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Papers by Hayden Rampadarath

Gravitational lens systems containing lensed quasars are important as cosmological probes, as dia... more Gravitational lens systems containing lensed quasars are important as cosmological probes, as diagnostics of structural properties of the lensing galaxies and as tools to study the quasars themselves. The largest lensed quasar sample is the SDSS Quasar Lens Search, drawn from the Sloan Digital Sky Survey (SDSS). We are attempting to extend this survey using observations of lens candidates selected from a combination of the quasar sample from the SDSS and the UKIRT Infrared Deep Sky Survey (UKIDSS). This adds somewhat higher image quality together with a wider range of wavelength for the selection process. In previous pilot surveys we observed 5 objects, finding 2 lenses; here we present further observations of 20 objects in which we find 4 lenses, of which 2 are independently discovered in SQLS (in preparation). Following earlier work on the combination of these two surveys, we have refined our method and find that use of a colour-separation diagnostic, where we select for separations between components which appear to decrease in wavelength, is an efficient method to find lensed quasars and may be useful in ongoing and future large-scale strong lensing surveys with instruments such as Pan-STARRS and LSST. The new lenses have mostly high flux ratios, with faint secondaries buried in the lensing galaxy and typically 6-10 times less bright than the primary. Our survey brings the total number of lenses discovered in the SDSS quasar sample to 46, plus 13 lenses already known. This is likely to be up to 60-70% of the total number of lensed quasars; we briefly discuss strategies by which the rest might be found.

We present high- and intermediate resolution radio observations of the central region in the spir... more We present high- and intermediate resolution radio observations of the central region in the spiral galaxy IC 2497, performed using the European VLBI Network (EVN) at 18 cm, and the Multi-Element Radio Linked Interferometer Network (MERLIN) at 18 cm and 6 cm. We detect two compact radio sources, with brightness temperatures above 105 K, suggesting that they are related to AGN activity. We show that the total 18 cm radio emission from the galaxy is dominated neither by these compact sources nor large-scale emission, but extended emission confined within a sub-kpc central region. IC 2497 therefore appears as a typical luminous infrared galaxy that exhibits a nuclear starburst with a massive star formation rate (M > 5 Mȯ) of 12.4 Mȯ/yr. These results are in line with the hypothesis that the ionisation nebula “Hanny's Voorwerp” at a distance of ~ 15-25 kpc from the galaxy is ionised by the radiation cone of the AGN.

(The free verison is on astro-Ph at http://arxiv.org/abs/1006.4096)

In its nearly regular cycle of outbursts the quasar OJ 287 is due for another outburst season in ... more In its nearly regular cycle of outbursts the quasar OJ 287 is due for another outburst season in 2006-2010. The prediction for the exact timing depends on the adopted model. In the precessing binary model of Lehto and Valtonen the timing depends on the time delay between the impact on the primary disk and the time when the impacted gas becomes optically thin. The time delay in turn depends on the properties of the accretion disk, the accretion rate, and the viscosity parameter α, which are not exactly known. We study the flexibility in timing provided by the uncertainties. In order to fix the model, two methods are used: the wobble of the jet, induced by the secondary, and the timing of the 1956 outburst, which has not been previously used. As a result, rather definite dates for the outbursts are obtained, which are different from a straightforward extrapolation of the past light curve. A new optical light curve with many new historical as well as recent points of observation have been put together and has been analyzed in order to reach these conclusions. Also, the high-frequency radio observations are found to agree with the jet wobble picture.

Digitally scanned photographic plates from the Sonneberg Observatory, plate archives were used to... more Digitally scanned photographic plates from the Sonneberg Observatory, plate archives were used to obtain both V magnitudes and flux values of the blazar OJ 287, for the interval 1957-1978. These data were used to investigate the optical variability of OJ 287, by comparing it to the outburst times of three distinct binary black hole models given by Valtonen (2007). It was found that during this period
OJ 287 was very optically active, with four sharp impact outbursts and one long tidal outburst. Evidence for outbursts beginning at 1957.07 and 1964.09 (which have previously
not been observed), were obtained from this study, which are very close to the predicted times (1957.09 and 1964.10) of the 39.1 degree precession model by Valtonen (2007). Although this study does not prove or disprove any of the models, the optical variability during this period is best explained by the precessing binary black hole model.

Keywords: Blazars: Specific: OJ 287; Binary Black Holes; Photographic Plates: Digitally Scanned.

