#1
Steven A. Adelman. - Boca Raton ; London ; New York : CRC Press, Taylor & Francis Group, 2022
This book introduces quantum mechanics by covering the fundamentals of quantum mechanics and some of its most important chemical applications: vibrational and rotational spectroscopy and electronic structure of atoms and molecules. Thoughtfully organized, the author builds up quantum mechanics systematically with each chapter preparing the student for the more advanced chapters and complex applications.
Signatur: 52209
u:search: https://ubdata.univie.ac.at/AC16519343
#2
Alex Bellos ; illustrations by Andy Riley. - 10th anniversary updated edition. - London ; Oxford ; New York ; New Delhi ; Sydney : Bloomsbury Publishing, 2020
In this richly entertaining and accessible book, Alex Bellos explodes the myth that maths is best left to the geeks, and demonstrates the remarkable ways it’s linked to our everyday lives. From the world’s fastest mental calculators in Germany to numerologists in the US desert, from a startlingly numerate chimpanzee in Japan to venerable Hindu sages in India, these dispatches from ’Numberland’ are an unlikely but exhilarating cocktail of history, reportage and mathematical proofs. The world of maths is a much friendlier and more colourful place than you might have imagined.
Signatur: 51499
u:search: https://ubdata.univie.ac.at/AC16521758
#3
Jean Bricmont. - Cham : Springer, [2022]. - (Undergraduate lecture notes in physics)
• Brings clarity to the subtle questions raised by the Second Law of thermodynamics and time’s arrow • Provides insights into the relationship between probability and the natural sciences • Explores the various meanings of Entropy
Signatur: 48771/[65]
u:search: https://ubdata.univie.ac.at/AC16519532
#4
Long-Qing Chen. - Singapore : Springer, [2022]
• Uses straightforward language to explain the mathematical beauty of thermodynamics • Offers a step-by-step procedure for computing all thermodynamic properties • Highlights the two most important concepts: the fundamental equation of thermodynamics and chemical potential
Signatur: 52142
u:search: https://ubdata.univie.ac.at/AC16519333
#5
Mahn-Soo Choi. - Cham : Springer, [2022]
• Provides demonstrations and simulations supplementing the main text throughout the book • Includes supporting quantum simulation software Mathematica® • Adapts subjects to the current trends in quantum information science
Signatur: 52143
u:search: https://ubdata.univie.ac.at/AC16519337
#6
Jeffrey A. Cina. - Oxford : Oxford University Press, [2022]. - (Oxford graduate texts)
• Takes an original ’first-principles’ approach, explaining time-resolved molecular spectroscopy by relying on basic concepts in quantum dynamics • Individual chapters are designed to be self-contained, to allow readers and instructors to select the most appropriate material for their interests and pedagogical requirements • Each chapter includes in-text exercises to illustrate or expand upon the ideas covered in the main text
Signatur: 52213
u:search: https://ubdata.univie.ac.at/AC16521705
#7
Brian Cowan. - Second edition. - New Jersey ; London ; Singapore : World Scientific, [2022]. - (Advanced textbooks in physics)
Building on the material learned by students in their first few years of study, this book presents an advanced level course on statistical and thermal physics. The second edition has been revised particularly to help students use this book for self-study. In addition, the section on non-ideal gases has been expanded, with a treatment of the hard-sphere gas, and an accessible discussion of interacting quantum gases. In many cases there are details of ’Mathematica’ calculations, including ’Mathematica’ Notebooks, and expression of some results in terms of Special Functions.
