Global ETD Search

131	Spectral Properties of Type Ia Supernovae and Implications for Cosmology Nordin, Jakob January 2011 (has links) Type Ia supernovae can, for a short period of time, reach the same brightness as an entire galaxy. They are responsible for the creation of a large fraction of all heavy elements and can be used, as standard candles, to prove that the expansion of the universe is accelerating. Yet, we do not fully understand them. A basic picture where Type Ia supernovae are caused by thermonuclear explosions of white dwarfs is generally accepted, but the details are still debated. These unknowns propagate into systematic uncertainties in the estimates of cosmological parameters. A Monte Carlo framework, SMOCK, designed to model this error propagation, is presented. Evolution with time/distance and the nature of reddening are studied as the dominant astrophysical uncertainties. Optical spectra of Type Ia supernovae contain a wealth of information regarding the nature of these events, and can be used both to understand supernovae and to limit the systematic uncertainties in cosmological parameter estimates. We have reduced spectra observed with the Nordic Optical Telescope and the New Technology Telescope in conjunction with the SDSS-II supernova survey, and compared spectral properties (pseudo-Equivalent Widths and line velocities) of this sample with local supernovae.We have further studied possible systematic difficulties in such comparisons between nearby and distant supernovae, caused by noise and host galaxy contamination.Taking such uncertainties into account, we find a tentative evolution in supernova properties with redshift, compatible with expected demographic changes. Correlations with light curve shape found by other studies are confirmed. A tentative correlation with light curve colour is also presented. The latter could indicate an intrinsic component of the observed reddening, i.e. independent of interstellar dust in the host galaxy. / At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 4: Accepted. cosmology spectroscopy supernovae Physics Fysik Cosmology Kosmologi Extragalactical astronomy Extragalaktisk astronomi
132	ALTO Timing Calibration : Calibration of the ALTO detector array based on cosmic-ray simulations Tsivras, Sotirios-Ilias January 2019 (has links) This thesis describes a timing calibration method for the detector array of the ALTO experiment. ALTO is a project currently at the prototype phase that aims to build a gamma-ray astronomical observatory at high-altitude in the Southern hemisphere. ALTO can be assumed as a hybrid system as each detector consists of a Water Cherenkov Detector (WCD) on top of a Scintillator Detector (SD), providing an increased signal to background discrimination compared to other WCD arrays. ALTO is planned to complement the Very-High-Energy (VHE) observations by the High Altitude Water Cherenkov (HAWC) gamma ray observatory that collects data from the Northern sky. By the time the full array of 1242 detectors is installed to the proposed site, ALTO together with HAWC and the future Cherenkov Telescope Array (CTA) will serve as a state-of-the-art detection system for VHE gamma-rays combining the WCD and the Imaging Atmospheric Cherenkov Telescope (IACT) techniques. When a VHE gamma-ray or cosmic-ray enters the Earth’s atmosphere, it initiates an Extensive Air Shower (EAS). These particles are sampled by the detector array and by checking the arrival times of nearby tanks, the method reveals whether a detector suffers from a time-offset. The data analyzed in this thesis derive from CORSIKA (COsmic Ray SImulation for KAscade) and GEANT4 (GEometry ANd Tracking) simulations of cosmic-ray events within the energy range of 1–1:6TeV, which mainly consist of protons. The high flux of this particular type of cosmic-rays, gives us a tool to statistically evaluate the results generated by the proposed timing calibration method. In the framework of this thesis, I have written code in Python programming language in order to develop the timing calibration method. The method identifies detectors that suffer from time-offsets and improves the reconstruction accuracy of the ALTO detector array. Different Python packages were used to execute different tasks: astropy to read filter-present-write large datasets, numpy (Numerical Python) to make datasets comprehensiveto functions, scipy (Scientific Python) to develop our models, sympy (Symbolic Python) to find geometrical correlations and matplotlib (Mathematical Plotting Library) to draw figures and diagrams. The current version of the method achieves sub-nanosecond accuracy. The next stepis to make the timing calibration more intelligent in order to correct itself. This self correction includes an agile adaptation to the data acquired for long periods of time, in order to make different compromises at different time intervals. ALTO Cosmic-Rays Water Cherenkov Detector Python Astronomy, Astrophysics and Cosmology Astronomi, astrofysik och kosmologi
