Table of contents
- 1. General:
- 2. Fringes:
- 3. Notes:
- 4. Auxiliary:
General:
- This experiment contains ALMA with 32x62.5MHz channels sampled at 125MHz.
- VLBA was recorded with 2x128MHz channels
- DBBC2 statons were recording 1x512MHz wide channel
- Pico and Yebes inadvertendly observed in 2-pol 16x32MHz PFB mode due to a feature incompleteness in new FieldSystem
Fringes:
Station | Frimges | Comment |
---|---|---|
Ef | yes no0093.pdf | Effelsberg DBBC2 |
Eb | yes | Effelsberg RDBE |
On | yes no0093.pdf | |
Aa | yes no0093.pdf | |
Mh | yes | Mh weak fringes in LCP to Onsala at beginning. Auto-correlations indicate errors |
Pv | yes (PFB) | LCP data during mg002 bad (stats 78%:0:0:22%), but okay in ma00x and mb00x |
Ys | yes (PFB) | |
Fd | yes | |
La | yes | |
Pt | no | |
Nl | yes | |
La | yes | |
Kp | yes | |
Ov | yes | |
Br | yes | Fringes only to La/Mk/Ov |
- Mh weak fringes in LCP to Onsala at beginning. Auto-correlations indicate errors in Mh.
- No fringes to Pt
- VLBA Fringes were found using the 2x128MHz mode.
- Fringes between ALMA and Eb (Effelsberg RDBE 2x128MHz): Aa-Eb.pdf . SNR for Aa-Eb much lower than for Aa-Ef. Needs to be investigated
-
Fringes between Effelsberg and Yebes(,Pico) with PFB setup and 16x32MHz zoombands: Ef Y RR 16x32M, Ef-Ys LL 16x32M, Pv-Ys RR 16x32M
Notes:
- PV scan: /mnt/disks/4/7/data/ma008_PV_093-2145.vdif marked invalid by vdifuse
- PV: bad statistics before 092-2100 (OK after systems was restarted at Pico)
- PV: DBBC2 backend ran in polyphase filter bank mode, data are 16 ch x 2 pol x 32 MHz
- YS: DBBC2 backend ran in polyphase filter bank mode, data are 16 ch x 2 pol x 32 MHz
- MH: Autoccorelations look corrupted. Suspicous of 32 MHz sub-bands displayed as full band: So far no fringes, except for LCP (weak) in Scan No064. (MM-LCP.ps MM-RCP.ps)
- VLBA: subintNS has to be choosen to be 640000 when adding in VLBA (and EB) having 128 MHz wide subbands. If run with the default settings an WARNING concerning "data gaps" is received and no data is being correlated.
Auxiliary:
The exact zoom bands after matching ALMA constraints against Pico/Yebes 32 MHz PFB bands, without yet considering extra coverage of the 1x512MHz and 2x256MHz of other stations, are:
addZoomFreq = freq@86508.000000/bw@32.000000/noparent@true # ALMA ch11 x Pico ch00 addZoomFreq = freq@86476.000000/bw@28.328125/noparent@true # ALMA ch12 x Pico ch01 addZoomFreq = freq@86444.000000/bw@32.000000/noparent@true # ALMA ch12 x Pico ch02 addZoomFreq = freq@86444.000000/bw@1.734375/noparent@true # ALMA ch13 x Pico ch02 addZoomFreq = freq@86412.000000/bw@32.000000/noparent@true # ALMA ch13 x Pico ch03 addZoomFreq = freq@86380.000000/bw@7.140625/noparent@true # ALMA ch14 x Pico ch04 addZoomFreq = freq@86348.000000/bw@32.000000/noparent@true # ALMA ch14 x Pico ch05 addZoomFreq = freq@86316.000000/bw@12.546875/noparent@true # ALMA ch15 x Pico ch06 addZoomFreq = freq@86284.000000/bw@32.000000/noparent@true # ALMA ch15 x Pico ch07 addZoomFreq = freq@86252.000000/bw@17.953125/noparent@true # ALMA ch16 x Pico ch08 addZoomFreq = freq@86220.000000/bw@32.000000/noparent@true # ALMA ch16 x Pico ch09 addZoomFreq = freq@86188.000000/bw@23.359375/noparent@true # ALMA ch17 x Pico ch10 addZoomFreq = freq@86156.000000/bw@32.000000/noparent@true # ALMA ch17 x Pico ch11 addZoomFreq = freq@86124.000000/bw@28.765625/noparent@true # ALMA ch18 x Pico ch12 addZoomFreq = freq@86092.000000/bw@32.000000/noparent@true # ALMA ch18 x Pico ch13 addZoomFreq = freq@86092.000000/bw@2.171875/noparent@true # ALMA ch19 x Pico ch13 addZoomFreq = freq@86060.000000/bw@32.000000/noparent@true # ALMA ch19 x Pico ch14 addZoomFreq = freq@86028.000000/bw@7.578125/noparent@true # ALMA ch20 x Pico ch15
The above correlates fine in DiFX but difx2fits and difx2mark4 error out at the unequal bandwidths. One equal-bandwidth option with 9 x 32 MHz is:
addZoomFreq = freq@86508.000000/bw@32.000000/noparent@true # ALMA ch11 x Pico ch00 addZoomFreq = freq@86444.000000/bw@32.000000/noparent@true # ALMA ch12 x Pico ch02 addZoomFreq = freq@86412.000000/bw@32.000000/noparent@true # ALMA ch13 x Pico ch03 addZoomFreq = freq@86348.000000/bw@32.000000/noparent@true # ALMA ch14 x Pico ch05 addZoomFreq = freq@86284.000000/bw@32.000000/noparent@true # ALMA ch15 x Pico ch07 addZoomFreq = freq@86220.000000/bw@32.000000/noparent@true # ALMA ch16 x Pico ch09 addZoomFreq = freq@86156.000000/bw@32.000000/noparent@true # ALMA ch17 x Pico ch11 addZoomFreq = freq@86092.000000/bw@32.000000/noparent@true # ALMA ch18 x Pico ch13 addZoomFreq = freq@86060.000000/bw@32.000000/noparent@true # ALMA ch19 x Pico ch14
The VEX file info for Yebes and Pico are new $FREQ and $TRACK as below:
def FREQ_PFB; sample_rate = 64.00 Ms/sec; * (2bits/sample) chan_def = : 86540.00 MHz : L : 32.00 MHz : &CH01 : &BBC01 : &NoCal; *Rcp chan_def = : 86540.00 MHz : L : 32.00 MHz : &CH02 : &BBC02 : &NoCal; *Lcp chan_def = : 86508.00 MHz : L : 32.00 MHz : &CH03 : &BBC03 : &NoCal; *Rcp chan_def = : 86508.00 MHz : L : 32.00 MHz : &CH04 : &BBC04 : &NoCal; *Lcp chan_def = : 86476.00 MHz : L : 32.00 MHz : &CH05 : &BBC05 : &NoCal; *Rcp chan_def = : 86476.00 MHz : L : 32.00 MHz : &CH06 : &BBC06 : &NoCal; *Lcp chan_def = : 86444.00 MHz : L : 32.00 MHz : &CH07 : &BBC07 : &NoCal; *Rcp chan_def = : 86444.00 MHz : L : 32.00 MHz : &CH08 : &BBC08 : &NoCal; *Lcp chan_def = : 86412.00 MHz : L : 32.00 MHz : &CH09 : &BBC09 : &NoCal; *Rcp chan_def = : 86412.00 MHz : L : 32.00 MHz : &CH10 : &BBC10 : &NoCal; *Lcp chan_def = : 86380.00 MHz : L : 32.00 MHz : &CH11 : &BBC11 : &NoCal; *Rcp chan_def = : 86380.00 MHz : L : 32.00 MHz : &CH12 : &BBC12 : &NoCal; *Lcp chan_def = : 86348.00 MHz : L : 32.00 MHz : &CH13 : &BBC13 : &NoCal; *Rcp chan_def = : 86348.00 MHz : L : 32.00 MHz : &CH14 : &BBC14 : &NoCal; *Lcp chan_def = : 86316.00 MHz : L : 32.00 MHz : &CH15 : &BBC15 : &NoCal; *Rcp chan_def = : 86316.00 MHz : L : 32.00 MHz : &CH16 : &BBC16 : &NoCal; *Lcp chan_def = : 86284.00 MHz : L : 32.00 MHz : &CH17 : &BBC17 : &NoCal; *Rcp chan_def = : 86284.00 MHz : L : 32.00 MHz : &CH18 : &BBC18 : &NoCal; *Lcp chan_def = : 86252.00 MHz : L : 32.00 MHz : &CH19 : &BBC19 : &NoCal; *Rcp chan_def = : 86252.00 MHz : L : 32.00 MHz : &CH20 : &BBC20 : &NoCal; *Lcp chan_def = : 86220.00 MHz : L : 32.00 MHz : &CH21 : &BBC21 : &NoCal; *Rcp chan_def = : 86220.00 MHz : L : 32.00 MHz : &CH22 : &BBC22 : &NoCal; *Lcp chan_def = : 86188.00 MHz : L : 32.00 MHz : &CH23 : &BBC23 : &NoCal; *Rcp chan_def = : 86188.00 MHz : L : 32.00 MHz : &CH24 : &BBC24 : &NoCal; *Lcp chan_def = : 86156.00 MHz : L : 32.00 MHz : &CH25 : &BBC25 : &NoCal; *Rcp chan_def = : 86156.00 MHz : L : 32.00 MHz : &CH26 : &BBC26 : &NoCal; *Lcp chan_def = : 86124.00 MHz : L : 32.00 MHz : &CH27 : &BBC27 : &NoCal; *Rcp chan_def = : 86124.00 MHz : L : 32.00 MHz : &CH28 : &BBC28 : &NoCal; *Lcp chan_def = : 86092.00 MHz : L : 32.00 MHz : &CH29 : &BBC29 : &NoCal; *Rcp chan_def = : 86092.00 MHz : L : 32.00 MHz : &CH30 : &BBC30 : &NoCal; *Lcp chan_def = : 86060.00 MHz : L : 32.00 MHz : &CH31 : &BBC31 : &NoCal; *Rcp chan_def = : 86060.00 MHz : L : 32.00 MHz : &CH32 : &BBC32 : &NoCal; *Lcp enddef; ... def VDIF.PvPFB; track_frame_format = VDIF_5032-4096-32-2; * Pico *track_frame_format = VDIF_8032-4096-32-2; * Yebes fanout_def = : &CH01 : sign : 1: 1; fanout_def = : &CH01 : mag : 1: 1; fanout_def = : &CH02 : sign : 1: 2; fanout_def = : &CH02 : mag : 1: 2; fanout_def = : &CH03 : sign : 1: 3; fanout_def = : &CH03 : mag : 1: 3; fanout_def = : &CH04 : sign : 1: 4; fanout_def = : &CH04 : mag : 1: 4; fanout_def = : &CH05 : sign : 1: 5; fanout_def = : &CH05 : mag : 1: 5; fanout_def = : &CH06 : sign : 1: 6; fanout_def = : &CH06 : mag : 1: 6; fanout_def = : &CH07 : sign : 1: 7; fanout_def = : &CH07 : mag : 1: 7; fanout_def = : &CH08 : sign : 1: 8; fanout_def = : &CH08 : mag : 1: 8; fanout_def = : &CH09 : sign : 1: 9; fanout_def = : &CH09 : mag : 1: 9; fanout_def = : &CH10 : sign : 1: 10; fanout_def = : &CH10 : mag : 1: 10; fanout_def = : &CH11 : sign : 1: 11; fanout_def = : &CH11 : mag : 1: 11; fanout_def = : &CH12 : sign : 1: 12; fanout_def = : &CH12 : mag : 1: 12; fanout_def = : &CH13 : sign : 1: 13; fanout_def = : &CH13 : mag : 1: 13; fanout_def = : &CH14 : sign : 1: 14; fanout_def = : &CH14 : mag : 1: 14; fanout_def = : &CH15 : sign : 1: 15; fanout_def = : &CH15 : mag : 1: 15; fanout_def = : &CH16 : sign : 1: 16; fanout_def = : &CH16 : mag : 1: 16; fanout_def = : &CH17 : sign : 1: 17; fanout_def = : &CH17 : mag : 1: 17; fanout_def = : &CH18 : sign : 1: 18; fanout_def = : &CH18 : mag : 1: 18; fanout_def = : &CH19 : sign : 1: 19; fanout_def = : &CH19 : mag : 1: 19; fanout_def = : &CH20 : sign : 1: 20; fanout_def = : &CH20 : mag : 1: 20; fanout_def = : &CH21 : sign : 1: 21; fanout_def = : &CH21 : mag : 1: 21; fanout_def = : &CH22 : sign : 1: 22; fanout_def = : &CH22 : mag : 1: 22; fanout_def = : &CH23 : sign : 1: 23; fanout_def = : &CH23 : mag : 1: 23; fanout_def = : &CH24 : sign : 1: 24; fanout_def = : &CH24 : mag : 1: 24; fanout_def = : &CH25 : sign : 1: 25; fanout_def = : &CH25 : mag : 1: 25; fanout_def = : &CH26 : sign : 1: 26; fanout_def = : &CH26 : mag : 1: 26; fanout_def = : &CH27 : sign : 1: 27; fanout_def = : &CH27 : mag : 1: 27; fanout_def = : &CH28 : sign : 1: 28; fanout_def = : &CH28 : mag : 1: 28; fanout_def = : &CH29 : sign : 1: 29; fanout_def = : &CH29 : mag : 1: 29; fanout_def = : &CH30 : sign : 1: 30; fanout_def = : &CH30 : mag : 1: 30; fanout_def = : &CH31 : sign : 1: 31; fanout_def = : &CH31 : mag : 1: 31; fanout_def = : &CH32 : sign : 1: 32; fanout_def = : &CH32 : mag : 1: 32; enddef; *