Signatur: 50536/[5]
u:search: https://ubdata.univie.ac.at/AC16326986
#8
George Datseris, Ulrich Parlitz. - Cham : Springer, [2022]. - (Undergraduate lecture notes in physics)
• Easy-to-read up-to-date introductory text to nonlinear dynamics • Practical focus, concise text, targeting application-oriented audience • All concepts illustrated with executable code snippets using open source software
Signatur: 48771/[64]
u:search: https://ubdata.univie.ac.at/AC16538607
#9
Yury Deshko. - Cham : Springer, [2022]. - (Undergraduate lecture notes in physics)
• Emphasizes geometric methods to develop the reader’s intuition and ability with Minkowski diagrams • Provides numerous problems and exercises along with detailed solutions • Utilizes Bondi’s k-calculus, an innovative approach that makes the key results transparent and meaningful
Signatur: 48771/[62]
u:search: https://ubdata.univie.ac.at/AC16536694
#10
Sanjeev Dhurandhar, Sanjit Mitra. - Cham : Springer, [2022]. - (UNITEXT for physics)
• Serves as one stop introductory text on general relativity at senior undergraduate level • Offers an introduction to gravitational wave physics for researchers entering the field • Is the first introductory textbook to cover gravitational wave data analysis
Signatur: 49843/[40]
u:search: https://ubdata.univie.ac.at/AC16519335
#11
Massimiliano Di Ventra. - Oxford : Oxford University Press, [2022]
• Comprehensive discussion of all concepts pertaining to MemComputing • Clear and colloquial writing style - making it easy to grasp complex concepts • Example driven, visually clear and appealing - guiding the reader by means of easy-to-follow examples
Signatur: 52211
u:search: https://ubdata.univie.ac.at/AC16482202
#12
Letizia Diamante ; illustrated by Claudia Flandoli. - New Jersey ; London ; Singapore : World Scientific, [2022]
As soon as you open this book, YOU become the protagonist! You will be catapulted to CERN, one of the most famous laboratories in the world — a real scientific wonderland of underground tunnels, massive experiments and technological marvels. You can choose to play the role of a researcher, a student or a tourist. Prepare yourself for a rather bizarre adventure filled with loads of brain-tickling facts about particles and science wonders. Unfold the story, explore the unsolved mysteries of the Universe, and most importantly, have fun with the games and quizzes!
Signatur: 52208
u:search: https://ubdata.univie.ac.at/AC16494374
#13
Maciej Dunajski. - Oxford : Oxford University Press, 2022. - (Very short introductions ; 695)
• Offers a fresh modern introduction to a fundamental branch of mathematics, from Euclid to the geometry of spacetime in black holes • Stretches the reader but requires no more than high school mathematics • Highlights the broader connections of geometry with science and art • Part of the Very Short Introductions series - over ten million copies sold worldwide
Signatur: 45108/695
u:search: https://ubdata.univie.ac.at/AC16521413
#14
Daniel Fleisch. - Cambridge : New York, NY : Port Melbourne : New Delhi ; Singapore : Cambridge University Press, 2022. - (Student’s guide series)
Using the same approach that has proven highly popular in his other Student’s Guides, Professor Fleisch addresses the topics that his students have found most troublesome; providing a detailed and accessible description of Laplace transforms and how they relate to Fourier and Z-transforms. Written in plain language and including numerous, fully worked examples. The book is accompanied by a website containing a rich set of freely available supporting materials, including interactive solutions for every problem in the text, and a series of podcasts in which the author explains the important concepts, equations, and graphs of every section of the book.
Signatur: 51891
u:search: https://ubdata.univie.ac.at/AC16519348
#15
Woon Siong Gan. - Singapore : Springer, [2022]
• Covers the hot topic of quantum acoustical imaging, highlighting both the theories and applications • Offers a valuable resource for researchers and engineers • Highlights the tremendous potential on the basis of several novel applications
Signatur: 52141
u:search: https://ubdata.univie.ac.at/AC16519339
#16
Rocco Gaudenzi. - Cham : Springer, [2022]. - (SpringerBriefs in history of science and technology)
• Provides the first deep investigation on the heuristics of a foundational concept in contemporary physics • Presents important epistemological implications of the globalization of physical sciences • Shows how different sub-disciplines can have a beneficial influence on each other
Signatur: 50358/[9]
u:search: https://ubdata.univie.ac.at/AC16537653
#17
Kamakhya Prasad Ghatak, Madhuchhanda Mitra, Arindam Biswas. - Singapore : Springer, [2022]
• Highlights the importance of measurement of band gap in HD optoelectronic materials • Presents different applications in heavily doped quantum effect devices • Is a useful read for researchers, students, and professionals in the area of materials research?
