setup
sources
processing the data
plotting the averaged recomb line by src
Line summary

Diagnostics:
rms/mean by freq channel
Tsys vs sample, el, ra, local time for 09Feb22 data
Tsys vs sample, el,ra for 14Feb22 data
diagnostics summary

Intro

On 09 and 14Feb22 5min on/off position switches were done on various sources looking at recombination lines at 8gaz with the 12meter antenna.

Setup:

The setup was:

On/off position switch:

5 minutes on source, 5 min off source, and then 10sec salon, 10sec cal off in the off source position.
The off source position retraced the same AZ,el as the on position.
The beam is about 10 arc minutes.
a 5 min off source is 5*15*cos(dec) =75 main*cos(dec). so about 7.5 beams (assuming a point source).

10 sec cal on,off

This was taken in the off position.

If/lo setup

recomb lines looked at:

#	H	C	Notes
89a	9173.320653	9177.897014	outside band
90a	8872.568216	8876.994538
91a	8584.820642	8589.103413
92a	8309.382525	8313.527887
93a	8045.602609	8049.616376	outside band not used

4 frequency bands were used.

the topocentric band center was set about 5MHz below the restfreq of the line

This was to stay away from the dc spike in the middle of the backend spectra.

The band centers used were:

9168.32 , 8867.57, 8579.82, 8304.38 MHz

No doppler correct was performed.
The 5ht line at 8045.60 was not used since the if/lo has a 1 GHz IF filter.

mock backend setup

4 boards used
bandwidth 160MHz/ 3=53.33 MHz per spectrum
2048 freq channels gave 26 Khz channel width.

the data files are stored as

/share/pdataN/pdev/x101.20210209.bMs1g0.nnnnn.fits

M = 0,1,2,3 for the 4 boards
nnnn steps by 100 each scan
A single on/off pattern will have (assuming we start at nnn=0)

nnn=0 on src
nnn=100 off src
nnn=200 salon
nnn=300 cal off
Each of the nnn will have 4 files M=0,.3 for the 4 freq bands. file nnn=0

x101.20220209.b0s1g0.00000.fits (9168 band)
x101.20220209.b1s1g0.00000.fits (8867 band)
x101.20220209.b2s1g0.00000.fits (8579 band)
x101.20220209.b3s1g0.00000.fits (8304 band)

The data for 14Feb22 has the date switched to 20220214 in the filenames.

Sources used:

The first table shows the on/off patterns done on 09Feb22. Each line is a 5 minute on/off with the 4 file numbers used on the left
On this day all sources had 2 5min on,off patterns done.

**Sources for 09Feb22**
source	RA(Hr)	file numbers
NGC6334	17.344	0 100 200 300
NGC6334	17.344	400 500 600 700
NGC6357	17.427	800 900 1000 1100
NGC6357	17.427	1200 1300 1400 1500
M8	18.063	1600 1700 1800 1900
M8	18.063	2000 2100 2200 2300
w31	18.157	2400 2500 2600 2700
w31	18.157	2800 2900 3000 3100
w33	18.236	3200 3300 3400 3500
w33	18.236	3600 3700 3800 3900
m17	18.341	4000 4100 4200 4300
m17	18.341	4400 4500 4600 4700
w43	18.794	4800 4900 5000 5100
w43	18.794	5200 5300 5400 5500
w48	19.030	5600 5700 5800 5900
w48	19.030	6000 6100 6200 6300
w49	19.171	6400 6500 6600 6700
w49	19.171	6800 6900 7000 7100
w51	19.395	7200 7300 7400 7500
w51	19.395	7600 7700 7800 7900
dr7	20.469	8000 8100 8200 8300
dr7	20.469	8400 8500 8600 8700
dr21	20.650	8800 8900 9000 9100
dr21	20.650	9200 9300 9400 9500
NGC7538	23.225	9600 9700 9800 9900
NGC7538	23.225	10000 10100 10200 10300
w3	2.428	16200 16300 16400 16500
w3	2.428	16600 16700 16800 16900
w3N	2.448	17000 17100 17200 17300
w3N	2.448	17400 17500 17600 17700
S206	4.054	17800 17900 18000 18100
S206	4.054	18200 18300 18400 18500
orion_A	5.588	18600 18700 18800 18900
orion_A	5.588	19000 19100 19200 19300
M43	5.592	processing the data 19400 19500 19600 19700
M43	5.592	19800 19900 20000 20100
orion_B	5.696	20200 20300 20400 20500
orion_B	5.696	20600 20700 20800 20900

The 2nd table shows the sources done on 14Feb22. Some of the weaker sources from 09Feb21 were repeated multiple times.

**Sources for 14Feb22**
source	RA(hrs)	file numbers
w48	19.030	0 100 200 300
w48	19.030	400 500 600 700
dr7	20.469	800 900 1000 1100
dr7	20.469	1200 1300 1400 1500
dr7	20.469	1600 1700 1800 1900
dr7	20.469	2000 2100 2200 2300
dr7	20.469	2400 2500 2600 2700
dr7	20.469	2800 2900 3000 3100
dr21	20.650	3200 3300 3400 3500
dr21	20.650	3600 3700 3800 3900

Processing the data.

