KTH Royal Institute of Technology, Stockholm, 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 KTH Royal Institute of Technology, Stockholm, Sweden.
Eligible candidate may Apply as soon as possible.
(01) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in applied and computational mathematics
Applied and computational mathematics, specialization numerical analysis
The position involves developing multimodal AI models for medical imaging with physics-informed cross attention for connecting the various modalities in PET/CT and spectral CT, see https://www.kth.se/profile/ozan/page/multimodal-ai-in-imaging
Deadline : 05.May.2025
(02) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Construction Calculation
The Department of Real Estate and Construction Management is recruiting a doctoral student for a strategic research project in digitalization and sustainability.
The doctoral project, which is part of the postgraduate program Civil Engineering: Management, Economics and Law, focuses on the interaction between construction technology, construction materials, and construction economics and how this intersection is affected by issues around sustainability and digitalization. A main focus is on economic aspects and how digitalization enables the evaluation and development of new calculation models for the construction field.
The work will be carried out in an active and interdisciplinary research environment at the Division of Real Estate Economics and Finance, where colleagues mainly work with various quantitative methods in research.
Deadline :24.Apr.2025
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(03) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in AI-Based Multispecies Coalescent and Species Delimitation
The project focuses on advancing species delimitation in biodiversity conservation using modern artificial intelligence (AI) methodologies. Based on morphological traits, traditional species delimitation methods struggle with groups like bacteria and moss, where morphology is either highly plastic or non-variable. To document and conserve the numerous undocumented species, many of which are nearing extinction, the project proposes leveraging AI advancements for improved species delimitation.
Large-scale initiatives like the International Barcode of Life and the Earth Biogenome Project are already working on characterizing and sequencing the DNA of millions of species. However, computational challenges exist in using these massive genomics datasets for species delimitation. The multispecies coalescent (MSC) model offers a framework for understanding genealogical relationships and genetic divergence across species, but its complexity requires new methodologies for efficient analysis.
This project aims to use Variational Inference (VI) methods, enhanced by AI technologies like normalizing flows, graph neural networks, and transformers to represent distributions over trees, to improve MSC estimation. These technologies have shown significant improvements in phylogenetic analysis over traditional Bayesian methods, and this capacity for improvements will have substantially more impact on the more complex MSC model.
The project will develop an efficient framework for constructing species and gene trees under the MSC model. It aims to achieve a genome-wide analysis capability, including all gene families of considered species and many species. Finally, a framework that exploits the coalescent model for species delimitation will be developed and applied.
Deadline : 23.Apr.2025
(04) PhD Degree – Fully Funded
PhD position summary/title: Doctoral students in mathematics
The Ph.D. students position primarily involves graduate studies with the goal of a doctoral degree. Some departmental duties are included, mainly teaching basic level courses. Here is general information on doctoral studies at KTH and information about the graduate program in mathematics.
Interviews for the positions will take place in mid May, 2025. Those who apply to the positions should be prepared for traveling to KTH if they are called for an interview.
Supervision: Mats Boij or Maurice Duits is proposed to supervise the doctoral student. Decisions are made on admission
Deadline : 22.Apr.2025
(05) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Stable enzyme technologies for a sustainable bioeconomy
This doctoral research project focuses on the discovery, characterisation, engineering, and application of carbohydrate-active enzymes of microbial origin. We aim to explore the diversity of enzymes encoded by industrial and environmental microbes. Our goal is to understand their activities and stability, to explore their application in industrial bioprocesses. This fundamental research project will involve molecular biology, biochemistry, structural biology, and enzyme engineering. In addition, structural analysis of carbohydrates will be required. There is scope for creativity in this project, which can touch on diverse bioprocesses related to food, fuel, materials, and waste management. You will work closely with researchers at the Division of Glycoscience, the Stockholm CAZyme Laboratory, Chalmers University, industrial partners in Sweden, and international collaborators.