Signatur: 52144
u:search: https://ubdata.univie.ac.at/AC16520981
#18
Norman Gray. - Cambridge, United Kingdom ; New York, NY : Cambridge University Press, 2022
This compact yet informative Guide presents an accessible route through Special Relativity, taking a modern axiomatic and geometrical approach. This volume demonstrates the essential simplicity of the core ideas of Special Relativity, while acknowledging the challenges of developing new intuitions and dealing with the apparent paradoxes that arise. It includes numerous exercises with hints and notes provided online. It lays the foundations for further study in General Relativity, which is introduced briefly in an appendix.
Signatur: 51889
u:search: https://ubdata.univie.ac.at/AC16519349
#19
Josef Janyška, Marco Modugno. - Cham : Springer, [2022]. - (Fundamental theories of physics ; volume 205)
• Written in a quite formal mathematical way, by using the language of modern differential geometry • Contains a genuine learning program including modern differential geometry, classical mechanics, and quantum mechanics • Provides an appendix devoting to the exposition of some geometric methods
Signatur: 29286/205
u:search: https://ubdata.univie.ac.at/AC16519634
#20
Nikola Tesla ; introduction by Ken Mondschein. - San Diego : Canterbury Classics, 2021
This book gives readers a compelling insight into the man whose ideas revolutionized the fields of electrical and mechanical engineering, and who continues to be a source of inspiration for modern inventors. This volume includes Tesla’s autobiography ’My Inventions’ (1919), articles and diagrams that he published in scientific magazines—including "The Problem of Increasing Human Energy", in which he discusses the potential of solar power—and Thomas Commerford Martin’s ’The Inventions, Researches, and Writings of Nikola Tesla’.
Signatur: 52139
u:search: https://ubdata.univie.ac.at/AC16321095
#21
Michael Wiescher. - Wien ; Münster : Lit, [2022]. - (Emigration - Exil - Kontinuität ; Band 20)
Arthur Erich Haas (1884 - 1941), österreichischer Physiker aus wohlhabendem jüdischem Bürgertum, postulierte neue Ansätze in der frühen Quantentheorie und Kosmologie. Er galt er als Erfolgsautor zahlreicher populärwissenschaftlicher Bücher, die in viele Sprachen übersetzt wurden. Durch seine Schriften wie Vortragstouren in Europa und Amerika entwickelte er sich zum "Carl Sagan" seiner Zeit. Als jüdischer Physiker emigrierte er 1936 in die USA, wo er durch Albert Einstein eine Professur an der Universität von Notre Dame erhielt. Von dort ermöglichte er zahlreichen Wiener Kollegen die Emigration.
