Nonlinear modulated dust lattice wave packets in two-dimensional hexagonal dust crystals

Farokhi, B.; Kourakis, Ioannis; Shukła, P. K.

doi:10.1063/1.2400594

Cited by 25 publications

(19 citation statements)

References 29 publications

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“…Note that the friction term introduced on the left-hand-side of the equation of motion (11) and its continuum version (21), leads to the appearance of the damping rate ν (due to dustneutral collisions) in the dispersion relations (16)- (18). Dissipation in dusty plasma experiments is admittedly always present, yet may acquire very small values, depending on plasma density and pressure [Ref.…”

Section: Group Velocitymentioning

confidence: 99%

Modulated transverse off-plane dust-lattice wave packets in hexagonal two-dimensional dusty plasma crystals

2009

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The propagation of nonlinear dust-lattice waves in a two-dimensional hexagonal crystal is investigated. Transverse (off-plane) dust grain oscillatory motion is considered, in the form of a backward propagating wavepacket whose linear and nonlinear characteristics are investigated. An evolution equation is obtained for the slowly varying amplitude of the first (fundamental) harmonic, by making use of a two-dimensional lattice multiple scales technique. An analysis based on the continuum approximation (spatially extended excitations, compated to the lattice spacing) shows that wavepackets will be modulationally stable and that dark-type envelope solitons (density holes) may occur, in the long wavelength region. Evidence is provided of modulational instability and of the occurrence of bright-type envelopes (pulses) at shorter wavelengths. The role of second neighbor interactions is also investigated, and is shown to be rather weak in determining the modulational stability region. The effect of dissipation, assumed negligible in the algebra throughout the article, is briefly discussed.

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Section: Group Velocitymentioning

confidence: 99%

Modulated transverse off-plane dust-lattice wave packets in hexagonal two-dimensional dusty plasma crystals

2009

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“…Then we set the determinant of coefficients of Eqs. (17)(18)(19), it gives the dispersion relation as a third rank polynomial versus 2 ω . In limitation conditions when eliminating the wake ion effect, results of this paper converges to the results of, B. Farokhi et al [17] and S. V. Vladimirov et al [18].…”

Section: _______________________________mentioning

confidence: 99%

“…In fundamental physics the most surprising discovery was the observation of crystal-like structures. Such plasma crystal structures can support longitudinal and transverse vibrational modes, which have been extensively studied in the last years [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19][20]. Dust lattice waves (DLW's) are produced by the oscillations of regularly spaced charged micrometer sized particles suspended in a plasma (plasma crystals), and there have been many publications on experimental and theoretical investigations of the DL modes in one-and twodimensional (1D and 2D) crystals [3][4][5][6][7][8][9][10][11][12][13].…”

Section: Introductionmentioning

confidence: 99%

The particle-wake interactions in a hexagonal twodimensional dust lattice

Shahmansouri¹,

Farokhi²

2009

Sci.Herald.Uzh.Univ.Ser.Phys

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Dust lattice (DL) modes are studied in a hexagonal two-dimensional dust lattice in plasma crystal, associated with the particle-wake interaction. The longitudinal and horizontal transverse modes are coupled with the vertical transverse mode for dust grains, due to the particle-wake interaction.Вивчаються моди пилової гратки у гексагональній двовимірній пиловій гратці у кристалі плазми, пов'язані з взаємодією типу "пробудження частинок". Відбувається взаємодія поздовжніх і горизонтальних поперечних мод з вертикальною поперечною модою для пилових зерен внаслідок взаємодії типу "пробудження частинок".

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“…In 2D, hexagonal dust lattices sustain modulated envelope bell-shaped structures, which may be formed as a result of modulational instability of in-plane vibrations [18]. Discrete dust-lattice modes.…”

Section: Credit Line (Below) To Be Inserted On the First Page Of Eachmentioning

confidence: 99%

Localized excitations in dusty plasma crystals: on the interface among plasma physics and nonlinear lattice theories

Kourakis

Koukouloyannis

Farokhi

et al. 2008

AIP Conference Proceedings

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Introduction. Dusty plasma crystals (DPCs) are strongly-coupled charged particle configurations, which occur in dysty plasmas (DP) [1] when the average electrostatic potential energy substantially exceeds the mean kinetic energy. In laboratory, DPCs are formed in low-temperature plasma discharges, wherein the charged dust particles are suspended under the combined action of gravity and electric forces [2]. DPC configurations typically consist of two-dimensional (2D) -hexagonal in general -layers, but also one-(1D) chains, when appropriate trapping potentials are employed for lateral confinement [3]. Our aim here is to revisit the nonlinear aspects of dust grain motion in 1D and 2D DPCs, from first principles, by reviewing earlier analytical results [4] and presenting more recent ones [5,6].

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Nonlinear modulated dust lattice wave packets in two-dimensional hexagonal dust crystals

Cited by 25 publications

References 29 publications

Modulated transverse off-plane dust-lattice wave packets in hexagonal two-dimensional dusty plasma crystals

Modulated transverse off-plane dust-lattice wave packets in hexagonal two-dimensional dusty plasma crystals

The particle-wake interactions in a hexagonal twodimensional dust lattice

Localized excitations in dusty plasma crystals: on the interface among plasma physics and nonlinear lattice theories

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