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Polarization Vector Rotations: Real, Spurious, Hidden and ImaginaryLarionov, Valeri, Jorstad, Svetlana, Marscher, Alan, Smith, Paul 11 October 2016 (has links)
Large and variable polarization is an inherent property of a majority of blazars. Systematic rotations of the polarization vector have been claimed for several blazars. In some cases, however, the reality of these rotations may be questionable. We suggest an additional method for the verification of the reality of polarization position angle rotations based on the correlation of the normalized Stokes parameters.
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Μεταβλητότητα στο οπτικό μέρος του φάσματος του Blazar S51803+784Κουτουλίδης, Λάζαρος 27 May 2009 (has links)
Στόχος της παρούσης εργασίας είναι η διερεύνηση των μεταβολών της ροής της οπτικής ακτινοβολίας στα φίλτρα B, V, R στη διάρκεια μιας νύχτας του ενεργού γαλαξία S5 1803 + 784 με ανάλυση παρατηρήσεων που ελήφθησαν με το τηλεσκόπιο των1.3m του αστεροσκοπείου του Πανεπιστημίου Κρήτης (από τον Δρ. Παν. Μπούμη) με τη μέθοδο της συγκριτικής φωτομετρίας.
Στο πρώτο κεφάλαιο περιγράφονται τα γενικά χαρακτηριστικά των κανονικών γαλαξιών και του δικού μας γαλαξία, ενώ στο δεύτερο τα γενικά χαρακτηριστικά των ενεργών γαλαξιών ή ενεργών γαλαξιακών πυρήνων (AGN) - επειδή τα έντονα ενεργητικά φαινόμενα επικεντρώνονται στην κεντρική περιοχή του πυρήνα. Αναφέρεται η διάκρισή τους σε κατηγορίες με βάση τα παρατηρησιακά χαρακτηριστικά και εξετάζονται οι βασικές ιδέες που οδηγούν στο επικρατέστερο μοντέλο ενοποίησης, σχετικά με την ενεργειακή μηχανή τους καθώς και η εξέλιξη και τροποποίηση του με βάση τα νέα πειραματικά δεδομένα.
Το τρίτο κεφάλαιο επικεντρώνεται στα ιδιαίτερα χαρακτηριστικά των blazars στα οποία ανήκει ο S5 1803 + 784. Στο τέταρτο κεφάλαιο περιγράφονται συνοπτικά οι βασικές αρχές της φωτομετρίας αλλά και οι βασικές παράμετροι μιας CCD κάμερας.
Στο τέταρτο κεφάλαιο γίνεται μια βιβλιογραφική παρουσίαση του S5 1803 +784 σε όλα τα μέρη του φάσματος και περιγράφονται αναλυτικά οι παρατηρήσεις, τα αρχικά στάδια επεξεργασίας των αστρονομικών εικόνων και τα αναλυτικά στάδια της φωτομετρίας του γαλαξία με τις απαραίτητες διορθώσεις.
Τέλος στο έκτο κεφάλαιο κατασκευάζονται οι καμπύλες μεταβολής της ροής και σχολιάζονται τα αποτελέσματα
Ακολουθεί στο παράρτημα, η περιγραφή των προγραμμάτων και των διαδικασιών που χρησιμοποιήθηκαν τόσο στην ανάλυση όσο και στην φωτομετρία μέσω των αστρονομικών πακέτων IRAF και MIDAS , ως μικρός οδηγός για τους επόμενους ενδιαφερόμενους. / The main aim of this dissertation entitled “Variabillity in the optical band of blazar S51803+784” is the investigation of flux microvariability through observations carried out with the 1.3 m , Ritchey-Chretien telescope at Skinakas Observatory in Crete, Greece (by Associate Researcher P. Boomis of the Institute of Astronomy and Astrophysics of the National Observatory in Athens) in 2001 under the supervision of Lecturer Mrs E-P. Christopoulou (Physics Dept. University of Patras, Greece).
