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High-Precision timing and polarimeter of PSR JO437-4715Van Straten, Willem Herman Bernadus, straten@astron.nl January 2003 (has links)
This thesis reports on the recent results of a continuing, high-precision pulsar timing project, currently focused on the nearby, binary millisecond pulsar, PSR J0437_4715. Pulse arrival time analysis has yielded a remarkable series of constraints on the physical parameters of this system and evidence for the distortion of space-time as predicted by the General Theory of Relativity.
Owing to the proximity of the PSR J0437_4715 system, relative changes in the positions of the Earth and pulsar result in both annual and secular evolution of the line of sight to the pulsar. Although the changes are miniscule, the effects on the projected orbital parameters are detectable in our data at a high level of significance, necessitating the implementation of an improved timing model.
In addition to producing estimates of astrometric parameters with unparalleled precision, the study has also yielded the first three-dimensional orbital geometry of a binary pulsar. This achievement includes the first classical determination of the orbital inclination, thereby providing the unique opportunity to verify the shape of the Shapiro delay and independently confirm a general relativistic prediction.
With a current post-fit arrival time residual RMS of 130 ns over four years, the unrivaled quality of the timing data presented herein may eventually contribute to the most stringent limit on the energy density of the proposed stochastic gravitational wave background. Continuing the quest for even greater timing precision, a detailed study of the polarimetry of PSR J0437_4715 was undertaken. This effort culminated in the development of a new, phase-coherent technique for calibrating the instrumental response of the observing system.
Observations were conducted at the Parkes 64-m radio telescope in New South Wales, Australia, using baseband recorder technologies developed at York University, Toronto, and at the California Institute of Technology. Data were processed off-line at Swinburne University using a beowulf-style cluster of high-performance workstations and custom software developed by the candidate as part of this thesis.
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A study of radio astronomy principles and SKA pathfinder system designs with pulsar scienceOtto, Sunelle 14 March 2011 (has links)
Thesis (MScEng (Electrical and Electronic Engineering))--University of Stellenbosch, 2011. / ENGLISH ABSTRACT: The Square Kilometre Array (SKA) is an international project to build the world’s largest and most sensitive
radio telescope interferometer. It will consist of thousands of antennas distributed over many kilometers,
with the hosting country being either South Africa or Australia. Various pathfinders have been initiated to
demonstrate the technologies needed to implement the SKA. The astronomy community has defined five
Key Science Projects (KSP), which are the drivers for the SKA. The science goals determine the technical
requirements needed to design SKA systems. Many years of planning and development are still needed in
order to meet to the requirements of such a large and complex project.
This thesis aims to present the various SKA pathfinder systems in terms of their application to the SKA
key science projects, with main focus that of pulsar observations. In order to achieve this, a thorough overview
of basic radio astronomy principles and techniques is presented, followed by a detailed look at the various
pathfinders. Throughout the work, aspects of pulsar observations are given particular attention with the goal of
designing optimal systems for the SKA. / AFRIKAANSE OPSOMMING: Die Square Kilometre Array (SKA) is ’n internasionale projek om die wêreld se grootste en mees sensitiewe
radio teleskoop interferometer te bou. Dit sal bestaan uit duisende antennas versprei oor etlike kilometers, met
die gasheer land óf Suid-Afrika óf Australië. Verskeie koersbepalers is geïnisieer om die tegnologie te demonstreer
wat benodig is om die SKA te implementeer. Die astronomie gemeenskap het vyf sleutel wetenskap
projekte (KSP) gedefinieër wat dien as die drywers vir die SKA. Die wetenskap doelwitte bepaal die tegniese
vereistes wat nodig is om SKA stelsels to ontwerp. Talle jare van beplanning en ontwikkeling word steeds
benodig om te voldoen aan die vereistes van so ’n groot en komplekse projek.
Hierdie tesis het ten doel die aanbieding van verskeie SKA koersbepaler stelsels in terme van hulle aanwending
tot die SKA sleutel wetenskap projekte, met hoof fokus op die van pulsar waarnemings. Om dit te
behaal, word ’n deeglike oorsig van basiese radio astronomie beginsels en tegnieke aangebied, gevolg deur ’n
gedetailleerde kyk na die verskeie koersbepalers. Regdeur die werk word spesifieke aandag gegee aan aspekte
van pulsar waarnemings met die doel om optimale stelsels vir die SKA te ontwerp.
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