Global ETD Search

201	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
202	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
203	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
204	Hur bildas svarta hål? : Neutronstjärnor, kaonkondensation och dess konsekvenser och Minihål på jorden? Höglund Aldrin, Ronja January 2008 (has links) Med utgångspunkt från den teoretiska bakgrunden, definitionen av svarta hål och deras generella egenskaper har jag studerat villkor för bildandet av svarta hål från döende singulära stjärnor. Supernovaprocessen beskrivs tillsammans med hur neutronstjärnor kan påverkas av destabiliserande mekanismer som t.ex. kaonkondensation. Olika observationer samt alternativa teorier läggs fram som argument och motargument. Utifrån detta underlag drar jag slutsatsen att svarta hål kan existera i fler varianter än vad som hittills antagits, främst i form av s.k. lågmassiva svarta hål på 1,5-1,8 Msol. Vidare skildras möjligheten att producera mikroskopiska svarta hål i LHC-acceleratorn (Large Hadron Collider) i CERN, de kontroverser som omgärdar detta fenomen och de kunskaper som skulle kunna vinnas från kontrollerade observationer av sådana objekt. Den generella slutsatsen här är det ofrånkomliga mötet mellan partikelfysik och astrofysik för att få tillgång till de allra djupaste insikterna om det universum vi lever i. / Building on the theoretical background, definition of black holes and their general characteristics, I have studied some conditions for the formation of black holes from dying singular stars. The supernova process is described along with the influence on neutron stars by destabilising mechanism such as kaon condensation. Various observations as well as alternative theories are presented for argumentation. From this material I draw the conclusion that black holes can exist in more varieties than has been previously assumed, foremost in the shape of low-massive black holes with masses between 1.5 and 1.8 Msun. Furthermore the possibility to produce microscopic black holes in the LHC accelerator (Large Hadron Collider) at CERN is portrayed, together with the controversies that currently surround this phenomenon and the knowledge that could be won from controlled observations of such objects. The general conclusion here is the unavoidable meeting between particle physics and astrophysics in order to access the deepest insights about the Universe we inhabit. svarta hål neutronstjärnor supernova kaonkondensation rumtid minihål LHC Astronomy, Astrophysics and Cosmology Astronomi, astrofysik och kosmologi
205	Sources of Dust Extinction in Type Ia Supernovae : Measurements and constraints from X-rays to the Infrared Johansson, Joel January 2015 (has links) The use of Type Ia supernovae (SNe Ia) as distance indicators is essential for studying the expansion history of the Universe and for exploring the nature of dark energy. However, a lack of understanding of the progenitor systems and the empirically derived colour-brightness corrections represent severe limitations for SNe Ia as cosmological probes. In this thesis, we study how dust along the line of sight towards SNe Ia affects the observed light over a wide range of wavelengths; from X-rays to infrared. Unless properly corrected for, the existence of intergalactic dust will introduce a redshift dependent magnitude offset to standard candle sources and bias the cosmological parameter estimates as derived from observations of SNe Ia. We model the optical extinction and X-ray scattering properties of intergalactic dust grains to constrain the intergalactic opacity using a combined analysis of observed quasar colours and measurements of the soft X-ray background. We place upper limits on the extinction AB(z = 1) < 0.10 - 0.25 mag, and the dust density parameter Ωdust < 10−5 − 10−4 (ρgrain/3 g cm−3), for models with RV < 12 − ∞, respectively. Dust in the host galaxies, and dust that may reside in the circumstellar (CS) environment, have important implications for the observed colours of SNe Ia. Using the Hubble Space Telescope and several ground based telescopes, we measure the extinction law, from UV to NIR, for a sample of six nearby SNe Ia. The SNe span a range of E(B − V ) ≈ 0.1 − 1.4 mag and RV ≈ 1.5 − 2.7, showing a diversity of dust extinction parameters. We present mid- and far-infrared (IR) observations for a number of SNe Ia, obtained with the Herschel Space Observatory and Spitzer Space Telescope, addressing CS dust as an explanation for “peculiar” extinction towards some SNe Ia. No excess IR emission is detected, limiting CS dust masses, Mdust < 10−5 solar masses. In particular, the timely appearance of SN 2014J in M82 - the closest SN Ia in several decades - allows for detailed studies, across an unprecedented wavelength range, of its lightcurve and spectral evolution along with the host galaxy and CS environment. / <p>At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 5: Manuscript. Paper 6: Manuscript.</p> supernovae interstellar dust circumstellar dust cosmology Astronomy, Astrophysics and Cosmology Astronomi, astrofysik och kosmologi
