI observation field of view, Declination J2000. | |||||
68 | corner1_ra_b1950 | double precision | Coordinate of the vertex1 of the HXI observation field of view, Right Ascension B1950. | |||||
69 | corner1_dec_b1950 | double precision | Coordinate of the vertex1 of the HXI observation field of view, Declination B1950. | |||||
70 | corner2_ra_b1950 | double precision | Coordinate of the vertex2 of the HXI observation field of view, Right Ascension B1950. | |||||
71 | corner2_dec_b1950 | double precision | Coordinate of the vertex2 of the HXI observation field of view, Declination B1950. | |||||
72 | corner3_ra_b1950 | double precision | Coordinate of the vertex3 of the HXI observation field of view, Right Ascension B1950. | |||||
73 | corner3_dec_b1950 | double precision | Coordinate of the vertex3 of the HXI observation field of view, Declination B1950. | |||||
74 | corner4_ra_b1950 | double precision | Coordinate of the vertex4 of the HXI observation field of view, Right Ascension B1950. | |||||
75 | corner4_dec_b1950 | double precision | Coordinate of the vertex4 of the HXI observation field of view, Declination B1950. | |||||
76 | corner1_ecliptic_lon | double precision | Coordinate of the vertex1 of the HXI observation field of view, Ecliptic Longitude. | |||||
77 | corner1_ecliptic_lat | double precision | Coordinate of the vertex1 of the HXI observation field of view, Ecliptic Latitude. | |||||
78 | corner2_ecliptic_lon | double precision | Coordinate of the vertex2 of the HXI observation field of view, Ecliptic Longitude. | |||||
79 | corner2_ecliptic_lat | double precision | Coordinate of the vertex2 of the HXI observation field of view, Ecliptic Latitude. | |||||
80 | corner3_ecliptic_lon | double precision | Coordinate of the vertex3 of the HXI observation field of view, Ecliptic Longitude. | |||||
81 | corner3_ecliptic_lat | double precision | Coordinate of the vertex3 of the HXI observation field of view, Ecliptic Latitude. | |||||
82 | corner4_ecliptic_lon | double precision | Coordinate of the vertex4 of the HXI observation field of view, Ecliptic Longitude. | |||||
83 | corner4_ecliptic_lat | double precision | Coordinate of the vertex4 of the HXI observation field of view, Ecliptic Latitude. | |||||
84 | corner1_galactic_lon | double precision | Coordinate of the vertex1 of the HXI observation field of view, Galactic Longitude. | |||||
85 | corner1_galactic_lat | double precision | Coordinate of the vertex1 of the HXI observation field of view, Galactic Latitude. | |||||
86 | corner2_galactic_lon | double precision | Coordinate of the vertex2 of the HXI observation field of view, Galactic Longitude. | |||||
87 | corner2_galactic_lat | double precision | Coordinate of the vertex2 of the HXI observation field of view, Galactic Latitude. | |||||
88 | corner3_galactic_lon | double precision | Coordinate of the vertex3 of the HXI observation field of view, Galactic Longitude. | |||||
89 | corner3_galactic_lat | double precision | Coordinate of the vertex3 of the HXI observation field of view, Galactic Latitude. | |||||
90 | corner4_galactic_lon | double precision | Coordinate of the vertex4 of the HXI observation field of view, Galactic Longitude. | |||||
91 | corner4_galactic_lat | double precision | Coordinate of the vertex4 of the HXI observation field of view, Galactic Latitude. |