Digitized photographic plates from the Sonneberg Observatory were used to obtain V magnitudes of ... more Digitized photographic plates from the Sonneberg Observatory were used to obtain V magnitudes of OJ 287 for the interval 1957-1974. These data were compared with three distinct binary black hole models of OJ 287, one with a constant period, and two with precessing orbits 937.5 and 38.8 degrees per period). Our data agree best with the 38.8 degrees precession model. From this we predict that the next outburst will be on September 16, 2007, which will provide indirect evidence for the emission of gravitational radiation from the system.

The Low Frequency Array (LOFAR) is a new generation of electronic radio telescope based on apertu... more The Low Frequency Array (LOFAR) is a new generation of electronic radio telescope based on aperture array technology. The telescope is being developed by ASTRON, and currently being rolled out across the Netherlands and other countries in Europe. I present the current status of the project, and its relation to high resolution instruments such as the European VLBI Network (EVN) and the Very Long Baseline Array (VLBA). In particular, I present recent VLBI results at 327 MHz associated with: (i) a shallow survey based on VLBA archive data and (ii) a deep, wide-field Global VLBI survey centred on two in-beam calibrators, B0218+357 and J0226+3421. The results suggest that there will be no shortage of relatively bright primary calibrators that remain unresolved by LOFAR even on the longest European baselines. The sky density of fainter in-beam calibrators should also be more than adequate to permit the generation of high fidelity images over a large fraction of the sky, especially in the high-band observing band (120-240 MHz). Extending LOFAR via international stations to baseline lengths of several thousand kilometres is certainly practical and should significantly enhance the scientific output and capabilities of the array.

Aims. We have analysed VLBA 92cm archive data of 44 extragalactic sources in order to identify ea... more Aims. We have analysed VLBA 92cm archive data of 44 extragalactic sources in order to identify early targets and potential calibrator sources for the LOFAR radio telescope and the RadioAstron space VLBI mission. Some of these sources will also be suitable as in-beam calibrators, permitting deep, wide-field studies of other faint sources in the same field of view. Methods. All publicly available VLBA 92cm data observed between 1 January 2003 to December 31 2006 have been analysed via an automatic pipeline, implemented within AIPS. The vast majority of the data are unpublished. Results. The sample consists of 44 sources, 34 of which have been detected on at least one VLBA baseline. 30 sources have sufficient data to be successfully imaged. Most of the sources are compact, with a few showing extended structures. Of the 30 sources imaged, 13 are detected on the longest VLBA baselines (approx. 9 Mega wavelengths), while all were detected on baselines greater than 2 Mega wavelengths (the maximum baseline of LOFAR including the current international baselines).

We present multi-wavelength radio observations in the direction of the spiral galaxy IC 2497 and ... more We present multi-wavelength radio observations in the direction of the spiral galaxy IC 2497 and the neighbouring emission nebula known as "Hanny's Voorwerp". Our WSRT continuum observations at 1.4 GHz and 4.9 GHz, reveal the presence of extended emission at the position of the nebulosity, although the bulk of the emission remains unresolved at the centre of the galaxy. e-VLBI 1.65 GHz observations show that on the milliarcsecond-scale a faint central compact source is present in IC 2497 with a brightness temperature in excess of 4E5 K. With the WSRT, we detect a large reservoir of neutral hydrogen in the proximity of IC 2497. One cloud complex with a total mass of 5.6E9 Msol to the South of IC 2497, encompasses Hanny's Voorwerp. Another cloud complex is located at the position of a small galaxy group ~100 kpc to the West of IC 2497 with a mass of 2.9E9 Msol. Our data hint at a physical connection between both complexes. We also detect HI in absorption against the central continuum source of IC 2497. Our observations strongly support the hypothesis that Hanny's Voorwerp is being ionised by an AGN in the centre of IC 2497. In this scenario, a plasma jet associated with the AGN, clears a path through the ISM/IGM in the direction towards the nebulosity. The large-scale radio continuum emission possibly originates from the interaction between this jet and the large cloud complex that Hanny's Voorwerp is embedded in. The HI kinematics do not fit regular rotation, thus the cloud complex around IC 2497 is probably of tidal origin. From the HI absorption against the central source, we derive a lower limit of 2.8E21 +- 0.4E21 atoms/sqcm to the HI column density. However, assuming non-standard conditions for the detected gas, we cannot exclude the possibility that the AGN in the centre of IC 2497 is Compton-thick.

