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#1
von Carl Wilkinson ; mit Illustrationen von James Weston Lewis ; aus dem Englischen von Ebi Naumann. - Berlin : Insel Verlag, 2021
Einstein dachte visuell und überlegte sich lustige Experimente. Mit anschaulichen, großformatigen Bildern und verständlichen Erklärungen führt dieses Buch ein in Einsteins faszinierende Gedankenwelt und Entdeckungen, die bis in die heutige Zeit fortwirken: Kernspaltung, Schwerefeld, Ereignishorizont, Higgs-Boson und schwarze Löcher erforschen wir heute auf der Grundlage von Einsteins Erkenntnissen. Er hat die Welt für immer verändert.
Signatur: 50925
u:search: https://ubdata.univie.ac.at/AC16269641
#2
Julian Barbour. - New York, NY : Basic Books, 2020
In this book, physicist Julian Barbour argues that the second law has been misapplied and that the growth of order determines how we experience time. In his view, the big bang becomes the "Janus point," a moment of minimal order from which time could flow, and order increase, in two directions. The Janus Point has remarkable implications: while most physicists predict that the universe will become mired in disorder, Barbour sees the possibility that order — the stuff of life — can grow without bound.
Signatur: 52023
u:search: https://ubdata.univie.ac.at/AC16252187
#3
Jeremy Bernstein. - New Jersey ; London ; Singapore ; Beijing ; Shanghai ; Hong Kong ; Taipei ; Chennai ; Tokyo : World Scientific, [2021]
This book is both a love story and a poetic homage to science. The subjects in this first-person novella range from encounters with Wittgenstein, Einstein and Gödel, to trying to live with a dog named Molly. The science is serious although the tone is whimsical. The spirit of this book can be demonstrated by a conversation between Einstein and his assistant Ernst Straus:" ’You know Gödel has really gone crazy.’ So I said, ’Well, what worse could he have done?’ ’He voted for Eisenhower.’ "
Signatur: 51849
u:search: https://ubdata.univie.ac.at/AC16252251
#4
Breyer, Reichel, Zunzer. - Wien : Österreichischer Bundesverlag Schulbuch GmbH & Co. KG, [2021]
Das Arbeitsheft erscheint nun in Farbe und um viele neue Aufgabenstellungen erweitert. Es ist die optimale Ergänzung zum Wiederholen und Festigen des Gelernten und enthält alle Lösungen zur Selbstüberprüfung.
Signatur: PHY-1201/4,A[2021]
u:search: https://ubdata.univie.ac.at/AC16263426
#5
Frank Close. - London : Penguin Books, 2020
"Trinity" was the codename for the test explosion of the atomic bomb in New Mexico on 16 July 1945. ’Trinity’ is now also the extraordinary story of the bomb’s metaphorical father, Rudolf Peierls; his intellectual son, the atomic spy, Klaus Fuchs, and the ghosts of the security services in Britain, the USA and USSR.
Signatur: 51483
u:search: https://ubdata.univie.ac.at/AC16251590
#6
Jeremy England. - New York : Basic Books September, 2020
For centuries, the scientific question of life’s origins has confounded us. But in this book, physicist Jeremy England argues that the answer has been under our noses the whole time, deep within the laws of thermodynamics. England explains how, counterintuitively, the very same forces that tend to tear things apart assembled the first living systems.