This work consists of six relatively distinct chapters. The first chapter summarizes the main characteristics of normal galaxies whereas the second one describes the various classes of Active Galactic Nuclei which emerge from multiwavelength studies and the unified model proposed to explain the energy source behind their taxonomy. The last section of this part focuses on the observational evidence of supermassive black holes.
The third chapter focuses on the special characteristics of the class named Blazars, the proposed theoretical models for the formation of jets and the observed microvariability thought the EM spectrum.
The fourth chapter describes the main philosophy of photometry, the comparison of differential and absolute photometry and the selection of photometric standard stars. The last part briefly presents the charge-coupled devices (CCDs) which are used to record astronomical images and their main properties.
The fifth chapter deals with the current observations of the Blazar S51803+784 and the standard image processing (bias substraction and flat fielding using twilight –sky exposures) applied to all frames before the performance of aperture photometry techniques which is described analytically in the rest part. The topics covered include methods for image center determination, routines for estimating the sky background and the techniques of both aperture and point-spread function fitting photometry. Procedures for transforming instrumental magnitudes to those on a standard system are also discussed.
The results based on the data reduction of the photometric observations of the object are presented in the last chapter together with the discussion and conclusions.
Finally in the Appendix there is a mini-guide for the beginner in order to be familiar with the format of the astronomical files, and the various astronomical packages and procedures being used for the above reduction.
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Modélisation dépendante du temps des blazars du TeV par un modèle de jet stratifié inhomogeneBoutelier, Timothé 15 May 2009 (has links) (PDF)
L'étude des mécanismes d'émission et de variabilité des blazars du TeV est l'objet d'intenses recherches depuis de nombreuses années. Les modèles courants d'émission une zone homogène utilisés posent de nombreux problèmes, notamment à cause des grands facteurs de Lorentz qu'ils requièrent et qui sont en contradiction avec les contraintes dérivées des observations radio des jets. Dans cette thèse je décris une approche multizone inhomogène dépendante du temps, dans le cadre du modèle du two-flow. Je calcule l'émission d'un jet complet, dans lequel se propagent des paires électron-positron relativistes distribuées en pileup. L'évolution et l'émission du plasma de paires est calculée en tenant compte d'un terme de chauffage turbulent, du refroidissement radiatif, ainsi que d'un terme de production de paires par photo-annihilation. Appliqué à PKS 2155−304, ce modèle permet de reproduire le spectre complet, ainsi que la variabilité simultanée multi longueur d'onde, avec un faible facteur de Lorentz. La variabilité est expliquée par l'instabilité de la création de paires dans le jet. La valeur du facteur de Lorentz est néanmoins trop élevée pour être en accord avec les observations radio et la statistique de détection de ces objet. Je montre à la fin de ma thèse, comment, en tenant compte de l'ouverture géométrique des jets, peut on réconcilier de grands facteur de Lorentz avec l'absence de mouvement superluminique observé en radio, ainsi que la relative abondance de ce type de source.
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Detection of Microvariability in a New Class of Blazar-Like AGNMaune, Jeremy 12 August 2014 (has links)
Recent research has lead to the possible discovery of a new class of gamma-ray emitting ac- tive galactic nuclei (AGN). These objects – the very radio-loud narrow-line Seyfert 1 galaxies (NLSy1s)– demonstrate observational features suggesting that they are similar to blazars. One of the key characteristics of blazars is the presence of high-amplitude optical microvariability. While this phenomenon has been investigated in individual objects, no study of the intra-night variability of radio-loud NLSy1s as a class has previously been available. This dissertation presents a sys- tematic search for optical variability in a sample of 33 radio-loud NLSy1s. It was found that 26 objects demonstrated microvariations. However, only 9 objects did so with duty cycles comparable to blazars, and only 7 of these 9 objects — J0706+3901, J0849+5108, J0948+0022, J1246+0238, PKS 1502+036, J1644+2619, and IRAS 20181-2244 — demonstrated microvariability at compa- rable amplitudes.
