Coming dissertations at Uppsala university
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Essays on Polarization and Inequality
Link: http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-538410
This thesis comprises three self-contained essays.
Essay I: Opinions are shaped within a social environment, which existing social learning models often assume to be static. However, social environments evolve through individual actions over time. This essay introduces a model where echo chambers form as communication between agents depends on their actions. Agents with similar behaviors are more likely to communicate. We find that this model can exhibit: (1) Polarization of opinions, where opinions cluster into different groups; (2) Failure of the wisdom of crowds, as the average opinion does not approach the average information signal, even if all signals are drawn from the same distribution; and (3) Path dependence, where the average opinion converges to a level that depends on the initial distribution of opinions. Unlike existing models of polarization, learning in this model is assimilative, meaning that opinions are more similar after communication compared to before. Unlike existing models with assimilative learning, these results support long-term differences in opinions without restricting communication between agents.
Essay II: This essay examines how expectation formation processes can lead to biases in expectations about the value of education using a social learning model. This bias arises from segregation within social networks, where agents are more likely to communicate with others from similar socioeconomic backgrounds. The results suggest a link between socioeconomic segregation and the inter-generational persistence of socioeconomic status that has not been extensively explored in the literature so far. Simulation results indicate that this link strengthens under conditions of high segregation and moderate educational gains.
Essay III (co-authored with Charlotte Paulie and Kerstin Westergren): For the past several decades, wealth inequality has increased in many countries. Do changes in the tax system contribute to these trends? Using a quantitative model, we examine the effect on wealth inequality of changing from a comprehensive to a dual tax system. We start with a standard open-economy incomplete-markets model, to which we add an entrepreneurial sector. The entrepreneurs in the model exploit the duality of the tax system after the reform by declaring income as capital (taxed at a flat rate) rather than labor income (taxed progressively). The model is parameterized to match the characteristics of the Swedish economy under dual taxation. In contrast to previous studies, we estimate the parameters of the stochastic process for entrepreneurial income using micro-data observations. We find that the introduction of a dual tax system increases wealth inequality and that the possibility of the entrepreneurs to declare income as capital plays an important role for this result. We also find that the level of aggregate capital and the share of entrepreneurs is higher in an economy with a dual tax system.
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Understanding and Leading Sustainable Development : Shifting to Stakeholder Focus in Sustainable Housing
Link: http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-538600
The systematic degradation of social and ecological systems’ ability to support human well-being is causing existential threats, this demands society to undergo a radical transition. Examples of these demands include biodiversity loss, climate change, inequality, and a decline in trust, highlighting the urgent need to adopt practices for sustainable development. This thesis explores the organisational process of Leading sustainable development.
The work starts with a linear logic where the Leading process is related to a chain starting with Understanding, Defining, Measuring, Communicating and ending with Leading sustainable development. The logic is used to conduct maturity assessments in the value chain for building in Sweden and globally where the results are used to indicate that there is a lack of understanding sustainability and sustainable development. With these empirical results research results, insights and theories are combined in a conceptual development using both abductive and retroductive inferences to describe the relation between the processes Understanding, Defining, Measuring, Communicating and Leading.
The conceptual development results in a new model – the LUnDeMeCo model which underlying mechanisms are described from a critical realist perspective. The conceptual development is positioned in the sub-theme of Quality Management research which suggests further integration between quality thinking and system thinking. The proposed goal of this theme in Quality Management is contributing to sustainable development through a shift from customer focus to stakeholder focus. Further results are derived through relating the shift from customer focus to stakeholder focus to the underlying system contexts and is informed by second-order critique guided by Critical Systems Thinking.
Main result is the proposed LUnDeMeCo model and the related system methodologies, in the form of principles, practices, and tools, which are context dependent. Where the context is related to a typology of sustainability challenges developed in one of the appended papers, and the System of System Methodologies grid used in Critical Systems Thinking.
The results contribute to the field of Quality Management where there is ambitions to support sustainable development, but confusion about the implications from the shift from customer focus to stakeholder focus. Results also contribute to organisations looking to engage in Leading sustainable development in understanding how different principles, practices and tools can support their organisational capabilities for Leading, Understanding, Defining, Measuring and Communicating.
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Towards an Integrated Optoelectronic Device for Single-Molecule Detection in Electrolytes
Link: http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-538768
Single-molecule detection (SMD) provides ultrahigh sensitivity in biosensing and bioimaging, which is crucial for DNA and protein sequencing, early disease diagnose, drug detection, environment monitoring, food safety, and a deeper understanding of biological process, etc. Among various methods developed for SMD, fluorescence-based methods and transistor-based methods are outstanding due to their high sensitivity and versatility. However, fluorescence-based methods usually rely on labels, and advanced but bulky and expensive microscopes, restricting them to research use. For the label-free nanoscale field-effect transistors (FETs), detections of charged molecules of nanometres or larger in size are dubious due to the so-called Debye screening effect.
Here in this thesis, a novel optoelectronic device for molecular sensing is developed, combining the advantages of fluorescence-based methods and FET-based methods, while avoiding their disadvantages. Hydrogendoped amorphous InGaZnO thin film-based transistors (a-IGZO:H TFTs) are employed as phototransistors to detect photoluminescence signals from the upconversion nanoparticles (UCNPs) immobilized on top of the a-IGZO:H active layer. Molecular sensing is demonstrated using UCNP-based Förster resonance energy transfer (FRET) with streptavidin-biotin bonding pairs and small gold nanoparticles as quenchers. The integration of UCNPs and FRET with phototransistors simplifies the optics and gives a high signal-noise ratio (SNR). The integrated setup is promising to be developed into a portable and cost-effective biosensing platform with high sensitivity. To improve SNR, plasmonic nanostructures including aluminum nanohole arrays and gold nanorod dimers are simulated and fabricated to enhance the fluorescence intensities of fluorophores including single quantum dots, organic dyes on single extracellular vesicles, and single UCNPs. The plasmonic nanostructures for enhancing fluorescence intensities of single UCNPs can be integrated onto highly sensitive photodetectors in future studies to achieve SMD in electrolytes.