Lund University, Scania, Sweden invites online Application for number of Fully Funded PhD Degree at various Departments. We are providing a list of Fully Funded PhD Programs available at Lund University, Scania, Sweden.
Eligible candidate may Apply as soon as possible.
(01) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Technology and Society focused on the economic analysis of digital market structure and cyber security
Technology and Society is a third cycle subject that encompasses multidisciplinary and interdisciplinary studies of technology’s role, interplay and importance in different sectors of society. The research conducted by SoeTech is mainly grounded in economic analysis and includes economics, economic geography, sociology, political science, and economic history.
The PhD position is part of an interdisciplinary research project on the economics of cybersecurity, funded by the Swedish Civil Contingencies Agency (MSB). Apart from SoeTech researchers, the project includes scholars in technology and psychology from Rise Research Institutes of Sweden and Uppsala University, respectively, as well as a PhD student in psychology at Uppsala University.
The research work related to this PhD position will focus primarily on studying digital markets and how digitalisation affects market structure in general, and the economic analysis of technological interdependencies and cybersecurity in particular. This includes analysis of statistical data collected for this project on, among other things, the use of cloud services, investments in digital transformation and cyber security measures in Swedish firms.
Deadline : 01.Nov.2024
(02) PhD Degree – Fully Funded
PhD position summary/title: Doctoral students in Physics with focus on attosecond physics
At the division, research is performed on the generation and application of extremely short light pulses, in the attosecond and extreme ultraviolet range. The activities span from ultrafast laser technology and extreme nonlinear optics to studies of the electron dynamics in atoms and molecules as well as more complex systems using attosecond light pulses. The division of Atomic Physics is now looking for two PhD students for the projects described below.
The projects are founded through a Marie Sklodowska-Curie doctoral network: Quantum information science and ultrafast nonlinear control at the attosecond timescale – QU-ATTO
This means that the positions come with some constraints and possibilities. The candidates recruited for these positions cannot have have lived or carried out main activity (studies, work, etc.) in Sweden more than 12 months the last 3 years to be eligible. The positions come with a training network in Europe together with 15 PhD students in different countries. It will also include secondment at another university or in industry for a few months.
The first project is in collaboration with the free-electron laser facility FERMI in Italy. The name of the project is: Direct sub-cycle probing of the phase shift induced by two-photon Rabi cycling in helium and aims to control XUV light generated with a free-electron laser to produce attosecond pulses and to demonstrate coherent control of electronic dynamics in a two-photon absorption process.
The second project is called: Tomographic reconstruction of entangled quantum states in photoionization. This project aims to further improve the technique developed in Lund for the reconstruction of the density matrix of photoelectrons created by absorption of ultrashort XUV pulses by atoms and molecules. This project will be done mainly in-house.
In both projects, there will be a close collaboration with different theory groups.
The main duties of doctoral students are to devote themselves to their research studies which includes participating in research projects and third cycle courses. The work duties can also include teaching and other departmental duties (no more than 20%).
Deadline :22.Oct.2024
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(03) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Biology with a focus on AI & Microbial Forensics
Biology is the broad subject of all living things. It encompasses everything from processes at the molecular and cellular levels to global processes at the ecosystem level. The subject is divided into a range of sub-disciplines and specializations. The PhD program at the Department of Biology includes many of these specializations, from molecular biology to applied ecology, from viruses and individual cells to evolutionary biology and global biodiversity. Taking on research studies at the Department of Biology generally means focusing on a delimited part of the research area of biology and may include field studies, experiments, theoretical studies, or a combination of these.
Deadline : 12.Oct.2024
(04) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Electrical Engineering with focus on Integrated Analog Circuit Design
You will design analog-to-digital data converters (ADCs) in an advanced CMOS process, targeting a sampling rate of at least 2GS/s and a signal-to-noise-and-distortion ratio (SNDR) of at least 60dB at the Nyquist (i.e., highest) conversion frequency. The goal is to meet the demands of ultra-wide-band 6G communications.An integral part of the project is the study, development, and deployment of digital techniques to enhance the SNDR of the ADC, an approach that has recently gained huge popularity.
Deadline : 11.Oct.2024
(05) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Computational Fluid Dynamics for Hydrogen Engines
The main duties of doctoral students are to devote themselves to their research studies which includes participating in research projects and third cycle courses. The work duties will also/can also include teaching and other departmental duties (no more than 20%).