206	The Galactic thick disk: a stellar population in its own right? / Galaxens tjocka disk: En stjärnfamilj i sin egen rätt? Rastau, Vlad January 2017 (has links) The Galactic disk is home of many billion stars, one of which isour Sun. The stellar population of which the Sun is a member residesin the vertically thin spiral structure of the disk. There is a seconddisk population, the so-called thick disk, that has somewhat dierentspatial, kinematic and chemical properties as compared to the thindisk. It may be systematically older than the thin disk (Bernkopf et al.2001), with a star-formation hiatus separating the two. Observationsof thick-disk subgiants allow us to probe the chemical properties ofthese stars. As the subgiant evolutionary phase is short, age-datingthese stars is also possible. Are they in fact systematically older thanthe oldest thin-disk stars? This project will take rst steps towardsanswering this question based on new target selections done on DataRelease 1 of the Gaia mission. / Vintergatans disk innehåller flera miljarder stjärnor, varav en är vår Sol. Den stjärnbefolkning som Solen är medlem i ligger i den vertikalt tunna spiralstrukturen på skivan (tunna disken). Det finns en andra diskpopulation, den så kallade tjocka disken, som har något annorlunda rumsliga, kinematiska och kemiska egenskaper jämfört med den tunna disken. Den kan vara äldren än tunna disken (Bernkopf et al. 2001), med en stjärnbildningsstopp som skiljer de två. Genom att observera subjättar som är en del av den tjocka disken blir det möjligt att analysera dessa stjärnors kemiska egenskaper. Eftersom subjätte grenen är en kort evolutionär fas, åldersbestämmelse är också möjlig för dessa stjärnor. Är de faktiskt systematiskt äldre än de äldsta tunna diskens stjärnor? Detta projekt kommer att ta de första stegen mot att svara på denna fråga baserat på nya målval som gjorts på Data Release 1 från Gaia-uppdraget. High resolution spectroscopy stellar atmospheres Galactic stellar populations Astronomy, Astrophysics and Cosmology Astronomi, astrofysik och kosmologi
207	The impact of stellar magnetic activity on the radial velocity search of exoplanets Wehrhahn, Ansgar January 2017 (has links) Radial velocity measurements are critical in finding and confirming exoplanets. To confine the parameters of the planet we naturally want to minimise the errors on the measurement. However the observed measurement error is now on the same order as the precision of the instrument. This so called jitter is related to the stellar activity (Wright 2005), i.e. the magnetic field of the star. In this paper we investigate if we can discover any correlation between the radial velocity variation and the magnetic activity of the star using HARPSpol spectra for the two stars Epsilon Eridani and GJ674. astronomy exoplanets radial velocity magnetic fields Astronomy, Astrophysics and Cosmology Astronomi, astrofysik och kosmologi
208	Molecular gas around the binary star R Aquarii Olander, Terese January 2017 (has links) At the end of the lives of low- to intermediate mass stars they can be found on the asymptotic giant branch (AGB). The AGB phase ends when the entire circumstellar envelope (CSE) is blown away in a superwindphase, in the end creating a planetary nebula. It is unknown what shapes the CSE and the planetary nebula. Binarity is a favored theory. In order to test this theory the CSE around the star R Aquarii has been studied using the emission from different molecules observed with ALMA. R Aquarii is a nearby binary system and therefore easy to study. The system consists of a Mira variable on the AGB and a hot white dwarf. It was found that only in the emission from the 12CO J=3–2 transition were the CSE resolved enough for any structure to be seen. The morphology was irregular and no clear symmetry was seen. A spot in the same molecular line was detected at high velocities (v = -23 km/s) relative to the star at a projected distance of 7 arcsec south of R Aqr. Line profiles for 12CO and 13CO follow the same shape but differs in magnitude, indicating that they can be found in the same structure. A mass loss rate of 6.5·10-7 solar masses per year was calculated for R Aquarii using line intensities obtained from the line profile of 12CO. The morphology and kinematics of the CO CSE of R Aquarii are discussed within the limitations of the current data set. More observations with better resolution are needed to better understand the morphology of the CSE of R Aquarii and draw firm conclusions. R Aquarii R Aqr circumstellar envelope CSE CO Astronomy, Astrophysics and Cosmology Astronomi, astrofysik och kosmologi
