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Testing Gravity with MeerKAT and the SKAKopana, Mponeng January 2020 (has links)
>Magister Scientiae - MSc / The new 64-dish radio telescope array MeerKAT will be absorbed into the international
Square Kilometre Array (SKA) in late 2020s. These two telescope arrays will
produce three-dimensional maps of the integrated intensity of the 21cm emission
from neutral hydrogen in galaxies, out to redshifts of 1:5 and 3 respectively. These
maps contain a signature of the growth of large-scale structure in the Universe.
This signature can be uncovered via redshift space distortions of the two-point
correlation function, or power spectrum, of the 21cm brightness temperature
uctuations.
The growth rate governs the amplitude of the anisotropic signal from
redshift-space distortions. It is a powerful probe of gravity and its measurement
has the potential to test whether general relativity holds. We use models of the
21cm intensity and its power spectrum, starting from a simple linear model of
redshift-space distortions and then extending to nonlinear models. With these
models, we make Fisher forecast predictions of the precision with which MeerKAT
and the SKA can measure the growth rate
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Efficient numerical analysis of focal plane antennas for the SKA and the MeerKATLudick, Daniel Jacobus 03 1900 (has links)
Thesis (MScEng (Electrical and Electronic Engineering))--University of Stellenbosch, 2010. / ENGLISH ABSTRACT: The use of Focal Plane Arrays (FPAs) as suitable feed-structures for the Parabolic Dish Reflector
antennas that are intended to form a large part of the Square Kilometre Array (SKA) is
currently the topic of conversation in various SKA research groups. The simulation of these
structures however, relies on intensive computational resources, which can result in very long
simulation runtimes - a serious problem for antenna designers. It was the purpose of the research
to investigate efficient simulation techniques, based on the Method of Moments (MoM).
In this thesis, the reader will be introduced to ways of improving FPA design by using resources
such as High Performance Clusters, developing efficient MoM formulations for FPAs such as
the Vivaldi antenna array and by developing efficient solution techniques for the resulting MoM
equations by using techniques such as the Characteristic Basis Function Method (CBFM). In
addition to the above mentioned methods, the concept of distributed computing is explored as
a way to further aid the antenna designer in obtaining desired results in a reasonable time and
with sufficient accuracy. / AFRIKAANSE OPSOMMING: Die gebruik van Fokus Punt Samestellings (FPS) vir die voer van Paraboliese Skottel Antennas
in die Square Kilometer Array (SKA), geniet tans baie aandag in verkeie navorsing-sirkels.
Die analise van hierdie samestellings vereis egter intensiewe berekenings-infrastrukture, wat
tot lang simulasies kan lei - ’n ernstige probleem vir antenna ontwerpers. Die doel van die
skrywer se navorsing was om effektiewe simulasie metodes te ondersoek, gebaseer op die Moment
Metode. In hierdie tesis, sal die leser bekendgestel word aan verskeie metodes om die
ontwerp van Fokus Punt Samestellings doeltreffend te verrig; nl. die gebruik van Parallel Rekenaar
Klusters, die ontwikkeling van effektiewe Moment Metode kode vir samestellings soos
die Vivaldi antenna konfigurasie, asook die ontwikkeling van effektiewe oplos-metodes vir die
matrikse wat deur die Moment Metode gelewer word, deur die sogenaamde Karakteristieke
Basis Funksie Metode (KBFM) te gebruik. Hierby ingesluit word die konsep van verspreide
numeriese berekening ondersoek, as ’n manier waarop die antenna ontwerper resultate binne ’n
aanvaarbare tyd en akkuraatheid kan verkry.
