VEX_rev = 1.5; * SCHED vers: Release Jan. 13, 2011. * VEX/SCHED: 1.5.87 * Other versions: Sched: 9.4 Plot: 1.06 JPL-ephem: 1.01 * log2vex vers: 3.0.10, Release 23 aug 2011 * Run by jops at 10:46:05 28 Oct 2011 *------------------------------------------------------------------------------ $GLOBAL; ref $EXPER = N11L4; ref $EOP = EOP303; * +------------+ * PI revision number: | 2.0000 | * +------------+ *** with ONS_DBBC in addition to regular (mark4) ONSALA85 *------------------------------------------------------------------------------ $EXPER; * def N11L4; exper_name = N11L4; exper_description = "Network Monitoring Experiment"; PI_name = "Yurii Pidopryhora"; PI_email = pidopryhora@jive.nl; * address: JIVE * Postbus 2 * 7990 AA Dwingeloo * The Netherlands * phone: +31-521-596548 * during obs:+31-521-596548 * fax: * Please send the disk pack by express to JIVE * * year, doy: 2011, 304 * date : Mon 31 Oct 2011 * MJD : 55865 exper_nominal_start=2011y304d12h00m00s; exper_nominal_stop=2011y304d15h00m00s; * *-------------------- cover letter -------------------- * *This is the schedule for the 18cm NME on 31 October 2011 *involving 12 antennas: Ef Wb Jb1 On Mc Tr Sv Zc Bd Ur Sh Hh * *The NME uses a standard setup with 512 Mbps, *otherwise it is somewhat unusual. * *In addition to the usual ftp fringe finding, the main *purpose of this NME is to collect test data to use with the primary *beam correction model of the future multi-phase-center experiments, *including EP077 and EG057 in the L-band segment of this session. * *Unfortunately no standard EVN fringe-finder is visible *to all antennas for this time interval. Thus we use *two strong compact sources from the RRFID VLBA database: * *J1925+2106 (in Sep 2008 S-band flux ~1.4 Jy, X-band flux ~0.9 Jy) *J2023+3153 (in Jan 2009 S-band flux ~0.9 Jy, X-band flux ~0.4 Jy) * *Since Ef has the smallest beam size in the EVN (FWHM ~ 6 arcmin at 18 cm), *it was chosen as the offset unit. Test pointings are done to a number *of positions offset from J1925+2106: * *OFF+0.5D -- 0.5 Ef beam (1.5 arcmin) in positive Dec direction *OFF+1.5D -- 1.5 Ef beam (4.5 arcmin) in positive Dec direction *OFF+2.0D -- 2.0 Ef beam (6.0 arcmin) in positive Dec direction *OFF+4.0D -- 4.0 Ef beam (12 arcmin) in positive Dec direction * *FWHM positions are sampled in a cross pattern * *OFF+1.0R -- 1.0 Ef beam radius (3 arcmin) in positive RA direction *OFF-1.0R -- 1.0 Ef beam radius (3 arcmin) in negative RA direction *OFF+1.0D -- 1.0 Ef beam radius (3 arcmin) in positive Dec direction *OFF-1.0D -- 1.0 Ef beam radius (3 arcmin) in negative Dec direction * *J2023+3153 is used only for the ftp testing (if J1925+2106 is *unsuitable for some reason). * *There is no phase referencing section in this experiment. * *Four ftp tests are scheduled: * *~12:23:10 UT (scan 5, 4 sec, J1925+2106) *~13:26:20 UT (scan 21, 8 sec, J1925+2106) *~14:09:30 UT (scan 31, 8 sec, J2023+3153) *~14:56:00 UT (scan 42, 4 sec, J2023+3153) * *Two 8 sec ftp samples are chosen for the (hopefully improbable) case *of both sources turning out to be unusually weak. * *Please make sure that the autoftp is set up correctly. * *Good luck with the session! And happy Halloween :) * *Yurii * *------------------------- end ------------------------- * target_correlator = JIVE; * * integr_time : 2.000 s * number_channels: 16 * number_antenna : 12 * cross_polarize : Yes * weight_func : UNIFORM * distrib_medium : DAT * source_pos_cat : STANDARD * distribute_to : * Yurii Pidopryhora * corr_notes : * Cheers! * enddef; *------------------------------------------------------------------------------ $MODE; * def sess311.L512; ref $PROCEDURES = Mode_01; ref $FREQ = 1634.49MHz16x8MHz#06:Ef:Od; ref $FREQ = 1634.49MHz16x8MHz:Wb:Jb:On:Mc:Ur:Hh; ref $FREQ = 1634.49MHz16x8MHz#02:Tr:Sh; ref $FREQ = 1634.49MHz16x8MHz#03:Sv; ref $FREQ = 1634.49MHz16x8MHz#04:Zc; ref $FREQ = 1634.49MHz16x8MHz#05:Bd; ref $IF = LO@1490MHzDPolTone/1:Ef; ref $IF = LO@1510MHzDPolTone/1:Wb:Jb:Hh; ref $IF = LO@1500MHzDPolTone/1:On; ref $IF = LO@1295MHzDPolTone/1:Mc; ref $IF = LO@2300MHzDPolTone/1:Tr:Sh; ref $IF = LO@1260MHzDPolTone/1:Sv; ref $IF = LO@780MHzDPolTone/1:Zc; ref $IF = LO@1260MHzDPolTone/1#02:Bd; ref $IF = LO@1300MHzDPolTone/1:Ur; ref $IF = LO@1200MHzDPolTone/1:Od; ref $BBC = 16BBCs#06:Ef:Od; ref $BBC = 16BBCs:Wb:Jb:On:Mc:Ur:Hh; ref $BBC = 16BBCs#02:Tr:Sh; ref $BBC = 16BBCs#03:Sv; ref $BBC = 16BBCs#04:Zc; ref $BBC = 16BBCs#05:Bd; ref $TRACKS = MKIV.16Ch2bit1to2:Jb:On:Mc:Tr:Sh; ref $TRACKS = wb5B512fo1:Wb:Ur:Hh; * ref $TRACKS = sh5B512fo1:Sh; ref $TRACKS = ef5B512fo1:Ef:Sv:Zc:Od; ref $TRACKS = bd5B512fo1:Bd; ref $BITSTREAMS = wbBTSM32:Wb:Ur:Hh:Sh; * ref $BITSTREAMS = shBTSM32:Sh; ref $BITSTREAMS = efBTSM32:Ef:Sv:Zc:Od; ref $BITSTREAMS = bdBTSM32:Bd; * ref $HEAD_POS = DiskVoid <= obsolete definition ref $ROLL = NoRoll:Ef:Wb:Jb:On:Mc:Tr:Sv:Zc:Bd:Ur:Sh:Hh:Od; * ref $PASS_ORDER = DiskVoid <= obsolete definition ref $PHASE_CAL_DETECT = DsbDetect:Ef:Wb:Jb:On:Mc:Tr:Sv:Zc:Bd:Ur:Sh:Hh:Od; enddef; *------------------------------------------------------------------------------ $STATION; * def Ef; ref $TAPELOG_OBS = EF; ref $CLOCK = EF; ref $SITE = EFLSBERG; ref $ANTENNA = EFLSBERG; ref $DAS = 2NONE<; enddef; * def Wb; ref $TAPELOG_OBS = WB; ref $CLOCK = WB; ref $SITE = WSTRBORK; ref $ANTENNA = WSTRBORK; ref $DAS = 2MKIV+NONE