Signatur: 51850
u:search: https://ubdata.univie.ac.at/AC16252242
#7
John Evans. - Oxford : Oxford University Press, 2020
• Advanced undergraduate level textbook on sustainable chemistry • Contextual focus on four spheres of the ancient world: Earth, Air, Fire, and Water • Consistent style to aid readers in understanding • Provides current evidence of environmental effects
Signatur: 52012
u:search: https://ubdata.univie.ac.at/AC16215543
#8
D.I. Follows. - Cambridge, UK : Periphyseos Press, 2020. - (Isaac chemistry)
• Develops the physical chemistry skills required for final-year school and entry-level university • Numerous exercises develop a deep understanding of real-life physical systems • All problems can be answered on the Isaac Chemistry website, a state of the art online study tool
Signatur: 51854
u:search: https://ubdata.univie.ac.at/AC16251437
#9
Valeriy V. Ginzburg, Lisa M. Hall, editors. - Cham : Springer, [2021]. - (Springer series in materials science Volume 310)
• Provides a roadmap for researchers designing new polymer nanocomposites • Presents best practices for predicting and tuning special properties of potential new materials • Combines modeling methodology with detailed examples for broad appeal • Brings together academic and industry perspectives
Signatur: 31919/310
u:search: https://ubdata.univie.ac.at/AC16243307
#10
S. V. Gupta. - Second edition. - Cham : Springer Nature Switzerland, [2020]. - (Springer series in materials science 122)
• Gives a comprehensive overview of the fundamentals and history of units of measurements • Provides a timely extension of the previous edition with a discussion of the 2019 redefinition of the SI base units • Features biographical presentations of historical figures behind many units of measurements • Is a useful reference for students and practitioners alike
Signatur: 31919/122,2.ed.
u:search: https://ubdata.univie.ac.at/AC16222264
#11
Michael Hagner. - Köln : Verlag der Buchhandlung Walther König, [2021]
Die Idee zu diesem Buch entstand 2018 während der Eröffnung der Installation von Gerhard Richter "Zwei graue Doppelspiegel für ein Pendel" in der Dominikanerkirche in Münster. Was hat das Pendel noch mit uns zu tun? Michael Hagner geht dieser Frage nach und erschließt, ausgehend von Foucaults aufsehenerregender Inszenierung des Pendels im Pariser Panthéon, die wissenschaftlichen, politischen, religiösen und ästhetischen Kontexte des vielfach wiederholten Versuchs.
Signatur: 52022
u:search: https://ubdata.univie.ac.at/AC16167795
#12
John R. Helliwell. - Boca Raton, FL : CRC Press, 2021. - (Global science education)
• Discusses when and where we can make new and better things happen and make new discoveries. Explains whens and wheres as examples in basic science and explaining these to the public • User friendly and concise, this text provides a wide range of examples of science and discovery • The author has diverse experience in career development, teaching and research • The importance of open data to the reproducibility of science are described
Signatur: 51848
u:search: https://ubdata.univie.ac.at/AC16251570
#13
Anming Hu, editor. - Cham, Switzerland : Springer, [2020]. - (Springer series in materials science volume 309)
• Accompanied by various schematic graphs, comprehensive illustrations, scientific figures, and tables • First book to provide an in-depth summary of 3D printing and nanojoining • Provides information on future trends of micro-nanomanufauring and 3D printing
Signatur: 31919/309
u:search: https://ubdata.univie.ac.at/AC16243306
#14
Ji-Ping Huang. - Singapore : Springer, [2020]
• Covers the basic concepts, theoretical models, analytical techniques, simulation methods and experimental methods of thermotics • Includes the latest progress in the field • Serves both as a reference work for senior researchers and a study text for zero beginners
Signatur: 52030
u:search: https://ubdata.univie.ac.at/AC16165520
#15
Ri-Ichi Murakami, Pankaj M. Koinkar, Tomoyuki Fujii, Tae-Gyu Kim, Hairus Abdullah, editors. - Singapore : Springer, [2020]. - (Springer proceedings in physics 242)
• Features selected articles from the 2nd International Conference on Nanomaterials and Advanced Composites • Presents recent research advances in nanotechnology and composite materials • Includes contributions from both academia and industry
Signatur: 29271/242
u:search: https://ubdata.univie.ac.at/AC16265171
#16
Michaela Kozlová, Jaroslav Nejdl, editors. - Cham : Springer, [2020]. - (Springer proceedings in physics 241)
• Discusses the latest research into coherent X-ray sources and generation • Includes several new proposals for (in)coherent XUV, X-ray, and ?-ray generation and their applications in fundamental science • Describes the latest commercial and industrial applications of X-ray lasers
Signatur: 29271/241
u:search: https://ubdata.univie.ac.at/AC16264545
#17
Alvaro Ferraz, Kumar S. Gupta, Gordon Walter Semenoff, Pasquale Sodano, editors. - Cham : Springer International Publishing, [2020]. - (Springer proceedings in physics 239)
This book presents a selection of advanced lectures from leading researchers, providing recent theoretical results on strongly coupled quantum field theories. It also analyzes their use for describing new quantum states, which are physically realizable in condensed matter, cold-atomic systems, as well as artificial materials. It particularly focuses on the engineering of these states in quantum devices and novel materials useful for quantum information processing.
