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Items: 1 to 20 of 82

1.

Analysis of electron capture acceleration channel in an Airy beam.

Li JX, Zang WP, Tian JG.

Opt Lett. 2010 Oct 1;35(19):3258-60. doi: 10.1364/OL.35.003258.

PMID:
20890352
2.

Vacuum electron acceleration driven by two crossed Airy beams.

Li JX, Fan XL, Zang WP, Tian JG.

Opt Lett. 2011 Mar 1;36(5):648-50. doi: 10.1364/OL.36.000648.

PMID:
21368936
3.

Vacuum laser-driven acceleration by Airy beams.

Li JX, Zang WP, Tian JG.

Opt Express. 2010 Mar 29;18(7):7300-6. doi: 10.1364/OE.18.007300.

PMID:
20389751
4.

Vacuum electron acceleration driven by a tightly focused radially polarized Gaussian beam.

Dai L, Li JX, Zang WP, Tian JG.

Opt Express. 2011 May 9;19(10):9303-8. doi: 10.1364/OE.19.009303.

PMID:
21643185
5.

High-intensity laser-induced electron acceleration in vacuum.

Wang JX, Ho YK, Feng L, Kong Q, Wang PX, Yuan ZS, Scheid W.

Phys Rev E Stat Phys Plasmas Fluids Relat Interdiscip Topics. 1999 Dec;60(6 Pt B):7473-8.

PMID:
11970695
6.

A note on an accelerating finite energy Airy beam.

Besieris IM, Shaarawi AM.

Opt Lett. 2007 Aug 15;32(16):2447-9.

PMID:
17700814
7.

Vacuum electron acceleration and bunch compression by a flat-top laser beam.

Wang W, Wang PX, Ho YK, Kong Q, Gu Y, Wang SJ.

Rev Sci Instrum. 2007 Sep;78(9):093103.

PMID:
17902943
8.

Polarization-independent electrically tunable/switchable Airy beam based on polymer-stabilized blue phase liquid crystal.

Luo D, Dai HT, Sun XW.

Opt Express. 2013 Dec 16;21(25):31318-23. doi: 10.1364/OE.21.031318.

PMID:
24514706
9.

Direct acceleration of an electron in infinite vacuum by a pulsed radially-polarized laser beam.

Wong LJ, Kärtner FX.

Opt Express. 2010 Nov 22;18(24):25035-51. doi: 10.1364/OE.18.025035.

PMID:
21164849
10.

Wigner distribution function of an Airy beam.

Chen RP, Zheng HP, Dai CQ.

J Opt Soc Am A Opt Image Sci Vis. 2011 Jun 1;28(6):1307-11. doi: 10.1364/JOSAA.28.001307.

PMID:
21643417
11.

Ion beam capture and charge breeding in electron cyclotron resonance ion source plasmas.

Kim JS, Zhao L, Cluggish BP, Pardo R.

Rev Sci Instrum. 2007 Oct;78(10):103503.

PMID:
17979415
12.

Conditions for electron capture by an ultraintense stationary laser beam

Kong Q, Ho YK, Wang JX, Wang PX, Feng L, Yuan ZS.

Phys Rev E Stat Phys Plasmas Fluids Relat Interdiscip Topics. 2000 Feb;61(2):1981-4.

PMID:
11046485
13.

Evolution of an Airy beam in turbulence.

Chu X.

Opt Lett. 2011 Jul 15;36(14):2701-3. doi: 10.1364/OL.36.002701.

PMID:
21765514
14.

Electron cyclotron resonance charge breeder ion source simulation by MCBC and GEM.

Kim JS, Zhao L, Cluggish BP, Bogatu IN, Pardo R.

Rev Sci Instrum. 2008 Feb;79(2 Pt 2):02B906. doi: 10.1063/1.2816961.

PMID:
18315221
15.

Airy-like beam transverse acceleration control by rainbow effect.

Deng H, Yuan L.

Opt Lett. 2014 Feb 15;39(4):1089-92. doi: 10.1364/OL.39.001089.

PMID:
24562285
16.

Useful technique for analysis and control of the acceleration beam phase in the azimuthally varying field cyclotron.

Kurashima S, Yuyama T, Miyawaki N, Kashiwagi H, Okumura S, Fukuda M.

Rev Sci Instrum. 2010 Mar;81(3):033306. doi: 10.1063/1.3354981.

PMID:
20370169
17.

Persistence and breakdown of Airy beams driven by an initial nonlinearity.

Hu Y, Huang S, Zhang P, Lou C, Xu J, Chen Z.

Opt Lett. 2010 Dec 1;35(23):3952-4. doi: 10.1364/OL.35.003952.

PMID:
21124576
18.

Acceleration of electrons by a tightly focused intense laser beam.

Li JX, Zang WP, Li YD, Tian JG.

Opt Express. 2009 Jul 6;17(14):11850-9.

PMID:
19582099
19.

Polarization dependence in ELNES: influence of probe convergence, collector aperture and electron beam incidence angle.

Le Bossé JC, Epicier T, Jouffrey B.

Ultramicroscopy. 2006 Apr;106(6):449-60. Epub 2006 Jan 18.

PMID:
16442734
20.

Space plasma physics: electron flux intensity distributions observed in response to particle beam emissions.

Wilhelm K, Stüdemann W, Riedler W.

Science. 1984 Jul 13;225(4658):186-8.

PMID:
17837935
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