133	Implementing a pipeline to search for transiting exoplanets : application to the K2 survey data Weishaupt, Hrafn N. H. January 2018 (has links) The detection of exoplanets has rapidly evolved to one of the most important frontiers of astronomical and astrophysical research. The recent decades have seen the development of various techniques for detecting exoplanets. Of these approaches the transit method has received particular interest and has lead to the largest number of discoveries to date. The Kepler K2 mission is an ongoing observational survey, which has generated light curves for thousands of stars, a large fraction of which have yet to be fully explored. To discover and characterize the transiting planets hosted by the respective stars, extensive transit screens are required. However, implementing a pipeline for transit analyses is not straight forward, considering the light curve properties of different survey, the rapid changes brought by technological advancements, and the apparent lack of a golden standard with respect to the applied methodology. The project has reviewed several aspects of exoplanet detection via the transit method. Particular focus was placed on the identification of a suitable workflow covering the relevant steps to move from raw light curve files to a final prediction and characterization of transiting planetary candidates. Adhering to the identified strategy, the major part of the project then dealt with the implementation of a pipeline that integrates and executes all the different steps in a streamlined fashion. Of note, primary focus was placed on the actual selection and implementation of methods into an operational pipeline, but due to the given time constraints extensive optimizations of each individual processing step was outside the scope of this project. Nevertheless, the pipeline was employed to predict transit candidates for K2 campaigns C7, C8, C10, C11, and C12. A comparsion of the most conservative predictions from campaigns C7 and C10 with previously reported exoplanet candidates demonstrated that the pipeline was highly capable of discovering reliable transit candidates. Since campaigns C11 and C12 have not yet been fully explored, the respective candidates predicted for those campaigns in the current project might thus harbour novel planetary transit candidates that would be suitable for follow-up confirmation runs. In summary, the current project has produced a pipeline for performing transiting exoplanet searches in K2 data, which integrates the steps from raw light curve processing to transit candidate selection and characterization. The pipeline has been demonstrated to predict credible transit candidates, but future work will have to focus on additional optimizations of individual method parameters and on the analysis of transit detection efficiencies. Exoplanet detection Transiting exoplanet Transit method Kepler K2 Astronomy, Astrophysics and Cosmology Astronomi, astrofysik och kosmologi
134	Hunting for Dark Stars with the James Webb Space Telescope Nittler, Josefine January 2018 (has links) The ﬁrst stars in the Universe are thought to have formed in high dark matter density minihalos about 200 million years after the Big Bang. If these stars were able to contract dark matter into their stellar core while forming, some of them might have turned into dark stars (DSs) powered by the heat from dark matter annihilation. The possibilities for detection of DSs with the upcoming James Webb Space Telescope (JWST), scheduled for launch in 2021, is investigated in this work. With DS models generated in Spolyar et al. (2009) and atmosphere spectra from Gustafsson et al. (2008), spectral analysis has been carried out in MATLAB to ﬁnd the unique colors of DSs compared to galaxies generated in Zackrisson et al. (2017) at z ≈ 7 − 11. It was found that lower temperature DSs (Teff ≤ 7800K) are distinguishable from galaxies and that they would be bright enough to be detected with the JWST provided a magniﬁcation factor of µ ≈ 160−1000 with the use of gravitational lensing. More recent DS models reveal that the DS of temperature Teff = 7800K is detectable even without the use of gravitational lensing. However, the probability of ﬁnding one today is really small due to DSs’ presumably short lifetime. The results of this work are hoped to give a better understanding of the properties of DSs and to increase the probability of ﬁnding one in the large imaging survey carried out by the JWST. / De första stjärnorna i universum antas ha bildats i minihalos med hög densitet av mörk materia omkring 200 miljoner år efter Big Bang. Om dessa stjärnor kunde dra till sig mörk materia under sitt bildande kan vissa av dem ha utvecklats till mörka stjärnor (s.k. dark stars) med mörk materia som energikälla. I detta arbete undersöks möjligheterna att upptäcka dem med det kommande James Webb Space Teleskopet (JWST) som planeras