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Digital signal processing methods for large-N, low-frequency radio telescopesHickish, Jack January 2014 (has links)
Current attempts to make precision measurements of the HI power spectrum at high redshifts have led to the construction of several low-frequency, large-N, interferometric arrays. The computational demands of digital correlators required by these arrays present a significant challenge. These demands stem from the treatment of radio telescopes as collections of two-element interferometers, which results in the need to multiply O(N<sup>2</sup>) pairs of antenna signals in an N-element array. Given the unparalleled flexibility offered by modern digital processing systems, it is apt to consider whether a different way of treating the signals from antennas in an array might be fruitful in current and future radio telescopes. Such methods potentially avoid the unfavourable N<sup>2</sup> scaling of computation rate with array size. In this thesis I examine the prospect of using direct-imaging methods to map the sky without first generating correlation matrices. These methods potentially provide great computational savings by creating images using efficient, FFT-based algorithms. This thesis details the design and deployment of such a system for the Basic Element of SKA Training II (BEST-2) array in Medicina, Italy. Here the 32-antenna BEST-2 array is used as a test bed for comparison of FX correlation and direct-imaging systems, and to provide a frontend for a real-time transient event detection pipeline. Even in the case of traditional O(N<sup>2</sup>) correlation methods, signal processing algorithms can be significantly optimized to deliver large performance gains. In this thesis I present a new mechanism for optimizing the cross-correlation operation on Field Programmable Gate Array (FPGA) hardware. This implementation is shown to achieve a 75% reduction in multiplier usage, and has a variety of benefits over existing optimization strategies. Finally, this thesis turns its focus towards The Square Kilometre Array (SKA). When constructed, the SKA will be the world's largest radio telescope and will comprise a variety of arrays targeting different observing frequencies and science goals. The low-frequency component of the SKA (SKA-low) will feature ~250,000 individual antennas, sub-divided into a number of stations. This thesis explores the impact of the station size on the computational requirements of SKA-low, investigating the optimal array configuration and signal processing realizations.
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The observed bispectrum for SKA and other galaxy surveysJolicoeur, Sheean January 2019 (has links)
Philosophiae Doctor - PhD / Next-generation galaxy surveys will usher in a new era of high precision cosmology.
They will increasingly rely on the galaxy bispectrum to provide improved constraints
on the key parameters of a cosmological model to percent level or even beyond. Hereby,
it is imperative to understand the theory of the galaxy bispectrum to at least the same
level of precision. By this, we mean to include all the general relativistic projection
effects arising from observing on the past lightcone, which still remains a theoretical
challenge. This is because unlike the galaxy power spectrum, the galaxy bispectrum
requires these lightcone corrections at second-order. For the rst time, this PhD project
looks at all the local relativistic lightcone e ects in the galaxy bispectrum for a
at
Friedmann-Lemaitre-Robertson-Walker Universe, giving full details on the second-order
scalars, vectors and tensors. These lightcone effects are mostly Doppler and gravitational
potential contributions. The vector and tensor modes are induced at second order by
scalars. We focus on the squeezed shapes for the monopole of the galaxy bispectrum
because non-Gaussianity of the local form shows high signatures for these triangular
con gurations. In the exact squeezed limit, the contributions from the vectors and
tensors vanish. These relativistic projection effects, if not included in the analysis of
observations, can be mistaken for primordial non-Gaussianity. For future surveys which
will probe equality scales and beyond, all the relativistic corrections will need to be
considered for an accurate measurement of primordial non-Gaussianity.
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Characterisation of the radio noise environment in New ZealandBanks, Paul Russell January 2009 (has links)
A methodology for the measurement of the radio frequency environment close to the radio noise floor is presented for urban, suburban and rural areas within New Zealand for the purposes of characterisation and trend monitoring by radio spectrum managers. Flux density measurements in bands within a range of frequencies from 80 MHz to 8 GHz have been made in urban, suburban and rural areas of New Zealand during 2007 and 2008. An analysis of the band occupancy is presented in summary form. These summaries are intended as a starting point for radio spectrum usage and can be used as a reference for any future measurements. A description of the computer directories and charts resulting from these measurements, using 20 MHz bandwidths have also been included. All the results for the work have been collated in a set of computer directories named “NZRFI Directories 2007 2008”, which are intended as a reference for use in the determination of local activity in particular frequency ranges. A disc with the full range measurement spectral density charts and channel occupancy charts accompanies this work. Also included on the disc are sets of 20 MHz band charts for some urban, suburban and rural location measurements.