Signatur: 29271/239
u:search: https://ubdata.univie.ac.at/AC16264459
#18
Rainer Dick. - Third edition. - Cham : Springer, [2020]. - (Graduate texts in physics)
New and updated edition includes an additional 60 new problems to aid student comprehension • Includes new material on interpretations of quantum mechanics and new & improved illustrations throughout • Introduces quantum mechanics with a unique focus on examples and applications in materials science and photon-matter interactions • Presents advanced quantum mechanics clearly enough to make it accessible to graduate students in physics, chemistry and engineering
Signatur: 49001/[58]
u:search: https://ubdata.univie.ac.at/AC15959508
#19
N. A. Orr, M. Ploszajczak, F. M. Marqués, J. Carbonell, editors. - Cham : Springer, [2020]. - (Springer proceedings in physics volume 238)
The papers contained in the present volume provide an apercu of recent progress in the field from both the theoretical and experimental perspectives and are based on work presented at the “22nd International Conference on Few-Body Problems in Physics”.
Signatur: 29271/238
u:search: https://ubdata.univie.ac.at/AC16165606
#20
Sadasivan Shankar, Richard Muller, Thom Dunning, Guan Hua Chen, editors. - Cham : Springer, [2021]. - (Springer Series in Materials Science 284)
• Reflects on the scientific and personal legacy of one of the world’s greatest molecular and materials scientists • Features contributions from leading researchers on the impacts of Goddard’s work in chemistry, materials science and biology • Includes an annotated bibliography highlighting Goddard’s most significant publications
Signatur: 31919/284,1
u:search: https://ubdata.univie.ac.at/AC16268156
#21
Sadasivan Shankar, Richard Muller, Thom Dunning, Guan Hua Chen, editors. - Cham : Springer, [2021]. - (Springer Series in Materials Science 284)
• Reflects on the scientific and personal legacy of one of the world’s greatest molecular and materials scientists • Features contributions from leading researchers on the impacts of Goddard’s work in chemistry, materials science and biology • Includes an annotated bibliography highlighting Goddard’s most significant publications
Signatur: 31919/284,2
u:search: https://ubdata.univie.ac.at/AC16268163
#22
José-Enrique García-Ramos, María V. Andrés, José A. Lay Valera, Antonio M. Moro, Francisco Pérez-Bernal, editors. - Cham : Springer, [2019]. - (Springer proceedings in physics 225)
This book features material presented at the La Rábida 2018 International Scientific Meeting on Nuclear Physics, which was based on a well-known series of triennial international summer schools on Nuclear Physics organized from 1982 to 2003 by the Basic Nuclear Physics group at the University of Seville and latter, from 2009 to 2018, by the University of Seville and the University of Huelva. The meeting offered graduate students and young researchers a broad overview of the field of nuclear physics.