Gravitational lens systems containing lensed quasars are important as cosmological probes, as dia... more Gravitational lens systems containing lensed quasars are important as cosmological probes, as diagnostics of structural properties of the lensing galaxies and as tools to study the quasars themselves. The largest lensed quasar sample is the SDSS Quasar Lens Search, drawn from the Sloan Digital Sky Survey (SDSS). We are attempting to extend this survey using observations of lens candidates selected from a combination of the quasar sample from the SDSS and the UKIRT Infrared Deep Sky Survey (UKIDSS). This adds somewhat higher image quality together with a wider range of wavelength for the selection process. In previous pilot surveys we observed 5 objects, finding 2 lenses; here we present further observations of 20 objects in which we find 4 lenses, of which 2 are independently discovered in SQLS (in preparation). Following earlier work on the combination of these two surveys, we have refined our method and find that use of a colour-separation diagnostic, where we select for separations between components which appear to decrease in wavelength, is an efficient method to find lensed quasars and may be useful in ongoing and future large-scale strong lensing surveys with instruments such as Pan-STARRS and LSST. The new lenses have mostly high flux ratios, with faint secondaries buried in the lensing galaxy and typically 6-10 times less bright than the primary. Our survey brings the total number of lenses discovered in the SDSS quasar sample to 46, plus 13 lenses already known. This is likely to be up to 60-70% of the total number of lensed quasars; we briefly discuss strategies by which the rest might be found.

We present high- and intermediate resolution radio observations of the central region in the spir... more We present high- and intermediate resolution radio observations of the central region in the spiral galaxy IC 2497, performed using the European VLBI Network (EVN) at 18 cm, and the Multi-Element Radio Linked Interferometer Network (MERLIN) at 18 cm and 6 cm. We detect two compact radio sources, with brightness temperatures above 105 K, suggesting that they are related to AGN activity. We show that the total 18 cm radio emission from the galaxy is dominated neither by these compact sources nor large-scale emission, but extended emission confined within a sub-kpc central region. IC 2497 therefore appears as a typical luminous infrared galaxy that exhibits a nuclear starburst with a massive star formation rate (M > 5 Mȯ) of 12.4 Mȯ/yr. These results are in line with the hypothesis that the ionisation nebula “Hanny's Voorwerp” at a distance of ~ 15-25 kpc from the galaxy is ionised by the radiation cone of the AGN.

(The free verison is on astro-Ph at http://arxiv.org/abs/1006.4096)

In its nearly regular cycle of outbursts the quasar OJ 287 is due for another outburst season in ... more In its nearly regular cycle of outbursts the quasar OJ 287 is due for another outburst season in 2006-2010. The prediction for the exact timing depends on the adopted model. In the precessing binary model of Lehto and Valtonen the timing depends on the time delay between the impact on the primary disk and the time when the impacted gas becomes optically thin. The time delay in turn depends on the properties of the accretion disk, the accretion rate, and the viscosity parameter α, which are not exactly known. We study the flexibility in timing provided by the uncertainties. In order to fix the model, two methods are used: the wobble of the jet, induced by the secondary, and the timing of the 1956 outburst, which has not been previously used. As a result, rather definite dates for the outbursts are obtained, which are different from a straightforward extrapolation of the past light curve. A new optical light curve with many new historical as well as recent points of observation have been put together and has been analyzed in order to reach these conclusions. Also, the high-frequency radio observations are found to agree with the jet wobble picture.

Digitally scanned photographic plates from the Sonneberg Observatory, plate archives were used to... more Digitally scanned photographic plates from the Sonneberg Observatory, plate archives were used to obtain both V magnitudes and flux values of the blazar OJ 287, for the interval 1957-1978. These data were used to investigate the optical variability of OJ 287, by comparing it to the outburst times of three distinct binary black hole models given by Valtonen (2007). It was found that during this period
OJ 287 was very optically active, with four sharp impact outbursts and one long tidal outburst. Evidence for outbursts beginning at 1957.07 and 1964.09 (which have previously
not been observed), were obtained from this study, which are very close to the predicted times (1957.09 and 1964.10) of the 39.1 degree precession model by Valtonen (2007). Although this study does not prove or disprove any of the models, the optical variability during this period is best explained by the precessing binary black hole model.

Keywords: Blazars: Specific: OJ 287; Binary Black Holes; Photographic Plates: Digitally Scanned.

