Cosmology

CABSim: A cycle-accurate array processor simulation environment for digital radio astronomy

IEEE International Symposium on Phased Array Systems and Technology (2010) 680-685

Authors:

RP Armstrong, ME Jones

Abstract:

Gigahertz-frequency phased arrays that are integral to next-generation radio astronomy instruments, in particular the Square Kilometre Array (SKA) radio telescope, pose a significant signal processing challenge. We argue that the development of high-performance signal processing systems is critical, not only for the particular application to future radio astronomy instrumentation, but also to the entire field of ultra-wideband phased arrays in the gigahertz bandwidth range. To this end, we have developed a cycle-accurate simulator environment and programming language for a novel, massively multicore array processor, and prototyped on it representative digital frequency domain algorithms. The results of this analysis reveal beamforming as a low compute-to-I/O processing task, best suited to high- I/O-bandwidth, streaming signal processing systems. © 2010 IEEE.

OSKAR: Simulating digital beamforming for the SKA aperture array

IEEE International Symposium on Phased Array Systems and Technology (2010) 690-694

Authors:

BJ Mort, F Dulwich, S Salvini, KZ Adami, ME Jones

Abstract:

Digital beamforming for the aperture array components of the Square Kilometre Array (SKA) poses considerable computational challenges. We propose a hierarchical scheme aimed at tackling them and introduce OSKAR, a beamforming simulator which implements these ideas and algorithms. The simulator continues to be developed to investigate possible designs for the custom devices envisaged for phase 1 of the SKA construction. © 2010 IEEE.

Polarisation performance and calibration of the digital beamforming system for 2-PAD

IEEE International Symposium on Phased Array Systems and Technology (2010) 686-689

Authors:

RP Armstrong, J Hickish, KZ Adami, ME Jones

Abstract:

In this paper, we report on calibration and polarisation performance of the 2PAD digital beamforming system, a pathfinder instrument for large-N, high-frequency phased-array radio instruments, in particular the Square Kilometre Array (SKA) radio telescope. We review the design of the digital system, and report on instrumental calibration approaches. © 2010 IEEE.

Design drivers for a wide-field multi-object spectrograph for the William Herschel Telescope

Proceedings of SPIE - The International Society for Optical Engineering 7735:PART 1 (2010)

Authors:

M Balcells, CR Benn, D Carter, GB Dalton, SC Trager, S Feltzing, MAW Verheijen, M Jarvis, W Percival, DC Abrams, T Agocs, AGA Brown, D Cano, C Evans, A Helmi, IJ Lewis, R McLure, RF Peletier, I Pérez-Fournon, RM Sharples, IAJ Tosh, I Trujillo, N Walton, KB Westhall

Abstract:

Wide-field multi-object spectroscopy is a high priority for European astronomy over the next decade. Most 8-10m telescopes have a small field of view, making 4-m class telescopes a particularly attractive option for wide-field instruments. We present a science case and design drivers for a wide-field multi-object spectrograph (MOS) with integral field units for the 4.2-m William Herschel Telescope (WHT) on La Palma. The instrument intends to take advantage of a future prime-focus corrector and atmospheric-dispersion corrector (Agocs et al, this conf.) that will deliver a field of view 2 deg in diameter, with good throughput from 370 to 1,000 nm. The science programs cluster into three groups needing three different resolving powers R: (1) high-precision radial-velocities for Gaia-related Milky Way dynamics, cosmological redshift surveys, and galaxy evolution studies (R = 5,000), (2) galaxy disk velocity dispersions (R = 10,000) and (3) high-precision stellar element abundances for Milky Way archaeology (R = 20,000). The multiplex requirements of the different science cases range from a few hundred to a few thousand, and a range of fibre-positioner technologies are considered. Several options for the spectrograph are discussed, building in part on published design studies for E-ELT spectrographs. Indeed, a WHT MOS will not only efficiently deliver data for exploitation of important imaging surveys planned for the coming decade, but will also serve as a test-bed to optimize the design of MOS instruments for the future E-ELT. © 2010 Copyright SPIE - The International Society for Optical Engineering.

Expected performance and simulated observations of the instrument HARMONI at the European Extremely Large Telescope (E-ELT)

Proceedings of SPIE - The International Society for Optical Engineering 7735:PART 1 (2010)

Authors:

S Arribas, NA Thatte, M Tecza, T Goodsall, F Clarke, RL Davies, R Bacon, L Colina, D Lunney, E Mediavilla, A Remillieux, D Rigopoulou, M Swinbank, A Verma

Abstract:

HARMONI has been conceived as a workhorse visible and near-infrared (0.47-2.45 microns) integral field spectrograph for the European Extremely Large Telescope (E-ELT). It provides both seeing and diffraction limited observations at several spectral resolutions (R= 4000, 10000, 20000). HARMONI can operate with almost any flavor of AO (e.g. GLAO, LTAO, SCAO), and it is equipped with four spaxel scales (4, 10, 20 and 40 mas) thanks to which it can be optimally configured for a wide variety of science programs, from ultra-sensitive observations of point sources to highangular resolution spatially resolved studies of extended objects. In this paper we describe the expected performance of the instrument as well as its scientific potential. We show some simulated observations for a selected science program, and compare HARMONI with other ground and space based facilities, like VLT, ALMA, and JWST, commenting on their synergies and complementarities. © 2010 Copyright SPIE - The International Society for Optical Engineering.