Signatur: 29271/225
u:search: https://ubdata.univie.ac.at/AC16213816
#23
Jutta Escher, Yoram Alhassid, Lee A. Bernstein, David Brown, Carla Fröhlich, Patrick Talou, Walid Younes, editors. - Cham : Springer, [2021]. - (Springer proceedings in physics volume 254)
• Summarizes recent progress in the field • Projects future lines of research in nuclear reaction physics • Presents individual lectures on the topics of compound reactions, level densities, fission, and nuclear astrophysics
Signatur: 29271/254
u:search: https://ubdata.univie.ac.at/AC16266014
#24
Dechang Jia, Peigang He, Meirong Wang, Shu Yan. - Singapore : Springer, [2020]. - (Springer series in materials science volume 311)
• Provides novel methods for analyzing geopolymerization mechanisms and fracture behavior of composites • Introduces an efficient method for the optimization of geopolymer-based composites • Provides valuable insights into geopolymers, their composite system design and property improvement
Signatur: 31919/311
u:search: https://ubdata.univie.ac.at/AC16251261
#25
A.C. Machacek, J.J. Crowter. - Enthält außerdem: Developing problem solving skills / L. Jardine-Wright. - Third edition. - Cambridge, UK : Periphyseos Press, 2020. - (Isaac physics skills)
• Develops the physics skills required for final-year school courses and entry-level university • Numerous exercises develop a deep understanding of the fundamental principles of physics and build confident problem-solving skills • All problems can be answered on the Isaac Physics website, a state of the art online study tool • Section-by-section archive of video lessons also available on the Isaac Physics website
Signatur: 51852/[2]
u:search: https://ubdata.univie.ac.at/AC16251374
#26
A.C. Machacek & K.O. Dalby ; with extra questions written by R. Meikle. - Cambridge, UK : Periphyseos Press, 2020. - (Isaac physics skills)
• Develops the physics skills required for senior-school level courses • Numerous exercises develop a deep understanding of the fundamental principles of physics, and their application to real-life systems • All problems can be answered on the Isaac Physics website, a state of the art online study tool • A section-by-section archive of video lessons is also available on the Isaac Physics website
Signatur: 51852/[1]
u:search: https://ubdata.univie.ac.at/AC16251521
#27
Roderich Magyar, Wolfgang Liebhart, Gabriela Jelinek, Manfred Kerschbaumer, Wolfgang Faber. - Wien : Österreichischer Bundesverlag Schulbuch GmbH & Co KG, [2021]. - (Maturatraining)
Das Maturatraining enthält Fragen mit Lösungen zu allen Gebieten der Chemie, wobei die Handlungskompetenzen bei jeder Aufgabenstellungen angegeben sind. Der Themenpool beruht auf den Kapiteln von Elemente und Moleküle bzw. EL-MO. Durch die fachsystematische Ordnung können die Fragen aber auch zu jedem anderen Themenpool herangezogen werden.
Signatur: CHE-801/MT[2021]
u:search: https://ubdata.univie.ac.at/AC16267625
#28
Richard Milner, Erhard Steffens. - New Jersey ; London ; Singapore ; Beijing ; Shanghai ; Hong Kong ; Taipei ; Chennai ; Tokyo : World Scientific, [2021]
This book describes the story of how a collaboration of several hundred physicists from Europe and North America formed in 1988 to design, construct, install, commission and operate, for the years 1995–2007 the technically innovative HERMES experiment at the DESY laboratory in Hamburg, Germany to study the spin structure of the fundamental structure of matter.