This doctoral position is centered on the advanced study of Computational Fluid Dynamics (CFD) as applied to Hydrogen Internal Combustion Engines. The primary research focus is on the mathematical and computational modeling of hydrogen fuel dynamics in internal combustion engines, aiming to innovate and optimize engine design for zero carbon emissions. This involves a detailed exploration of the fluid mechanics and thermodynamics specific to hydrogen combustion processes, including turbulence modeling, combustion kinetics, and heat transfer in engine environments. The successful candidate will contribute to a crucial area of research that supports the transition to sustainable, clean energy in heavy-duty transportation, aligning with global environmental goals.
Deadline :09.Oct.2024
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(06) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Economic History
Those appointed to doctoral studentship shall primarily devote themselves to their studies, aimed to result in a doctoral degree. Work carried out during the studentship consists of participation in research projects as well as successful participation in postgraduate (third-cycle) courses. Those appointed to doctoral studentships may also work, to a limited extent, with educational tasks and administration at the Department of Economic history. However, duties of this kind may not comprise of more than 20 percent of a full time post.
The PhD position is linked to the research project ‘Escaping Segregation: A Longitudinal Analysis of Socio-Spatial mobility, neighborhood policy and immigrant integration in Malmö and Copenhagen’. The PhD student will work in this project in collaboration with other project members.
Deadline : 01.Oct.2024
(07) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Sustainable energy systems
The doctoral student will work on the project “Evaluating transformative energy governance in an urban context”. The aim of this project is to increase the capacity of cities to govern transformative change towards sustainable and climate-neutral energy systems. The project, which has an interdisciplinary approach, includes three doctoral students – one at Lund University (IIIEE), one at Linköping University and one at Stockholm Environmental Institute. The project is funded by the Swedish Energy Agency and the doctoral students will be part of the national interdisciplinary graduate school in Energy Systems.
The focus of the project is on the evaluation of transformative policy tools for climate-neutral energy system, and the development of an interdisciplinary evaluation framework that will allow for building strategies of continuous, learning-oriented evaluation approaches that can make the implementation of new transformative policy instruments more effective. The empirical focus will be on transformative governance tools which are currently gaining increasing attention in research and policy, (1) urban experimentation and system demonstrations, (2) transformative finance at the city level, and (3) public procurement for system innovation.
The doctoral student at the IIIEE will focus on the evaluation of public procurement for system innovation, taking into account aspects of how procurement programs support a transformative change of local energy systems, technology change (including technology performance), various learning processes related to innovation, and institutional change.
Deadline : 30.Sep.2024
(08) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Packaging Logistics, focus on sustainable omni-channels
Packing logistics is a multidisciplinary research subject, which integrates and develops logistics and packaging. Packaging logistics applies different theoretical fields of knowledge and methodologies to explore, explain and improve effective and sustainable utilisation of resources throughout supply chains. Packaging logistics research contributes to sustainable development by integrating packaging with logistics, innovation and product development in the fields of technology, economy and the environment.
Deadline : 30.Sep.2024
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(09) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Sustainable Energy Systems Evaluation
The doctoral student will work within the project “Capacity for Assessment of Socio-economic Implications”.
The general research area is defined by investments in new industrial facilities and infrastructure in Sweden that are part of the country’s transition to a climate-neutral energy system. Driven by forces such as climate goals and market pressures for sustainable products and services, the ‘transition’ is a historic development that affects all of society.
The central focus of the project is on building knowledge of both the form, and the significance, of flow-on socio-economic, and sustainability, effects of major energy-related projects that are part of the transition
The project requires an interdisciplinary approach, and will employ two doctoral students – one at Lund University (IIIEE), and one at The Royal Institute of Technology (KTH). The project is funded by the Swedish Energy Agency and the doctoral students will be part of the national interdisciplinary graduate school in Energy Systems (FOES).
The general aim of this project is to increase the capacity of academia, industry, and regional/municipal authorities, to manage key socioeconomic changes in regional energy-related infrastructure and their enfolding energy systems.
The underlying challenge that the project addresses is that transformative energy-related infrastructure initiatives impose extensive social and economic side-effects upon host regions and between regions. While such projects offer extensive opportunities for new jobs and new opportunities for companies with direct or indirect connection to the ventures, they can also have unexpected or negative impacts. Among others, such include induced changes to the form and function of: host communities; demand for community services; housing and infrastructure markets; energy system function, and more. For opportunities to be maximised, and challenges ameliorated, improved information for planning is required by decision makers that span industry, regional and municipal authorities, and political spheres.
Thus, more specifically, the project is to both develop knowledge among energy system researchers, and build capacity to provide foresight into key regional socioeconomic changes and sustainability issues that relate to energy-transition infrastructure projects. In turn, the project is to enhance the abilities of decision makers in industry, and regional and municipal authorities as they seek to maximise socio-economic and environmental potentials.
