动态核极化应用中频率可调回旋管的多模计算

Liu Yinghui, S. Kern, M. Beringer, M. Thumm, S. Alberti, J. Hogge
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引用次数: 1

摘要

只提供摘要形式。近年来,人们研制出了适合于核磁共振(NMR)研究的陀螺仪,用于研究动态核极化,可以显著增强核磁共振信号。本文对用于核磁共振波谱应用的低功率(10W以上)高频(200 GHz -300 GHz)回旋管进行了多模计算。选择共旋转te -7,2模式作为主要的工作腔模式。五相邻模态(TE7,2;阳池3;TE4 3;液门,4;采用专为时变自一致多模计算而设计的FZK SELFT码包,将耦合系数大于主模30%且最可能在腔内被激发的TE2,4)纳入计算。频率微调获得通过一系列纵向模式的激励会宗,2,问通过改变光束向上从15千伏电压和磁场从9.6 T 9.77 T·结果表明,主要的模式会宗,2是相当稳定的对可能的横模竞争对手在这个磁场范围和连续频率调谐范围超过800 MHz (263.43 GHz - 264.28 GHz)已经实现传动比为1.3,束流半径为1.33 mm,电流为100 mA。
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Multimode calculations of frequency tunable gyrotrons for dynamic nuclear polarization applications
Summary form only given. Recently, gyrotron-based spectrometers suitable for nuclear magnetic resonance (NMR) studies have been constructed to study dynamic nuclear polarization which can result in significant enhancement of the NMR signal. In the present paper multimode calculations of a low-power (above 10W) high-frequency (200 GHz -300 GHz) gyrotron for NMR spectroscopy applications have been performed. The co- rotating TE-7,2 mode has been chosen to be the main operating cavity mode. Five neighbor modes (TE7,2; TE-4,3; TE4,3; TE-2,4; TE2,4) whose coupling factors are above 30% of the main mode and most probably can be excited in the cavity are included into the calculation using the FZK SELFT code packet designed for time dependent and self-consistent multimode calculations. The frequency fine tuning was obtained via the excitation of a sequence of longitudinal modes of TE-7,2,q by varying the beam voltage from 15 kV upward and the magnetic field from 9.6 T to 9.77 T. The results show that the main mode TE-7,2 is quite stable against the possible transverse mode competitors within this magnetic field range and a continuous frequency tuning range more than 800 MHz (263.43 GHz - 264.28 GHz) has been achieved with a velocity ratio of 1.3, the beam radius and current being 1.33 mm and 100 mA respectively.
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