论文标题
二对称笔记陷阱,用于抗溶质冷却和光谱法
Two-Symmetry Penning-Ioffe Trap for Antihydrogen Cooling and Spectroscopy
论文作者
论文摘要
对被困的抗原子原子($ \ overline {\ text {h}} $)和氢原子($ \ text {h} $)的高含量光谱比较保证,他们有望严格测试标准粒子物理学标准模型的基本CPT Symmetry Symmetry不变性。为此研究开发了Attrap的嵌套笔记陷阱。其独特功能的第一个是,它的磁性IOFFE陷阱$ \ + + + + text {\ text {h}} $原子可以在Quadrupole和Octupole符号之间切换。第二是它允许激光和微波访问垂直于陷阱的中央轴。
High-accuracy spectroscopic comparisons of trapped antihydrogen atoms ($\overline{\text{H}}$) and hydrogen atoms ($\text{H}$) promise to stringently test the fundamental CPT symmetry invariance of the standard model of particle physics. ATRAP's nested Penning-Ioffe trap was developed for such studies. The first of its unique features is that its magnetic Ioffe trap for $\overline{\text{H}}$ atoms can be switched between quadrupole and octupole symmetries. The second is that it allows laser and microwave access perpendicular to the central axis of the traps.