för uppskjutning år 2021. Med dark starmodeller genererade i Spolyar et al. (2009) och atmosfärspektra från Gustafsson et al. (2008) har spektralanalys utförts i MATLAB för att hitta vilka dark stars som går att urskilja från galaxer genererade i Zackrisson et al. (2017) vid z ≈ 7−11. Det visade sig att dark stars med låg temperatur (Teff ≤ 7800K) är urskiljbara och att de ﬂesta av dessa dark stars, vid en förstoringsfaktor av µ ≈ 160−1000 vid användning av gravitationell linsning, är tillräckligt ljusstarka för att kunna detekteras. Jämfört med senare dark star-modeller skulle även Teff = 7800K DSs kunna detekteras utan användning av gravitaionell linsning. Sannolikheten att hitta en dark star är fortfarande väldigt liten på grund av dess förmodade korta livstid. Resultaten av detta arbete hoppas kunna ge en bättre förståelse för egenskaperna hos mörka stjärnor samt öka sannolikheten för detektion med JWST. Dark stars James Webb Space Telescope JWST Astronomy, Astrophysics and Cosmology Astronomi, astrofysik och kosmologi
135	Gotlands hällristningar : En analytisk tolkning av motiven och placeringen i landskapet. / The rock carvings on Gotland : An analytical interpretation of the images and placement in the landscape. Bergqvist, Emma January 2018 (has links) The rock carvings in southern Scandinavia are an important part of Bronze Age research and the Scandinavian cultural heritage. There are three known sites with rock carvings on the island of Gotland. They are located in the parishes of Lärbro, Fårö, and Lye. The rock carvings on Gotland has been somewhat forgotten and are not a big part of research regarding the Bronze Age on Gotland. The aim of this thesis is to analyse the images on the rock carvings as well as analyse their placements in the landscape, both the natural and the cultural. The images will be analysed and possible interpretations of them will be discussed individually and together. Their relation to other ancient monuments and archaeological features will also be analysed. Each area’s cultural landscape where the rock carvings are present will be presented and compared with the other sites on Gotland. The result of this thesis shows that the rock carvings in Lärbro and Fårö are similar in both images and placement in the landscape. Ships, cupmarks, and weapons are among images carved at both sites. They both have a connection to fresh water and are in close proximity to stone ships. These two rock carving sites show a connection to the sea and a maritime identity in both their images and the surrounding cultural landscape. The rock carving in Lye has a smaller number of images, only cupmarks and a pair of foot soles. It is located in a different landscape which does not exhibit a connection to water in any way but instead shows a link to the land. This indicates that the rock carvings on Gotland had a connection to both the water and the land. Rock carvings Gotland Bronze Age landscape analysis cosmology Hällristningar Gotland bronsålder landskapsanalys kosmologi Archaeology Arkeologi
136	Problematik vid undervisning av astronomi i skolan : En litteraturstudie om elevers svårigheter i samband med astronomiundervisningen i skolan (åk 4–6) och hur dessa kan lösas / Problems when teaching astronomy in school : A literary review regarding pupils’ difficulties when teaching astronomy in elementary school, (Grade 4-6), and possible solutions. Nilsson, Patrik, Söder Jansson, Lucas January 2017 (has links) Syftet med denna konsumtionsuppsats var att genom en systematisk litteraturstudie, undersöka vad forskningen har att säga om problematik och lösningar med avseende på undervisning inom astronomi i skolan, med inriktning på årskurs 4–6. Vi använde oss av såväl databassökningar som manuella sökningar. Vi utgick från två frågeställningar: 1) Vilka problem kan uppstå när man undervisar inom astronomi? 2) Hur löser man dessa problem? Resultaten visade att ett stort hinder vid undervisningen inom astronomi beror på missuppfattningar och bristande kunskaper, både hos elever och lärare. Därför är det viktigt att kunna synliggöra och hantera missuppfattningar, genom olika metoder och strategier till exempel genom att gå från mindre delar till helhet. Detta är enligt forskningen något vi som lärare bör ha i åtanke när vi planerar vår undervisning i astronomi. astronomi missuppfattningar visuellt tänkande grundskola begrepps-orienterad inlärning svårigheter instruktionsmodeller Astronomy, Astrophysics and Cosmology Astronomi, astrofysik och kosmologi
