用于增强硅和金刚石颗粒的动态核极化(DNP)和电子顺磁共振(EPR)光谱的电镀波导。
Electroplated waveguides to enhance DNP and EPR spectra of silicon and diamond particles.
作者信息
Himmler Aaron, Albannay Mohammed M, von Witte Gevin, Kozerke Sebastian, Ernst Matthias
机构信息
ETH Zurich, Laboratory of Physical Chemistry, Zurich 8093, Switzerland.
University and ETH Zurich, Institute for Biomedical Engineering, Zurich 8092, Switzerland.
出版信息
Magn Reson (Gott). 2022 Oct 6;3(2):203-209. doi: 10.5194/mr-3-203-2022. eCollection 2022.
Electroplating the waveguide of a 7 T polarizer in a simple innovative way increased microwave power delivered to the sample by 3.1 dB. Silicon particles, while interesting for hyperpolarized MRI applications, are challenging to polarize due to inefficient microwave multipliers at the electron Larmor frequency at high magnetic fields and fast electronic relaxation times. Improving microwave transmission directly translates to more efficient EPR excitation at high-field, low-temperature conditions and promises faster and higher Si polarization buildup through dynamic nuclear polarization (DNP).
以一种简单创新的方式对7T极化器的波导进行电镀,可使传递到样品的微波功率增加3.1dB。硅颗粒虽然在超极化磁共振成像应用中很有吸引力,但由于在高磁场下电子拉莫尔频率处的微波倍增器效率低下以及电子弛豫时间快,因此极化具有挑战性。改善微波传输直接转化为在高场、低温条件下更高效的电子顺磁共振激发,并有望通过动态核极化(DNP)实现更快、更高的硅极化积累。
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