VLBI Observations of IDV Sources Brian Moloney Dr. Denise Gabuzda University College Cork.
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VLBI Observations of IDV Sources Brian Moloney Dr. Denise Gabuzda University College Cork
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Transcript of VLBI Observations of IDV Sources Brian Moloney Dr. Denise Gabuzda University College Cork.
VLBI Observations of IDV Sources
Brian Moloney
Dr. Denise Gabuzda
University College Cork
Summary
What is IDV?
• Intra-Day Variability: Rapid variations in the I and/or P flux on a timescale of hours
How is it caused?
• Intrinsic
• Extrinsic
Intrinsic
• Within the source
• Implies compact size
– Unfeasibly high Brightness Temperature
• 1017 K which exceeds the Inverse Compton Limit of 1012 K.
Extrinsic
• Outside the source
• Similar to twinkling stars
Previous Results
• J1819+3845’s IDV behaviour has been proven to arise due to Extrinsic effects.
How?– Annual cycle– Time delay between 2 antennas
Dennett-Thorpe J., De Bruyn A.G. 2003, A&A, 404, 113
Dennett-Thorpe J., De Bruyn A.G. 2002, Nature 415, 57
My Experiment
Set of IDV sources in which the cause of variability is not yet certain.
Observed at 8 & 15 GHz in 1997
VLBA + VLA
My Sources
– 0917+624– 0954+658– 1150+812– 2007+777– 1642+690– 0804+499
Plan
• Use VLA data to determine behaviour
• Use all I data to make VLBA map, then create slices in time of P data
• PVLA - PVLBI should be constant
• Identify if variability can be attributed to a certain area of polarisation on VLBI scales
• Analyse properties of varying region
Some Vector Subtraction
PVLBA
VLBA PVLA
VLA PDIFF
DIFF
0917+62416 ->1/0 8 -88 13 77 7 -301/0 ->1/6 14 85 22 76 10 -27
1150+8128 ->13 11 -79 21 86 13 -1713 ->18 13 -81 21 86 11 -1818 ->22 13 -71 22 74 21 -34
1642+6908 ->12 31 -25 39 -31 11 4112 ->15 27 -24 40 -32 16 4415 ->18 33 -21 36 -31 12 2518 ->23 23 -31 32 -39 12 35
2007+7778 ->16 80 -67 92 -70 14 716 ->21 62 -65 78 -65 16 2321 ->1/7 80 -68 96 -70 18 10
0917+624 (VLA)
0917+624 (VLBI)
0917+624 Slices
1642+690 (VLA)
1642 +690 (VLBA)
Future Work
• More detailed analysis for 0917, 1642
• Analyse time slices for other sources
• Model-fitting P data for time slices to better identify varying component and estimate its properties
• Compare results with expected behaviour for scintillation
Acknowledgements
• UCC Radio Astronomy Lab
• The Audience