Deadline : 17.Apr.2025
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(06) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in multi-agent control systems
The project involves distributed task planning and control for multi-agent systems. Multi-agent tasks will be given in the form of formal verification languages such as temporal logic and its variants. The control of each agent will need to take into account information from other agents as well as changes in the environment. The doctoral student will develop novel algorithms for distributed multi-agent planning and control under complex tasks that account for these features using tools from multi-agent planning and control, hybrid control systems, formal methods and game theory.
Deadline : 15.Apr.2025
(07) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Oxygen based pulping from wood
Pulp production from wood is one of the most central processes for producing renewable raw materials that can replace fossil resources such as petroleum. To enhance the role of the forest industry as a carbon sink, it is crucial to reduce carbon dioxide emissions from pulp production. One promising strategy to achieve this is to expand the use of oxygen delignification, so that it can replace all or part of the conventional chemical pulp production process. Preliminary results suggest that high-quality pulp can be produced this way, while also generating a valuable by-product, oxylignin.
The project is funded within the “Emission Free Pulping” project. The doctoral student will be part of the research group in pulp technology and wood chemistry at KTH.
Deadline : 14.Apr.2025
(08) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Topological Data Analysis
The department of mathematics at KTH Royal Institute of Technology seeks candidates for a doctoral position within a project on Topological Data Analysis for Gene Regulatory Network inference. The project is financed by Digital Futures.
Topology has been recently used to study spaces arising from data, leading to important results in several fields such as neuroscience and material science. This doctoral position aims at conducting research in mathematics related to topological data analysis understood in abroad sense (fundamental developments including probability and statistics, algorithmic approaches, etc). In particular the project aims at defining topological models for gene regulatory networks and further develop the use of topological data analysis in machine learning. The project is interdisciplinary, between biology, mathematics and data science.
Deadline :11.Apr.2025
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(09) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Transport Science
Transport Science with specialization in Transport Systems
Urban logistics and last-mile distribution are evolving rapidly with new business models and emerging technologies. Quick commerce and on-demand delivery are becoming integral to transport systems, increasing the need for sustainable solutions that improve efficiency while reducing environmental impacts, congestion, and social inequalities. Examples include crowdsourced delivery services and parcel lockers.
The Department of Urban Planning and Environment at KTH is seeking a motivated and talented candidate in the field of Transportation. The role offers the opportunity to research innovative urban logistics solutions to address key challenges such as economic viability, equity, and environmental sustainability. Different projects will focus on designing and evaluating new services using optimization algorithms and simulation. Collaboration with industrial partners in the logistics sector will provide opportunities for real-world application and impact.
Deadline : 10.Apr.2025
(10) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Computer Science
We seek highly motivated doctoral students to join a four-year research project that optimizes future high-performance computing (HPC) for enhanced scalability and resource efficiency. This position offers the opportunity to conduct cutting-edge research at the intersection of emerging computing paradigms. The doctoral student may choose to specialize in one of the following research directions:
- Investigating how quantum computing can be integrated with classical HPC to accelerate complex algorithms.
- Exploring using Large Language Models (LLMs) to optimize and automate the tuning of large-scale parallel applications.
The selected candidate will engage in research in quantum computing (QC) and/or LLMs, addressing real-world challenges that require large-scale parallel computing, including supercomputers and cloud-based systems.
Deadline :10.Apr.2025
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(11) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Fusion Plasma Physics
The research project for the present PhD position is within in the field of fusion plasma physics. The ultimate goal of fusion plasma physics is to develop commercial fusion reactors. However, there are challenges and several issues that must to be resolved on the way to building a first fusion power plant. One of the key issues is to understand the so called high confinement tokamak regime, where steep gradients develop in the plasma edge to form a pedestal.
The project aims at developing the understanding of the pedestal behavior, in part via experimental data analysis of present-day fusion experiments and in part via theoretical modelling.
The project will be carried out in an international framework and the student will work in close collaboration with partner institutions from other countries, primarily within Europe. The student might carry out a part of his/her research activity abroad.
Deadline : 10.Apr.2025
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(12) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in information theory
The project focuses on information-theoretic analysis and synthesis in general, and in particular with applications in future wireless communications, security and privacy, and machine learning.