The idl route masposonoff() was used to process the data:

Input the on and off scans. bon[300],boff[300]
average each 300 second set.

Use the median rather than the normal mean to help exclude outliers from rfi
bonAvg,boffAvg

Average the calon, caloff records using the median.
Compute bonAvg/bOffAvg
Convert from Tsys to Kelvin units using the cal difference and the cal value in degK

average the calOn,calOff over freq using a mask to exclude rfi channels.
Compute the mask:

cal Ratio=calOnAvg/calOffavg
flatten cal Ratio by dividing by a smoothed version of calRatio/smooth(cal ratio,.03*Nanchang)
robust fit a linear function, and flag all points that are greater than 3 sigma from the fit

When starting the fit , exclude 6% of the channels on the edges.

Compute

CalonTpCnts=mean(calonSpc[freq]) using mask to exclude bad freq channels
CalOffTpCnts=mean(calOffSpc[freq]) using same mask
DeltaCalCnts=CalOnTpCnts - CalOffTpCnts
Get the calValueK vs freq. average over freqs using the good channels from above mask.
CntsTodegK=calValK/(deltaCalCnts)

Scale spectra Cnts to degK

The cal scale factor is in specCnts
Bon/Boff is in tsys units.
Scale Bon/Boff by the mean value of Boff (using the good channels we used for the cal)

This puts bon/Boff back to spectraCnts

multiply Bon/normalized(Boff) by CntsTodegK to get Kelvins.

Average multiple onoffs of the same source

Use the median if 3 or more on/offs

Plotting the averaged recomb lines by source:

The average line profiles were computed and plotted vs frequency and then lsr velocity. The computation consisted of

avg position switch on,offs, convert to kelvins using cal.
compute on/off-1
average the pols
remove a baseline from each averaged src/line. linear fit + 4ht order harmonic.
smooth by 5 channels.

The plots show the averaged line profiles taken on each day.

Each page is a separate source.
the lines: 89a,90a,91a, and 92a are plotted
the dashed vertical lines in plot:

freq: black,purple - the topocentric line frequencies for H, C lines (no doppler correction)
vel: purple , the expected lsr velocity.The dashed purple line is the expected lsr velocity (for the velocity plots)

the integration time is printed on the top of each page in minutes.
the channel width is : 26Khz before smoothing, 130Khz after smoothing.
the expected and measured rms are printed in red/green as well as the average Tsys.

the rms is computed across the freq band (excluding +/- 50 km/sec about the line velocity.
the measured rms is at least a factor of 2 greater than the expected value.

220209 data

220214 data

the sources w48, dr7, and dr21 were re-observed to improve the signal to noise.

Combine 220209 and 220214 common sources

This combines the 220209 and 220214 sources (w48, dr7, and dr21).
These plots have integration time 10 minutes longer than 220214.

Line Summary:

19 sources where checked for recombination lines on 09Feb22.

the Alpha lines 89a,90a,91a,92a where measured.
on off position switching was used with 10 minutes on source.

On 14Feb22 3 weak sources were observed again to help get a detection.
Most of the lines were detected (in at least 1 transition).
after removing a baseline (1st order poly, 4ht order harmonic) the baseline rms was at least a factor of 2 greater than the expected value.

processing: x101/220209/recomb_get dat.pro,recomb_plot.pro. 220214/recomb_get dat.pro,recomb_plot.pro

Diagnostics

Rms/mean by channel

Each on and off had 300 1 second spectra each with 2048 freq channels. The rms/mean was computed for each channel across the 300 spectra. The resulting value is determined by the radiometer equation:

expectedRms/Tsys = deltaT/T=1./sqrt(bw*tm)
bw=53.333MHz/2048 = 26.041 KHz/channel
tm=1 second
expectedRms/Tsys=.0062

This was done for each freq channel of each on,off scan.

220209 data:
The first plots show rms/mean spectra for a few selected sources (.pdf)

Each page has 4 frames (1 for each frequency band) from a single source.
black is polA, red is polB, the purple line is the expected rms/mean
These spectra had rms/mean values that was larger than expected in at least 1 freq band
Page 1 NGC6334

8868 band had lots of interference. It was present for the first 6 sources done.

8650-9000 MHz is allocated to radiolocation. Aviation and private land mobile.

8320-8330 also had rfi. This was seen the first 7 and last 5 sources.

8025-8400 is allocated to earth exploration satellites (space to earth).

Page 2 dr7

PolA rms is larger than polB rms

It is largest in highest band and decreases with freq (see next set of plots).
This is probably the gain changing with time that has been seen intermittently in polA.

Page 3 dr21

polA rms larger at higher freq bands. Similar to page 2 dr7

Average/median rms/mean vs source (.pdf)

For each on or off, the rms/mean was computed and then the mean or median value across the freq band was computed.
Page 1 has the average mean/rms across frequency.
Page 2 has the median mean/rms across frequency.

sporadic rfi in the band will be excluded by the median.

