Beam Line Design, Beam Alignment Procedure, and Initial Results for the$W$-Band Gain Experiment at Los Alamos

Carlsten B.E.; Earley L.M.; Haynes W.B.; Krawczyk F.L.; Romero F.P.; Russell S.J.; Smirnova E.I.; Wang Z.-F.

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Beam Line Design, Beam Alignment Procedure, and Initial Results for the$W$-Band Gain Experiment at Los Alamos

机译：Los Alamos的$ W $波段增益实验的光束线设计，光束对准程序和初步结果

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A gain experiment was performed at Los Alamos using a 120-keV 2-A cylindrical electron beam with a ridged waveguide slow-wave structure at 94 GHz, demonstrating 22 dB of amplification through a traveling-wave interaction. The structure was planar with a gap of 0.75 mm and a length of 5 cm. The 2-A electron beam was confined in a 3.2-kG axial magnetic field, with roughly a 0.5-mm diameter. The electron beam was aligned along the magnetic axis of the solenoid by scribing out its cyclotron motion on a novel optical diagnostic using a procedure that depends on varying the solenoidal field strength. The transport through the structure was verified by letting the beam drill holes in a series of thin metallic foils before insertion of the structure

机译：在洛斯阿拉莫斯（Los Alamos）使用120keV 2-A圆柱形电子束进行了增益实验，该电子束具有94 GHz的脊形波导慢波结构，通过行波相互作用表明放大了22 dB。该结构是平面的，间隙为0.75mm，长度为5cm。 2-A电子束被限制在直径约0.5mm的3.2kG轴向磁场中。通过使用一种依赖于改变螺线管场强度的程序，在一种新型的光学诊断仪上通过划出其回旋加速器运动，使电子束沿螺线管的磁轴对齐。在插入结构之前，通过在一系列薄金属箔中放多个束钻孔来验证通过结构的传输

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《IEEE Transactions on Plasma Science》 |2006年第2006期|p.2393-2403|共11页
作者
Carlsten B.E.; Earley L.M.; Haynes W.B.; Krawczyk F.L.; Romero F.P.; Russell S.J.; Smirnova E.I.; Wang Z.-F.;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类等离子体物理学;
关键词
beam handling techniques; electron beams; electron optics; millimetre wave tubes; particle beam diagnostics; ridge waveguides; slow wave structures; solenoids; 0.5 mm; 0.75 mm; 120 keV; 2 A; 22 dB; 3.2 kG; 5 cm; 94 GHz; W-band gain experiment; axial magnetic field; beam a;

机译：电子束;电子束;电子光学;毫米波管;粒子束诊断;脊形波导;慢波结构;电磁;0.5 mm;0.75 mm;120 keV;2 A;22 dB;3.2 kG;5 cm;94 GHz;W波段增益实验;轴向磁场;光束;

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1. Independent component analysis applied to long bunch beams in the Los Alamos Proton Storage Ring [J] . Jeffrey S. Kolski, Robert J. Macek, Rodney C. McCrady, Physical Review. Accelerators and Beams . 2012,第11期

机译：独立成分分析应用于Los Alamos质子存储环中的长束束
2. Independent component analysis applied to long bunch beams in the Los Alamos Proton Storage Ring [J] . Jeffrey S. Kolski, Robert J. Macek, Rodney C. McCrady, Physical Review. Accelerators and Beams . 2012,第11期

机译：独立成分分析应用于Los Alamos质子存储环中的长束束
3. Shear design procedure for reinforced normal and high-strength concrete beams using artificial neural networks. Part Ⅱ: beams with stirrups [J] . A. Cladera, A.R. Mari Engineering Structures . 2004,第7期

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4. Beam-dynamics design and performance of the RF deflector in the Los Alamos single-beam funnel experiment [C] . Guy, F.W., Johnson, . 1991

机译：Los Alamos单光束漏斗实验中的射频动力学设计和光束动力学设计
5. Passive Coherent Beam Combining by Gain Effects in Fiber Lasers and Spatial Beam Control in Gradient Refractive Index Media [D] . Kunkel, William Minster, IV. 2018

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6. Verification procedure for isocentric alignment of proton beams [O] . George Ciangaru, James N. Yang, Patrick J. Oliver, 2007

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7. Initial electron-beam characterizations for the Los Alamos APEX facility [O] . A.H. Lumpkin, R.B. Feldman, S.A. Apgar, 1992

机译：LOS Alamos Apex设施的初始电子束特性
8. Beam-dynamics design and performance of the rf deflector in the Los Alamos single-beam funnel experiment. [R] . F. W. Guy K. F. Johnson O. R. Sander 1991

机译：洛斯阿拉莫斯单光束漏斗实验中射束动力学设计和射频偏转器的性能。

Beam Line Design, Beam Alignment Procedure, and Initial Results for the$W$-Band Gain Experiment at Los Alamos

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