SCI Master's Thesis Guide 2024
Supervisors of EngPhys
Completion requirements
Engineering Physics
The list is updated by Mika Sillanpää, mika.sillanpaa@aalto.fi.Supervisor | Potential Masters Thesis topic areas |
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Ala-Nissilä, Tapio | Multi-scale and coarse-graining methodologies and their application to condensed matter systems, open quantum systems, dynamics of nonlinear systems |
Alava, Mikko | Statistical physics for materials, complex networks, and computer science |
Backholm, Matilda | Experimental soft, living, and fluid matter physics, force measurement techniques, biomechanics, swimming dynamics, fluid dynamics, capillary phenomena |
Flindt, Christian | Theoretical problems in quantum transport |
Foster, Adam | Atomistic and quantum mechanical simulations, machine learning, nanoscale surface and interface physics |
Gheorghe-Sorin, Paraoanu | Experimental circuit-QED (parametric devices, superconducting qubits) – from fundamental aspects to quantum technologies |
Groth, Matias | Fusion energy technology |
Hakonen, Pertti | Fundamental quantum phenomena in nanostructures at low temperatures, electronic transport measurements |
Halme, Janne | Renewable energy technologies, solar energy, photovoltaics, multidisciplinary energy studies, art-science collaboration, nature-positive energy solutions |
Ikkala, Olli | Functional materials based on supramolecular and supracolloidal self-assembly and its hierarchies |
Kaivola, Matti | Modern optics and photonics, various aspects of light-matter interaction, optical coherence and polarization |
Lado, Jose | Theory of correlated van der Waals quantum materials, quantum many-body physics with tensor-networks, and machine learning for quantum materials |
Liljeroth, Peter | Atomically well-defined nanostructures, low-temperature scanning probe microscopy, two-dimensional materials |
Kauppinen, Esko | Nanomaterials, carbon nanotubes in transparent and flexible electronics |
Kurki-Suonio, Taina | Physics in fusion plasmas |
Lund, Peter | Energy transition, renewable energy technologies, AI and energy, nanomaterials for energy |
Mercier de Lépinay, Laure | Superconducting mechanical devices, force measurement with nanomechanical oscillators |
Möttönen, Mikko | Quantum physics with superconducting circuits, control and readout of superconducting qubits, theory of fundamental quantum mechanics, open quantum systems, ultrasensitive bolometers |
Pekola, Jukka | Electron transport in nanostructures, quantum thermodynamics |
Ras, Robin | Functional soft materials and the wettability of surfaces, water-repellent biological surfaces |
Ruokolainen, Janne | Functional materials based on supramolecular and supracolloidal self-assembly and its hierarchies |
Sand, Andrea | Computational methods for nuclear materials, nuclear engineering |
Shevchenko, Andriy | Optical metamaterials and metasurfaces, advanced optical imaging, optical nanochips. Both theoretical and experimental studies |
Sillanpää, Mika | Quantum phenomena in mechanical systems, superconducting qubits with micro acoustics, spin acoustics |
Timonen, Jaakko | Experimental soft condensed matter physics, active matter, living matter, pattern formation, biophysics, self-assembly, capillary phenomena and colloids |
Törmä, Päivi | Quantum many-body theory of superconductivity, experiments in nanophotonics |
van Dijken, Sebastiaan | Magnetic, magneto-optical, and spin-transport phenomena in new functional materials and hybrid nanoscale structures |
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Last modified: Wednesday, 6 November 2024, 10:42 AM