High-current plasma lens

Goncharov, A.; Dobrovolsky, A. N.; Zatuagan, A.V.; Protsenko, I. M.

doi:10.1109/27.249645

Cited by 50 publications

(9 citation statements)

References 4 publications

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“…Now, these periodically plasma structure is known as plasma photonic crystal (PPC), which is presented by Hojo and Mase [7]. The technologies applications of PPC are now expanding widely as, for example, in plasma lens [8], plasma antenna [9], plasma stealth aircraft [10][11][12][13], etc. And the reflectionless transmission due to the Fabry-Perot resonance in PPC can be applied to frequency filters [14] and interferometers [15].…”

Section: Introductionmentioning

confidence: 99%

Optical Properties of One-Dimensional Binary Plasma Dielectric Photonic Crystal

Guo¹,

Gao²

2011

IJAPM

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Abstract-The optical properties of electromagnetic (EM) waves propagating in one-dimensional plasma dielectric photonic crystal made of alternate thin layers of two materials namely micro plasma layer and dielectric material layer is studied theoretically. The dispersions both for ω < ω p and ω > ω p are deduced by transfer matrix method and the photonic band gap structure and the reflection spectra are computed. The results show that the band gap structure and reflection spectra are tuned correspondingly due to the dielectric constant of the microplasma layer modified differently in different frequency ranges. Parameter dependence of the effects is calculated and discussed.

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Section: Introductionmentioning

confidence: 99%

Optical Properties of One-Dimensional Binary Plasma Dielectric Photonic Crystal

Guo¹,

Gao²

2011

IJAPM

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“…In each trap volume, crossed electric and magnetic fields are formed. Such a system is unstable [1][2][3] and leads to electron vortex excitation due to the radial gradient of Но. H o enhanced ionization of transiting beam ions.…”

Section: Fig 3 Magnetic Field Structure and Electric Potential Distmentioning

confidence: 99%

Enhancement of Ion Beam Charge States by Electron Vortices in a Plasma Optical Device

Maslov

Goncharov

Brown

2007

Collective Phenomena in Macroscopic Systems

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“…In the absence of spherical aberrations the maximum compression of low-divergence beams may be restricted by a finite phase volume, uncompensated beam space charge, and momentum aberrations due to a finite azimuthal twist of beam particles in the lens magnetic field. Estimates made in [3,8] show that the main reason for the low compression of the light hydrogen ion beams, under the experimental conditions employed [3,4], are momentum aberrations. For heavy ions the role of momentum aberrations, that lead to space charge separation and limitation of beam compression, decreases rapidly for higher ion mass and energy.…”

Section: Introductionmentioning

confidence: 99%