Deadline : 10.Apr.2025
(13) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Materials Science – Developing Sustainable Cemented Carbide Materials
Materials Science and Engineering
Do you want to be part of research that can change the tool materials of the future? We are looking for a PhD student for an innovative project that aims to replace cobalt in cemented carbide with an iron-based binder phase. By utilizing martensitic transformation, we strive to create materials with exceptional mechanical properties for rock drilling.
The project combines thermodynamic and kinetic modeling via ICME (Integrated and Computational Materials Engineering), experimental material characterization with advanced microscopy and spectroscopy, and an in-depth evaluation of the materials’ properties.
At the Unit for Structures, you will work in an international research environment, in collaboration with experts in theoretical, computational and experimental studies of materials. You will have the opportunity to be part of developing sustainable solutions for industry and have access to advanced infrastructure and interdisciplinary collaboration.
Deadline : 07.Apr.2025
(14) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Digitalization and Sustainable Urban Planning
The project focuses on the ongoing digitalization of Swedish urban and regional planning, exploring preconditions, challenges and competence related to sustainable transformation. The position is at the Division of Urban and Regional Studies, in collaboration with the Division of Surveying. We are a multidisciplinary research environment with emphasis on sustainability transformation and collaboration with societal actors. We are looking for candidates who have a keen interest in societal and sustainability issues. Work experience is beneficial but not required.
Deadline : 07.Apr.2025
(15) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in applied and computational mathematics
This project proposes a new method for reconstructing 3D structures of molecules from cryo-EM images using generative models. Existing models such as AlphaFold 3 and Chroma contain a wealth of valuable information about molecular structures but can also hallucinate. By instead using these models as prior distributions in a Bayesian framework, we combine information from two different sources (generative models and cryo-EM) to construct more reliable 3D structures.
The project is a collaboration within Digital Futures between the Departments of Mathematics and Intelligent Systems at KTH and the Department of Biochemistry and Biophysics at SU.
Deadline : 03.Apr.2025
(16) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in digital solutions for sustainable building technology
The Department of Civil and Architectural Engineering wishes to hire a PhD student for a research project on how reuse can be implemented and optimized to balance economic and environmental benefits. The project is interdisciplinary and has a connection to previous and ongoing research at the School of Architecture and the Built Environment. As a doctoral student, you will collaborate both with researchers from different departments at KTH and have contacts with construction and real estate actors in Sweden.
We will explore how digital workflows can support different stakeholders in decisions regarding the reuse of building materials and components. This includes processes for material inventory and quality assurance as well as effective methods for analyzing how reuse in different situations can affect costs, use of virgin material resources and carbon dioxide emissions. An important aspect is to examine different stakeholders’ information needs, driving forces and business models to understand how they can effectively participate in the reuse process and which digital user interfaces can be used to collect, share and communicate information for reuse in a practice.
Deadline :03.Apr.2025
(17) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Architecture: Adaptive Reuse and Repair
Through artistic research, this PhD position addresses the need for new sustainable ways of reuse and repair in architecture. Through digital techniques for visualization, documentation, and fabrication, the aim is to develop sensitive methods that attend to material, cultural, and historical values in the built environment. The aim of the project is to advance methods for imagining how the already existing holds radical sustainable futures.
In response to current environmental and socio-political concerns, and with a critical awareness that techniques for digitalization simultaneously preserve and control, as well as construct and rewrite knowledge, this project engages in a cross-disciplinary overlap of methods to make intertwined relationships and multi-layered aspects visible. Further, it examines how we imagine, understand, make, and maintain our built environment.
Deadline : 03.Apr.2025
(18) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Navigation and Perception in Built Environments
The Group of Navigation and Perception at KTH Royal Institute of Technology is seeking a highly motivated doctoral student with a strong background and interest in navigation, signal processing, optimal estimation, and machine learning. Our research focuses on advancing next-generation navigation technologies for complex built environments and developing intelligent solutions to support a smart, sustainable, and resilient society.
Awareness of location and environmental context is crucial for applications such as location-based services (LBS), well-being promotion, and AI-driven decision-making. This is particularly relevant in scenarios where personal smart devices (e.g., smartphones) or autonomous perception systems operate in challenging built environments, such as indoor spaces, urban areas, and even underground settings. However, achieving accurate and reliable positioning in such environments remains a significant challenge.
