A. M. Lipaev, V. I. Molotkov, D. I. Zhukhovitskiĭ, V. N. Naumkin, A. D. Usachev, A. V. Zobnin, O. F. Petrov, V. E. Fortov
|
|
|
References
|
|
|
1. |
Kompleksnaya i pylevaya plazma: iz laboratorii v kosmos, eds. Fortov V., Morfill G., Fizmatlit, M., 2012, 444 pp. |
2. |
Thomas H.M., Morfill G.E., “Melting Dynamics of a Plasma Crystal”, Nature, 379:6568 (1996), 806 |
3. |
Chu J.H., Lin I, “Direct Observation of Coulomb Crystals and Liquids in Strongly Coupled RF Dusty Plasmas”, Phys. Rev. Lett., 72:25 (1994), 4009 |
4. |
Thomas H., Morfill G.E., Demmel V., Goree J., Feuerbacher B., Möhlmann D., “Plasma Crystal: Coulomb Crystallization in a Dusty Plasma”, Phys. Rev. Lett., 73:5 (1994), 652 |
5. |
Melzer A., Trottenberg T., Piel A., “Experimental Determination of the Charge on Dust Particles Forming Coulomb Lattices”, Phys. Lett. A, 191:3 (1994), 301 |
6. |
Vladimirov S.V., Ostrikov K. Samarian A.A., Physics and Applications of Complex Plasmas, Imperial College Press, London, 2005, 456 pp. |
7. |
Fortov V., Ivlev A., Khrapak S., Khrapak A., Morfill G., “Complex (Dusty) Plasmas: Current Status, Open Issues, Perspectives”, Phys. Rep., 421:1 (2005), 1 |
8. |
Bonitz M., Henning C., Block D., “Complex Plasmas: a Laboratory for Strong Correlations”, Rep. Prog. Phys., 73:6 (2010), 066501 |
9. |
Morfill G.E., Ivlev A.V., “Complex Plasmas: an Interdisciplinary Research Field”, Rev. Mod. Phys., 81:4 (2009), 1353 |
10. |
Tsytovich V.N., “Plazmenno-pylevye kristally, kapli i oblaka”, UFN, 167:1 (1997), 57 |
11. |
Tsytovich V.N., “O perspektivakh eksperimentalnykh i teoreticheskikh issledovanii samoorganizovannykh pylevykh struktur v kompleksnoi plazme v usloviyakh mikrogravitatsii”, UFN, 185:2 (2015), 161 |
12. |
Naumkin V.N., Lipaev A.M., Molotkov V.I., Zhukhovitskii D.I., Usachev A.D., Thomas H.M., “Crystal{\textendash}Liquid Phase Transitions in Three-dimensional Complex Plasma under Microgravity Conditions”, J. Phys.: Conf. Ser., 946 (2018), 012144 |
13. |
Rubin-Zuzic M., Morfill G.E., Ivlev A.V., Pompl R., Klumov B.A., Bunk W., Thomas H.M., Rothermel H., Havnes O., Fouquét A., “Kinetic Development of Crystallization Fronts in Complex Plasmas”, Nat. Phys., 2:3 (2006), 181 |
14. |
Khrapak A.G., Molotkov V.I., Lipaev A.M., Zhukhovitskii D.I., Naumkin V.N., Fortov V.E., Petrov O.F., Thomas H.M., Khrapak S.A., Huber P., Ivlev A., Morfill G., “Complex Plasma Research under Microgravity Conditions: PK-3 Plus Laboratory on the International Space Station”, Contrib. Plasma Phys., 56:3–4 (2016), 253 |
15. |
Naumkin V.N., Zhukhovitskii D.I., Molotkov V.I., Lipaev A.M., Fortov V.E., Thomas H.M., Huber P., Morfill G.E., “Density Distribution of a Dust Cloud in Three-dimensional Complex Plasmas”, Phys. Rev. E, 94:3 (2016), 033204 |
16. |
Zhukhovitskii D.I., Naumkin V.N., Molotkov V.I., Lipaev A.M., Thomas H.M., “New Approach to Measurement of the Three-dimensional Crystallization Front Propagation Velocity in Strongly Coupled Complex Plasma”, Plasma Sources Sci. Technol., 28:6 (2019), 065014 |
17. |
Hayashi Y., “Structure of a Three-Dimensional Coulomb Crystal in a Fine-Particle Plasma”, Phys. Rev. Lett., 83:23 (1999), 4764 |
18. |
Fortov V.E., Khrapak A.G., Khrapak S.A., Molotkov V.I., Petrov O.F., “Dusty Plasmas”, Phys.-Usp., 47:5 (2004), 447 |
19. |
Morfill G.E., Konopka U., Kretschmer M., Rubin-Zuzic M., Thomas H.M., Zhdanov S.K., Tsytovich V., “The `Classical Tunnelling Effect{\textemdash}Observations and Theory”, New J. Phys., 8 (2006), 7 |
20. |
