Researcher in Physics

University of York Department of Physics

Marie Curie Early Stage Researcher

Department:Physics
Based at:University of York - Heslington Campus
Hours of work:Full-time
Contract status:Fixed term
Salary:41,070 or 44,930 (Family allowance if applicable)
Interview Date:To be confirmed
Posted Date:07/10/2020
Apply by:08/11/2020
Job Reference:8851

Role Description

The Department of Physics is at the forefront of pioneering global research and technological advancement in our world leading research centres, focused around biophysics, condensed matter physics, nuclear physics, and plasma physics and fusion energy at the York Plasma Institute. As a Department we strive to provide a working environment which allows all staff and students to contribute fully, to flourish, and to excel. We aim to ensure that there is a supportive and egalitarian culture at all levels and across all staff groups. We promote good practice and a strong culture of equality in higher education, and are proud of our Juno Champion Award and Athena SWAN Silver Award.

You will work within the Computational Magnetism Group https://www.york.ac.uk/physics/computational-magnetism/

Role

The Department of Physics at the University of York has been awarded funding by the European Union as part of the Horizon 2020 Marie Sklodowska-Curie European Training Network (ETN) entitled “Cold Opto-Magnetism for Random Access Devices” (COMRAD). This vacancy offers a 3 year, fully-funded PhD supervised by Dr Richard Evans.

The main responsibility of the role is to conduct research, performing atomistic spin simulations of ultrafast magnetic processes. You will develop novel approaches to atomistic level models, removing the phenomenological damping constant, based on simulation of the electronic heat bath. This will require advanced models of the s-d exchange interaction parameterised by ab-initio calculations and introduction of the photon/electron/spin interaction. You will apply the model to the understanding of ultrafast reversal induced by combinations of laser/current pulses. You will provide support to other relevant research projects, undertaking research and training within the overall COMRAD programme, and assist with the day to day operation of the projects.  You will assist in writing articles, papers, reports, etc. as appropriate and participate in the dissemination of research findings internally and externally at seminars, workshops and conferences.

Skills, Experience & Qualification needed

Undergraduate degree in Physics (or related relevant subject); minimum 2:1 or equivalent grade

Willingness to undertake a programme of learning and development, in the form of a PhD

For those applicants for whom English is not their first language, you will need to meet or exceed the University of York’s requirements for Physics PhD entry

Knowledge of condensed matter physics and basic magnetism and of a range of relevant research techniques and methodologies

Understanding of relevant health & safety practices

Ability to undertake academic research conducting numerical simulations of magnetic materials

Excellent IT skills, including the use of word processing, presentation and data analysis software

Ability to assist in the supervision of student projects and to provide support to staff and any students who may be assisting with the research

Excellent written and oral communication

Ability to develop internal and external contacts

Ability to work as part of a team and also to work independently using own initiative

Experience of undertaking a research project in a relevant subject area

For informal enquiries: please contact Dr Richard Evans by email richard.evans@york.ac.uk.  Alternatively you may contact phys-hr@york.ac.uk

The University is committed to promoting a diverse and inclusive community  – a place where we can all be ourselves and succeed on merit. We offer a range of family friendly, inclusive employment policies, flexible working arrangements, staff engagement forums, campus facilities and services to support staff from different backgrounds.

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