Signatur: 52028
u:search: https://ubdata.univie.ac.at/AC16252255
#29
S. Noor Mohammad. - Cham : Springer, [2020]. - (Springer series in materials science volume 307)
• Gives a detailed description of all major synthesis mechanism of many different types of nanomaterials • Familiarizes the reader with the state-of-the-art as well as the pros and cons of each mechanism • Provides knowledge critical for controlling the morphology and properties of nanomaterials
Signatur: 31919/307
u:search: https://ubdata.univie.ac.at/AC16243289
#30
Davide Peddis, Sara Laureti, Dino Fiorani, editors. - Cham : Springer, [2021]. - (Springer series in materials science Volume 308)
• Equips the reader with a deep understanding of the fundamental properties of individual magnetic particles • Covers interface effects and interparticle interaction • Explores new nanoparticle-based architectures for optimizing magnetic properties
Signatur: 31919/308
u:search: https://ubdata.univie.ac.at/AC16243300
#31
Julia Riley & Mark Warner. - Cambridge, UK : Periphyseos Press, 2020. - (Isaac mathematics)
• Develops the mathematics skills required for final-year school courses and entry-level university • Numerous exercises develop a deep understanding of mathematics for sciences, including modern applications • All problems can be answered on the Isaac Maths website, a state of the art online study tool
Signatur: 51853
u:search: https://ubdata.univie.ac.at/AC16251459
#32
Paul Sen. - New York : Scribner, an imprint of Simon & Schuster, 2021
This book tells the incredible epic story of the scientists who, over two centuries, harnessed the power of heat and ice and formulated a theory essential to comprehending our universe.
Signatur: 52026
u:search: https://ubdata.univie.ac.at/AC16252160
#33
Arvind Shah, editor. - Cham : Springer, [2020]. - (Springer series in materials science volume 301)
• Introduces the field in an intuitive and accessible manner • Provides an up-to-date survey of research and development of crystalline silicon wafer-based and thin-film solar cells • Presents important production techniques and applications of this technology
Signatur: 31919/301
u:search: https://ubdata.univie.ac.at/AC15726285
#34
Michael Strevens. - New York ; London : Liveright Publishing Corporation, [2020]
Why is science so powerful? Why did it take so long for the human race to start using science to learn the secrets of the universe? In a groundbreaking work that blends science, philosophy, and history, leading philosopher of science Michael Strevens answers these challenging questions, showing how science came about only once thinkers stumbled upon the astonishing idea that scientific breakthroughs could be accomplished by breaking the rules of logical argument.
Signatur: 52025
u:search: https://ubdata.univie.ac.at/AC16252218
#35
Alba Formicola, Matthias Junker, Lucio Gialanella, Gianluca Imbriani, editors. - Cham : Springer, [2019]. - (Springer proceedings in physics 219)
These peer-reviewed NIC XV conference proceedings present the latest major advances in nuclear physics, astrophysics, astronomy, cosmochemistry and neutrino physics, which provide the necessary framework for a microscopic understanding of astrophysical processes. The book also discusses future directions and perspectives in the various fields of nuclear astrophysics research. In addition, it also includes a limited number of section of more general interest on double beta decay and dark matter.
Signatur: 29271/219
u:search: https://ubdata.univie.ac.at/AC16210587
#36
Raza Tahir-Kheli. - Second edition. - Cham : Springer, [2020]. - (Graduate texts in physics)
• Offers a highly pedagogical and thorough introduction to statistical thermodynamics • Derives all the important formulae meticulously and explicitly, explaining all the necessary mathematics • Includes a wealth of worked-out problems and examples
Signatur: 49001/[57]
u:search: https://ubdata.univie.ac.at/AC16210449
#37
Mark Warner, FRS & A.C.H. Cheung. - Second edition. - Cambridge, UK : Periphyseos Press, 2020
• Guides the transition from school to university, and develops the skills and understanding that are typically tested in admissions to university physics, maths and engineering degrees • Numerous exercises develop a deep understanding of the fundamental principles of quantum mechanics and how to apply them to real-life physical systems • All problems can be answered on the Isaac Physics website, a state of the art online study tool
Signatur: 51851
u:search: https://ubdata.univie.ac.at/AC16251535
#38
Bassano Vacchini, Heinz-Peter Breuer, Angelo Bassi, editors. - Cham : Springer, [2019]. - (Springer proceedings in physics 237)
• Reports recent results in open quantum systems and foundations of quantum mechanics • Highlights the latest developments in advanced experiments testing quantum mechanics • Represents essential reading for both theoretical and experimental communities working on open quantum systems
Signatur: 29271/237
u:search: https://ubdata.univie.ac.at/AC16264448
#39
Alex Wellerstein. - Chicago : The University of Chicago Press, 2021
Drawing on troves of declassified files, including records released by the government for the first time through the author’s efforts, this book traces the complex evolution of the US nuclear secrecy regime from the first whisper of the atomic bomb through the mounting tensions of the Cold War and into the early twenty-first century.