137	Ionospheric model of comet 67P including the effect of solar EUV attenuation Scheutwinkel, Kilian Hikaru January 2018 (has links) Comets are the most active around their perigees. The increased outgassing can lead to a coma thick enough to effectively absorb the solar EUV radiation, which engenders a self-shielding comet nucleus and inner layers of the ionosphere. This effect of self-shielding can be calculated by the attenuation of the sunlight according to the Beer-Lambert law. Here we focus on the perihelion of comet 67P/Churyumov-Gerasimenko, the target comet of the ESA Rosetta mission. We calculate attenuated photoionization frequencies and implement these into an ionospheric model constructed in a recent project work (by the same author). The ionization frequencies and ion number densities are calculated as a function of cometocentric distance and compared with the latest published peer-reviewed article by Heritier et al. (2017). Overall, the agreement is fairly good. The most significant difference is the discrepancy of number densities of O2 ions, which is higher in our model by nearly an order of magnitude. This discrepancy is attributed to the fact that Heritier et al (2017) only considered charge transfer processes for the formation of O2+, while we identify photoionization of O2 as the main production mechanism. ionosphere comet 67P/CG Rosetta Astronomy, Astrophysics and Cosmology Astronomi, astrofysik och kosmologi
138	Evaluation Analysis of the UV-detector on the Mini-EUSO Space Telescope Lukanovic, Matej January 2018 (has links) Extragalactic charged particles, each with energies rising up to and beyond 1 Joule, have been studied for almost a century. Yet, no precise evidence have proven to show where they might originate from as their energy levels rise above the current familiar acceleration sources in outer space. The highly energetic particles have been given the name Ultra-High Energy Cosmic Rays (UHECR) and investigations of particle properties such as primary energy, mass composition and direction can be made through indirect measurements of the interaction between the UHECR and Earth's atmosphere. The considered interaction induces an Extensive Air Shower (EAS) which emits fluorescent light in the Ultraviolet (UV) range. The probability of detecting such events is, however, as low as a few particles per km2 per century. Making observations more sufficient therefore requires larger detection volumes. By introducing the Mini-EUSO instrument, a telescope of which the main purpose is to measure the UV-light radiated from the Earth in the wavelength range of 300-400 nm, allows just for this. To be accommodating the International Space Station and targeting Earth in the nadir direction, the Mini-EUSO instrument will allow for a higher exposure to the interactions than what is currently available. The use of two Fresnel lenses provides the instrument with a large field of view (±22o) and the detections are made through multiple photomultiplier tubes. The scope of this thesis is to evaluate the main detector of the Mini-EUSO instrument (i.e. the UV-detector) through ground-based tests. The procedures involved in the evaluation have consisted of; validating the statistical distributions of the signals, implementing dark field and flat field calibrations, and radiations measurements with three kinds of radiation sources. The data from the tests were provided during two periods and the visualization was made by adapting an already existing piece of code, using Python and ROOT Cern, to perform step by step procedures such that all operations are overlooked properly. The analysis showed that the implementation of the dark field and flat field procedures improved the original image significantly. It also showed that both the lower and higher photon count values in a pixel indeed gave the expected statistical behaviours, with a Poissonian distribution for low values and a Gaussian distribution for higher values. The flat fielding screen did however show unknown fluctuations in the emitted light and further tests have to be implemented to assure its functionality. Under proper covering, almost no dark current was found, however, observation tests showed that the borders of the Multi-Anode Photomultiplier Tubes (MAPMTs) gave higher photon count values than the center part even when they were emitted with Lambertian light. Mini-EUSO EUSO Space Telescope Astronomy, Astrophysics and Cosmology Astronomi, astrofysik och kosmologi
139	The Circumstellar Environment of Type Ia Supernovae Ferretti, Raphael January 2017 (has links) Type Ia supernovae (SNe Ia) have proven to be extremely useful for measuring cosmological distances and were used for the discovery of the accelerated expansion of the universe. Although thousands of SNe Ia have been observed to date, many questions surrounding the physics of the explosions and the nature of their progenitor systems remain unanswered. An notable property of many SNe Ia is the relation between extinction due to dust and their colour. For example SN 2014J, the nearest SN Ia in recent years, has an extinction relation which would be very unusual to observe in the Milky Way. One possible explanation to the peculiar extinction could be the presence of circumstellar (CS) dust surrounding the explosions. Incidentally, some proposed progenitor models of SNe Ia suggest that the explosions are surrounded by