This PhD project aims to develop novel AI-driven methods for trustworthy positioning and environmental perception, with a particular focus on mobile devices with limited computational resources and power supply. The research will explore sensor fusion techniques, deep learning models, and optimization strategies to enhance location awareness and situational understanding in complex and dynamic environments.
Deadline : 03.Apr.2025
(19) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in hydrology with a focus on pluvial flood risks
Third-cycle subject: Environmental Engineering, with a specialisation in Hydraulics and Technical Hydrology
The Department of Sustainable Development, Environmental Science and Engineering is seeking a PhD candidate for a project focusing on cloudburst management in a changing climate. The project aims to develop robust strategies for managing pluvial flood risks under significant uncertainty by combining hydrological modeling with risk assessments and flood management strategies. The work will be carried out in an interdisciplinary research environment, where future scenarios, mathematical models, and theoretical approaches are developed. The project is expected to provide new insights and strategies to support decision-making that promotes sustainable and resilient development of physical infrastructure.
Deadline : 03.Apr.2025
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(20) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in theoretical foundations of data storage and analysis
We are looking for two highly motivated individuals to pursue a Ph.D. in algorithms, data structures, and data analysis. The research team develops algorithms and data structures with provable guarantees, by leveraging theoretical insights to obtain state-of-the-art practical algorithms. Currently, we have a focus on randomized algorithms and probabilistic data structures such as data sketches, Bloom filters, and hash functions. We are also interested in implementing and developing efficient data structures for subroutines that appear in data science algorithms. The positions have a strong mathematical flavor, and the students will spend a big part of their work analyzing algorithms theoretically. Several directions of the project are possible and will be determined in collaboration with the Ph.D. candidate.
Deadline : 03.Apr.2025
(21) PhD Degree – Fully Funded
PhD position summary/title: Doctoral students in AI-native 6G Radio Access Networking
Among several novel features that will define upcoming 6G networks, there is little doubt that AI is among the most important base technologies. Research in this area is currently exploring three main directions:
1) Replacing specific functions within the radio network stack with AI.
2) Using AI to enable entirely new functionalities in radio systems.
3) Leveraging generative AI to instantiate arbitrary radio network stacks for specific applications.
The Doctoral students will be exploring these topics as part of a collaborative team, working closely with internal researchers and external partners.
The Doctoral students will focus on MAC and link layer aspects of radio networks, while also considering the role of the physical and network layers. The work will involve a mix of theoretical research and practical experiments, giving you the opportunity to contribute to both fundamental and applied advancements in the field.
Deadline :03.Apr.2025
(22) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Integrated quantum photonics
Within this project you will develop photonic integrated circuits in lithium niobate and explore the integration of new functionalities on this technological platform through rare-earth doping and periodic poling. You will work in the Nonlinear and Quantum Photonics group at Albanova and participate in a broad spectrum of experimental and theoretical activities, encompassing the development of photonic devices, systems and applications in quantum communication and quantum information processing. The position is supported by the Wallenberg Center for Quantum Technology (WACQT), a 12 years’, billion-SEK initiative funded by the Knut & Alice Wallenberg Foundation, with the purpose of advancing Swedish academia and industry to the forefront of quantum technology.
Deadline : 02.Apr.2025
(23) PhD Degree – Fully Funded
PhD position summary/title: Doctoral Student in High-Temperature Metallurgy, Tramp Element Removal
The Horizon Europe-funded project “Metallic Elements Dissipation Avoided by Life Cycle Design for Steel” (MEDALS) focuses on enhancing steel recyclability by addressing tramp elements—unwanted impurities that accumulate during recycling. The PhD candidate will lead high-temperature experiments to improve scrap processing and steel quality. This role involves developing innovative pyrometallurgical setups, modeling industrial processes, and validating results. The main tasks includes designing and conducting laboratory experiments to remove tramp elements from liquid steel
Deadline : 31.Mar.2025
(24) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in physics of fluids and interfaces
The Department of Engineering Mechanics pursues basic and applied research in biomechanics, composite mechanics, fluid mechanics, contact mechanics, fracture mechanics and fatigue, material mechanics, and paper mechanics. FLOW is a strong community of researchers engaged in fundamental and applied research in fluid mechanics within the department.
