source: trunk/tutorials/tutorial_3.rst@ 2188

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[1636]1==========================================================================
2Tutorial 3 - Spectral-line gaussian component fitting and rms noise levels
3==========================================================================
4
5.. sectionauthor:: Shari Breen
6
7Files
8-----
9
10* mon.asap: Data file
11
12Data Log
13--------
14
15* ON-OFF Position switching mode with Hobart
16
17* 4 scans (2 OFF and 2 ON)
18
19* Dual pol, 1 IF
20
21Instructions
22------------
23
24* Work through the list of commands given in the text file to calibrate the data
25 and fit gaussian components to the emission. The commands should be typed
26 into ASAP line-by-line until you get to the ADVANCED FITTING step which
27 will require you to experiment with the parameters.
28
29* ADDITIONAL exercise: Determine the rms noise in the spectrum using the
30 create mask function you learned in the first section and the stat command
31 specified in the text file.
32
33Examples - Fitting gaussians
34----------------------------
35
36If you only see a file called *mon.asap.tar*, untar it before getting started
37
38.. code-block: shell
39
40 tar xf mon.asap.tar
41 asap
42
43.. code-block:: python
44
45 # Load the scantable for the source into ASAP
46 mon = scantable("mon.asap")
47 mon.summary()
48 # Select the on-source scans
49 source=mon.get_scan([1,3])
50 # Select the reference scans
51 ref=mon.get_scan([0,2])
52 # Make the quotient spectra and plot it
53 quot=quotient(source,ref)
54 plotter.plot(quot)
55 # Remove the baseline and plot
56 quot.auto_poly_baseline()
57 plotter.plot(quot)
58 # Average the 2 scans together
59 av=quot.average_time(align=True)
60 plotter.plot(av)
61 # Check the the rest frequency is set correctly and define unit as km/s
62 print av.get_restfreqs()
63 av.set_unit("km/s")
64 plotter.plot(av)
65 # Scale the two polarizations separately
66 sel=selector()
67 sel.set_polarisations(0)
68 av.set_selection(sel)
69 av.scale(50.6)
70 sel.set_polarisations(1)
71 av.set_selection(sel)
72 av.scale(32.5)
73 # unset the selection
74 av.set_selection()
75 # Average the polarizations together
76 avpol=av.average_pol()
77 # Plot the data
78 plotter.plot(avpol)
79 # Create a mask that contains the emission
80 msk=avpol.create_mask([-10,30])
81 # Set up some fitting parameters
82 f=fitter()
83 f.set_scan(avpol,msk)
84 f.set_function(gauss=2)
85 # Fit a gaussian to the emission, plot the emission and fit
86 f.fit()
87 f.plot()
88 # Save the plot
89 plotter.save("monr2.eps")
90 # Get the fit parameters
91 f.get_parameters()
92 # Plot the fit residuals
93 f.plot(residual=True)
94 # Plot each of the fitted gaussians separately, with or without the fit parameters overlaid
95 f.plot(components=0,plotparms=True)
96
97 f.plot(components=1)
98
99
100ADVANCED FITTING
101----------------
102
103Sometimes it is necessary to force some of the fitting pa-
104rameters such as peak or FWHM. For example, if you want to fix the peak of the
105first gaussian component to 39 Jy you can use the following command:
106
107.. code-block:: python
108
109 f.set_gauss_parameters(39, 10.2, 1, peakfixed=1, component=0)
110
111You can now experiment with forcing the values of the different parameters. To
112look at the help file on this function type
113help fitter.set_gauss parameters
114Additional Exercise: Determine the rms noise in the spectrum.
115
1161) Create a mask that excludes the emission (if you leave it in the rms noise will be
117 significantly inflated), using the same command as before except this time you will
118 have to specify two ranges of values either side of the emission.
119
1202) Find the rms noise of the spectrum:
121
122.. code-block:: python
123
124 avpol.stats(stat="rms",mask=mymask)
125
126The stats function can be used to extract many other statistics from the data
127such as the maximum and minimum values, the median value and many more. Use
128help to find out how to extract these statistics from the spectrum.
129
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