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Result : Searchterm 'BandWidth' found in 1 term [] and 19 definitions []
| 1 - 5 (of 20) nextResult Pages : [1] [2 3 4] | | | | Searchterm 'BandWidth' was also found in the following services: | | | | |
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(BW) Bandwidth is a measure of frequency range, the range between the highest and lowest frequency allowed in the signal. For analog signals, which can be mathematically viewed as a function of time, bandwidth is the width, measured in Hertz of a frequency range in which the signal's Fourier transform is nonzero.
Image Guidance
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Quick Overview
Artifacts either by distorting the k-space trajectory (i.e. due to imperfect shimming) or as a consequence of the reduced bandwidth in the phase encode direction, commonly with EPI sequences.
While a standard spin warp-based sequence has an infinitely large bandwidth in the phase encode direction (about 1 or 2 kH), the bandwidth in EPI is related to the time between the gradient echoes (about a millisecond). Hence even small frequency offsets can result in significant shifts of the signal in the phase encoding direction.
Segmentation can introduce ghosting if there are significant difference in the amplitude and phase of the signal. This can be a particular problem when trying to acquire the segments in rapid succession.
Image Guidance
Suitable choices of excitation schemes and/or subsequent correction can help to reduce this artifact.
The signal from fat can easily be offset by a large fraction of the FOV, and must be suppressed. The effect of frequency offsets can be reduced by collecting data with more than one excitation, which effectively increases the bandwidth in the phase encoding direction. | | | | | |
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Quick Overview Please note that there are different common names for this artifact.
DESCRIPTION
Black contours at boundaries
Image Guidance
| | | | • View the DATABASE results for 'Black Boundary Artifact' (4).
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Quick Overview Please note that there are different common names for this artifact.
DESCRIPTION
Black or bright band
During frequency encoding, fat protons precess slower than water protons in the same slice because of their magnetic shielding. Through the difference in resonance frequency between water and fat, protons at the same location are misregistrated (dislocated) by the Fourier transformation, when converting MRI signals from frequency to spatial domain. This chemical shift misregistration cause accentuation of any fat-water interfaces along the frequency axis and may be mistaken for pathology. Where fat and water are in the same location, this artifact can be seen as a bright or dark band at the edge of the anatomy.
Protons in fat and water molecules are separated by a chemical shift of about 3.5 ppm. The actual shift in Hertz (Hz) depends on the magnetic field strength of the magnet being used. Higher field strength increases the misregistration, while in contrast a higher gradient strength has a positive effect. For a 0.3 T system operating at 12.8 MHz the shift will be 44.8 Hz compared with a 223.6 Hz shift for a 1.5 T system operating at 63.9 MHz.
Image Guidance
| | | | • View the DATABASE results for 'Chemical Shift Artifact' (7).
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| | | Searchterm 'BandWidth' was also found in the following service: | | | | |
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| | | | | | • View the DATABASE results for 'Double Inversion Recovery T1 Measurement' (2).
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