Download - Evidence for a Reorientation Transition in the Phase Behaviour of a Two-Dimensional Dipolar
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Evidence for a Reorientation Transition in the
Phase Behaviour of a Two-Dimensional Dipolar
Antiferromagnet
ByAbdel-Rahman M. Abu-Labdeh
An-Najah National University, PalestineCollaborated by
John Whitehead, MUN-Canada
Keith De’Bell, UNB-Canada
Allan MacIsaac, UWO-Canada
Supported by
MUN & NSERC of Canada
May 8, 2007
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Outline
1. Introduction
a. Definitions
b. Motivation
c. Aim
2. The Model in General Terms
3. Monte Carlo Method
4. Results
5. Summary 2
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Definitions
Magnetism results from the Spin and orbital degrees of freedom of the
electron Magnetism is influenced by the
1. Structure2.Composition3.Dimensionality of the system
Magnetic materials can be divided into1.Bulk2.Low-dimensional (Quasi-2D)
a. Ultra thin magnetic filmsb. Layered magnetic compounds (e.g., REBa2Cu3O7-δ)
c. Arrays of micro or nano-magnetic dots
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Motivation Quasi-2D spin systems have received much greater
attention due to
1. Their magnetic properties
2. Their significant advances in technological applications such as
a. Magnetic sensors
b. Recording
c. Storage media
Few systematic work have done on the quasi-2D
antiferromagnetic systems. In particular, having Exchange Dipolar Magnetic surface anisotropy
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Aim Is to obtain a better understanding of the quasi -2D
antiferromagnetic systems
To achieve this aim
Results from Monte Carlo simulations are pre
sented for a 2D classical Heisenberg system on
a square lattice (322 , 642 , 1042 )
Including
Antiferromagnetic Exchange interaction
Long-range dipolar interaction
Magnetic surface anisotropy
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The Model in General Terms
)1)
where
{σi } is a set of three-dimensional classical vec
tors of unit magnitude
g is the strength of the dipolar interaction
J is the strength of the exchange interaction
K, is the strength of the magnetic surface anisotropy
. In this study K≤ 0 J / 9 = -10
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Monte Carlo Method1. Constructing an infinite plane from replicas of a finite
system
2. Using the Ewald summation technique
3. Using the standard Metropolis algorithm
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Ground State
At the Transition:
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Definition of the Order Parameters
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The Order Parameters: J= -l0g, L=I04
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The Heat Capacity: J= -l0g, L=104
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The Magnetic Phase Diagram: J= -l0g
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The Magnetic Phase Diagram: J= -lOg
Hz=O, 10, 15g
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Summary The T magnetic phase diagram is established
for the 2D dipolar Heisenberg antiferromagnetic
system on a square lattice for J = -l0g This phase diagram shows A first-order reorientation transition from theparallel antiferromagnetic phase to the perpen dicular antiferromagnetic phase with
increasing
Applying an out-of-plane magnetic field causes
this phase boundary to be at lower values of
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Acknowledgements
MUN & NSERC for Financial Support
C3.ca for Access to Computational Resources
at
University of Calgary
Memorial University of Newfoundland
An-Najah National University
Conference Organizing Committee
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Thank You