Listing of schedule for 3mm-2 at OVRO_MM starting on day 340, 1994 DEC 6 Produced using PC-SCHED 3.5 Experiment name: 3mm-2 P.I.: L.B.Baath To be correlated at: Haystack Comment: 3mm Coordinated VLBI Array, Part 2 SOURCES: IAU Common Right Name Name Ascension Declination Epoch ----------------------------------------------------------- 0235+164 $ 02 35 52.637 +16 24 4.06 1950.0 0304+407 ALGOL 03 04 54.389 +40 45 52.47 1950.0 0316+413 3C84 03 16 29.576 +41 19 51.95 1950.0 0323+285 UXARI 03 23 33.088 +28 32 28.92 1950.0 0415+379 3C111 04 15 0.668 +37 54 19.18 1950.0 0420-014 $ 04 20 43.546 -01 27 28.68 1950.0 0528+134 $ 05 28 6.766 +13 29 42.30 1950.0 0607-157 $ 06 07 25.987 -15 42 3.31 1950.0 0735+178 $ 07 35 14.134 +17 49 9.24 1950.0 0748+126 $ 07 48 5.067 +12 38 45.46 1950.0 0851+202 OJ287 08 51 57.258 +20 17 58.39 1950.0 1055+018 $ 10 55 55.320 +01 50 3.50 1950.0 1226+023 3C273B 12 26 33.252 +02 19 43.26 1950.0 1253-055 3C279 12 53 35.838 -05 31 8.06 1950.0 1611+343 $ 16 11 47.919 +34 20 19.81 1950.0 1641+399 3C345 16 41 17.610 +39 54 10.80 1950.0 1730-130 NRAO530 17 30 13.542 -13 02 45.84 1950.0 1742-289 SGR_A 17 42 29.362 -28 59 18.20 1950.0 1749+096 $ 17 49 10.394 +09 39 42.82 1950.0 1805-223 VXSGR 18 05 2.976 -22 13 56.73 1950.0 2145+067 $ 21 45 36.085 +06 43 40.94 1950.0 2200+420 BL_LAC 22 00 39.367 +42 02 8.63 1950.0 2230+114 CTA102 22 30 7.811 +11 28 22.85 1950.0 2251+158 3C454.3 22 51 29.526 +15 52 54.40 1950.0 SCANS: Start Stop Source AZ EL Setup Footage Dir Pass ----------------------------------------------------------- Tape 1 Label: ________________, ________ 07:00:00-07:06:32 OJ287 83 25 MA4A1=01 0 FOR 01 17:00:00-17:06:32 3C345 72 59 MA4A2=02 8820 REV 02 17:20:00-17:26:32 3C345 73 63 MA4A1=03 0 FOR 03 17:38:00-17:44:32 1611+343 93 72 MA4A2=04 8820 REV 04 18:02:00-18:08:32 1611+343 98 76 MA4A1=05 0 FOR 05 18:20:00-18:26:32 1611+343 104 80 MA4A2=06 8820 REV 06 18:40:00-18:46:32 BL_LAC 52 21 MA4A1=07 0 FOR 07 19:00:00-19:06:32 BL_LAC 54 24 MA4A2=08 8820 REV 08 19:20:00-19:26:32 BL_LAC 56 28 MA4A1=09 0 FOR 09 19:40:00-19:46:32 BL_LAC 58 31 MA4A2=10 8820 REV 10 20:00:00-20:06:32 BL_LAC 60 35 MA4A1=11 0 FOR 11 20:20:00-20:26:32 BL_LAC 61 38 MA4A2=12 8820 REV 12 Tape 2 Label: ________________, ________ 20:40:00-20:46:32 BL_LAC 63 42 MA4A1=01 0 FOR 01 21:00:00-21:06:32 BL_LAC 64 45 MA4A2=02 8820 REV 02 21:20:00-21:26:32 BL_LAC 65 49 MA4A1=03 0 FOR 03 21:38:00-21:44:32 BL_LAC 66 52 MA4A2=04 8820 REV 04 22:02:00-22:08:32 BL_LAC 67 56 MA4A1=05 0 FOR 05 22:20:00-22:26:32 BL_LAC 68 60 MA4A2=06 8820 REV 06 22:40:00-22:46:32 BL_LAC 68 63 MA4A1=07 0 FOR 07 23:00:00-23:06:32 BL_LAC 68 67 MA4A2=08 8820 REV 08 23:20:00-23:26:32 BL_LAC 67 71 MA4A1=09 0 FOR 09 23:40:00-23:46:32 BL_LAC 64 75 MA4A2=10 8820 REV 10 date = 94DEC07 day number =341 00:00:00-00:06:32 BL_LAC 59 78 MA4A1=11 0 FOR 11 00:20:00-00:26:32 BL_LAC 49 81 MA4A2=12 8820 REV 12 Tape 3 Label: ________________, ________ 00:40:00-00:46:32 BL_LAC 26 84 MA4A1=01 0 FOR 01 01:00:00-01:06:32 BL_LAC 346 84 MA4A2=02 8820 REV 02 01:20:00-01:26:32 BL_LAC 316 