Two objects stand out as exceptional sources. J0849+5108 was found to have a duty cycle of ~90% and was observed to undergo an enormous 4-magnitude optical flare in a two-month time span. The object has not been reported to have undergone such an event since 1975. The second object, J0948+0022, is the class prototype. High cadence data indicates that J0948+0022 has a remarkably rapid doubling time scale of ~40 minutes, and it was seen to vary by over 0.9 magnitudes within an individual night. Attempts to correlate microvariability to radio loudness, gamma-ray loudness, and other parameters were largely unsuccessful. However, it was found that only radio-loud NLSy1s that were detected at gamma-ray energies demonstrated microvariability at blazar-like duty cycles. Additionally, an analysis of the frequency of microvariations at various amplitudes suggests that the sample of radio-loud NLSy1s presented in this study share a parent population identical to low energy peaked BL Lac-type (LBL) blazars. This is in agreement with the work of astronomers such as Abdo et al. 2009, who have created spectral energy distributions for a few radio-loud NLSy1s and found them to resemble those of LBLs. Blazar-like variability was found in multiple objects with radio loudnesses of log(R) < 2, suggesting that even moderately radio-loud NLSy1s may be blazar-like objects.
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Thermal emission signatures in non-thermal blazarsMalmrose, Michael Paul 07 December 2016 (has links)
Blazars, a subclass of active galactic nuclei with powerful relativistic plasma jets, are
among the most luminous and violently variable objects in the universe. They emit
radiation across the entire electromagnetic spectrum, and often change in brightness
over the course of hours or days. Different emission mechanisms are necessary in order
to explain the observed flux in different frequency ranges. In the ultraviolet-optical-
infrared regime these include components that arise from: 1) polarized synchrotron
radiation emanating from a powerful parsec-scale jet flowing from near the central
accreting black hole, 2) a multi-temperature accretion disk emitting thermal radia-
tion, and 3) an optically thick dusty torus located several parsecs from the central
engine that absorbs and re-emits, at infrared wavelengths, radiation originating in
the accretion disk. The goal of this study is to determine the relative importance
of these spectral components in the spectra of blazars. I use data from the Spitzer
Space Telescope in order to search for the presence of the dusty torus surrounding
four blazars, as well as to determine its luminosity and temperature. In two of the
observed sources, 1222+216 and CTA102, I determine that the torus can be modeled
as a 1200 K blackbody emitting at nearly 10 46 erg s −1 . Furthermore, I determine
the relative variability of the accretion disk of a sample of blazars by using spec-
tropolarimetry observations to separate the optical-UV spectrum into a polarized
viiicomponent, consisting of radiation described by a power-law F ν ∝ ν −α , and an ac-
cretion disk which consists of a thin disk described by the power-law F disk ∝ ν 1/3
plus a hot-spot of variable temperature. The spectra of several blazars are explained
by a version of this model in which the thin disk component is held constant, while
the blackbody varies on timescales of approximately years resulting with a flux of
the blackbody component comparable to the power-law disk component. I find that
variations in the emission from the hot-spot occurs approximately within 100 days
of γ-ray variations.
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Microvariability of the Blazar 3C279Clemmons, Hannah M 01 December 2010 (has links)
Active Galactic Nuclei (AGN) are some of the most extreme objects in the universe. They output copious amounts of energy spanning the entire electromagnetic spectrum. There are many different subclasses of AGN depending on your viewing angle. Blazars, viewing down the relativistic jet, are the most variable class of AGN known. They exhibit extreme variability in all wavelengths on timescales as short as minutes. In this thesis I will consider the extreme faintness of 3C279 with respect to the long-term light curve as well as recent observations of microvariability. I am able to confirm small amplitude events using simultaneous observations from two telescopes and cross correlation analysis. Transitory quasi-periodic oscillations are observed during two of the nights with confirmed microvariability.
