Obtaining EVLA Data: 3C 391 Example: Difference between revisions
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The original test data were TDEM0001_sb1218006_1.55310.33439732639 . | The original test data were TDEM0001_sb1218006_1.55310.33439732639 . | ||
TODO: | |||
* Acquiring data from the Archive | |||
* Converting to a measurement set | |||
* Initial flagging | |||
Depending upon the science goals and the details of the observation, averaging in time, frequency, or both may be possible at this stage. For instance, the 3C 391 data used in the summer school tutorial were acquired with a 1-second sampling in the D configuration. Given the size of 3C 391 itself, and the fact that there are no other strong nearby sources, it makes sense to average these data in time (and possibly in frequency as well, although that was not done for the summer school). |
Revision as of 19:11, 9 May 2010
Appendix: Obtaining Data: 3C 391 Example
For the purposes of the summer school tutorials, a small number of initial processing steps had been applied. Here we describe in more detail the series of steps that one is likely to have to conduct to obtain a data set similar to what was used for the summer school tutorials, using the 3C 391 data set as an example.
The original test data were TDEM0001_sb1218006_1.55310.33439732639 .
TODO:
- Acquiring data from the Archive
- Converting to a measurement set
- Initial flagging
Depending upon the science goals and the details of the observation, averaging in time, frequency, or both may be possible at this stage. For instance, the 3C 391 data used in the summer school tutorial were acquired with a 1-second sampling in the D configuration. Given the size of 3C 391 itself, and the fact that there are no other strong nearby sources, it makes sense to average these data in time (and possibly in frequency as well, although that was not done for the summer school).