We have 14 Latest Solid State Physics PhD Projects, Programmes & Scholarships

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Latest Solid State Physics PhD Projects, Programmes & Scholarships

We have 14 Latest Solid State Physics PhD Projects, Programmes & Scholarships

Last chance to apply

Atomistic Simulations of Surface Chemistry underpinning the Atomic-Scale Processing of Materials for AI-driven Nanoelectronics Applications

Project description. Atomic layer deposition (ALD) and atomic layer etching (ALE) are crucial technologies in semiconductor processing, especially as nanoelectronics devices become smaller and more complex. Read more

Lithium corrosion behaviour of RAFM steels for tritium breeder blankets in fusion energy production

The production of vast amounts of nuclear fusion energy in tokamak and compact spherical reactor designs, as a replica of nuclear reactions in the sun, rely on the deuterium (D)-tritium (T) reaction and the hot D-T plasma confinement using intense superconducting magnets. Read more

Molecular resolution of biomolecular assembly by combining neutron scattering and coarse-grained simulation

  Research Group: School of Physics and Astronomy
This PhD project opportunity is part of an exciting new collaboration between the ISIS neutron and muon facility in Oxfordshire and the University of Leeds to develop new tools for understanding the multiscale structure and hydration of biomolecules. Read more

Fundamental aspects of superconducting qubits and related quantum devices

Superconducting quantum devices are microelectronic devices operated in the quantum regime and have proved very successful, they currently underpin a very successful approach to quantum computing through various types of single and multi-qubit devices, as exemplified by Google and IBM among others. Read more

Giant Rydberg Excitons for Quantum Technologies

Giant Rydberg excitons are recently discovered quantum objects that are generating considerable scientific excitement. They are different from conventional excitons, which are commonly observed near the band edge of semiconductor crystals because they have large sub-micron Bohr radii. Read more

Demystifying metal whiskering

In 2005, a nuclear reactor at Millstone Power Station in the US was unexpectedly shut down. Technicians were stumped as to what the culprit might be, until they spotted under a microscope a thin metal filament spanning the surface of a computer card and bridging a conductive material. Read more

Inverse design in photonics: Combining the resonant-state expansion with machine learning

Electromagnetic resonances are widely exploited in modern technologies, and significant advance in their simulation and underlying understanding has an extensive field of applications with a potential impact on society. Read more

Photo-chemical adaptive integrated circuits for next generation neuromorphic computing

Neuromorphic computing, i.e., an approach to information processing inspired in basic morphology and working principles of the brain, is a rapidly growing area of research due to the availability of high-speed hardware and need for artificial intelligence (AI) systems across a wide range of applications. Read more
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