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A multiwavelength investigation of blazar-type active galactic nuclei.Bastin, Fane Troy January 2013 (has links)
A multiwavelength investigation is conducted for nineteen blazar-type active galactic nuclei. Studies of variability timescales and flux duty cycles are performed at x- and gamma-rays for each source, with the relationship between flux and spectral index also being probed at gamma wavelengths. The correlation between these two energy ranges is also investigated, by utilising the Discrete Correlation Function with both one and ten day binning. The sources were chosen for their availability over a range of different x- and gamma-ray data sources: observations utilised include 0.2 - 150 keV x-ray data from the Swift mission and 200 MeV- 300 GeV gamma-ray data from the Fermi mission.
Daily-binned Fermi data is used to calculate the smallest rise and decay e-folding times in gamma for each source. The results range from 0.4 to 21 days, corresponding to limits on the size of the gamma emission region ranging from Rd^-1 = 4.39 x 10^12 to Rd^-1 = 5.14 x 10^14 m.
Flux duty cycles for fourteen sources are created from Fermi data, with six displaying structure at high fluxes that indicate flaring states have occured. Five of these six sources also display clear flares in their light curves, confirming these results. The relationship between the flux and the spectral index shows eight of nineteen sources exhibit harder-when-brighter behaviour. Four of these eight have been previously confirmed to display such behaviour.
Results from the Discrete Correlation Function show a correlation at a time lag of ~ 600 days for H 1426+428, of uncertain origin. Gaussian functions are fitted to possible near-zero peaks in 3C 66A, 3C 454.3 and Mrk 421, which could be indicative of a synchrotron self-Compton component to the emission of these objects.
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Analysis of Kepler Active Galactic Nuclei Using A Revised Kirk, Rieger, Mastichiadis (1998) ModelDhalla, Sarah M 12 June 2014 (has links)
Active Galactic Nuclei (AGN) are cores of distant protogalaxies, with a supermassive blackhole at the center surrounded by an accretion disk, and bipolar jets. Blazars, a subset of AGN, have their jets aligned with our line of sight. Emission from blazars is highly variable on all timescales and frequencies. Microvariability refers to rapid continuum variations that arise within the jet. Bhatta et al. (2013) suggest a modified Kirk, Rieger, \& Mastichiadis (1998) model (KRM) to explain microvariability. The KRM model assumes that when shock waves passes though the jet, each turbulent cell encountered produces a pulse of emission characterized by cell size, local density enhancement, and magnetic field strength. NASA's \kepler\ has monitored optical emission from four AGN. We use the modified KRM model to analyze micro-variations in these \kepler\ data. The distribution of cell sizes computed from these data is consistent with the distribution expected from a turbulent plasma.
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A Study on Active Galactic Nucleus VariabilityLingyi Dong (13157091) 26 July 2022 (has links)
