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Sino-Japanese relations cooperation, competition, or status quo? /Taylor, Fred H. January 2008 (has links) (PDF)
Thesis (M.A. in National Security Affairs)--Naval Postgraduate School, March 2008. / Thesis Advisor(s): Olsen, Edward A. ; Miller, Alice L. "March 2008." Description based on title screen as viewed on May 15, 2008. Includes bibliographical references (p.63-65). Also available in print.
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Two problems in atomic theoryGarcía, José Dolores, January 1966 (has links)
Thesis (Ph. D.)--University of Wisconsin, 1966. / "Energy level and line tables for one-electron atomic spectra [by] J. D. Garcia and J. E. Mack. Reprinted from Journal of the Optical Society of America, vol. 55, no. 6, 654-685, June 1965"; Inserted between leaves 45-78. Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliography.
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A Energia nuclear no contexto energetico brasileiro: alternativas de reatores e de ciclos de combustivelANDRADE, GILBERTO G. de 09 October 2014 (has links)
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04724.pdf: 6181985 bytes, checksum: 21b429670816ab7b3ca631d65afc6297 (MD5) / Tese (Doutoramento) / IPEN/T / Universidade Federal do Rio de Janeiro, Rio de Janeiro
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A Energia nuclear no contexto energetico brasileiro: alternativas de reatores e de ciclos de combustivelANDRADE, GILBERTO G. de 09 October 2014 (has links)
Made available in DSpace on 2014-10-09T12:41:13Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:08:32Z (GMT). No. of bitstreams: 1
04724.pdf: 6181985 bytes, checksum: 21b429670816ab7b3ca631d65afc6297 (MD5) / Tese (Doutoramento) / IPEN/T / Universidade Federal do Rio de Janeiro, Rio de Janeiro
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Quantum mechanical studies of the early actinide compoundsObodo, K.O. (Kingsley Onyebuchi) January 2014 (has links)
This study involves the investigation of the early actinide systems using ab initio
techniques based on density functional theory (DFT). It was motivated by: (i) the
incomplete description of these systems using conventional DFT because they are
strongly correlated, (ii) the usefulness of these systems in nuclear energy generation,
(iii) the complexity that arises in experimentally studying these systems due
to their inherent radioactive nature and (iv) their limited availability.
The results obtained from this study are divided into two broad sections. The
first comprises chapters 3 and 4 while the second comprises chapters 5 and 6.
Thorium based compounds are studied in chapters 3 and 4. In the first section,
the Hubbard U parameter is not necessary to accurately describe the electronic,
elastic and mechanical properties of these systems. In the second, the inclusion of
the Hubbard U parameter is shown to be paramount for the accurate description of
most compounds considered.
Chapter 3 presents the electronic, structural and bonding character of thorium
based nitrides. We obtained the result that Th2N2NH, which is crystallographically
equivalent to metallic Th2N3, is insulating. Chapter 4 demonstrates that the
formation of a meta-stable thorium-titanium based alloy is plausible and also further
information on bonding, electronic and elastic properties of the determined
meta-stable alloy is provided. This has provided important new knowledge about
these bulk systems.
In Chapter 5 the DFT + U based study on Pa and its oxides is presented. The electronic,
structural and bonding character of these systems was studied. We found
that PaO2 is a Mott-Hubbard insulator with an indirect band gap of 3.48 eV within
the generalized gradient approximation GGA + U. Chapter 6 discusses various
actinide nitrides. We explored the electronic properties, elastic properties, lattice
dynamics and the energetics of the various compounds using GGA + U. Also, we investigated the e ect of the Hubbard U parameter and magnetic configuration on
these systems.
The use of the DFT + U based method provides a rapid way to study strongly correlated
systems, while other methods such as Hybrid functional,GW, DMFT+DFT,
etc. are highly intensive, computationally speaking. Finally, the results obtained
with the inclusion of this ad hoc parameter give a very good description of these
systems. / Thesis (PhD)--University of Pretoria, 2014. / gm2014 / Physics / unrestricted
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Investigation of nuclear energy levels using photo-neutronsAsghar, M. January 1964 (has links)
No description available.