Each page has 4 frames for the 4 frequency bands
The x axis is the source number (listed on the right side of the plot)
The colors are for the various 300 scans that were done.

black polA on, red polA off, green polB on , blue polB off, purple expected rms.

there are 2 sets for each type (since we did 2 on/off's per source).

8868 band

the first 6 sources had large rms/mean using the mean and the median (so the rfi was > 50%of the band).

increasing rms/mean with freq band.

source 11,12 (dr7,dr21) show a larger rms/mean as the freq band increases.
The previous plots showed that this was across the entire freq band (rather than isolated rfi).
This is probably a gain variation during the 300 second scan and it is larger at higher frequencies.

8304 band

the average rms/mean is large while the median (rms/mean) is close to the expected value

this is the 8320-8330 rfi seen in the first set of plots.

Median rms/mean for each on, off done (.pdf)

there are 19 pages (one for each source)
the 4 frames per page show the first on,off and then the 2nd on,off done for each source
Black in polA, red is polB
The x axis shows the 4 frequency bands recorded.

the median (rms/mean) across each band is plotted.

The vertical axis is limited to .01 so some bands with large rms/mean go off scale.
The first 6 pages show the large rms/mean in the 8868 MHz band
page 11,12 (dr7,dr21) show the increase in rms/mean with freq in polA.

The increase is not contiguous in time:
dr7: 2nd on source has increase, but off source does not.
dr21: the first on source has no increase, but the first off source does have it.

Page 17 orion_a

larger rms/mean for 2nd on source.
This is probably a gain variation during the 300 second scan.

220209 Tsys vs sample, elevation, ra, and local time

The cals for each on,off pattern were used to convert the 1 second spectra to degrees Kelvin and then the median value for each spectra was computed.

The plots show Tsys vs sample, elevation, RA, and local time (.pdf)

Each frame is a separate frequency band.
The vertical scale is Tsys in degrees K
Page 1: tsys vs sample

there are 300 samples/scan. We did 2 on/offs per source and had 19 sources.
The vertical dashed lines separate 300 sec scans.
The x axis lays out the 300 samples times the 2*19 on or offs
the colors show:

Black: polA on source
Red : polB on source
green: polA off source
blue: polB off source

Tsys for polA is higher than Tsys for polB (assuming the cal values are ok:).
The differences for PolA on,off and polB on,off occurs for sources with continuum flux.

scans 11,12 - M17,
last 5th,6th scans: orion_A

8868 band. for the first couple of scans there is lots of rfi, then it stops.

Page 2: Tsys vs elevation

the off source median Tsys was used.
Black is polA, red is polB
From elevation 45 to 52 there are measurements at the same elevation with different values.

the next plots show that the higher values were taken in the plane of the galaxy.

Page 3 Tsys vs Right ascension

We see lower tsys's away from galactic time.

Page 4: tsys vs local time.

It peaks around 13 ast (this is also around the galactic time).

220214 Tsys vs sample, elevation, and RA

Similar plots were made for the 220214 tsys data (see 220209 above for a description of the plots)

220214: Tsys vs sample, elevation, RA, and local time (.pdf)

3 sources were used: w48,dr7, and dr21
10 on/off pairs were done
The 4 frames on each page are the 4 frequency bands.
Page 1: tsys vs sample

the x axis plots the 1 second Tsys values from each scan.
black polA on, red polB on, green polA off, blue polB off, purple lines separate 300 second scans.
the srcnames for each scan are printed on frame 2.
there was not as much rfi as the 220209 data.
The 2nd dr7 on,off showed a jump in polA.

The jump was larger for higher frequencies.
examining the median rms/mean by freq band show a large increase in rms with freq band.
The cal is taken at the end of the on,off pair. If the gain changes during tine 10 minutes, then this will distort the Tsys measurement.

Page 2: blowup showing the jump between the first and 2nd dr7 onoff pair.
Page 3: Tsys vs elevation

Black in polA, red is polB
the polA Tsys slope vs el for the el=81 and 83 deg scans are the dr7 jumps.

Page 4: tsys vs ra

This data did not have a large ra span (19.1 to 20.8 hours).

Diagnostics Summary:

The rms/mean by freq channel was used to examine the data
The 8868 MHz band showed lots of rfi for the first 6 on,off pairs and then it stopped (airplane?)
rfi was seen at 8320 to 8330 MHz

220209 > 50% of the on,offs
220214 not present

Pol A had gain changes within a 5 min on or off with higher frequency bands having more change.

when looking at the rms/mean this showed a larger rms across the entire band (since the rms includes the noise and the gain change)
for Tsys measurements, this showed as jump in tsys (since the cal was only taken at the end of the on, off pair).

Tsys for polA was 5 to 8 K higher than polB
We saw about a 6 degK Tsys change when looking in and out of the plane of the galaxy.
For out of the plane tsys varied (for polB)

93K at 8304 MHz to 117 K at 9168 MHz

processing: x101/220209/rms_getdat.pro,plot_tp.pro, 220214/rms_getdat.pro, plot_tp.pro

Feb22 looking at recombination lines