Central to efforts to build capacity for assessment will be the application of the Regional Analysis and Forecasting System (Raps), a Swedish Multi Regional Input/Output model. Raps is applied for both forecasting and analysis of the socio-economic effects of projects upon regional economies and society. Empirical research work is planned with 4-5 large Swedish ‘energy-transition’ projects. Cases will span activities in areas such as: electrical energy storage; carbon sequestration; advanced renewable fuel production; and the hydrogen economy. The project will also contribute to the development of an energy module complementing the Swedish Raps.
The doctoral student at the IIIEE will have primary focus on the evaluation tasks focused on socioeconomic development parameters such as consequences for employment, demography, housing markets and immigration/emigration within the case studies. This will also take into account issues such as how gender, or group affiliation, affect access to positions of power, resources, and decision-making.
The IIIEE doctoral student will also collaborate closely with the KTH doctoral student. KTH work is to have more focus on the evaluation tasks that focus on engineering parameters, development of the modelling tool, and techno-economic analysis or modelling within the case studies.
Deadline : 30.Sep.2024
(10) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Biomedical engineering with a focus on nanofluidic interfacing to masspectrometry
Microscale acoustofluidics, i.e. the actuation and manipulation of fluids and microparticles in microfluidic channels, enables exquisit spatial control of particles as well as microdroplet formation in fluid jets.
The position comprises research and development in the field of biomedical engineering with a focus on optimizing and expanding the current state of art in acoustofluidics employed to microscale fluid jet formation and controlled droplet generation. Emphasis will be put on the development of microscale acoustofluidic devices where two phase (flows gas/liquid) are combined to enable high fidelity control of droplet formation from low volumetric flowrate microfluidic systems.
Deadline : 30.Sep.2024
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(11) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Electrical Engineering focusing on Integrated Analog Circuit Design
You will design series-resonance voltage-controlled oscillators and frequency multipliers in an advanced CMOS-process, targeting frequency generation up to 100 GHz as a well as the lowest phase noise ever achieved. The goal is to meet the superior spectral purity required by ultra-wide-band 6G communications. Another objective of the project is to improve the theoretical understanding of the mechanisms responsible for phase noise generation in a series-resonance oscillator, which appear to be quite distinct from those at work in transconductor-based oscillators.
Deadline :30.Sep.2024
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(12) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Electrical Engineering focusing on Cryptology
Wallenberg AI, Autonomous Systems and Software Program (WASP) is Sweden’s largest individual research program ever, a major national initiative for strategically motivated basic research, education and faculty recruitment. The program addresses research on artificial intelligence and autonomous systems acting in collaboration with humans, adapting to their environment through sensors, information and knowledge, and forming intelligent systems-of-systems. The vision of WASP is excellent research and competence in artificial intelligence, autonomous systems and software for the benefit of Swedish industry.
More about WASP (https://wasp-sweden.org/).
The graduate school within WASP is dedicated to provide the skills needed to analyze, develop, and contribute to the interdisciplinary area of artificial intelligence, auto-nomous systems and software. Through an ambitious program with research visits, partner universities, and visiting lecturers, the graduate school actively supports forming a strong multi-disciplinary and international professional network between PhD-students, researchers and industry.
More about WASP graduate school (https://wasp-sweden.org/graduate-school/).
Deadline : 27.Sep.2024
About Lund University, Scania, Sweden – Official Website
Lund University is a prestigious university in Sweden and one of northern Europe’s oldest universities. The university is located in the city of Lund in the province of Scania, Sweden. It traces its roots back to 1425, when a Franciscan studium generale was founded in Lund. After Sweden won Scania from Denmark in the 1658 Treaty of Roskilde, the university was officially founded in 1666 on the location of the old studium generale next to Lund Cathedral.
Lund University has nine faculties, with additional campuses in the cities of Malmö and Helsingborg, with 40,000 students in 270 different programmes and 1,300 freestanding courses. The university has some 600 partner universities in nearly 70 countries and it belongs to the League of European Research Universities as well as the global Universitas 21 network. Lund University is consistently ranked among the world’s top 100 universities.
Two major facilities for materials research are in Lund University: MAX IV, a synchrotron radiation laboratory – inaugurated in June 2016, and European Spallation Source (ESS), a new European facility that will provide up to 100 times brighter neutron beams than existing facilities today, to be opened in 2023.
The university centers on the Lundagård park adjacent to the Lund Cathedral, with various departments spread in different locations in town, but mostly concentrated in a belt stretching north from the park connecting to the university hospital area and continuing out to the northeastern periphery of the town, where one finds the large campus of the Faculty of Engineering.
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