Schwabe M., Zhdanov S.K., Thomas H.M., Ivlev A.V., Rubin-Zuzic M., Morfill G.E., Molotkov V.I., Lipaev A.M., Fortov V.E., Reiter T., “Nonlinear Waves Externally Excited in a Complex Plasma under Microgravity Conditions”, New J. Phys., 10:3 (2008), 033037 |
21. |
Morfill G.E., Thomas H.M., Konopka U., Rothermel H., Zuzic M., Ivlev A., Goree J., “Condensed Plasmas under Microgravity”, Phys. Rev. Lett., 83:8 (1999), 1598 |
22. |
Khrapak S.A., Klumov B.A., Huber P., Molotkov V.I., Lipaev A.M., Naumkin V.N., Thomas H.M., Ivlev A.V., Morfill G.E., Petrov O.F., Fortov V.E., Malentschenko Y., Volkov S., “Freezing and Melting of 3D Complex Plasma Structures under Microgravity Conditions Driven by Neutral Gas Pressure Manipulation”, Phys. Rev. Lett., 106:20 (2011), 205001 |
23. |
Thomas H.M., Morfill G.E., Fortov V.E., Ivlev A.V., Molotkov V.I., Lipaev A.M., Hagl T., Rothermel H., Khrapak S.A., Suetterlin R.K., Rubin-Zuzic M., Petrov O.F., Tokarev V.I., Krikalev S.K., “Complex Plasma Laboratory {PK}-3 Plus on the International Space Station”, New J. Phys., 10:3 (2008), 033036 |
24. |
Jiang K., Nosenko V., Li Y.F., Schwabe M., Konopka U., Ivlev A.V., Fortov V.E., Molotkov V.I., Lipaev A.M., Petrov O.F., Turin M.V., Thomas H.M., Morfill G.E., “Mach Cones in a Three-dimensional Complex Plasma”, EPL, 85:4 (2009), 45002 |
25. |
Schwabe M., Jiang K., Zhdanov S., Hagl T., Huber P., Ivlev A.V., Lipaev A.M., Molotkov V.I., Naumkin V.N., Sütterlin K.R., Thomas H.M., Fortov V.E., Morfill G.E., Skvortsov A., Volkov S., “Direct Measurement of the Speed of Sound in a Complex Plasma under Microgravity Conditions”, EPL, 96:5 (2011), 55001 |
26. |
Ivlev A.V., Morfill G.E., Thomas H.M., Räth C., Joyce G., Huber P., Kompaneets R., Fortov V.E., Lipaev A.M., Molotkov V.I., Reiter T., Turin M., Vinogradov P., “First Observation of Electrorheological Plasmas”, Phys. Rev. Lett., 100:9 (2008), 095003 |
27. |
Chakrabarti J., Dzubiella J., Löwen H., “Reentrance Effect in the Lane Formation of Driven Colloids”, Phys. Rev. E, 70:1 (2004), 012401 |
28. |
Sütterlin K.R., Wysocki A., Ivlev A.V., Räth C., Thomas H.M., Rubin-Zuzic M., Goedheer W.J., Fortov V.E., Lipaev A.M., Molotkov V.I., Petrov O.F., Morfill G.E., Löwen H., “Dynamics of Lane Formation in Driven Binary Complex Plasmas”, Phys. Rev. Lett., 102:8 (2009), 085003 |
29. |
Khrapak S.A., Klumov B.A., Huber P., Molotkov V.I., Lipaev A.M., Naumkin V.N., Ivlev A.V., Thomas H.M., Schwabe M., Morfill G.E., Petrov O.F., Fortov V.E., Malentschenko Y., Volkov S., “Fluid{\textendash}Solid Phase Transitions in Three-dimensional Complex Plasmas under Microgravity Conditions”, Phys. Rev. E, 85:6 (2012), 066407 |
30. |
Raveché H.J., Mountain R.D., Streett W.B., “Freezing and Melting Properties of the Lennard-Jones System”, J. Chem. Phys., 61:5 (1974), 1970 |
31. |
Boeuf J.P., Pitchford L.C., “Two-dimensional Model of a Capacitively Coupled RF Discharge and Comparisons with Experiments in the Gaseous Electronics Conference Reference Reactor”, Phys. Rev. E, 51:2 (1995), 1376 |
32. |
Lampe M., Goswami R., Sternovsky Z., Robertson S., Gavrishchaka V., Ganguli G., Joyce G., “Trapped Ion Effect on Shielding, Current Flow, and Charging of a Small Object in a Plasma”, Phys. Plasmas, 10:5 (2003), 1500 |
33. |
Menzel K.O., Arp O., Piel A., “Frequency Clusters and Defect Structures in Nonlinear Dust-density Waves under Microgravity Conditions”, Phys. Rev. E, 83:1 (2011), 016402 |
34. |
Caliebe D., Arp O., Piel A., “Dynamics of Dust-free Cavities Behind Fast Projectiles in a Dusty Plasma under Microgravity Conditions”, Phys. Plasmas, 18:7 (2011), 073702 |
35. |