Signatur: 50407/20
u:search: https://ubdata.univie.ac.at/AC16528546
#22
Guang S. He. - Oxford : Oxford University Press, [2022]
• First book to present multiphoton excitation related optoelectrical effects, laser ionization effects, and laser molecular dissociation effects together in one book • Presents each major stimulated scattering effect in detail in a separate chapter • Includes discussion of stimulated Rayleigh-Bragg scattering and stimulated Mie scattering • Introduces ideas at the forefront of the field
Signatur: 52212
u:search: https://ubdata.univie.ac.at/AC16521695
#23
Philippe Jetzer. - Cham : Springer, [2022]. - (UNITEXT for physics)
• Gives detailed derivation of the basic formulas • Helps the reader to learn quickly many advanced topics only mentioned in courses on General Relativity • Enriched with exercises to test the reader’s knowledge on key topics
Signatur: 49843/[38]
u:search: https://ubdata.univie.ac.at/AC16520901
#24
Hiqmet Kamberaj. - Cham : Springer, [2022]. - (Undergraduate texts in physics)
• Provides a comprehensive review of the rapidly expanding field of electromagnetism in materials science • Includes in-depth discussions on electromagnetic theory • Contains solved problems that can be discussed in classrooms
Signatur: 51361/[6]
u:search: https://ubdata.univie.ac.at/AC16537706
#25
Olga Korotkova. - New Jersey ; London ; Singapore : World Scientific Publishing, [2022]
This monograph overviews classic and recent developments in theoretical statistical optics in connection with stationary and non-stationary (pulsed) optical source characterization and modeling, discusses various phenomena occurring with random light propagating in free space, on its interaction with optical systems, extended media and particulate collections.
Signatur: 52136
u:search: https://ubdata.univie.ac.at/AC16326904
#26
Piero Macchi. - Cham : Springer, [2022]. - (SpringerBriefs in crystallography)
• It is unique. A few review articles have appeared recently on the subject, but none with a consistent outlook • It attracts both experts and neophytes (see above for a detailed reasoning) • It is thought-provoking
Signatur: 52131/[1]
u:search: https://ubdata.univie.ac.at/AC16520917
#27
Johann Rafelski. - Cham : Springer, [2022]
• Designed for students, it provides many solved problems that help master the subject • The concepts of special relativity are introduced in a clear and simple way, without making use of four-vector formalism • Presents the existing connections between special relativity and particle, nuclear, and high intensity pulsed laser physics • Gives a detailed historical overview of developments in special relativity before and after 1905
Signatur: 52140
u:search: https://ubdata.univie.ac.at/AC16519704
#28
Farook Rahaman. - Second edition. - Singapore : Springer, [2022]. - (Unitext - la matematica per il 3+2 ; volume 136)
• Includes a new chapter on electromagnetic waves in the second edition • Discusses mathematical properties of Lorentz transformations • Expounds relativistic mechanics and electrodynamics in relativity
Signatur: 51154/136
u:search: https://ubdata.univie.ac.at/AC16520850
#29
Amal Kumar Raychaudhuri. - Revised edition. - New Delhi : Hindustan Book Agency ; Singapore : Springer, [2022]. - (Texts and readings in physical sciences ; volume 21)
• Covers a full course on electricity and magnetism for graduate students in physics • Emphasizes the Lorentz covariance of Maxwell’s equations by using special theory of relativity • Covers the topic of radiation reaction and the Wheeler–Feynman absorber theory
Signatur: 51355/21
u:search: https://ubdata.univie.ac.at/AC16537690
#30
Geoff Rayner-Canham. - Reprinted (in paperback edition). - New Jersey ; London ; Singapore ; Beijing ; Shanghai ; Hong Kong ; Taipei ; Chennai ; Tokyo : World Scientific, 2022
In this stimulating and innovative book, the Reader will be taken on a voyage from the past to the present to the future of the Periodic Table. This book is unique. This book is readable. This book is thought-provoking. It is a multi-dimensional examination of patterns and trends among the chemical elements. Every reader will discover something about the chemical elements which will provoke thought and a new appreciation as to how the elements relate together.
Signatur: 51890
u:search: https://ubdata.univie.ac.at/AC16486576
#31
Sergio M. Rezende. - Cham : Springer, [2022]
• Gives a multi-faceted treatment electronic materials and devices, from basic fundamentals to modern applications • Accessible to undergraduates with no prior exposure to quantum mechanics, and limited knowledge of electromagnetics • Covers optoelectronic and photonic devices, organic conductors, and applications to magnetism and spintronics
Signatur: 52145
u:search: https://ubdata.univie.ac.at/AC16496389
#32
Brian Albert Robson. - New Jersey ; London ; Singapore : World Scientific, [2021]
At present, one of the deepest problems in theoretical physics is harmonizing the GTR, which describes gravitation, with quantum mechanics, which describes the other three fundamental forces acting on the atomic scale. The main aim of the book is to provide an understanding of gravity in terms of a quantum theory given by the Generation Model of particle physics. The book presents a fully quantum theory of gravity, which describes both the large cosmological scale and the small atomic scale interactions between all particles.
