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It is the electrons in materials which govern many interesting and useful properties, from how metals conduct electricity and heat to more exotic phenomena such as magnetism and superconductivity.
I study the behaviour of electrons in materials by annihilating them with positrons (which are the anti-matter partners of electrons) and measuring the radiation that is produced. It is then possible to compare experimental reality with the predictions of quantum mechanics.
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- 9 Finished
3/10/11 → 3/12/15
Impact of electron correlations on the k-resolved electronic structure of PdCrO2 revealed by Compton scatteringJames, A. D. N., Billington, D. & Dugdale, S. B., 23 May 2023, In: Electronic Structure. 5, 2, 13 p., 025002.
Research output: Contribution to journal › Article (Academic Journal) › peer-reviewOpen Access
Sekania, M., Ostlin, A., Appelt, W., Dugdale, S. B. & Chioncel, L., 4 Nov 2021, (E-pub ahead of print) In: Physical Review B. 104, 20, 13 p., 205102.
Research output: Contribution to journal › Article (Academic Journal) › peer-reviewOpen AccessFile16 Downloads (Pure)
Magnetic Compton profiles of Ni beyond the one-particle picture: Numerically exact and perturbative solvers of dynamical mean-field theoryJames, A. D. N., Sekania, M., Dugdale, S. B. & Chioncel, L., 24 Mar 2021, In: Physical Review B. 103, 11, 115144.
Research output: Contribution to journal › Article (Academic Journal) › peer-reviewOpen AccessFile3 Citations (Scopus)46 Downloads (Pure)
- 7 - Research and Teaching at External Organisation
Stephen B Dugdale (Contributor)1 Jan 2011 → …
Activity: Other activity types › - Research and Teaching at External Organisation