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Characterisation of the radio noise environment in New ZealandBanks, Paul Russell January 2009 (has links)
A methodology for the measurement of the radio frequency environment close to the radio noise floor is presented for urban, suburban and rural areas within New Zealand for the purposes of characterisation and trend monitoring by radio spectrum managers. Flux density measurements in bands within a range of frequencies from 80 MHz to 8 GHz have been made in urban, suburban and rural areas of New Zealand during 2007 and 2008. An analysis of the band occupancy is presented in summary form. These summaries are intended as a starting point for radio spectrum usage and can be used as a reference for any future measurements. A description of the computer directories and charts resulting from these measurements, using 20 MHz bandwidths have also been included. All the results for the work have been collated in a set of computer directories named “NZRFI Directories 2007 2008”, which are intended as a reference for use in the determination of local activity in particular frequency ranges. A disc with the full range measurement spectral density charts and channel occupancy charts accompanies this work. Also included on the disc are sets of 20 MHz band charts for some urban, suburban and rural location measurements.
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Characterisation of the radio noise environment in New ZealandBanks, Paul Russell January 2009 (has links)
A methodology for the measurement of the radio frequency environment close to the radio noise floor is presented for urban, suburban and rural areas within New Zealand for the purposes of characterisation and trend monitoring by radio spectrum managers. Flux density measurements in bands within a range of frequencies from 80 MHz to 8 GHz have been made in urban, suburban and rural areas of New Zealand during 2007 and 2008. An analysis of the band occupancy is presented in summary form. These summaries are intended as a starting point for radio spectrum usage and can be used as a reference for any future measurements. A description of the computer directories and charts resulting from these measurements, using 20 MHz bandwidths have also been included. All the results for the work have been collated in a set of computer directories named “NZRFI Directories 2007 2008”, which are intended as a reference for use in the determination of local activity in particular frequency ranges. A disc with the full range measurement spectral density charts and channel occupancy charts accompanies this work. Also included on the disc are sets of 20 MHz band charts for some urban, suburban and rural location measurements.
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Beamforming for radio astronomyVan Tonder, Vereese 12 1900 (has links)
Thesis (MEng) -- Stellenbosch University, 2014. / ENGLISH ABSTRACT: Beamforming is a technique used to combine signals from an array of antennas to effectively
synthesize a single aperture and beam. In the Radio Astronomy community the
technique is used to obtain a desirable beam pattern as well as to electronically point the
beam of an array. Next generation radio telescopes such as the Square Kilometre Array
(SKA) surpass current technology and will extensively make use of beamforming techniques.
Various factors determine the output of a beamformer; however, given an array with a
fixed configuration only the weights applied to the incoming signals affect the synthesized
aperture and beam. Furthermore, the incoming data must be processed in real-time, at a
rate equal to the input-output rate of the processor. Both the weighting function and the
real-time implementation of beamforming, are the primary subjects of this thesis.
In this thesis various deterministic weighting functions are investigated. The algorithms
are implemented in a matlab program, serving as a simulation tool for investigating the
techniques. The program is verified by comparing the expected theoretical outcomes to
the simulated output. For the program the following functionalities are included: a steering
technique, spectral weighting, Dolph-Chebychev, and the Least Square Error algorithm. Applications
of these techniques is investigated and their prominence in the Radio Astronomy
community is established.
For the real-time beamformer implementation, the UniBoard platform configured with
beamformer firmware, is investigated. This is important as the UniBoard is an excellent
example of a beamformer implementation within the Radio Astronomy community. The
architecture is used to emulate a linear array by implementing a python control script,
where the output corresponded accurately with the expected theoretical values.