82 MA4A1=03 0 FOR 03 01:38:00-01:44:32 BL_LAC 303 80 MA4A2=04 8820 REV 04 02:02:00-02:08:32 BL_LAC 296 75 MA4A1=05 0 FOR 05 02:20:00-02:26:32 BL_LAC 293 72 MA4A2=06 8820 REV 06 02:40:00-02:46:32 BL_LAC 292 68 MA4A1=07 0 FOR 07 03:00:00-03:06:32 BL_LAC 291 65 MA4A2=08 8820 REV 08 03:20:00-03:26:32 BL_LAC 291 61 MA4A1=09 0 FOR 09 03:40:00-03:46:32 BL_LAC 292 57 MA4A2=10 8820 REV 10 04:00:00-04:06:32 BL_LAC 292 54 MA4A1=11 0 FOR 11 04:20:00-04:26:32 BL_LAC 293 50 MA4A2=12 8820 REV 12 Tape 4 Label: ________________, ________ 04:40:00-04:46:32 3C84 69 72 MA4A1=01 0 FOR 01 05:00:00-05:06:32 3C84 67 75 MA4A2=02 8820 REV 02 05:20:00-05:26:32 3C84 62 79 MA4A1=03 0 FOR 03 05:38:00-05:44:32 0748+126 88 18 MA4A2=04 8820 REV 04 06:02:00-06:08:32 0748+126 92 23 MA4A1=05 0 FOR 05 06:20:00-06:26:32 0607-157 137 25 MA4A2=06 8820 REV 06 06:40:00-06:46:32 0735+178 95 36 MA4A1=07 0 FOR 07 07:00:00-07:06:32 0607-157 146 30 MA4A2=08 8820 REV 08 07:20:00-07:26:32 0528+134 146 62 MA4A1=09 0 FOR 09 07:40:00-07:46:32 0528+134 156 64 MA4A2=10 8820 REV 10 08:00:00-08:06:32 OJ287 93 38 MA4A1=11 0 FOR 11 08:20:00-08:26:32 OJ287 96 42 MA4A2=12 8820 REV 12 Tape 5 Label: ________________, ________ 08:40:00-08:46:32 OJ287 100 46 MA4A1=01 0 FOR 01 09:00:00-09:06:32 OJ287 104 50 MA4A2=02 8820 REV 02 09:20:00-09:26:32 OJ287 108 54 MA4A1=03 0 FOR 03 09:38:00-09:44:32 OJ287 113 57 MA4A2=04 8820 REV 04 11:20:00-11:26:32 3C273B 107 25 MA4A1=05 0 FOR 05 11:40:00-11:46:32 3C279 112 18 MA4A2=06 8820 REV 06 12:00:00-12:06:32 3C273B 115 32 MA4A1=07 0 FOR 07 12:20:00-12:26:32 3C279 120 25 MA4A2=08 8820 REV 08 12:40:00-12:46:32 3C273B 124 39 MA4A1=09 0 FOR 09 13:00:00-13:06:32 3C279 129 32 MA4A2=10 8820 REV 10 13:20:00-13:26:32 3C273B 135 45 MA4A1=11 0 FOR 11 13:38:00-13:44:32 3C279 138 37 MA4A2=12 8820 REV 12 Tape 6 Label: ________________, ________ 14:02:00-14:08:32 3C273B 149 50 MA4A1=01 0 FOR 01 14:20:00-14:26:32 3C279 150 42 MA4A2=02 8820 REV 02 14:40:00-14:46:32 3C273B 164 53 MA4A1=03 0 FOR 03 15:00:00-15:06:32 3C279 164 45 MA4A2=04 8820 REV 04 15:20:00-15:26:32 3C273B 181 54 MA4A1=05 0 FOR 05 15:40:00-15:46:32 3C279 178 46 MA4A2=06 8820 REV 06 16:00:00-16:06:32 3C273B 198 53 MA4A1=07 0 FOR 07 16:20:00-16:26:32 3C279 192 46 MA4A2=08 8820 REV 08 17:00:00-17:06:32 1749+096 104 33 MA4A1=09 0 FOR 09 17:20:00-17:21:30 VXSGR 130 11 MA4A2=10 8820 REV 10 17:23:00-17:28:00 SGR_A 138 10 MA4A2=10 6795 REV 10 17:38:00-17:39:30 VXSGR 133 14 MA4A1=11 0 FOR 11 17:41:00-17:46:00 SGR_A 142 12 MA4A1=11 2025 FOR 11 18:02:00-18:03:30 VXSGR 138 17 MA4A2=12 8820 REV 12 18:05:00-18:10:00 SGR_A 146 15 MA4A2=12 6795 REV 12 Tape 7 Label: ________________, ________ 18:20:00-18:21:30 VXSGR 141 20 MA4A1=01 0 FOR 01 18:23:00-18:28:00 SGR_A 150 17 MA4A1=01 2025 FOR 01 18:40:00-18:41:30 VXSGR 146 22 MA4A2=02 8820 REV 02 18:43:00-18:48:00 SGR_A 154 18 MA4A2=02 6795 REV 02 19:00:00-19:01:30 VXSGR 150 24 MA4A1=03 0 FOR 03 19:03:00-19:08:00 SGR_A 159 20 MA4A1=03 2025 FOR 03 19:20:00-19:21:30 VXSGR 155 26 MA4A2=04 8820 REV 04 19:23:00-19:28:00 SGR_A 163 21 MA4A2=04 6795 REV 04 * * * * * VLBI Schedule Cover Letter * * * Stations: MPIfR, Metsahovi, Pico Valeta, Onsala, Haystack, Quabbin, Kitt Peak, Owens Valley * * * Code: 3MM94-B Title:Global 3mm VLBI technique development and Coordinated Array, part B * * * P.I.: Lars Baath, at SEST during observations * (Schedule distributed by Bob Phillips) * * e-mail: lbb@oso.chalmers.se (rbp@wells.haystack.edu for Phillips, fredrik@puppis.ls.eso.org * for F. Rantakyro at SEST) * * Telephone: 1 617 981 5440 (Haystack telescope) 56 2-6954263 (SEST fax), 56 2-6988757 or 56 2-6993425 (SEST phone) * * UT Time and Date(s) of Observations: * * 5 December (339), 14h00 UT - 8 December (342), 05h00 UT * (See block schedule below) * * * Receiver setup: Frequency _86 GHz_ Standard ___ Non-standard _X_ * * >>>>>>> Same as Thomas Krichbaum's <<<<<<<< * * If non-standard, record _86188.99__ to _86300.99__ MHz total spanned * e.g., in second video converter, 86192.99 converts to D.C. * Polarization _LCP__ * * >>>>>>> KittPeak/Ovro: 86212.99 -> 86268.99, 56 MHz (use 7 odd VC's) * * Recording system: _MK3, mode A, double speed, (KittPeak, Ovro: mode B-equivalent, double speed 8 Mb sample rate) * * Schedule is available in machine readable form: * * _X___ on aspen.aoc.nrao.edu _in directory DEC94_ * _X___ on astbo1 _in directory_ DEC94_ * _____ on tape, shipped on ___________________ (date) * _____ on floppy, shipped on _________________ (date) * _X__ other: will be sent via E-mail * * Ship tapes to: * _____ VLBA processor at AOC * _____ Bonn processor * _XXX_ Haystack processor (use address below) * _____ Caltech processor * * * Send logs to : R.B. Phillips * MIT Haystack Observatory * Off Route 40 * Westford, MA 01886 * U.S.A. * * INTERNET: rbp@wells.haystack.edu * *!!!!!!!!!!!!!!!!!!!!!!!!!! * IMPORTANT: Again, as per Thomas' comment, verify your Video Converter setting since the values for your total LO * as given in the $CODES section may be inaccurate. *!!!!!!!!!!!!!!!!!!!!!!!!!! * * CALIBRATION: Procedures for Part 1 should be used. * >>>> Tsys should be measured before and after each VLBI scan (within POSTOB AND PREOB) <<<< * If this is not possible, please do regular Tsys measurements preferably BEFORE VLBI scans. * * If possible, please provide ANTENNA TEMPERATURE measurements and atmospheric OPACITY measurements * * Please send us an elevation dependent antenna GAIN CURVE and a value for its peak (e.g. in K/Jy). * * *=========================================================================================== * PHASECAL (affects Pico Valeta, Haystack, Quabbin, Kitt Peak, Owens Valley): * For all VLBI scans except for the SgrA*/VX Sgr observations the Phase Calibration Tones * should be ON. * * For these 2 sources, phase cals may be reduced in amplitude or turned off, but * ensure phase cal is restored to normal amplitude after Sgr A section of schedule is * finished. In case of doubt, leave phase cal unaltered for VX Sgr/Sgr A8, we will * live with it. * * *=========================================================================================== * *