Signatur: 52024
u:search: https://ubdata.univie.ac.at/AC16251585
#40
Ye Zhou, Yan Wang, editors. - Singapore : Springer, [2020]. - (Springer series in materials science volume 303)
• Provides a detailed analysis and explanation of perovskite quantum dot-based devices, including their operation, requirements and associated challenges • Describes the fabrication and characterization of perovskite quantum dots using different techniques • Discusses the incorporation of perovskite quantum dots in optoelectronic and photonic devices
Signatur: 31919/303
u:search: https://ubdata.univie.ac.at/AC16242313
#41
Max-Planck-Gesellschaft zur Förderung der Wissenschaften. - Göttingen ; München : Max-Planck-Gesellschaft zur Förderung der Wissenschaften, 2020 (2021)
Die Max-Planck-Gesellschaft legt jedes Jahr einen Bericht über ihre Tätigkeit im Berichtsjahr sowie über begonnene oder geplante Unternehmungen vor. Dieser Jahresbericht wird satzungsgemäß vom Senat festgestellt, der Hauptversammlung der Mitglieder vorgelegt und von dieser beschlossen.
Signatur: 48663
u:search: https://ubdata.univie.ac.at/AC02690467
#42
Victor Sapritsky, Alexander Prokhorov. - Cham : Springer, [2021]. - (Springer series in measurement science and technology)
• Presents a unique resource dedicated to the fundamental physical principles behind blackbody radiometry • Exhibits a systematic exposition of the principles of blackbody radiation sources and their design and optimization • Explains the metrological aspects of blackbody radiometry such as uncertainty evaluation and the establishment of radiometric scales
Signatur: 49936/[3,1]
u:search: https://ubdata.univie.ac.at/AC16209774
#43
verfasst von Mustafa Abouelnasr. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Chemie.
Signatur: HS-1679
u:search: https://ubdata.univie.ac.at/AC16378775
#44
verfasst von Esra Ahmed, BSc. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Chemie.
Signatur: HS-1677
u:search: https://ubdata.univie.ac.at/AC16378494
#45
verfasst von Dott. Dott. mag. Davide Avagliano. - Wien, 2021
Dissertation, Universität Wien, Fakultät für Chemie.
Signatur: HS-1678
u:search: https://ubdata.univie.ac.at/AC16378539
#46
verfasst von Cornelia von Baeckmann, MSc. BSc. - Wien, 2021
Dissertation, Universität Wien, Fakultät für Chemie.
Signatur: HS-1681
u:search: https://ubdata.univie.ac.at/AC16378947
#47
verfasst von Leonie Einfalt BSc. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5510
u:search: https://ubdata.univie.ac.at/AC16272270
Auch online verfügbar: https://doi.org/10.25365/thesis.65696
#48
verfasst von Dipl.-Ing. Jakob Fellinger, BSc. - Wien, 2020
Dissertation, Universität Wien, Fakultät für Physik.
Signatur: DissD.5522
u:search: https://ubdata.univie.ac.at/AC16381021
#49
verfasst von Hauke Fischer, BSc BSc. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5509
u:search: https://ubdata.univie.ac.at/AC16272294
Auch online verfügbar: https://doi.org/10.25365/thesis.65695
#50
verfasst von Elisabeth Föls, BSc. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Chemie.
