Add to ORKGIn this study, an inductive decoupling technique of microstrip array for ultra high fields has been discussed. The decoupling inductance is nearly independent of resonant frequency. Thus microstrip arrays can be tuned and work well at the magnetic fields higher than 7T. For the prototype of volume array, the introduced inductors can reduce the mutual coupling not only between adjacent elements, but also between non-adjacent elements.published_or_final_versio
One of the major challenges in constructing multi‐channel and multi‐row transmit (Tx) or transceiver...
Multichannel transceive and transmit and/or receive arrays are commonly used in ultra-high field MRI...
The transceiver array has been shown to achieve excellent homogeneity and B1 amplitude at ultra-high...
Transceiver surface coil arrays improve transmit performance (B1/√kW) and B1 homogeneity for head im...
The tunable loop microstrip (TLM) coil array with capacitive decoupling circuits can achieve more th...
Electromagnetic decoupling among a close-fitting or high-density transceiver RF array elements is re...
Microstrip transmission-line loop arrays have been recently proposed for parallel imaging at ultrahi...
Decoupling is crucial for constructing transceiver phased arrays. Interaction between the elements c...
We evaluated properties of a resonant inductive decoupling (RID) network used for decoupling of a tw...
In contrast to linearly polarized RF coil arrays, quadrature transceiver coil arrays are capable of ...
The microstrip transmission-line (MTL) transmit/receive loop array has been recently developed for M...
Interconnecting L/C components are often applied to decouple the array elements for parallel imaging...
Purpose To improve the decoupling of a transceiver human head phased array at ultra-high fields (UHF...
Multi-channel radio-frequency (RF) transmit coil arrays have been developed to mitigate many of the ...
A new decoupling method for magnetic resonance imaging (MRI) phased arrays is studied by experimenta...
One of the major challenges in constructing multi‐channel and multi‐row transmit (Tx) or transceiver...
Multichannel transceive and transmit and/or receive arrays are commonly used in ultra-high field MRI...
The transceiver array has been shown to achieve excellent homogeneity and B1 amplitude at ultra-high...
Transceiver surface coil arrays improve transmit performance (B1/√kW) and B1 homogeneity for head im...
The tunable loop microstrip (TLM) coil array with capacitive decoupling circuits can achieve more th...
Electromagnetic decoupling among a close-fitting or high-density transceiver RF array elements is re...
Microstrip transmission-line loop arrays have been recently proposed for parallel imaging at ultrahi...
Decoupling is crucial for constructing transceiver phased arrays. Interaction between the elements c...
We evaluated properties of a resonant inductive decoupling (RID) network used for decoupling of a tw...
In contrast to linearly polarized RF coil arrays, quadrature transceiver coil arrays are capable of ...
The microstrip transmission-line (MTL) transmit/receive loop array has been recently developed for M...
Interconnecting L/C components are often applied to decouple the array elements for parallel imaging...
Purpose To improve the decoupling of a transceiver human head phased array at ultra-high fields (UHF...
Multi-channel radio-frequency (RF) transmit coil arrays have been developed to mitigate many of the ...
A new decoupling method for magnetic resonance imaging (MRI) phased arrays is studied by experimenta...
One of the major challenges in constructing multi‐channel and multi‐row transmit (Tx) or transceiver...
Multichannel transceive and transmit and/or receive arrays are commonly used in ultra-high field MRI...
The transceiver array has been shown to achieve excellent homogeneity and B1 amplitude at ultra-high...