Silke Maria
Lechner1,2, Mika W. Vogel1, Bruce C. Amm3,
Timothy J. Hollis4, Hans-Joachim Bungartz2
1GE Global Research Europe, Garching,
Germany; 2Technische Universitt Mnchen, Garching, Germany; 3GE
Global Research, Niskayuna, NY, United States; 4GE Medical Systems,
Oxford, United Kingdom
In
magnetic resonance (MR), fast and high-resolution imaging require strong and
fast switching gradients. The design of this new gradient coil generation is
challenging in terms of field non-linearity and induced field distortions
resulting in image artifacts. This work introduces a simulation environment
that extends and integrates existing simulation tools by including gradient
designs within predictive image quality assessment software. To demonstrate
the capabilities of this new environment, a three-axis uniplanar flat
gradient set is modeled. Realistic model simplifications as well as
magnetostatic evaluations and first application simulations are presented
here to increase computational speed and to verify the model.