The thesis also constitutes the design and implementation of a digital frequency domain
beamformer on the ROACH board. This processing board is employed by the Karoo Array
Telescope (KAT-7) in South Africa. This work is therefore important as it demonstrates a
beamformer implementation on an architecture in use by the Radio Astronomy community.
An antenna array is designed and built for the verification of the beamformer design. Results
with a good degree of accuracy were obtained and where errors exist they are discussed. / AFRIKKANSE OPSOMMING: Bundelvorming is ’n tegniek waarmee die seine van ’n antenna samestelling gekombineer
word om ’n enkele effektiewe stralingsvlak en stralingspatroon te sintiseer. In die Radio Astronomie
gemeenskap word die tegniek gebruik om ’n gewenste stralingspatroon te sintiseer
sowel as om die rigting van die patroon elektronies te beheer. Die Square Kilometre Array
(SKA) is ’n toekomstige radioteleskoop en sal grootliks gebruik maak van bundelvorming
tegnieke.
Die uitset van bundelvormers word geaffekteer deur verskeie faktore, maar vir ’n gegewe
samestelling is dit net die gewigsfunksies wat toegepas word op die inkomende seine wat
die gesintiseerde patroon kan beheer. Verder moet die inkomende data verwerk word teen
’n tempo gelykstaande aan die inset-en-uitsetkoers van die verwerker. Die gewigsfunksie so
wel as die implementasie van die bundelvormer is albei primêre onderwerpe van die tesis.
’n Verskeindenheid van deterministiese bundelvormingstegnieke sal ondersoek word in
hierdie tesis. Die algoritmes is in ’n matlab program geïmplementeer vir simulasie doeleindes.
Die program is geverifieër deur die uitset te vergelyk met die verwagte teoretiese
waardes. Die program sluit die volgende funksies in: ’n rigting beheer algoritme, spektraalgewigte,
Dolph-Chebychev, en die minste vierkantsfout algoritme. Hierdie tegnieke is van
belang weens hul toepassing in die Radio Astronomie gemeenskap.
Vir die implementasie van ’n bundelvormer is die UniBoard hardeware, geprogrameer in
’n bundelvormings modus, van gebruik gemaak. Hierdie aspek is belangrik omdat die Uni-
Board ’n goeie voorbeeld van ’n geïmplementeerde bundelvormer in die Radio Astronomie
gemeenskap is. Die UniBoard word gebruik om ’n lineêre samestelling te emuleer deur in
python ’n beheer skrip te skryf, waar die uitset van die emuleerder akkuraat ooreenstem
met die verwagte waardes.
Die tesis behels ook die ontwerp en implementasie van ’n digitale frekwensiegebied bundelvormer
op die ROACH platform. Hierdie verwerker word tans gebruik in die Karoo Array
Telescope (KAT-7) in Suid-Afrika. Hierdie werk is dus belangrik omdat dit die implementasie
van ’n bundelvormer op tegnologie wat huidiglik in die Radio Astronomie gemeenskap
gebruik word demonstreer. Daarbenewens is ’n antenna samestelling ontwerp en gebou om
die bundelvormer te verifieër. Die resultate is akkuraat tot ’n redelike mate. Waar daar ’n
fout onstaan het word dit in die tesis bespreek.
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Wide band, low-noise amplifiers for the mid-range SKABotes, Dewald Alewyn 03 1900 (has links)
Thesis (MEng)--Stellenbosch University, 2015. / ENGLISH ABSTRACT: This thesis presents the design, construction and measurement of two wide-band LNA’s for the
SKA-Mid range (350-1200 MHz). The first wide-band LNA involves the investigation of classic
low noise amplifier techniques, which includes basic noise theory, stability analysis, feedback
design and the development of sophisticated matching techniques for ultra wide-band performance.
Final measurements show a flat gain response equal to 19 dB, with a noise figure of 1.5
dB and an output return loss of 10 dB across the entire bandwidth.
