在一个较大的固体角度接受的脚步 - 马尔姆贝格陷阱中冷却至低温温度

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在一个较大的固体角度接受的脚步 - 马尔姆贝格陷阱中冷却至低温温度

Cyclotron cooling to cryogenic temperature in a Penning-Malmberg trap with a large solid angle acceptance

论文作者

Amsler, C., Breuker, H., Chesnevskaya, S., Costantini, G., Ferragut, R., Giammarchi, M., Gligorova, A., Gosta, G., Higaki, H., Hunter, E. D., Killian, C., Kletzl, V., Kraxberger, V., Kuroda, N., Lanz, A., Leali, M., Mäckel, V., Maero, G., Malbrunot, C., Mascagna, V., Matsuda, Y., Migliorati, S., Murtagh, D. J., Nagata, Y., Nanda, A., Nowak, L., Pasino, E., Romé, M., Simon, M. C., Tajima, M., Toso, V., Ulmer, S., Venturelli, L., Weiser, A., Widmann, E., Wolz, T., Yamazaki, Y., Zmeskal, J.

论文摘要

磁化非中性血浆由电子或正面夫妇通过回旋辐射到局部微波环境中。平衡等离子体温度取决于在回旋频率附近的微波能量密度。使用细铜网格和低温微波吸收材料来降低曲曲霉的尖端捕集膜中辐射环境的有效温度，从而显着降低了血浆温度。

Magnetized nonneutral plasma composed of electrons or positrons couples to the local microwave environment via cyclotron radiation. The equilibrium plasma temperature depends on the microwave energy density near the cyclotron frequency. Fine copper meshes and cryogenic microwave absorbing material were used to lower the effective temperature of the radiation environment in ASACUSA's Cusp trap, resulting in significantly reduced plasma temperature.

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