Signatur: 52138
u:search: https://ubdata.univie.ac.at/AC16493381
#33
Luca Salasnich. - Cham : Springer, [2022]. - (UNITEXT for physics)
• Presents a concise but rigorous introduction of modern physics • Contains also basic notions of classical and quantum statistical mechanics • Includes four appendices to aid the student’s comprehension
Signatur: 49843/[39]
u:search: https://ubdata.univie.ac.at/AC16520569
#34
Alexander S. Sharipov, Boris I. Loukhovitski, Ekaterina E. Loukhovitskaya. - Cham : Springer, [2022]. - (SpringerBriefs in molecular science ; SpringerBriefs in electrical and magnetic properties of atoms, molecules, and clusters)
• Describes methods for determining electrical and related properties of excited molecules • Presents an up-to-date review of quantum chemical approaches • Written by experts in the field
Signatur: 52130/[1]
u:search: https://ubdata.univie.ac.at/AC16519617
#35
Michael F Shlesinger. - New Jersey ; London ; Singapore : World Scientific, [2021]
This volume comprises the author’s account of the development of novel results in random walk theory and its applications during the fractal and chaos revolutions. The early history of probability is presented in an engaging manner, and peppered with pitfalls and paradoxes. Readers will find the introduction of Paul Lévy’s work via Mandelbrot’s Lévy flights which are featured uniquely as Weierstrass and Riemann random walks.
Signatur: 52137
u:search: https://ubdata.univie.ac.at/AC16327009
#36
Steven P. Starkovich. - Cham : Springer, [2021]
• Unique presentation suitable for both undergraduate and beginning graduate students in physics and mathematics • Emphasizes narration, worked examples and applications rather than formal mathematical proofs • Excellent for self-study, with a guide to further reading in each chapter
Signatur: 52128
u:search: https://ubdata.univie.ac.at/AC16488588
#37
Philipp Strasberg. - Oxford : Oxford University Press, [2022]. - (Oxford graduate texts)
• Ambitiously aims to reconcile the theory of thermodynamics with recent advances in nanotechnology • Includes discussion of recent experimental applications of quantum theory such as quantum transport, thermoelectric effects in quantum dots and the micromaser • All concepts derived in full, with no prior knowledge needed beyond a basic understanding of quantum mechanics and equilibrium statistical mechanics
Signatur: 52210
u:search: https://ubdata.univie.ac.at/AC16521465
#38
Friedrich Stummel, Ludwig Kohaupt. - Berlin : Logos Verlag Berlin, [2021]. - (Computational and applied mathematics ; volume 1)
Dieses Buch vereint ein Vorlesungsskript über die Behandlung von Eigenwertaufgaben in Hilbertschen Räumen von Friedrich Stummel und Übungsaufgaben zu den Eigenwertaufgaben sowie zugehörigen Lösungen von Ludwig Kohaupt. Neben Standardmethoden werden aus der Funktionentheorie stammende Methoden verwandt sowie Themen behandelt, die bisher noch keinen Eingang in Lehrbücher gefunden haben.