Signatur: HS-1680
u:search: https://ubdata.univie.ac.at/AC16378931
#51
verfasst von Raphael Freiler, BSc. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5518
u:search: https://ubdata.univie.ac.at/AC16319135
Auch online verfügbar: https://doi.org/10.25365/thesis.65939
#52
verfasst von Olivia Gatterbauer BSc. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Chemie.
Signatur: HS-1682
u:search: https://ubdata.univie.ac.at/AC16378971
#53
verfasst von Lukáš Gulla. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Chemie.
Signatur: HS-1676
u:search: https://ubdata.univie.ac.at/AC16378450
#54
verfasst von Esther Heid, BSc MSc. - Wien Universität Wien, 2019
Dissertation, Universität Wien, Fakultät für Chemie.
Signatur: HS-1672
u:search: https://ubdata.univie.ac.at/AC15503400
#55
verfasst von Natalie Christine Hofmann, BSc. MSc. - Wien, 2021
Dissertation, Universität Wien, Fakultät für Chemie.
Signatur: HS-1683
u:search: https://ubdata.univie.ac.at/AC16378972
#56
verfasst von Jan Hurt, BSc. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5528
u:search: https://ubdata.univie.ac.at/AC16381129
#57
verfasst von Paul Juschitz, BSc. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5508
u:search: https://ubdata.univie.ac.at/AC16242718
#58
verfasst von Sascia Kästenbauer, BSc. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5519
u:search: https://ubdata.univie.ac.at/AC16319872
Auch online verfügbar: https://doi.org/10.25365/thesis.65949
#59
verfasst von Clemens Kerschbaumer, BSc. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5512
u:search: https://ubdata.univie.ac.at/AC16269129
Auch online verfügbar: https://doi.org/10.25365/thesis.65814
#60
verfasst von Victoria Kletzl, BSc. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5523
u:search: https://ubdata.univie.ac.at/AC16381036
#61
verfasst von Patricia Kolm. - Wien, 2021
Diplomarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5531
u:search: https://ubdata.univie.ac.at/AC16381186
#62
verfasst von Julia Kronberger, BSc. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Chemie.
Signatur: HS-1673
u:search: https://ubdata.univie.ac.at/AC16378199
#63
verfasst von Sophie-Elisabeth Lerchbaumer, BSc. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5511
u:search: https://ubdata.univie.ac.at/AC16272238
Auch online verfügbar: https://doi.org/10.25365/thesis.65697
#64
verfasst von Gregor T. Leuthner. - Wien, 2021
Dissertation, Universität Wien, Fakultät für Physik.
Signatur: DissD.5536
u:search: https://ubdata.univie.ac.at/AC16381563
#65
verfasst von Maximilian Liebetreu, MSc. - Wien, 2020
Dissertation, Universität Wien, Fakultät für Physik.
Signatur: DissD.5506
u:search: https://ubdata.univie.ac.at/AC16083208
#66
verfasst von Stefan Lukas Ludescher, BSc. - Wien, 2020
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5537
u:search: https://ubdata.univie.ac.at/AC16129974
Auch online verfügbar: https://doi.org/10.25365/thesis.62524
#67
verfasst von Monika Marjanovic, BSc MSc. - Wien, 2021
Dissertation, Universität Wien, Fakultät für Chemie.
Signatur: HS-1675
u:search: https://ubdata.univie.ac.at/AC16352595
#68
verfasst von Johannes Mayer BSc BSc MSc. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5516
u:search: https://ubdata.univie.ac.at/AC16265895
Auch online verfügbar: https://doi.org/10.25365/thesis.65842
#69
verfasst von Maximilian Ofner, BSc. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5535
u:search: https://ubdata.univie.ac.at/AC16381543
#70
verfasst von Matthias Ondra. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5521
u:search: https://ubdata.univie.ac.at/AC16357895
#71
verfasst von Gudrun Pötzelberger, BSc. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5514
u:search: https://ubdata.univie.ac.at/AC16330940
Auch online verfügbar: https://doi.org/10.25365/thesis.66072
#72
verfasst von Simon Rella, BSc. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5517
u:search: https://ubdata.univie.ac.at/AC16329166
Auch online verfügbar: https://doi.org/10.25365/thesis.66009
#73
verfasst von Marion Romirer, BSc. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5526
u:search: https://ubdata.univie.ac.at/AC16381092
#74
verfasst von Giulia Rubino. - Wien : Universität Wien, 2020
Dissertation, Universität Wien, Fakultät für Physik.
