Add to ORKGA new decoupling technique which takes advantage of shielding for coil array design is proposed. A ground plane is used to reduce mutual inductance by reducing the effective coupling loop area of circuits; in addition, a "screen track" is placed between adjacent coils to minimize magnetic interferences. This technique requires no modification of circuit and doesnít cause loss of flexibility of coil geometry. Simulation and experiments show that a ground plane beneath surface coils can reduce mutual coupling by 10-20dB, and a "screen track" can further provide a 2-8dB more isolation.published_or_final_versio
Self-decoupling technology was recently proposed for radio frequency (RF) coil array designs. Here, ...
Purpose: To investigate the use of shielded-coaxial-cable (SCC) coils as elements for multi-channel ...
As clinical MRI systems continue to advance, larger focus is being given to image uniformity. Good i...
In contrast to linearly polarized RF coil arrays, quadrature transceiver coil arrays are capable of ...
A new decoupling method for magnetic resonance imaging (MRI) phased arrays is studied by experimenta...
Multichannel transceive and transmit and/or receive arrays are commonly used in ultra-high field MRI...
International audienceMultichannel coil arrays are increasingly being used to improve signal-to-nois...
Ultra-high field magnetic resonance imaging (MRI) scanners ( ≥ 7T) require radio-frequency (RF) coil...
Abstract: Mutual coupling is a common problem in the applications of antenna arrays. It significantl...
A powerful decoupling method is introduced to obtain decoupled signal voltages from quadrature coils...
This paper describes a distributed filter layout for the decoupling of 7T Radio Frequency (RF) Magne...
Multi-channel radio-frequency (RF) transmit coil arrays have been developed to mitigate many of the ...
One of the major challenges in the design of multichannel arrays for UHF MRI is minimizing coupling ...
We introduce an analytical approach to design decoupling filters for MRI radiofrequency array elemen...
The tunable loop microstrip (TLM) coil array with capacitive decoupling circuits can achieve more th...
Self-decoupling technology was recently proposed for radio frequency (RF) coil array designs. Here, ...
Purpose: To investigate the use of shielded-coaxial-cable (SCC) coils as elements for multi-channel ...
As clinical MRI systems continue to advance, larger focus is being given to image uniformity. Good i...
In contrast to linearly polarized RF coil arrays, quadrature transceiver coil arrays are capable of ...
A new decoupling method for magnetic resonance imaging (MRI) phased arrays is studied by experimenta...
Multichannel transceive and transmit and/or receive arrays are commonly used in ultra-high field MRI...
International audienceMultichannel coil arrays are increasingly being used to improve signal-to-nois...
Ultra-high field magnetic resonance imaging (MRI) scanners ( ≥ 7T) require radio-frequency (RF) coil...
Abstract: Mutual coupling is a common problem in the applications of antenna arrays. It significantl...
A powerful decoupling method is introduced to obtain decoupled signal voltages from quadrature coils...
This paper describes a distributed filter layout for the decoupling of 7T Radio Frequency (RF) Magne...
Multi-channel radio-frequency (RF) transmit coil arrays have been developed to mitigate many of the ...
One of the major challenges in the design of multichannel arrays for UHF MRI is minimizing coupling ...
We introduce an analytical approach to design decoupling filters for MRI radiofrequency array elemen...
The tunable loop microstrip (TLM) coil array with capacitive decoupling circuits can achieve more th...
Self-decoupling technology was recently proposed for radio frequency (RF) coil array designs. Here, ...
Purpose: To investigate the use of shielded-coaxial-cable (SCC) coils as elements for multi-channel ...
As clinical MRI systems continue to advance, larger focus is being given to image uniformity. Good i...