Signatur: 52134/1
u:search: https://ubdata.univie.ac.at/AC16521768
#39
Frank B. Rosmej, Valery A. Astapenko, Valery S. Lisitsa. - Cham : Springer, [2021]. - (Springer series on atomic, optical, and plasma physics ; volume 104)
• Presents the essential concepts and detailed information required for a better understanding of plasma physics • All authors are established experts on, and dedicated teachers of, atomic physics • The only modern book to treat this topic in depth • Addresses students, postgraduates, teachers and researchers • Combines elements of textbook and monograph style
Signatur: 35359/104
u:search: https://ubdata.univie.ac.at/AC16322384
#40
Olaf Stenzel. - Cham : Springer, [2022]. - (UNITEXT for physics)
• Uses a rigorous, bottom-up approach to describe the fundamental concepts of light–matter interactions • Provides a detailed mathematical treatment, combined with heuristic and intuitive approaches to more advanced problems • Uniquely interdisciplinary focus, combining optics, quantum mechanics, electrodynamics, and solid-state physics
Signatur: 49843/[37]
u:search: https://ubdata.univie.ac.at/AC16520880
#41
Zürich : ETH Zürich, 2022
Welchen Forschenden gebührte Ehre? Welche Meilensteine markierten die Weiterentwicklung der Lehre? Und welche Forschung sorgte für Furore? Der Geschäftsbericht zeigt, was die Hochschule im vergangenen Jahr erlebt und geleistet hat.
Signatur: 44735 / 2021
u:search: https://ubdata.univie.ac.at/AC13345608
#42
Villigen : PSI Paul Scherrer Institut, [2022]
Das Magazin 5232 wendet sich an die breite Öffentlichkeit. In einem Schwerpunkt beleuchtet es ein aktuelles Thema aus Wissenschaft und Gesellschaft, in weiteren Beiträgen zeigt es die Vernetzung des PSI in der Schweiz und stellt Menschen vor, die hinter dem Erfolg des PSI stehen. Das Magazin ist kostenlos und erscheint 3-mal pro Jahr.
Signatur: 47589 / 2022,2
u:search: https://ubdata.univie.ac.at/AC13715351
#43
verfasst von Dott. mag. Dott. Giovanni Di Mauro. - Wien, 2022
Dissertation, Universität Wien, Fakultät für Chemie.
Signatur: HS-2074
u:search: https://ubdata.univie.ac.at/AC16567559
#44
verfasst von Dexin Dong BSc. - Wien, 2022
Masterarbeit, Universität Wien, Fakultät für Chemie.
Signatur: HS-2069
u:search: https://ubdata.univie.ac.at/AC16567537
Auch online verfügbar: https://doi.org/10.25365/thesis.71529
#45
verfasst von Aaron Hofer, BSc. - Wien, 2022
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5611
u:search: https://ubdata.univie.ac.at/AC16566583
Auch online verfügbar: https://doi.org/10.25365/thesis.71103
#46
verfasst von Eva Susanna Holzinger, BEd. - Wien, 2022
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5619
u:search: https://ubdata.univie.ac.at/AC16566605
Auch online verfügbar: https://doi.org/10.25365/thesis.71474
#47
verfasst von Dipl.-Ing., Mag., Michael Hörzinger, BSc. - Wien, 2021
Dissertation, Universität Wien, Fakultät für Physik.
Signatur: DissD.5609
u:search: https://ubdata.univie.ac.at/AC16566569
Auch online verfügbar: https://doi.org/10.25365/thesis.70870
#48
verfasst von Qi Cheng Hua, B.Sc.. - Wien, 2021
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5608
u:search: https://ubdata.univie.ac.at/AC16566555
#49
verfasst von Peter Kainzbauer BSc MSc. - Wien, 2021
Dissertation, Universität Wien, Fakultät für Chemie.
Signatur: HS-2071
u:search: https://ubdata.univie.ac.at/AC16567547
#50
verfasst von Alexander Karbalaei Bagher, BSc. - Wien, 2022
Masterarbeit, Universität Wien, Fakultät für Chemie.
