Add to ORKGA new definition of mutual impedance for two coils used for simultaneous signal reception in MRI is introduced. The new mutual impedances are used to accurately quantify the mutual coupling effect between the two coils so that it can be removed from the measured terminal voltages. Using the new mutual impedances, a new decoupling method can be formulated to obtain the uncoupled voltages. Numerical results on two square coils are obtained and the uncoupled coil voltages calculated based on them indicate extremely small errors when compared with the ideal uncoupled voltages. The new mutual impedances are useful for MRI phased array designs
A new mutual impedance, the receiving mutual impedance, between two parallel dipole antennas is intr...
A new definition of mutual impedance for two dipole antennas is introduced to characterize the mutua...
One of the major challenges in the design of multichannel arrays for UHF MRI is minimizing coupling ...
A new decoupling method for magnetic resonance imaging (MRI) phased arrays is studied by experimenta...
A powerful decoupling method is introduced to obtain decoupled signal voltages from quadrature coils...
An effective compensation method to compensate for the mutual coupling effect in magnetic resonance ...
Abstract—A new definition of mutual impedance for two dipole antennas is introduced to characterize ...
In magnetic resonance imaging (MRI), either on human or animal studies, the main requirements for ra...
Abstract: Mutual coupling is a common problem in the applications of antenna arrays. It significantl...
International audienceMultichannel coil arrays are increasingly being used to improve signal-to-nois...
Each of the coils in a transmit coil array of a magnetic resonance imaging apparatus is electrically...
A novel approach for designing an element of an arrayed radio frequency coil for ultrahigh field mag...
A new concept of using a stacked phased coil array to increase the signal-to-circuit noise ratio (SC...
International audienceIn the field of small-animal Magnetic Resonance Imaging (MRI), multi-channel c...
A new mutual impedance - the receiving mutual impedance - between two normal-mode helical antennas i...
A new mutual impedance, the receiving mutual impedance, between two parallel dipole antennas is intr...
A new definition of mutual impedance for two dipole antennas is introduced to characterize the mutua...
One of the major challenges in the design of multichannel arrays for UHF MRI is minimizing coupling ...
A new decoupling method for magnetic resonance imaging (MRI) phased arrays is studied by experimenta...
A powerful decoupling method is introduced to obtain decoupled signal voltages from quadrature coils...
An effective compensation method to compensate for the mutual coupling effect in magnetic resonance ...
Abstract—A new definition of mutual impedance for two dipole antennas is introduced to characterize ...
In magnetic resonance imaging (MRI), either on human or animal studies, the main requirements for ra...
Abstract: Mutual coupling is a common problem in the applications of antenna arrays. It significantl...
International audienceMultichannel coil arrays are increasingly being used to improve signal-to-nois...
Each of the coils in a transmit coil array of a magnetic resonance imaging apparatus is electrically...
A novel approach for designing an element of an arrayed radio frequency coil for ultrahigh field mag...
A new concept of using a stacked phased coil array to increase the signal-to-circuit noise ratio (SC...
International audienceIn the field of small-animal Magnetic Resonance Imaging (MRI), multi-channel c...
A new mutual impedance - the receiving mutual impedance - between two normal-mode helical antennas i...
A new mutual impedance, the receiving mutual impedance, between two parallel dipole antennas is intr...
A new definition of mutual impedance for two dipole antennas is introduced to characterize the mutua...
One of the major challenges in the design of multichannel arrays for UHF MRI is minimizing coupling ...