A multi-path cascading concept is introduced for the second low noise amplifier design, which
aims to connect two single frequency amplifiers in parallel to operate from 500 to 700 MHz. The
design process involves several optimization schemes to realise the matching networks for the
cascaded topology and the noise performance of the device was confirmed by using multi-port
noise theory. The prototype presents significant bandwidth improvements compared to a single
frequency LNA design. Excellent agreement between the simulation and measurement were
obtained with a flat gain response of 20 dB across a 2:1 bandwidth, with a low noise figure of
0.95 dB and an output return loss of 13 dB across the operation bandwidth of 400 to 800 MHz. / AFRIKAANSE OPSOMMING: Hierdie tesis behandel die ontwerp, konstruksie en meting van twee wyeband laeruis versterkers
vir die SKA - Mid reeks (350–1200 MHz). Die eerste wyeband laeruis versterker, ondersoek
klassieke laeruis versterker tegnieke wat insluit basiese ruisteorie, stabiliteit analise, terugvoerontwerp
en die ontwikkeling van gevorderde aanpassingstegnieke vir ultra wyeband werkverrigting.
Finale metings het ’n plat aanwins van 19 dB, met ’n ruisfiguur van 1.5 dB en ’n uittree-refleksie
koëffisiënt van -10 dB oor die hele bandwydte vertoon.
’n Multi-pad konsep word bekend gestel vir die tweede laeruis versterker. Die ontwerp het twee
enkel frekwensie laeruis versterkers in parallel verbind om vanaf 500 tot 700 MHz te werk. Die
ontwerp proses bevat verskeie optimalisering skemas om die aanpassings netwerke vir die kaskade
topologie te realiseer. Die ruissyfer van die versterker is bevestig deur die gebruik van multi-pad
ruisteorie. Die prototipe het beduidende bandwydte verbeterings vertoon in vergelyking met ’n
enkel frekwensie versterker ontwerp. ’n Uitstekende ooreenkoms tussen die simulasie en meting
was verkry met ’n plat aanwins van 20 dB oor ’n 2:1 bandwydte, met ’n laeruisfiguur van 0.95
dB en ’n uittree-refleksie koëffisiënt van -13 dB oor die bandwydte van 400-800 MHz.
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The nature of the microjy source populationOcran Emmanuel Francis January 2015 (has links)
Masters of Science / The study of the faint radio universe and of its properties has recently become a very active field of research not only because of the much improved capabilities of the SKA pathfinders but also because of the need to better plan for SKA surveys. These new facilities will map large areas of the sky to unprecedented depths and transform radio astronomy into the leading technique for investigating the complex processes which govern the formation and evolution of galaxies. This thesis combines multi-wavelength techniques, highly relevant to future deep radio surveys, to study the properties of faint radio sources. The nature of the faint radio sources is presented, over a large GMRT survey area of an area of 1.2 deg2 comprising 2800 sources. Utilising multi-wavelength data we have matched 85% of the radio population to Spitzer/IRAC and obtained a redshift estimate for 63%. The redshift associations are a combination of photometric and spectroscopic redshift estimates. This study investigates several multi-wavelength diagnostics used to identify AGN, using radio, infrared, optical and x-ray data . This analysis shows that various diagnostics (from the radio through the X-ray ones) select fairly different types of AGNs, with an evidence of a disagreement in the number of AGNs selected by each individual diagnostics. For the sources with redshift we use a classification scheme based on radio luminosity, x-ray emission, BOSS/SDSS spectroscopy, IRAC colors satisfying the Donley criterion, and MIPS 24ɥm radio-loud AGN criteria to separate them into AGNs and SFGs. On the basis of this classification, we find that at least 12.5% of the sources with redshifts are AGNs while the remaining 87.5% are adopted as SFGs. We explore the nature of the classified sources through the far-infrared radio correlation. We measure a median qIR value of 2:45± 0:01 for the SFGs and qIR value of 2:27 ± 0:05 for the AGNs. The decrease in the median value of qIR for the AGNs is a result of the additional AGN component to radio emission for the AGN-powered sources and find tentative evidence of an evolution of the qIR with redshift.
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