On the formation of antihydrogen beams using travelling optical lattices

被引:2
|
作者
Madsen, N. [1 ]
Charlton, M. [1 ]
机构
[1] Swansea Univ, Fac Sci & Engn, Dept Phys, Swansea SA2 8PP, W Glam, Wales
来源
NEW JOURNAL OF PHYSICS | 2021年 / 23卷 / 07期
基金
英国工程与自然科学研究理事会;
关键词
antihydrogen; optical lattice; atomic beam; travelling optical lattice; ANTIPROTONS; IONIZATION; DYNAMICS; ELENA; ATOMS;
D O I
10.1088/1367-2630/ac0b7b
中图分类号
O4 [物理学];
学科分类号
0702 ;
摘要
The production of beams of antihydrogen atoms using the dipole force provided by a travelling optical lattice to accelerate a sample of the anti-atoms held in a magnetic gradient atom trap is investigated. By considering current and near-future antihydrogen trapping capabilities we find that useful fluxes of the anti-atoms can be achieved with directional properties that can be manipulated using laser parameters such as pulse duration and frequency chirp rate. Applications of the beams are briefly discussed.
引用
收藏
页数:10
相关论文
共 50 条
  • [31] Pattern formation in mixtures of ultracold atoms in optical lattices
    Maska, M. M.
    Lemanski, R.
    Freericks, J. K.
    Williams, C. J.
    PHYSICAL REVIEW LETTERS, 2008, 101 (06)
  • [32] Formation of optical flux lattices for ultra cold atoms
    Juzeliunas, G.
    Spielman, I. B.
    COMPLEX LIGHT AND OPTICAL FORCES VI, 2012, 8274
  • [33] Formation and Dynamics of Antiferromagnetic Correlations in Tunable Optical Lattices
    Greif, Daniel
    Jotzu, Gregor
    Messer, Michael
    Desbuquois, Remi
    Esslinger, Tilman
    PHYSICAL REVIEW LETTERS, 2015, 115 (26)
  • [34] Adiabatic formation of quasibound states of antihydrogen
    Correa, CE
    Correa, JR
    Ordonez, CA
    PHYSICAL REVIEW E, 2005, 72 (04):
  • [35] Laser-enhanced antihydrogen formation
    China Ctr. of Adv. Sci. and Technol., P. O. Box 8730, Beijing 100080, China
    不详
    不详
    Phys Rev A, 2-3 (1697-1702):
  • [36] Laser-assisted formation of antihydrogen
    Whitehead, R.J.
    McCann, J.F.
    Shimamura, I.
    Physical Review A. Atomic, Molecular, and Optical Physics, 2001, 64 (02): : 1 - 023401
  • [37] Optical Control with Specially-Engineered Photonic Lattices and Intelligently-Designed Optical Beams
    Chen, Zhigang
    2012 IEEE PHOTONICS CONFERENCE (IPC), 2012, : 358 - 359
  • [38] Antiproton beams with low energy spread for antihydrogen production
    Tajima, M.
    Kuroda, N.
    Amsler, C.
    Breuker, H.
    Evans, C.
    Fleck, M.
    Gligorova, A.
    Higaki, H.
    Kanai, Y.
    Kolbinger, B.
    Lanz, A.
    Leali, M.
    Maeckel, V
    Malbrunot, C.
    Mascagna, V
    Matsuda, Y.
    Murtagh, D.
    Nagata, Y.
    Nanda, A.
    Radics, B.
    Simon, M.
    Ulmer, S.
    Venturelli, L.
    Widmann, E.
    Wiesinger, M.
    Yamazaki, Y.
    JOURNAL OF INSTRUMENTATION, 2019, 14 (05)
  • [39] A Simulation Study of the Dynamical Control of Optical Skyrmion Lattices through the Superposition of Optical Vortex Beams
    Tang, Gao
    Bai, Chunyan
    Tang, Tianchen
    Peng, Jiansheng
    Zhuang, Songlin
    Zhang, Dawei
    PHOTONICS, 2023, 10 (11)
  • [40] Spatial distribution of cold antihydrogen formation
    Madsen, N
    Amoretti, M
    Amsler, C
    Bonomi, G
    Bowe, PD
    Carraro, C
    Cesar, CL
    Charlton, M
    Doser, M
    Fontana, A
    Fujiwara, MC
    Funakoshi, R
    Genova, P
    Hangst, JS
    Hayano, RS
    Jorgensen, LV
    Kellerbauer, A
    Lagomarsino, V
    Landua, R
    Lodi-Rizzini, E
    Macri, M
    Mitchard, D
    Montagna, P
    Pruys, H
    Regenfus, C
    Rotondi, A
    Testera, G
    Variola, A
    Venturelli, L
    van der Werf, DP
    Yamazaki, Y
    Zurlo, N
    PHYSICAL REVIEW LETTERS, 2005, 94 (03)
12345