Digitized photographic plates from the Sonneberg Observatory were used to obtain V magnitudes of ... more Digitized photographic plates from the Sonneberg Observatory were used to obtain V magnitudes of OJ 287 for the interval 1957-1974. These data were compared with three distinct binary black hole models of OJ 287, one with a constant period, and two with precessing orbits 937.5 and 38.8 degrees per period). Our data agree best with the 38.8 degrees precession model. From this we predict that the next outburst will be on September 16, 2007, which will provide indirect evidence for the emission of gravitational radiation from the system.

The Low Frequency Array (LOFAR) is a new generation of electronic radio telescope based on apertu... more The Low Frequency Array (LOFAR) is a new generation of electronic radio telescope based on aperture array technology. The telescope is being developed by ASTRON, and currently being rolled out across the Netherlands and other countries in Europe. I present the current status of the project, and its relation to high resolution instruments such as the European VLBI Network (EVN) and the Very Long Baseline Array (VLBA). In particular, I present recent VLBI results at 327 MHz associated with: (i) a shallow survey based on VLBA archive data and (ii) a deep, wide-field Global VLBI survey centred on two in-beam calibrators, B0218+357 and J0226+3421. The results suggest that there will be no shortage of relatively bright primary calibrators that remain unresolved by LOFAR even on the longest European baselines. The sky density of fainter in-beam calibrators should also be more than adequate to permit the generation of high fidelity images over a large fraction of the sky, especially in the high-band observing band (120-240 MHz). Extending LOFAR via international stations to baseline lengths of several thousand kilometres is certainly practical and should significantly enhance the scientific output and capabilities of the array.

Aims. We have analysed VLBA 92cm archive data of 44 extragalactic sources in order to identify ea... more Aims. We have analysed VLBA 92cm archive data of 44 extragalactic sources in order to identify early targets and potential calibrator sources for the LOFAR radio telescope and the RadioAstron space VLBI mission. Some of these sources will also be suitable as in-beam calibrators, permitting deep, wide-field studies of other faint sources in the same field of view. Methods. All publicly available VLBA 92cm data observed between 1 January 2003 to December 31 2006 have been analysed via an automatic pipeline, implemented within AIPS. The vast majority of the data are unpublished. Results. The sample consists of 44 sources, 34 of which have been detected on at least one VLBA baseline. 30 sources have sufficient data to be successfully imaged. Most of the sources are compact, with a few showing extended structures. Of the 30 sources imaged, 13 are detected on the longest VLBA baselines (approx. 9 Mega wavelengths), while all were detected on baselines greater than 2 Mega wavelengths (the maximum baseline of LOFAR including the current international baselines).

We present multi-wavelength radio observations in the direction of the spiral galaxy IC 2497 and ... more We present multi-wavelength radio observations in the direction of the spiral galaxy IC 2497 and the neighbouring emission nebula known as "Hanny's Voorwerp". Our WSRT continuum observations at 1.4 GHz and 4.9 GHz, reveal the presence of extended emission at the position of the nebulosity, although the bulk of the emission remains unresolved at the centre of the galaxy. e-VLBI 1.65 GHz observations show that on the milliarcsecond-scale a faint central compact source is present in IC 2497 with a brightness temperature in excess of 4E5 K. With the WSRT, we detect a large reservoir of neutral hydrogen in the proximity of IC 2497. One cloud complex with a total mass of 5.6E9 Msol to the South of IC 2497, encompasses Hanny's Voorwerp. Another cloud complex is located at the position of a small galaxy group ~100 kpc to the West of IC 2497 with a mass of 2.9E9 Msol. Our data hint at a physical connection between both complexes. We also detect HI in absorption against the central continuum source of IC 2497. Our observations strongly support the hypothesis that Hanny's Voorwerp is being ionised by an AGN in the centre of IC 2497. In this scenario, a plasma jet associated with the AGN, clears a path through the ISM/IGM in the direction towards the nebulosity. The large-scale radio continuum emission possibly originates from the interaction between this jet and the large cloud complex that Hanny's Voorwerp is embedded in. The HI kinematics do not fit regular rotation, thus the cloud complex around IC 2497 is probably of tidal origin. From the HI absorption against the central source, we derive a lower limit of 2.8E21 +- 0.4E21 atoms/sqcm to the HI column density. However, assuming non-standard conditions for the detected gas, we cannot exclude the possibility that the AGN in the centre of IC 2497 is Compton-thick.