We are currently seeking a PhD student in fluid mechanics to join the Fluid and Surface Group within FLOW. This position offers an exciting opportunity for talented and motivated researchers to contribute to a cutting-edge research project. As part of LUBFLOW, funded by the European Research Council (ERC), the project uses computational fluid mechanics to explore fundamental questions about multiphase fluid flows interacting with complex surfaces and materials. Specifically, the candidate will develop and apply state-of-the-art numerical codes to study transport processes in both laminar and turbulent flows containing two or more fluid phases. Our primary focus is on understanding how complex surfaces—whether rough, porous, or lubricated—can be used to control transport processes. This could lead to technological advancements in several sectors, including energy, health and engineering.
Deadline : 31.Mar.2025
(25) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Emerging Quantum Materials
Understanding emerging quantum materials is crucial for developing quantum computers with unprecedented processing power as well as replacing old electronics with energy efficient spintronics. This project will use leading neutron/muon/x-ray facilities to reveal detailed nuclear/spin structures & excitations of novel quantum materials. Theory and modeling of data will be conducted in collaboration with NORDITA. The project is also a collaboration with ISSP, Univ. of Tokyo, and the student is expected to spend 1 year of the PhD in Japan. Studies of novel superconductors, topological materials and altermagnets are anticipated. For more information: https://www.kth.se/profile/condmat/page/open-positions
Deadline : 31.Mar.2025
(26) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in computational fluid dynamics of multiphase flows
The Department of Engineering Mechanics pursues basic and applied research in biomechanics, composite mechanics, fluid mechanics, contact mechanics, fracture mechanics and fatigue, material mechanics, and paper mechanics. FLOW is a strong community of researchers engaged in fundamental and applied research in fluid mechanics within the department.
FLOW is seeking a highly motivated Ph.D. candidate with a strong background in flow physics, numerical methods, and programming to join the research group of Assistant Prof. Shahab Mirjalili. The Ph.D. candidate will develop physical models, computational schemes, and high-performance computing software to study multiphysics effects in multiphase flows. In addition, the candidate will use data-driven tools, including deep learning methods, to develop reduced-order models of such flows. The candidate will be part of FLOW, which is a dynamic and collaborative research environment. As such, it is important that the Ph.D. candidate collaborates with other researchers in the community and actively engages in scientific and other activities.
Deadline : 31.Mar.2025
(27) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in mobile wireless sub-THz/THz MIMO communications for 6G
Wireless technology has evolved over five generations, but the need for higher efficiency and reliability is never-ending. The 6G research aims to identify new groundbreaking methods enabling tomorrow’s wireless applications. Specifically, the interest toward even higher frequencies beyond millimeter waves remains high for 6G and beyond. This particularly includes sub-terahertz (sub-THz, 100 GHz – 300 GHz) and terahertz (THz, 300 GHz – 3 THz) bands that theoretically enable both extremely high-rate connectivity and extremely high-resolution sensing.
In this doctoral project, you will contribute to the theory formation for mobile sub-THz and THz wireless communication systems for 6G and beyond and establish yourself at the international forefront. Some possible research sub-areas are related to physically large antenna arrays, near-field THz communications, intelligent reflecting surfaces (IRSs), joint terahertz communication and wireless sensing (ISAC), massive and distributed MIMO at sub-terahertz frequencies, and terahertz communications for satellite networks. The research will focus on the physical layer and media access control layer. Methods from probability theory, communication theory, electromagnetics, optimization, and machine learning will play an important role.
Deadline : 28.Mar.2025
(28) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Signal Processing for 6G Wireless Communications
Wireless communication technology has evolved over five generations, but the demand for higher efficiency, availability, and reliability is never-ending. The physical layer of 5G and 6G networks revolves around the multi-antenna MIMO technology. 5G uses 64 antennas in each base station and four antennas in devices, which might grow by 5-10 times in 6G. Combined with well-designed signal processing algorithms, these antennas can be used for beamforming, spatial multiplexing, and integrated communication and sensing (ISAC).
