Difference between revisions of "Vacancies"

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== Vacancies: ==
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=== PhD studentship on Ultra-fast X-ray Imaging of Nanoscale Structures ===
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A long standing dream of chemical physics is to directly observe atomic motions during the event of a chemical transition from one state to another. The ability to quantitatively observe atomic motions within the transition state region where atoms exchange nuclear configurations would greatly facilitate our understanding of the physical process. This is particularly true for strongly correlated electronic materials where the interaction between the valence electrons can strongly influence the materials properties. Such materials are interesting as their unique properties are of considerable utility for device physics, functional materials and the study of fundamental condensed matter physics.
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The aim of this project is to understand the initial stages of the femtosecond structural phase transition in strongly correlated electronic materials such as vanadium dioxide. The candidate will become proficient in the use of femtosecond coherent X-ray diffraction imaging (CXDI) for studying femtosecond structural dynamics in nanometre scale self-assembled structures.
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To investigate strongly correlated phenomena the student will focus on one or more components to this multidisciplinary project. They include (1) nanoscale materials fabrication and characterisation; (2) time-resolved femto-second coherent X-ray diffraction imaging (CXDI); and (3) supercomputing based finite element materials modelling of light matter interactions.
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The successful candidate will work with an international team of research scientists with a broad range of skills. The successful candidate will also visit a number of research facilities across the world including the SACLA XFEL facility in Japan and the Diamond Light Source to perform experiments.
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Applications are invited from bright and highly motivated students with a background in physics, materials science, inorganic chemistry or a related field. International students are required to provide evidence of their proficiency in English language skills. Informal enquiries can be made by contacting Dr. Marcus Newton via email at M.C.Newton@soton.ac.uk.
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To apply, please complete an online application form via the following link: http://www.southampton.ac.uk/postgraduate/pgstudy/howdoiapplypg.html

Revision as of 09:30, 24 January 2014

Research People Publications News Events Wiki

Vacancies:

PhD studentship on Ultra-fast X-ray Imaging of Nanoscale Structures

A long standing dream of chemical physics is to directly observe atomic motions during the event of a chemical transition from one state to another. The ability to quantitatively observe atomic motions within the transition state region where atoms exchange nuclear configurations would greatly facilitate our understanding of the physical process. This is particularly true for strongly correlated electronic materials where the interaction between the valence electrons can strongly influence the materials properties. Such materials are interesting as their unique properties are of considerable utility for device physics, functional materials and the study of fundamental condensed matter physics.

The aim of this project is to understand the initial stages of the femtosecond structural phase transition in strongly correlated electronic materials such as vanadium dioxide. The candidate will become proficient in the use of femtosecond coherent X-ray diffraction imaging (CXDI) for studying femtosecond structural dynamics in nanometre scale self-assembled structures.

To investigate strongly correlated phenomena the student will focus on one or more components to this multidisciplinary project. They include (1) nanoscale materials fabrication and characterisation; (2) time-resolved femto-second coherent X-ray diffraction imaging (CXDI); and (3) supercomputing based finite element materials modelling of light matter interactions.

The successful candidate will work with an international team of research scientists with a broad range of skills. The successful candidate will also visit a number of research facilities across the world including the SACLA XFEL facility in Japan and the Diamond Light Source to perform experiments.

Applications are invited from bright and highly motivated students with a background in physics, materials science, inorganic chemistry or a related field. International students are required to provide evidence of their proficiency in English language skills. Informal enquiries can be made by contacting Dr. Marcus Newton via email at M.C.Newton@soton.ac.uk.

To apply, please complete an online application form via the following link: http://www.southampton.ac.uk/postgraduate/pgstudy/howdoiapplypg.html