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Theoretical physicists working at a blackboard collaboration pod in the Beecroft building.
Credit: Jack Hobhouse

Julia Yeomans OBE FRS

Professor of Physics

Research theme

  • Biological physics

Sub department

  • Rudolf Peierls Centre for Theoretical Physics

Research groups

  • Condensed Matter Theory
Julia.Yeomans@physics.ox.ac.uk
Telephone: 01865 (2)76884 (college),01865 (2)73992
Rudolf Peierls Centre for Theoretical Physics, room 70.10
www-thphys.physics.ox.ac.uk/people/JuliaYeomans
  • About
  • Publications

THE ENERGETICS OF POLYTYPIC STRUCTURES - FURTHER APPLICATIONS OF THE ANNNI MODEL

ACTA CRYSTALLOGRAPHICA SECTION B-STRUCTURAL SCIENCE 41:OCT (1985) 310-319

Authors:

RJ ANGEL, GD PRICE, J YEOMANS
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THE ENERGETICS OF POLYTYPIC STRUCTURES - A COMPUTER-SIMULATION OF MAGNESIUM-SILICATE SPINELLOIDS

ACTA CRYSTALLOGRAPHICA SECTION B-STRUCTURAL SCIENCE 41:AUG (1985) 231-239

Authors:

GD PRICE, SC PARKER, J YEOMANS
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A low-temperature mean-field theory of the three-dimensional, p-state chiral clock model

Journal of Physics C: Solid State Physics 17:20 (1984) 3601-3614

Abstract:

The low-temperature phase diagram of the p-state chiral clock model is studied by mapping the model on to a one-dimensional array of interacting domain walls within a mean-field approximation. Infinite sequences of commensurate phases are found for all values of p. The domain wall picture gives some insight into the reasons for the stability of given phase sequences. The results agree well with low-temperature series calculations.
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Wavevector scaling and the phase diagram of the chiral clock model

Journal of Physics A: General Physics 17:4 (1984)

Authors:

PM Duxbury, J Yeomans, PD Beale

Abstract:

The authors use a finite-size renormalisation group to study the phase diagram of a spin model which exhibits modulated order, the two-dimensional three-state chiral clock model. In addition to the usual scaling of the correlation length, wavevector scaling is shown to provide useful information about the position of the Lifshitz point, and about the position and nature of the commensurate to incommensurate and commensurate to paramagnetic phase transitions.
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Analysis of the multiphase region in the three-state chiral clock model

Physica A Statistical Mechanics and its Applications Elsevier 127:1-2 (1984) 1-37

Authors:

Julia M Yeomans, Michael E Fisher
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