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Research Staff: Dr
Viktor Vegh
RESEARCH FELLOW
Address:
Centre for Magnetic Resonance
Level 2, Gehrmann Laboratories
Research Road
The University of Queensland
Brisbane. QLD. 4072
E-mail address: Viktor
Vegh
Telephone: +61-7-3365 7076
Fax: +61-7-3365 3833
Home Page: Viktor
Vegh
Career Profile:
B.App.Sci., Queensland University of Technology
Ph.D., Queensland University of Technology
Research
Interests:
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Design of hardware for high-resolution
magnetic resonance imaging |
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Gradient coil design for high-resolution
magnetic resonance imaging |
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Radio frequency coil design for magnetic
resonance imaging |
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Finite difference time domain methods for electromagnetic
phenomena |
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Finite volume frequency domain methods for
electromagnetic wave scattering |
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Numerical methods for the development of MRI hardware |
Selected publications:
- Vegh, V., Zhao, H., Brereton, I.M., Galloway, G.J. and Doddrell,
D.M. (2006). A wave equation technique for designing compact gradient
coils. Concepts of Magnetic Resonance B 29B: 62-64.
- Vegh, V., Zhao, H., Galloway, G.J., Doddrell, D.M. and Brereton,
I.M. (2005). The design of planar gradient coils. Part I: A winding
path correction method. Concepts in Magnetic Resonance Part
B: Magnetic Resonance Engineering 27B(1): 17-24.
- Vegh, V., Zhao, H., Doddrell, D.M., Brereton, I.M. and Galloway,
G.J. (2005). The design of planar gradient coils part II: A weighted
superposition method. Concepts in Magnetic Resonance Part B:
Magnetic Resonance Engineering 27B: (1): 25-33.
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VEGH, V., Turner, I.W. and ZHAO, H. (2005). Effective
cell-centred time-domain Maxwell’s equations numerical solvers.
Applied Mathematical Modelling29: 441-438. |
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Vegh, V., Turner, I.W. and Zhao, H.
(2003). Comparison of time-domain solvers for the solution of
Maxwell's equations. International Journal of Applied Mathematical
Modelling. |
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Vegh, V., Turner, I.W., Sizgek, E. and Sizgek,
D. (2004). Numerical validation of microwave heated fluidised
bed calcination of waste containing ceramic powders. Australian
& New Zealand Industrial and Applied Mathematic Journal, Electronic
Supplement, http://anziamj.austms.org.au/, 45, pC34-C39. |
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Vegh, V. and Turner, I.W. (2003). A hybrid technique
for comptuing the power distribution generated in a lossy medium
during microwave heating. under review. Accepted for publication
in Journal of Computational and Applied Mathematics. |
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Vegh, V and Turner, I.W. (2002-3). Comparison
of time-domain numerical solvers for the propagation of a Gaussian
pulse inside a rectangular waveguide. Australian & New
Zealand Industrial and Applied Mathematic Journal, Electronic
Supplement, http://anziamj.austms.org.au/,
44: C781-C801. |
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Liu, B., Marchant, T.R., Turner, I.W. and Vegh,
V. (2002). A comparison of three dimensional semi-analytical and
numerical techniques for the microwave heating of a lossy material
in a waveguide. 3rd World Congress on Microwave and Radio
Frequency Applications. September. |
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Vegh, V. and Turner, I.W. (2002). A hybrid approach
for resolving the microwave heating inside lossy media. Advances
in Microwave and Radio Frequency Processing 8. |
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Nulty, D., Vegh, V. and Young, J. (2002). Curriculum
design innovation in flexible science teaching. UniServe Science,
Proceedings of Scholarly Inquiry in Flexible Science Teaching
and Learning, pp. 50-56. |
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