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Social representations of nuclear power on Chinese social media : a topic modeling analysisSu, Youzhen 29 November 2019 (has links)
As nuclear power remains an ongoing controversy in contemporary society, it is crucial to understand how laypeople make sense of nuclear power by considering influences at both the cognitive and the social level. Using the lens of social representation theory, this thesis employed automatic content analysis and core-periphery analysis to reveal the content, structure, formation, and dynamic shifts of laypeople's social representations concerning nuclear power as they were expressed in tweets and comments posted on Chinese social media platform Weibo from 2011 to 2018. This thesis found that laypeople in China regarded nuclear power predominantly as an energy source, and they focused on general knowledge regarding national development of nuclear power and related energy policies, which remained unchanged over the eight years. Additionally, they perceived risks of nuclear power to occur at an individual level while benefits occurring at a social level, and they showed a reluctant acceptance of nuclear power. Alternatively, laypeople also made sense of nuclear power by addressing its controversial nature, such as plant siting and nuclear accident causation, but these ideas varied according to the specific social contexts. To form these representations, laypeople anchored nuclear power within social/historical events, a preexisting knowledge system, and personal experience, objectifying nuclear power through familiar objects and verbal metaphors. Moreover, they created and shared these representations by transforming abstract scientific knowledge about nuclear power into common-sense information and by adopting consensual discourse like heterogeneous arguments, affective expression, and stories about nuclear power. These findings provide implications for understanding laypeople's everyday knowledge of nuclear power and for designing effective communication strategies in line with laypeople's actual understanding for popularizing science and communicating risk in terms of nuclear power.
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Tritium Matters: Constructing Nuclearity and Navigating Ambivalence of a Unique MaterialLoy, Taylor Andrew 10 July 2024 (has links)
This dissertation surveys the history of tritium beginning in Ernest Rutherford's lab in 1934 with its discovery and ending at the Fukushima Daiichi disaster site in 2023 when TEPCO began releasing tritiated wastewater into the Pacific ocean. In this time, expert conceptions of tritium have experienced interdependent and overlapping phases. Each phase is characterized by a dominant "nuclearity" and situated in context of "nuclear exceptionalism" (Hecht 2014) that directly and indirectly affects material conditions, elite decision-making, and radiological impacts on the environment and human health. Because it is pervasive, diffuse, and laborious to measure, a great deal of uncertainty surrounds tritium's contribution to radiological risks. Beyond various commercial and scientific uses, it is also integral to both nuclear energy as a waste and nuclear weapons as a mechanism for dramatically increasing explosive yields. This versatile and powerful material operates at the technological nexus of two existential risks for humanity: climate change and nuclear weapons.
I divide the history of tritium into three distinct phases. First, super nuclearity characterizes early designs for the "superbomb" by Manhattan project scientists who believed vast amounts of tritium would be required. This phase extends to the late 1950s when thermonuclear warheads based on more feasible designs requiring significantly less tritium were beginning to be incorporated into the U.S. nuclear weapon stockpile. Second, special nuclearity describes the status of tritium throughout the Cold War as a critical nuclear weapons material that was referred to and treated as a special nuclear material (SNM) in practice even though it was never legally defined as such. Third, byproduct nuclearity is the current post-Cold War paradigm defining tritium as a form of incidental waste or as an innocuous "other accountable material" intentionally produced by the nuclear fission process. While tritium's super nuclearity proved to be an animating fiction with political and material impacts on the early U.S. post war nuclear weapons program, tritium's special and byproduct nuclearities have since been fully embodied in technological artifacts—primarily nuclear weapons and nuclear power plants—and remain in dynamic tension.
Tritium does not fit neatly into existing nuclearity narratives. It is accurately referred to as both "highly" and "weakly" radioactive. Having a half-life of ~12 years and being the lightest radioisotope, it has high activity by weight, but when it decays into stable helium-3 it emits only a relatively weak beta particle which poses a potential risk as internal dose. I argue that the nuclearity processes constituting various conceptualizations of tritium provide insight into navigating the complex sociotechnical relationships between humans and nuclear technology. Additionally, I anticipate tritium's next nuclearity transformation as reactor fuel for a still nascent fusion power industry. I argue that rather than allowing fusion energy proponents to dictate the next phase of tritium's nuclearity, efforts should be made to assess and synthesize salient aspects of this unique material to provide a more holistic accounting of its risks, benefits, and tradeoffs. / Doctor of Philosophy / Hydrogen is the most abundant element in the universe. It fuels the stars and forms compounds like water that are essential to life. Most atoms of hydrogen contain one proton and one electron, but hydrogen also has two less common, naturally occurring "heavy" forms that additionally contain neutrons. One is deuterium, which contains one neutron and can be concentrated to make heavy water. The other type of hydrogen is tritium, which contains two neutrons. This dissertation is about tritium, an extremely rare and valuable material that can be used to produce a faint green light source without electricity, to increase the explosive power of nuclear weapons, or to fuel fusion power reactors. Tritium is also a radioactive waste material produced by both military and civilian nuclear activities.
