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Solid state Physics (behaviour) PhD Projects, Programs & Scholarships

We have 12 Solid state Physics (behaviour) PhD Projects, Programs & Scholarships

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  Earth and Environmental Materials at Extreme Conditions: Recycling Light Elements through Earth
  Prof S Redfern
Application Deadline: 29 January 2020

Funding Type

PhD Type

A fully funded PhD studentship is available to start August 2020 to work with Simon Redfern on the mechanisms of light element incorporation into the minerals that make up Earth’s interior and other related materials.
  Emergent electronic phenomena due to twist degree of freedom in van der Waals heterostructures
  Dr M Mucha-Kruczynski
Application Deadline: 9 February 2020

Funding Type

PhD Type

The University of Bath is inviting applications for the following PhD project supervised by Dr Marcin Mucha-Kruczynski in the Department of Physics.
  Nanostructure enabled extreme light-matter interactions
  Dr S Andrews
Application Deadline: 9 February 2020

Funding Type

PhD Type

The University of Bath is inviting applications for the following PhD project supervised by Dr Steven Andrews https://researchportal.bath.ac.uk/en/persons/steven-andrews in the Department of Physics.
  Quantum memory effects in charge density wave transition metal chalcogenides
  Dr E Da Como, Prof S J Bending
Application Deadline: 9 February 2020

Funding Type

PhD Type

The University of Bath is inviting applications for the following PhD project supervised by Dr Enrico Da Como (https://people.bath.ac.uk/edc25/) and Prof Simon Bending (https://researchportal.bath.ac.uk/en/persons/simon-bending) in the Department of Physics.
  Size effects in pure and alloyed metals under dynamic loading
  Dr B. Gurrutxaga-Lerma
Applications accepted all year round

Funding Type

PhD Type

The strength of metals and metallic alloys is usually thought to be independent of the system’s geometry and dimensions. However, at the micron scale this ceases to be true.
  Ductility & Brittleness in Refractory and High-entropy Alloys
  Dr C Brandl
Applications accepted all year round

Funding Type

PhD Type

For a significant increase in operating temperatures in energy conversion processes, alternative constituent phases for new high-temperature alloys beyond tradition Ni-basis superalloys have to be explored.
  Nano-magnetism in atomically thin 2D quantum materials and their heterostructures
  Research Group: Inorganic Semiconductors
  Prof A Tartakovskii
Applications accepted all year round

Funding Type

PhD Type

Following the discovery of graphene, a large family of layered crystals has attracted significant attention. The properties of these materials range from superconductors and metals, to semiconductors and insulators.
  PhD position in the field of nonlinear and quantum optics with polaritons in semiconductor nanostructures
  Research Group: Inorganic Semiconductors
  Dr D Krizhanovskii
Applications accepted all year round

Funding Type

PhD Type

Recent advances in semiconductor nano-technology lead to a new generation of robust controllable structures where manipulation of coupling between light and matter can be performed on a submicrometer scale.
  Strong light-matter interaction in van der Waals 2D materials: discovery of novel quantum states of the matter
  Research Group: Inorganic Semiconductors
  Prof A Tartakovskii
Applications accepted all year round

Funding Type

PhD Type

The isolation of single-atomic layer graphene has led to a surge of interest in a large family of layered crystals with strong in-plane bonds and weak van der Waals interlayer coupling.
  Sub-wavelength all-dielectric nano-photonics: 2D materials and beyond
  Research Group: Inorganic Semiconductors
  Prof A Tartakovskii
Applications accepted all year round

Funding Type

PhD Type

So far nano-photonics has dealt with dielectric devices relying on confining light in diffraction-limited volumes. Beating the diffraction limit by confining light on sub-wavelength scales has been only possible with plasmonic structures made of nano-structured metal, which unavoidably suffer from large optical losses.
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