Quasicrystalline structures in strongly coupled dusty plasma

A.P. Nefedov^a, O.F. Petrov^a, V.E. Fortov^b
^aInstitute of Thermophysics of Extreme States, Joint Institute for High Temperatures, Russian Academy of Sciences, Izhorskaya 13/19, Moscow, 125412, Russian Federation
^bJoint Institute for High Temperatures, Russian Academy of Sciences, ul. Izhorskaya 13/19, Moscow, 127412, Russian Federation

Dust particle ordering is discussed in various types of low-temperature plasma, such as thermal plasmas at atmospheric pressure, dc glow discharges, and UV-induced plasmas. Experimental data and numerical simulation results are presented. Properties of ordered structures are discussed and the conditions of formation considered.

PACS: 52.90.+z
DOI: 10.1070/PU1997v040n11ABEH000308
URL: https://ufn.ru/en/articles/1997/11/e/
Web of Science

000071302300005
Citation: Nefedov A P, Petrov O F, Fortov V E "Quasicrystalline structures in strongly coupled dusty plasma" Phys. Usp. 40 1163–1173 (1997)

BibTexBibNote ® (generic)BibNote ® (RIS)MedlineRefWorks

Оригинал: Нефедов А П, Петров О Ф, Фортов В Е «Кристаллические структуры в плазме с сильным взаимодействием макрочастиц» УФН 167 1215–1226 (1997); DOI: 10.3367/UFNr.0167.199711e.1215

References (41) Cited by (114) Similar articles (20) ↓

V.N. Tsytovich “Dust plasma crystals, drops, and clouds” 40 53–94 (1997)
V.N. Tsytovich, J. Winter “On the role of dust in fusion devices” 41 815–822 (1998)
A.A. Lushnikov, A.E. Negin et al “Aerogel structures in a gas” 34 (2) 160–166 (1991)
V.B. Shikin “Wigner crystallization on the surface of liquid helium” 32 452–455 (1989)
E.M. Bazelyan, Yu.P. Raizer “The mechanism of lightning attraction and the problem of lightning initiation by lasers” 43 701–716 (2000)
V.E. Fortov, B.Yu. Sharkov, H. Stöcker “European Facility for Antiproton and Ion Research (FAIR): the new international center for fundamental physics and its research program” 55 582–602 (2012)
M.I. Kaganov, I.M. Lifshits “Electron theory of metals and geometry” 22 904–927 (1979)
L. Couëdel, V.M. Nosenko et al “Experimental studies of two-dimensional complex plasma crystals: waves and instabilities” 62 1000–1011 (2019)
B.A. Klumov, V.I. Kondaurov et al “Collision of comet Shoemaker-Levi 9 with Jupiter: what shall we see?” 37 577–588 (1994)
V.E. Fortov, Yu.N. Gnedin et al “Collision of comet Shoemaker-Levy 9 with Jupiter: what did we see” 39 363–392 (1996)
G.I. Kanel, E.B. Zaretsky et al “Unusual plasticity and strength of metals at ultra-short load durations” 60 490–508 (2017)
B.M. Smirnov “A tangle of fractal fibers as a new state of matter” 34 (8) 711–716 (1991)
A.V. Nedospasov “Physics of near-wall plasma in tokamaks” 30 620–627 (1987)
A.Ya. Belen’kii “Electronic surface states of crystals” 24 412–425 (1981)
Yu.G. Kudenko “Neutrino oscillations: recent advances and future prospects” 61 739–747 (2018)
E.A. Khazanov, S.Yu. Mironov, G. Mourou “Nonlinear compression of high-power laser pulses: compression after compressor approach” 62 1096–1124 (2019)
L.L. Gol’din, V.P. Dzhelepov et al “Application of high-energy heavy charged particles in medicine” 16 402–413 (1973)
Yu.A. Mostovoi, K.N. Mukhin, O.O. Patarakin “The neutron yesterday, today, and tomorrow” 39 925–958 (1996)
V.A. Rubakov “Large Hadron Collider’s discovery of a new particle with Higgs boson properties” 55 949–957 (2012)
Yu.G. Kudenko “T2K observation of muon-to-electron neutrino oscillations” 56 1120–1125 (2013)

The list is formed automatically.