shells of matter, which could account for the unusual extinction. CS gas would be ionised, if it is exposed to the intense ultraviolet (UV) radiation of a SN Ia. The research presented in this thesis focuses on the search for CS gas by observing the effects of photoionisation on absorption lines commonly detected in optical spectra. Simple models suggest that the frequently studied sodium doublet (Na I D) should significantly decrease or even disappear if the gas is in the CS environment. Conversely, the absence of variations implies that the absorbing gas clouds must be far from the explosion, in the interstellar medium (ISM). To date, few SNe Ia have been shown to have variable absorption lines, to which we have added another case with SN 2013gh. Yet, we have also shown that most observations searching for variable absorption lines have been taken at too late phases, when most CS gas will have already been ionised. Setting out to obtain the earliest possible coverage of a SN Ia with high-resolution spectra, we have been able to set strong limits on the presence of CS gas surrounding SN 2017cbv. Along with evidence from other observational methods, these results have shown that there is little matter in the CS environments of SNe Ia, suggesting that the peculiar extinction likely results from the dust properties of their host galaxy ISM. Although the progenitor question cannot be resolved by these observations, nondetections of CS gas point to models which do not deposit large amounts of matter in their surroundings. / <p>At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 5: Submitted.</p> Type Ia supernovae extinction supernova cosmology Astronomy, Astrophysics and Cosmology Astronomi, astrofysik och kosmologi
140	Solsystemet Sakic, Azra January 2008 (has links) Vår världsuppfattning har förändrats genom seklerna. Den länge accepterade geocentriska teorin från antikens Grekland var att solen, planeterna och stjärnorna roterade kring jorden. Andra teorier var inte accepterade av varken kyrkan eller vetenskapen. På 1500-talet publicerades Kopernikus heliocentriska teori, som innebar att solen var i centrum och att jorden och de andra planeterna roterar kring den. Vad Kopernikus försökte åstadkomma var en enklare världsbild än grekernas komplicerade epicykelteori. Hans teori ansågs vara kontroversiell, särskilt eftersom den inte gav några särskilt bättre värden på planeternas positioner än den gamla teorin. Den som producerade de data som behövdes var Tycho Brahe, som i slutet av 1500-talet gjorde många upprepade observationer av planeternas lägen med hjälp av egenkonstruerade instrument på ön Ven. Efter hans död i början av 1600-talet fortsatte Brahes assistent Johannes Kepler med att utreda planeternas banor, vilket ledde till hans tre berömda lagar om planeternas rörelse. Lagarna var empiriska matematiska samband som således inte kunde förklara vad som styrde planetrörelsen. Utifrån Keplers lagar kunde därefter Isaac Newton förklara planeternas rörelse med hjälp av sin gravitationslag och de tre rörelselagarna. Med hjälp av Newtons formler så kunde man beräkna planeternas lägen på himlavalvet med godtycklig precision, och inte bara det: Newtons gravitationslag kunde på ett helt nytt sätt kombinera vardagens fall av ett äpple i en trädgård med hur planeterna rör sig utifrån en gemensam beskrivning. Denna uppsats kommer att ta upp Keplers och Newtons lagar mer detaljerat och även redogöra för den moderna kunskapen kring solsystemets dynamik och uppbyggnad. / The view of how the Earth and the Sun move has changed through the ages. The idea that was “right", from the time of ancient Greece, was that the Earth was at the centre and everything revolved around it even if some facts were unexplained. It was in the middle of the 1500s that Copernicus developed the idea that Sun was in the centre and the Earth revolved around it. His theory was controversial, especially since it did not improve the positions of the planets very much. The person who provided the necessary data was Tycho Brahe. In the late 1500s he observed and logged the planetary positions for many years, using his own instruments on the island of Ven. His assistant Johannes Kepler then used the data to infer his three famous laws of planetary motion. Kepler could not explain why the planets moved according to the laws, since the latter were empirical. Isaac Newton could later on derive Kepler’s laws from his own gravitational law and three laws of motion, thereby confirming Kepler’s result. Newton also provided a great synthesis between local physics (the famous apple falling down) and celestial motion. This report will discuss the Kepler and Newton laws in more detail, as well as the modern view of the dynamics and structure of the solar system. astrnomi solsystemet planeter dvärgplaneter kometer solen asteorider Astronomy, Astrophysics and Cosmology Astronomi, astrofysik och kosmologi

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