<p>Active Galactic Nuclei (AGNs) are accreting supermassive black holes at the center of galaxies, known for rich spectral features and multi-time scale variability in their electromagnetic emission. The origin of the variability in AGN light curves can be either intrinsic, meaning related processes that take place inside the AGN system, or extrinsic, i.e., from the propagation of light towards Earth. In this dissertation, I present my work focusing on AGN variability. The first two works focus on the variability of blazars, a subclass of AGN with their relativistic jets beaming towards the observer. The first work combines 3D relativistic magnetohydrodynamics (RMHD) simulations with radiation transfer and shows the kink instability within the blazar jet can cause quasi-periodic radiation signatures within a typical period of time scales from weeks to months. The second work combines 2D Particle-in-Cell (PIC) simulations with radiation transfer and shows that isolated and merging plasmoids due to magnetic reconnection in a blazar environment could produce rich radiation and polarization signatures. The last work explores an extrinsic origin for AGN variability: a scenario in which interstellar medium (ISM) within our galaxy can refract light coming from AGNs. It suggests that plasma structures in ISM with an axisymmetric geometry can account for extreme scattering events (ESEs) in AGN observations. Future research directions include studies of the kink instability in jets that propagate in different environments and simulations of magnetic reconnection in 3D which may reveal additional particle acceleration mechanisms, which may play important role in the resulting radiation and polarization signatures. </p>
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A catalog of variable high-energy gamma-ray sources and prospects for polarization measurement with the Fermi Large Area TelescopeGiomi, Matteo 04 December 2017 (has links)
Das Fermi Large Area Telescope (LAT) ist ein satellitengestütztes Gammastrahlungs-Teleskop zur Messung von Gammastrahlung im Energiebereich zwischen ∼ 30 MeV und mehreren hundert GeV. Der Nachweis extraterrestrischer Gammastrahlung in diesem Energiebereich erlaubt Rückschlüsse auf die astrophysikalischen Quellen der Gammastrahlung und Beschleunigungsmechanismen kosmischer Strahlung mit Energien zwischen 1 GeV und ∼ 10 TeV. Die Beobachtung von Quellen während Phasen vorübergehend erhöhter Gammastrahlungslüsse (‘Flares’) ermöglicht dabei eine besonders empfindliche Untersuchung der Produktionsmechanismen kosmischer Strahlung in den Quellen, da die Eigenschaften kürzlich beschleunigter Teilchen unmittelbar studiert werden können.
Der Hauptteil dieser Dissertation stellt das neueste Verzeichnis zeitlich variabler Gammastrahlungsquellen über 100 MeV vor, den zweiten ‘Fermi All-sky Variability Analysis’ Katalog (2FAV). Der 2FAV Katalog enthält über 4500 Flares, welche in den ersten 7.4 Jahren der LAT Datennahme auf einem hohen Vertrauensniveau gemessen und an 518 verschiedenen Himmelspositionen beobachtet wurden. 441 dieser Quellpositionen im 2FAV können Aktiven Galaktischen Kernen (AGN) zugeordnet werden. Die verbleibenden 77 Quellpositionen besitzen keine sichere Entsprechung in anderen Verzeichnissen von Gammastrahlungs- oder Blazarquellen und stellen möglicherweise neue Gammastrahlungsquellen dar. Bei der Untersuchung der Spektren der 2FAV Flares, welche sogenannten ‘Flat-Spectrum’ Radioquasaren (FSRQ) - eine Unterklasse der AGN - zugeordnet werden können, wurde durchweg ein härteres Gammastrahlungsspektrum während Phasen erhöhter Gammastrahlungsemission beobachtet. Zudem wurde eine Untergrenze in der Verteilung der spektralen Exponenten, Γ ≳ 1.5, in der Stichprobe der untersuchten Flares festgestellt. Unter der Annahme eines einfachen leptonischen Modells und dass die Verteilung beschleunigter Teilchen im Inertialsystem der Quelle isotrop ist, folgt daraus, dass die Energiespektren der kosmischen Strahlung, welche die Gammastrahlungs-Flares verursachen, mit dN/dE ∝ E −2 oder stärker abfallen.
