Title :
Mathematical approach for designing & development of Helmholtz coil for hyperpolarized Xenon gas used in MRI
Author :
Rautela, R.S. ; Bhatt, V. ; Sharma, P. ; Khushu, S. ; Walia, P.
Author_Institution :
NMR Res. Centre, INMAS, Delhi, India
Abstract :
NMR Research Centre of INMAS has developed an in-house Helmholtz coil. It will be used as a component of the system for hyperpolarizing Xenon gas for MRI application. The system will be helpful in imaging low proton density area of the body such as lungs efficiently. This paper describes the mathematical approach for designing the Helmholtz coil. Structure geometry, number of turns in winding and power supply calculations were done. The practical coil was constructed & magnetic field was measured at different points. The results were validated with the simulated results and there was good agreement. The field was uniform.
Keywords :
Hall effect; biomedical MRI; coils; xenon; Helmholtz coil; MRI; Xe; hyperpolarized xenon gas; lungs; power supply; structure geometry; Coils; Copper; Magnetic fields; Nuclear magnetic resonance; Power supplies; Resistance; Wire; Hall effect; magnetic flux density; measurement; optical polarization; sensitivity; simulation; stability;
Conference_Titel :
Power Electronics (IICPE), 2010 India International Conference on
Conference_Location :
New Delhi
Print_ISBN :
978-1-4244-7883-5
DOI :
10.1109/IICPE.2011.5728083
