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Heterodyne/Bolometer observing procedures with the New Control System (NCS) at the IRAM-30m. The .pako extension is understood by the paKo software which produces the xml files to run the observations. | Bolometer/Heterodyne observing procedures with the New Control System (NCS) at the IRAM-30m. The .pako extension is understood by the '''paKo''' software which produces the xml files to run the observations. |
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Back to Pool page: PoolObserving | |
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== Heterodyne: == | == Bolometer == For the bolometer observations, put instructions and commands in your {{{ObsForm}}}. * The ''onf.pako'' macro allows an onOff integration, typically you can use it as: pako> @onf 20 35 (it performs a 20x60sec integration with a wobbler throw of 35") * For a complete description, check in CookbookPako <!> Don't forget '''to fill up your {{{ObsForm}}} in the DB''', it will ensure that your project is correctly observed. == Heterodyne == |
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* Here is a model of the line catalog, use a specific name for your project: attachment:model.lin | |
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== Bolometer: == | <!> '''VESPA''': Note that by default the receivers are in '''wide''' mode, except the 3mm receivers. The sky frequency that you specify appears at 598MHz in the IF which is close to the upper limit of VESPA. The receivers should be configured in '''narrow''' mode for VESPA for normal observations. == Snapshots == |
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For the bolometer observations, indicate the old commands in your {{{ObsForm}}}, we will adapt them accordingly. | '''Pako''' (@wbolo macro) attachment:pakosnapshot1.jpg |
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<!> Don't forget '''to fill up your {{{ObsForm}}} in the DB''', it will ensure that your project is correctly observed. | |
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'''Monitor''' (mopsic): example of On-Off on a secondary calibrator attachment:monitor-1.jpg |
Bolometer/Heterodyne observing procedures with the New Control System (NCS) at the IRAM-30m. The .pako extension is understood by the paKo software which produces the xml files to run the observations.
Back to Pool page: PoolObserving
Bolometer
For the bolometer observations, put instructions and commands in your ObsForm.
The onf.pako macro allows an onOff integration, typically you can use it as: pako> @onf 20 35 (it performs a 20x60sec integration with a wobbler throw of 35")
For a complete description, check in CookbookPako
Don't forget to fill up your ObsForm in the DB, it will ensure that your project is correctly observed.
Heterodyne
- To setup the SIS project (PI, ProjID, Receiver, Catalogues) : attachment:setup-xxx_xx.pako
- To setup the backends: attachment:backends-xxx_xx.pako
- To setup a wobbler-switching procedure: attachment:target-wsw-xxx_xx.pako
- To setup a position-switching procedure: attachment:target-psw-xxx_xx.pako
- To setup a frequency-switching procedure: attachment:target-fsw-xxx_xx.pako
- Here is a model of the line catalog, use a specific name for your project: attachment:model.lin
VESPA: Note that by default the receivers are in wide mode, except the 3mm receivers. The sky frequency that you specify appears at 598MHz in the IF which is close to the upper limit of VESPA. The receivers should be configured in narrow mode for VESPA for normal observations.
Snapshots
Pako (@wbolo macro)
attachment:pakosnapshot1.jpg
Monitor (mopsic): example of On-Off on a secondary calibrator
attachment:monitor-1.jpg