Astronomical instrumentation

Very high contrast IFU spectroscopy of AB Doradus C: 9 mag contrast at 0.2

Monthly Notices of the Royal Astronomical Society 378:4 (2007) 1229-1236

Authors:

N Thatte, Abuter, Roberto, Tecza, Matthias, Nielsen, Eric

A Time Delay for the Largest Gravitationally Lensed Quasar: SDSS J1004+4112

Astrophysical Journal University of Chicago Press (2007)

Authors:

J Fohlmeister, CS Kochanek, EE Falco, J Wambsganss, N Morgan, CW Morgan, EO Ofek, D Maoz, CR Keeton, JC Barentine, G Dalton, J Dembicky, W Ketzeback, R McMillan, CS Peters

Abstract:

We present 426 epochs of optical monitoring data spanning 1000 days from December 2003 to June 2006 for the gravitationally lensed quasar SDSS J1004+4112. The time delay between the A and B images is 38.4+/-2.0 days in the expected sense that B leads A and the overall time ordering is C-B-A-D-E. The measured delay invalidates all published models. The models failed because they neglected the perturbations from cluster member galaxies. Models including the galaxies can fit the data well, but strong conclusions about the cluster mass distribution should await the measurement of the longer, and less substructure sensitive, delays of the C and D images. For these images, a CB delay of 681+/-15 days is plausible but requires confirmation, while CB and AD delays of >560 days and > 800 days are required. We clearly detect microlensing of the A/B images, with the delay-corrected flux ratios changing from B-A=0.44+/-0.01 mag in the first season to 0.29+/-0.01 mag in the second season and 0.32+/-0.01 mag in the third season.

A time delay for the cluster-lensed quasar SDSS J1004+4112

Astrophysical Journal 662:1 I (2007) 62-71

Authors:

J Fohlmeister, CS Kochanek, EE Falco, J Wambsganss, N Morgan, CW Morgan, EO Üfek, D Maoz, CR Keeton, JC Barentine, G Dalton, J Dembicky, W Ketzeback, R McMillan, CS Peters

Abstract:

We present 426 epochs of optical monitoring data spanning 1000 days from 2003 December to 2006 June for the gravitationally lensed quasar SDSS J1004+4112. The time delay between the A and B images is ΔtBA = 38.4 ± 2.0 days (Δχ2 = 4) in the expected sense that B leads A and the overall time ordering is C-B-A-D-E. The measured delay invalidates all published models. The models probably failed because they neglected the perturbations from cluster member galaxies. Models including the galaxies can fit the data well, but conclusions about the cluster mass distribution should await the measurement of the longer, and less substructure sensitive, delays of the C and D images. For these images, a delay of ΔtCB ≃ 681 ± 15 days is plausible but requires confirmation, while delays of ΔtCB 560 days and Δt AD > 800 days are required. We clearly detect microlensing of the A/B images, with the delay-corrected flux ratios changing from mB - mA -0-44 ± 0.01 mag in the first season to 0.29 ± 0.01 mag in the second season and 0.32 ± 0.01 mag in the third season. © 2007. The American Astronomical Society. All rights reserved.

Practical implementation of the complex wavefront modulation model for optical alignment

Society of Photo-Optical Instrumentation Engineers (SPIE) 6617 (2007) 0-0

Authors:

H Lee, GB Dalton, IAJ Tosh, S-W Kim

Gemini mid-IR polarimetry of NGC 1068: Polarized structures around the nucleus

Astrophysical Journal 661:1 II (2007)

Authors:

C Packham, S Young, S Fisher, K Volk, R Mason, JH Hough, PF Roche, M Elitzur, J Radomski, E Perlman

Abstract:

We present diffraction-limited, 10 μm imaging polarimetry data for the central regions of the archetypal Seyfert active galactic nucleus NGC 1068. The position angle of polarization is consistent with three dominant polarizing mechanisms. We identify three distinct regions of polarization: (1) north of the nucleus, arising from aligned dust in the narrow emission line region, (2) south, east, and west of the nucleus, consistent with dust being channeled toward the central engine, and (3) a central minimum of polarization consistent with a compact (≤22 pc) torus. These observations provide continuity between the geometrically and optically thick torus and the host galaxy's nuclear environments. These images represent the first published mid-IR polarimetry from an 8 m-class telescope and illustrate the potential of such observations. © 2007. The American Astronomical Society. All rights reserved.