Signatur: DissD.5507
u:search: https://ubdata.univie.ac.at/AC16259800
Auch online verfügbar: https://doi.org/10.25365/thesis.65452
#75
verfasst von Valeria Saggio. - Wien, 2021
Dissertation, Universität Wien, Fakultät für Physik.
Signatur: DissD.5538
u:search: https://ubdata.univie.ac.at/AC16381599
#76
verfasst von Birgit Schandl, BEd. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5515
u:search: https://ubdata.univie.ac.at/AC16319140
Auch online verfügbar: https://doi.org/10.25365/thesis.65941
#77
verfasst von Christin Schuster BSc. - Wien, 2020
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5513
u:search: https://ubdata.univie.ac.at/AC16209428
Auch online verfügbar: https://doi.org/10.25365/thesis.64615
#78
verfasst von Dominik Senk. - Wien, 2021
Diplomarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5532
u:search: https://ubdata.univie.ac.at/AC16381221
#79
verfasst von Saba Shams Lahijani. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5530
u:search: https://ubdata.univie.ac.at/AC16381151
#80
verfasst von Florian Steininger, BSc BSc. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5525
u:search: https://ubdata.univie.ac.at/AC16381072
#81
verfasst von Marcel Emanuel Strauß, BSc. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5524
u:search: https://ubdata.univie.ac.at/AC16381049
#82
verfasst von Maximilian Xaver Tiefenbacher, BSc. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Chemie.
Signatur: HS-1674
u:search: https://ubdata.univie.ac.at/AC16378255
#83
verfasst von Carl Trondl, BSc. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5520
u:search: https://ubdata.univie.ac.at/AC16319854
#84
verfasst von David C. Vergeiner, BSc. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5533
u:search: https://ubdata.univie.ac.at/AC16381463
#85
verfasst von Jakob Weber, BSc. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5527
u:search: https://ubdata.univie.ac.at/AC16381102
#86
verfasst von Clemens Weselka, BSc. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5529
u:search: https://ubdata.univie.ac.at/AC16381140
#87
verfasst von Mathias Wosner. - Wien, 2020
Diplomarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5534
u:search: https://ubdata.univie.ac.at/AC16116485
Auch online verfügbar: https://doi.org/10.25365/thesis.62481
#88
vorgelegt von Jan-Philipp Bothe. - Hamburg, 2019
Dissertation, Universität Hamburg.
Signatur: DissB.4264
u:search: https://ubdata.univie.ac.at/AC16173380
#89
vorgelegt von Franziska Griesing. - Hamburg, 2019
Dissertation, Universität Hamburg.
Signatur: DissB.4260
u:search: https://ubdata.univie.ac.at/AC16173242
#90
vorgelegt von Lena Skok. - Hamburg, 2020
Dissertation, Universität Hamburg.
Signatur: DissB.4262
u:search: https://ubdata.univie.ac.at/AC16173506
#91
vorgelegt von Sebastian Willrodt. - Hamburg, 2019
Dissertation, Universität Hamburg.
Signatur: DissB.4261
u:search: https://ubdata.univie.ac.at/AC16173354
#92
vorgelegt von Doris Locsin Wong. - Hamburg, 2020
Dissertation, Universität Hamburg.
Signatur: DissB.4263
u:search: https://ubdata.univie.ac.at/AC16173459
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