I divide the history of tritium into three phases: super, special, and byproduct. When tritium was first discovered in 1934, it was an exotic scientific curiosity. During the 1940s, scientists with the Manhattan Project began working out how tritium could be weaponized into a "superbomb" that would be vastly more powerful than the atomic bombs the U.S. dropped on Japan in WWII. While the "superbomb" designs proved to be unviable, powerful hydrogen weapons were developed in the 1950s that relied on tritium alongside specially prepared masses of uranium and plutonium. To limit the spread of nuclear weapons, these special forms of uranium and plutonium have been tightly regulated as special nuclear material (SNM). Tritium, on the other hand, never met the legal definition of SNM but was nonetheless treated as a "special" material throughout the Cold War until the 1990s. Tritium has remained a critical material for all modern nuclear weapons, but in the last thirty years it has been primarily thought of and regulated as a byproduct material.
Because the radiological risks posed by tritium are ambiguous and technically challenging to measure at low concentrations, many proponents of nuclear technologies suggest that they are negligible and, at the same time, anti-nuclear activists claim that more research is needed to show tritium's dangers clearly. I argue that it is important to prioritize a more thorough assessment of tritium's radiological risks and role in nuclear weapons before the implementation of large-scale fusion technologies that will require the production of many thousands more times the amount of tritium currently available in the world.
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Advanced technological solutions to the negative perceptions of nuclear power plantsJoubert, Gideon Daniel January 2018 (has links)
Thesis (Master of Engineering in Electrical Engineering)--Cape Peninsula University of Technology, 2018. / Worldwide a movement is underway to replace the burning of limited fossil fuel reserves for power generation with a cleaner, more efficient, yet still reliable and cost-effective method. Even though renewable technologies are often among the most common proposed, they are still limited by factors such as cost when considering large scale generation. Further requirements for replacing fossil fuel generation methods include the need to provide a continuous and reliable output for base load requirements, which is difficult to guarantee when making use of renewables alone. The proposed alternative is nuclear energy, as it is a reliable and cleaner method of power generation as compared to fossil fuels, capable of providing cost effective energy in the long run. The downside to nuclear energy, however, is the negative perception and general dislike of this method of generation, especially among the public who have been around this technology since its early days of implementation. The aim of this study is, therefore, to inform and prove that nuclear technology has evolved and come a long way since its early days, by making use of advanced technological solutions to address the fears associated with this technology from many years ago. The study further aims to prove that technologies such as
advanced safety systems, new generations of reactors, advanced containment structures for both reactors and waste containment, as well as new waste disposal methods, have evolved nuclear energy into a safer and cleaner alternative method of power generation. This is achieved by first considering the origin of the negative perceptions surrounding the technology, and the nuclear accidents of the past, which have greatly influenced opinions about nuclear technology even up until today. After identifying the concerns and fears surrounding nuclear energy, research was conducted concerning how the latest technologies and innovations in safety systems are used to address these concerns, and ultimately eliminate the threats where possible. With the biggest concern identified, namely a core meltdown event
leading to the release of radioactive material into the environment, two simulations were conducted to illustrate the unlikelihood of such an event occurring. The purpose of these simulations was, moreover, to illustrate the complexity and reliability of the various safety systems incorporated into the design of a nuclear power plant, preventing such a feared release of radioactivity from occurring. The research also importantly revealed that the dangers and possible threats posed by nuclear technology are often grossly overestimated, as under normal operating conditions a coal power plant, in fact, releases more radiation into the environment than a nuclear power plant. Further research reveals that the feared nuclear waste, produced by the nuclear industry yet regulated and disposed of properly, is only a small fraction of the highly hazardous waste produced on an annual basis worldwide. It is also revealed that in terms of
fatalities, fossil fuel generation, on average, is responsible for more deaths annually than the biggest nuclear disasters that have ever occurred. Addressing the fears and concerns surrounding nuclear technology is therefore important, as this valuable resource may otherwise remain under-appreciated and under-utilised because of the misperceptions which currently exist amongst the public. This furthermore results in the unnecessary exhaustion of fossil fuel reserves, and concomitant pollution of the environment – all due to antiquated fears surrounding nuclear power plants.
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Not equal partners : Anglo-American nuclear relations, 1940-1958 /Johnston, Kimberley Gail. January 2001 (has links) (PDF)
Thesis (Ph. D.)--University of Queensland, 2001. / Includes bibliographical references.
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