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21 st Century VLBI Mike Garrett (JIVE) Astro-lunch, 16 April 2003. www.evlbi.org www.jive.nl
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Current Developments in Continuum VLBI Replacement of Tape by Disks: –More reliability –Higher Data rates can be employed (> 1 Gbps) –Naturally leads to… Real-time VLBI: –Psuedo real-time “ftp-VLBI” –Real-time fibre-optic e-VLBI (meeting tomorrow!) –Data rates of tens of Gbps per antenna Replacement of analogue back-end electronics with digital systems Broadband receivers 1-4 GHz; 4-8 GHz etc. –Wide-band MFS Imaging Will lead to better sensitivity (a few microJy/beam)
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Not just deeper but wider…! Typical VLBI field-of-view few pixels on this screen! 6 arcmin [FWHP] Effelsberg beam VLBI FoV x 100 Compute resources required to maintain a given FoV scale as Baseline 2 … Implications for EVN Correlator data output-rate: PC Int Project at JIVE Offline data processing (Local PC Cluster/GRID Access)
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Some lessons learned from the HDF-N… EVN did not reach the thermal-noise level (Gross Calibration errors) Within 1 arcmin FoV the HDF-N delivered ~ 1 mJy in (summed) flux-density… > 100 mJy of summed flux over 10 arcmin FoV ! Promise of VLBI as a phase-stable VLBI instrument at cm wavelenghts…
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VLBA+GBT DWFS of Bootes Field - Garrett, Wrobel & Morganti In-beam phase referencing employed 3 x 5.5 (8) hours @ 256 Mbps VLBA correlator running flat out: –0.5 second integrations, –1024 x 62.5 kHz channels 2 x 60 Gbytes of data Calibration performed on averaged data. Full sensitivity limited to a region 3 arcmin across (due to smearing). Image processing is very slooooow! –Co-addition of Dirty Images/Beams from each 8 hr run Work in progress… astro-ph-xxx (Jan 2003).
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2 sub-mJy sources detected in inner 3’
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Imaging out the VLBA P-beam Can we detect sources well beyond the GBT primary beam (FWHM) ? Data tapered successively as a function of distance from field-centre Sources in the field brighter than a few mJy were targeted…
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Garrett, Wrobel & Morganti VLBA + GBT 24 hr @ 256Mb/s 9 microJy Rms noise
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Full-beam Calibration At frequencies 1-5 GHz, phase-stable VLBI observations can be made in ANY area of the sky ! Standard self-calibration techniques can use the Summed Response of all detectable sources in the beam. Requires good input model conventional phase-referencing or in- beam referencing required initially. Compute requirements are considerable – requires PC cluster, parallel code/data streams and possibly access to GRID resources.
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Future Challenges In the next few years VLBI will be transformed into a true survey instrument! –Huge areas of sky can be imaged-out at with milliarcsec resolution and full sensitivity, - Dozens of radio sources will be detected simultaneously in a single observation, - Deep VLBI Surveys will be conducted of high quality fields (e.g. FLSv Strip) –VLBI will emerge as a very efficient AGN detector (Starburst-AGN descriminator) -What fraction of faint, obscured SCUBA and microJy source populations harbour AGN ? Will faint AGN also be (on average) more distant ? -Milliarcsecond astrometry for every source detected, spatial comparison between VLBI structures and other high-resolution instruments of the day e.g. VLTI -Large surveys will be conducted e.g. extending the search for gravitational lenses to image separations < 0.3” -Surveys will be able to “piggy-back” on any observation (AVO)
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