Signatur: HS-2075
u:search: https://ubdata.univie.ac.at/AC16567564
#51
verfasst von Sabri Koraltan BSc.. - Wien, 2022
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5620
u:search: https://ubdata.univie.ac.at/AC16566606
Auch online verfügbar: https://doi.org/10.25365/thesis.71465
#52
verfasst von Omar Kotb. - Wien, 2022
Masterarbeit, Universität Wien, Fakultät für Chemie.
Signatur: HS-2068
u:search: https://ubdata.univie.ac.at/AC16567530
#53
verfasst von Viktoria Kraxberger, BSc. - Wien, 2022
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5617
u:search: https://ubdata.univie.ac.at/AC16566597
Auch online verfügbar: https://doi.org/10.25365/thesis.71304
#54
verfasst von Benjamin Lux, BEd. - Wien, 2022
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5622
u:search: https://ubdata.univie.ac.at/AC16566608
Auch online verfügbar: https://doi.org/10.25365/thesis.71475
#55
verfasst von Klara Maggauer, BSc. - Wien, 2022
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5612
u:search: https://ubdata.univie.ac.at/AC16566585
#56
verfasst von Oscar Mittempergher, BSc. - Wien, 2022
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5615
u:search: https://ubdata.univie.ac.at/AC16566594
Auch online verfügbar: https://doi.org/10.25365/thesis.71445
#57
verfasst von Amirhosein Mohammadi Moqanaki, MSc. - Wien, 2020
Dissertation, Universität Wien, Fakultät für Physik.
Signatur: DissD.5607
u:search: https://ubdata.univie.ac.at/AC15692914
#58
verfasst von Magdalena Elisabeth Nechvile, BSc. - Wien, 2017
Masterarbeit, Universität Wien, Fakultät für Chemie.
Signatur: HS-2067
u:search: https://ubdata.univie.ac.at/AC13750622
#59
verfasst von Jakob Pollerus, BEd. - Wien, 2022
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5613
u:search: https://ubdata.univie.ac.at/AC16566589
Auch online verfügbar: https://doi.org/10.25365/thesis.71104
#60
verfasst von Diana Propst, B.Sc.. - Wien, 2022
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5616
u:search: https://ubdata.univie.ac.at/AC16566595
#61
verfasst von Johannes Pseiner. - Wien, 2022
Dissertation, Universität Wien, Fakultät für Physik.
Signatur: DissD.5614
u:search: https://ubdata.univie.ac.at/AC16566593
Auch online verfügbar: https://doi.org/10.25365/thesis.71305
#62
verfasst von Katharina Pühringer, BSc. - Wien, 2022
Masterarbeit, Universität Wien, Fakultät für Chemie.
Signatur: HS-2070
u:search: https://ubdata.univie.ac.at/AC16567545
#63
verfasst von Darja Isabelle Rohden, B.Sc. B.Sc.. - Wien, 2022
Masterarbeit, Universität Wien, Fakultät für Chemie.
Signatur: HS-2073
u:search: https://ubdata.univie.ac.at/AC16567553
#64
verfasst von Daniel Samitz, BSc MSc. - Wien, 2021
Dissertation, Universität Wien, Fakultät für Physik.
Signatur: DissD.5610
u:search: https://ubdata.univie.ac.at/AC16566576
Auch online verfügbar: https://doi.org/10.25365/thesis.71203
#65
verfasst von David Schmoll BSc. - Wien, 2022
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5621
u:search: https://ubdata.univie.ac.at/AC16566607
Auch online verfügbar: https://doi.org/10.25365/thesis.71479
#66
verfasst von Mirela Selimovic, BSc. - Wien, 2022
Masterarbeit, Universität Wien, Fakultät für Physik.
Signatur: DissD.5618
u:search: https://ubdata.univie.ac.at/AC16566604
#67
verfasst von Andreas Siegfried Stühler, BSc. - Wien, 2022
Masterarbeit, Universität Wien, Fakultät für Chemie.
Signatur: HS-2072
u:search: https://ubdata.univie.ac.at/AC16567549
