Introduction of a method for three-dimensional mapping of the charge motion in bacteriorhodopsin

In this paper, we extend the method of auxiliary mapping (MAM), introduced by BabuÄ ska and Oh, to three dimensions so that the extended MAM (3-D MAM) can e ectively handle three-dimensional elliptic problems containing the singularities caused by the non-smooth domains. There are three type of sing

A perturbation mapping method and a computational procedure are presented for evaluating the sensitivity coecients of the stress intensity factors for three-dimensional planar cracks near a free surface. The boundary integral equations for evaluating the sensitivity coecient are solved by using the

## Abstract This work presents a method that allows for the assessment of 3D murine myocardial motion in vivo at microscopic resolution. Phase‐contrast (PC) magnetic resonance imaging (MRI) at 17.6 T was applied to map myocardial motion in healthy mice along three gradient directions. High‐resoluti

## Abstract A new method has been developed for fast image‐based measurements of the transmitted radiofrequency (RF) field. The method employs an actual flip‐angle imaging (AFI) pulse sequence that consists of two identical RF pulses followed by two delays of different duration (TR~1~ < TR~2~). Aft

## Abstract This paper presents an integral vorticity method for solving three‐dimensional Navier–Stokes equations. A finite volume scheme is implemented to solve the vorticity transport equation, which is discretized on a structured hexahedral mesh. A vortex sheet algorithm is used to enforce the