Web Access Research Portal

Researcher: While, PT (Dr Peter While)

Fields of Research

Medical Physics
Applied Mathematics
Biomedical Instrumentation
Optimisation
Electronic and Magnetic Properties of Condensed Matter; Superconductivity
Medical Devices
Computational Fluid Dynamics

Research Objectives

Expanding Knowledge in the Physical Sciences
Expanding Knowledge in the Mathematical Sciences
Expanding Knowledge in Engineering
Expanding Knowledge in Technology
Medical Instruments

Career Best Publications

Research Publications

3-D Gradient coil design-initial theoretical framework; IEEE Transactions on Biomedical Engineering
3D Gradient coil design - toroidal surfaces; Journal of Magnetic Resonance
3D gradient coil design for open MRI systems; Journal of Magnetic Resonance
A temperature distribution model for gradient coils; SMRT 19th Annual Meeting
A theoretical method for the use of a phantom to enhance image reconstruction in MRI; Concepts in Magnetic Resonance Part B: Magnetic Resonance Engineering
A time-harmonic target-field method for designing shielded RF coils in MRI; Measurement Science and Technology
A time-harmonic target-field method for designing unshielded RF coils in MRI; Measurement Science and Technology
An Analytical Approach to the Design of Quiet Cylindrical Asymmetric Gradient Coils in MRI; Concepts in Magnetic Resonance Part B: Magnetic Resonance Engineering
An inverse design method for 3D toroidal gradient coils; ISMRM 17th Scientific Meeting and Exhibition
An Inverse Method for Designing High-Frequency RF Coils in MRI
An inverse method for designing loaded RF coils in MRI; Measurement Science and Technology
An inverse method for designing RF phased array coils in MRI-theoretical considerations; Measurement Science & Technology
An inverse method for designing RF phased arrays with optimal coil geometry; Joint Annual Meeting ISMRM-ESMRMB
An inverse method for radio frequency phased array coil design in magnetic resonance imaging equipment; ANZIAM Journal
Behaviour of gradient coils for MRI designed with minimised maximum current density; Compumag 2011 18th International Conference on the Computation of Electromagnetic Fields
Calculating Temperature Distributions for Gradient Coils; Concepts in Magnetic Resonance Part B: Magnetic Resonance Engineering
Calculating the movement of MRI coils, and minimizing their noise; ANZIAM Journal
Could Image Processing Enable Reduced Acoustic Noise during MRI Scans?; Concepts in Magnetic Resonance. Part B: Magentic Resonance Engineering
Designing 3D gradient coils for open MRI systems; SMRT 19th Annual Meeting
Designing gradient coils with reduced hot spot temperatures; Journal of Magnetic Resonance
Designing RF coils for magnetic resonance imaging; The 42nd Apllied Mathematics Conference
Electromagnetic fields in the human body due to switched transverse gradient coils in MRI; Physics in Medicine and Biology
Equi-flux streamline seeding for three-dimensional vector fields; Journal of Engineering Mathematics
Heating and coil design in magnetic resonance imaging; ANZIAM 2011
Image reconstruction in magnetic resonance imaging: the Phantom, Cat Woman and Transformers; ANZIAM 2011
Minimax current density gradient coils: Analysis of coil performance and heating; Magnetic Resonance in Medicine
Minimising hot spot temperature in gradient coil design; SMRT 19th Annual Meeting
Minimizing Hot Spot Temperature in Asymmetric Gradient Coil Design; IEEE Transactions on Biomedical Engineering
Minimum maximum temperature gradient coil design; Magnetic Resonance in Medicine
Stimulation of nerves in the body, due to MRI scans; ANZIAM 2004
Theoretical design of 3D gradient coils; ISMRM 17th Scientific Meeting and Exhibition

Research Projects

Research Candidate Supervision