News	Issues	Miscellaneous
Basics	History

Basics

Data from the HRC go through several levels of processing. In level 1 processing, the results of filters evaluated on orbit and tests performed during automatic processing are recorded in a status flag for each event. The flag is 32 bits long, with each bit representing the result of a test. Definitions for each status bit can be found here. In level 2 processing, this status flag is used to filter out "bad" events. Here are the default status flags used in standard processing:

Some of the HRC filtering tests require that coefficients be supplied to set limits on acceptable events. The coefficients currently in use by Chandra automatic data processing can be found here.

In addition to filtering on the status flag, event lists are also filtered on the good time intervals (GTIs), and, for HRC-S data, PHA=0:300.

The standard filtering done by pipeline processing software as described above is considered to be the optimal solution by the CXC calibration and HRC IPI teams. Custom filtering on status=0 is strongly discouraged.

Issues

• Misplaced Events and the H-test

  Data from the HRC have a subset of events that are misplaced. Empirically, the fine position ratio and normalized central amplifier ratio define a hyperbolic locus of points where well-placed or "good" events will lie. The following images show these hyperbolas for the u and v axes.

  U-Axis	V-Axis

  In the H-test, this function is used to filter events. The bulk of the events that fail the H-test are from charged particles and thus part of the background. However, a small percentage of them derive from the source and generate ghosting and false jet-like features. For a brief discussion of displaced source events, please see Steve Murray's memo (March 2000). For more comprehensive information on event screening and the H-test, consult this SPIE paper by Murray et al, 2000.

  The H-test is used to flag HRC-S data in level 1 processing, but events which fail are not removed from the level 2 event list. For more information on filtering HRC-S/LETG data, see LETG/HRC-S Background Filtering with CIAO.

  For the HRC-I, however, events failing the H-test are removed from the level 2 event list. The effects of H-test filtering on HRC-I source and background events have been investigated by the HRC CXC Calibration team. For imaging, it is probably best to use the level 2 event list. On the other hand, for photometry, you may want to custom filter the level 1 event list, not excluding events which fail the H-test. This can be done by following the Create a New Level=2 Event File CIAO thread for the HRC-I, but filtering on status=xxxxxx00xxxx0xxx00000000x00000xx, where the last two xs indicate that either outcome of the H-test is acceptable.

  As an example, the following images show different types of processing on an HRC-I calibration observation of ArLac. On the left is the level 1 image. The central image has been filtered like level 2 data, but without excluding events that fail the H-test. On the right is the level 2 image.

Level 1	Like Level 2, But No H-test	Level 2

History

Note that the numbers (1-4) above the images indicate the number of times this observation has been reprocessed, not the pipeline or CALDB version numbers used in reprocessing. To determine the pipeline and CALDB versions used in processing your observation, look for the ASCDSVER and CALDBVER keywords in the header of the data file. Release notes for each pipeline revision are available grouped by instrument, so one can track processing changes affecting HRC data products. CALDB release notes are also available.

Miscellaneous

The HRC IPI Team has developed a software tool (revised Nov 2001), screen_evt1, to allow users to screen their own data manually. See "HRC Event Screening" for more information about the tool, including how to download and run the code.

Contact CXC Calibration (cxccal@cfa.harvard.edu)
for further information

Last modified: 09/27/12

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