Eine andere Möglichkeit, die Beschleunigungsmechanismen kosmischer Strahlung zu untersuchen, ist die Messung der Polarisation der begleitenden Gammastrahlung. Der letzte Teil dieser Dissertation enthält eine vorläufige Studie zur Messbarkeit linearer Polarisation astrophysikalischer Gammastrahlung mit dem LAT-Instrument. Bei Konversion hochenergetischer Photonen in Elektron-Positron-Paare verursacht eine lineare Polarisation der Gammastrahlung eine Modulation des Azimutwinkels der Ebenen, in denen die Elektron-Positron-Paare erzeugt wurden. Obwohl der LAT ursprünglich nicht als Polarimeter konzipiert wurde, ermöglicht das Instrument eine Messung dieser Modulation für niederenergetische Primärteilchen (≲ 200 MeV), welche in den Silikonschichten des Detektors konvertieren. Eine Auswahl solcher Ereignisse, selektiert durch Algorithmen überwachten maschinelles Lernens (‘supervised machine learning’), wird verwendet um die statistischen und systematischen Messunsicherheiten abzuschätzen, denen eine Messung unterworfen ist. Werden allein statistische Unsicherheiten berücksichtigt, ist der LAT in der Lage, einen Polarisationsgrad von 30−50% der Gammastrahlungsflüsse vom Vela-Pulsar und vom Krebs-Pulsarwindnebels nach einer Beobachtungszeit von zehn Jahren auf einem Vertrauensniveau von 5σ nachzuweisen. Werden zusätzlich systematische Unsicherheiten berücksichtigt, wird abgeschätzt, dass ein Polarisationsgrad von ∼ 46% auf einem Vertrauensniveau von 5σ nachweisbar ist, indem eine Auswahl von AGN als unpolarisierte Testprobe verwendet und mit umfangreichen Monte-Carlo Simulationen verglichen wird. Die Analyse in dieser Dissertation berücksichtigt zum ersten Mal sämtliche Aspekte einer polarization-sensitiven Ereignissrekonstruktion und dienst damit als Grundlage für zukünftige Nachweisversuche der Polarisation astrophysikalischer Gammastrahlung mit dem LAT. / The Fermi Large Area Telescope (LAT) is a space-based pair-conversion telescope sensitive to gamma rays with energies from ∼ 30 MeV to several hundreds of GeV. Observing gamma rays in this energy range, we gain information on the sources and acceleration mechanisms of cosmic rays (CRs) of energies from ∼ 1 GeV to ∼ 10 TeV. Studying the emission of gamma-ray sources during periods of enhanced activity (flares) provides a sensitive probe of the production mechanisms of CRs, as it makes it possible to investigate the distributions of the freshly-accelerated particles.
The main part of this work presents the latest catalog of variable gamma-ray sources above 100 MeV, the second Fermi All-sky Variability Analysis catalog (2FAV). The 2FAV catalog contains more than 4500 flares detected at high significance in the first 7.4 years of LAT observations and the 518 sources from which these flares originate. Probable counterparts, mostly active galactic nuclei (AGN), have been found for 441 sources in the 2FAV. The remaining 77 sources have no reliable counterparts in other gamma-ray or blazar catalogs; they are potentially new gamma-ray sources. Studying the spectra of the 2FAV flares, we observe a harder-when-brighter behavior for the entire sample of flares associated with lat spectrum radio quasars, a class of AGN. We also observe a minimum value in the distribution of the photon index Γ of the flares, corresponding to Γ ≳ 1.5. In a simple leptonic scenario, assuming that the distribution of accelerated particles is isotropic in the source reference frame, this limit on the spectral hardness implies that the spectra of the accelerated particles responsible for the lare is never harder than dN/dE ∝ E −2.
Another way to probe the environments where CRs are accelerated is by measuring the polarization of the gamma rays. A preliminary study of the LAT sensitivity to linear polarization of astrophysical gamma-rays is presented in the last part of this thesis. In the pair-production regime, linear polarization of the gamma-rays induces a modulation in the azimuthal angle of the planes where the electron-positron pairs are produced. Although not designed as a polarimeter, the LAT has the potential to measure this modulation using low energy (≲ 200 MeV) events converting in the silicon detector layers of its tracker. A selection of these events using supervised machine learning algorithms is presented and used as a basis to estimate the statistical and systematic uncertainties afecting the measurement. Considering only statistical uncertainties, a degree of polarization of ∼ 30−50% could be detected at the 5σ confidence level for the Vela pulsar and the Crab pulsar-wind nebula after 10 years of observation. By including systematic uncertainties, a 5σ sensitivity limit corresponding to a polarization degree of ∼ 46% is estimated, using a stack of AGN as an unpolarized test source and comparing the data with detailed Monte Carlo simulations. This analysis addresses for the first time all the steps of a real measurement and can therefore provide the basis for future measurements of gamma-ray polarization with the LAT.
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