Céline Azizieh scite author profile

RF spoiling is a well established method to produce T 1 -weighted images with short repetition-time gradient-echo sequences, by eliminating coherent transverse magnetization with appropriate RF phase modulation. This paper presents 2 novel approaches to describe signal formation in such sequences. Both methods rely on the formulation of RF spoiling as a linear increase of the precession angle between RF pulses, which is an alternative to the commonly used quadratic pulse phase scheme. The first technique demonstrates that a steady state signal can be obtained by integrating over all precession angles within the voxel, in spite of the lack of a genuine steadystate for separate isochromats. This clear mathematical framework allows a straightforward incorporation of off-resonance effects and detector phase settings. Moreover, it naturally introduces the need for a large net gradient area per repetition interval. In the second step, a modified partition method including RF spoiling is developed to obtain explicit expressions for all signal components. This provides a physical interpretation of the deviations from ideal spoiling behavior in FLASH and echo-

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Existence and a Priori Estimates for Positive Solutions of p-Laplace Systems

Azizieh

Clément

Mitidieri

2002

Journal of Differential Equations

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Some results on positive solutions of equations including the p-Laplacian operator

Azizieh

2003

Nonlinear Analysis: Theory, Methods & Applications

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Céline Azizieh

A Priori Estimates and Continuation Methods for Positive Solutions of p-Laplace Equations

New insights into the mechanisms of signal formation in RF‐spoiled gradient echo sequences

Existence and a Priori Estimates for Positive Solutions of p-Laplace Systems

Some results on positive solutions of equations including the p-Laplacian operator

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