In this doctoral project, you will contribute to cutting-edge 6G MIMO technology research and develop new communication theory and signal processing algorithms. The focus might be on Gigantic MIMO, cell-free networks, near-field communications, MIMO satellite communications, or ISAC. The research will be focused on the physical and media access control layers. Methods from MIMO communication theory, array signal processing, optimization, and machine learning will likely play a vital role. The research will mainly be theoretical, but KTH has testbeds for potential experiments. However, we are not looking for microwave engineers because no antennas or hardware will be built.
You will join the world-leading research group of Prof. Emil Björnson (IEEE Fellow, Clarivate Highly Cited Researcher) and work at the Division of Communication Systems at the EECS school. The research is funded by external projects, so there will be good opportunities to interact with the telecom industry.
Deadline : 28.Mar.2025
(29) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in signal processing for underwater systems
Today, sensing and communication are separate processes in most underwater systems, and sensing and communication follow a predefined pattern. This causes a suboptimal utilization of resources, such as energy, bandwidth, etc. But thanks to technological advancements, it is now realistic to imagine systems that integrate sensing and communication into a single task and intelligently adapt their behavior to the situation at hand. Thereby, the systems will be better able to utilize available resources and enable large-scale monitoring of marine environments. Within this PhD project, you will contribute to developing theory and methods for integrated sensing and communication within underwater systems.
The exact research direction within the overall research area of underwater signal processing and communication can be tailored to your interests. A few possible directions are the research and development of methods for a) distributed sensor fusion and communication in underwater sensor networks; b) estimation and identification of underwater acoustic propagation models; and c) sensor management and path planning for marine vessels. Theory and methods from signal processing, communication theory, optimization, and machine learning will be essential to the research.
Deadline : 27.Mar.2025
(30) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in Theoretical Condensed Matter Physics
The group of Egor Babaev at the Department of Physics of KTH Royal Institute of Technology has an opening for two Doctoral students in the field of theoretical condensed matter physics. The group carries a broad spectrum of research using analytical and numerical methods ranging from effective field theory, topological solitons, statistical mechanics of the phase transitions, topological systems to modern microscopic quantum many-body techniques.
One of our research topics is the emerging field of composite order: In a recent year, experimental discoveries were made that revised half-century-old paradigms: the discovery of electron quadrupling condensate, and topological defects carrying an arbitrary fraction of magnetic flux quantum. The discovery opened up many fundamental questions on the nature of this new state of matter and its possible applications. Other topics include other new quantum symmetry-breaking and topologically-ordered states, unconventional phase transitions, and application of newly developed methods, such as Diagrammatic Monte-Carlo to understand the long-standing problems. Collaboration with local and international experimental groups involved in the project is encouraged https://www.science.org/doi/full/10.1126/science.abp9979.
Deadline :26.Mar.2025
About KTH Royal Institute of Technology, Stockholm, Sweden – Official Website
KTH Royal Institute of Technology, abbreviated KTH, is a public research university in Stockholm, Sweden. KTH conducts research and education within engineering and technology, and is Sweden’s largest technical university. Currently, KTH consists of five schools with four campuses in and around Stockholm.
KTH was established in 1827 as Teknologiska Institutet (Institute of Technology), and had its roots in Mekaniska skolan (School of Mechanics) that was established in 1798 in Stockholm. But the origin of KTH dates back to the predecessor to Mekaniska skolan, the Laboratorium Mechanicum, which was established in 1697 by Swedish scientist and innovator Christopher Polhem. Laboratorium Mechanicum combined education technology, a laboratory and an exhibition space for innovations. In 1877 KTH received its current name, Kungliga Tekniska högskolan (KTH Royal Institute of Technology). The King of Sweden Carl XVI Gustaf is the High Protector of KTH.
KTH is the highest ranked technical university in Sweden. It is ranked top 100 in the world among all universities in the 2020 QS World University Rankings.
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