209	Searching for dark matter in the Galactic Halo with IceCube using high energy cascades Flis, Samuel January 2017 (has links) The presence of dark matter is inferred at scales ranging from rotations of galaxies to imprints in the CMB – the Big Bang after-glow. The nature of dark matter is, however, still unknown as no detection other than the gravitational one has been made. This thesis presents two analyses searching for a neutrino signal from dark matter annihilations in the Milky Way. The first analysis searched for an excess of νμ charged current events with directions from the central region of the dark matter halo and, was focused on low energy events, thus probing low dark matter particle masses. Approximately 319 days of data collected with the 79-string configuration of the IceCube detector was used in the analysis. Despite a large deficit in the number of observed events the data were found to be consistent with background and upper limits were set on <σⱴ>. At the time of the analysis these limits were the strongest set by a neutrino experiment below 100 GeV. The second analysis was performed on a data sample originally used in an unfolding analysis of the atmospheric and astrophysical neutrino spectra. The data consisted of contained cascade events above 1 TeV collected with the 79-string configuration and the completed detector in the 86-string configuration during two years of data-taking. The limits set by this analysis were more constraining by up to a factor of 10 compared to previous IceCube analyses, and the most competitive limits are set assuming a Burkert halo profile. These two analyses prompted the development of a signal subtraction likelihood method to address the problem of signal contamination in background estimates based on scrambled data. Additionally a study concerning future extensions of IceCube in the Gen2 project is presented. The cascade reconstruction performance was examined and compared for different proposed detector extensions. IceCube neutrino dark matter halo Milky Way Astronomy, Astrophysics and Cosmology Astronomi, astrofysik och kosmologi
210	Conditions for detecting population III galaxies with next-generation telescopes Fransson, Emma January 2019 (has links) Through the spectral synthesis model YGGDRASIL, developed by E. Zackris- son et al. 2011, luminosities for the chemically pristine population III galaxies are retrieved and compared to the capabilities of the upcoming infrared telescopes, in particluar the Wide Field InfraRed Survey Telescope (WFIRST). In order to push the very faint galaxies into the detectable regime of the telescope, magnification by gravitational lensing needs to be introduced. The probabilities for the nec- essary magnifications at different redshifts in combination with the depth of the telescope are translated into required minimum number densities and minimum formation rates for detecting one object per survey area. Both photometric and spectroscopic detections are investigated and compared to limits predicted by theory. Three different initial mass functions (IMF) for the stars that make up the galaxy are used, two that are top-heavy, i.e centers around stellar masses of 10 − 500M⊙, and one that resembles the IMF that are used for stars of younger generations, with its distribution peak at below one solar mass. The most optimistic results comes from the model that focusses on a galaxy of very heavy stars (with a total galaxy mass of 105 − 106M⊙), that yields minimum number densities for photometric detection at z > 10 that are lower or comparable to what has been predicted by theory. When the calculations are concerned with spectroscopy, the minimum number densities goes up and very massive galaxies (107M⊙) are required to reach the predicted limits at z > 10 and to enable detection by WFIRST. A comparison between the upcoming infrared telescopes; WFIRST, James Webb Space Telescope (JWST) and Euclid, are performed with WFIRST as the strongest candidate for photometry and JWST as the preferred instrument for spectroscopy, with a strong dependence on the survey area. population III stars galaxies WFIRST Astronomy, Astrophysics and Cosmology Astronomi, astrofysik och kosmologi

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