Piel A., Arp O., Klindworth M., Melzer A., “Obliquely Propagating Dust-density Waves”, Phys. Rev. E, 77:2 (2008), 026407 |
36. |
Arp O., Caliebe D., Piel A., “Cavity Dynamics and Particle Alignment in the Wake of a Supersonic Projectile Penetrating a Dusty Plasma”, Phys. Rev. E, 83:6 (2011), 066404 |
37. |
Fortov V.E., Petrov O.F., Usachev A.D., Zobnin A.V., “Micron-sized Particle-charge Measurements in an Inductive RF Gas-discharge Plasma using Gravity-driven Probe Grains”, Phys. Rev. E, 70:4 (2004), 046415 |
38. |
Chang M.-C., Tseng Y.-P., Lin I, “Projectile Channeling in Chain Bundle Dusty Plasma Liquids: Wave Excitation and Projectile-wave Interaction”, Phys. Plasmas, 18:3 (2011), 033704 |
39. |
Nosenko V., Goree J., “Shear Flows and Shear Viscosity in a Two-Dimensional Yukawa System (Dusty Plasma)”, Phys. Rev. Lett., 93:15 (2004), 155004 |
40. |
Morfill G.E., Rubin-Zuzic M., Rothermel H., Ivlev A.V., Klumov B.A., Thomas H.M., Konopka U., Steinberg V., “Highly Resolved Fluid Flows: "Liquid Plasmas at the Kinetic Level”, Phys. Rev. Lett., 92:17 (2004), 175004 |
41. |
Ivlev A.V., Steinberg V., Kompaneets R., Höfner H., Sidorenko I., Morfill G.E., “Non-Newtonian Viscosity of Complex-Plasma Fluids”, Phys. Rev. Lett., 98:14 (2007), 145003 |
42. |
Landau L.D., Lifshits E.M., Teoreticheskaya fizika v 10 tomakh. Tom 6. Gidrodinamika, 5-e izd., stereot., Fizmatlit, M., 2001, 736 pp. |
43. |
Goree J., Morfill G.E., Tsytovich V.N., Vladimirov S.V., “Theory of Dust Voids in Plasmas”, Phys. Rev. E, 59:6 (1999), 7055 |
44. |
Nosenko V., Ivlev A.V., Morfill G.E., “Laser-induced Rocket Force on a Microparticle in a Complex (Dusty) Plasma”, Phys. Plasmas, 17:12 (2010), 123705 |
45. |
Schweigert V.A., Schweigert I.V., Nosenko V., Goree J., “Acceleration and Orbits of Charged Particles Beneath a Monolayer Plasma Crystal”, Phys. Plasmas, 9:11 (2002), 4465 |
46. |
Liu B., Goree J., Nosenko V., Boufendi L., “Radiation Pressure and Gas Drag Forces on a Melamine-formaldehyde Microsphere in a Dusty Plasma”, Phys. Plasmas, 10:1 (2003), 9 |
47. |
Buttenschön B., Himpel M., Melzer A., “Spatially Resolved Three-dimensional Particle Dynamics in the Void of Dusty Plasmas under Microgravity using Stereoscopy”, New J. Phys., 13:2 (2011), 023042 |
48. |
Zhukhovitskii D.I., Fortov V.E., Molotkov V.I., Lipaev A.M., Naumkin V.N., Thomas H.M., Ivlev A.V., Schwabe M., Morfill G.E., “Nonviscous Motion of a Slow Particle in a Dust Crystal under Microgravity Conditions”, Phys. Rev. E, 86:1 (2012), 016401 |
49. |
Maccoll J.W., “The Conical Shock Wave Formed by a Cone Moving at a High Speed”, Proc. R. Soc. A, 159:898 (1937), 459 |
50. |
Weżgowiec M., Vollmer B., Ehle M., Dettmar R.-J., Bomans D.J., Chyży K.T., Urbanik M., Soida M., “Hot Gas in Mach Cones around Virgo Cluster Spiral Galaxies”, Astron. Astrophys., 531 (2011), A44 |
51. |
Makse H.A., Gland N., Johnson D.L., Schwartz L., “Granular Packings: Nonlinear Elasticity, Sound Propagation, and Collective Relaxation Dynamics”, Phys. Rev. E, 70:6 (2004), 061302 |
52. |
Heil P., Rericha E.C., Goldman D.I., Swinney H.L., “Mach Cone in a Shallow Granular Fluid”, Phys. Rev. E, 70:6 (2004), 060301 |
53. |
Casalderrey-Solana J., “Mach Cones in Quark Gluon Plasma”, J. Phys. G: Nucl. Part. Phys., 34:8 (2007), S345 |
54. |
Ulery J.G., Are there Mach Cones in Heavy Ion Collisions?, Int. J. Mod. Phys. E, 16:07n08 (2007), 2005 |
55. |
Samsonov D., Goree J., Ma Z.W., Bhattacharjee A., Thomas H.M., Morfill G.E., “Mach Cones in a Coulomb Lattice and a Dusty Plasma”, Phys. Rev. Lett., 83:18 (1999), 3649 |
56. |
Samsonov D., Goree J., “Instabilities in a Dusty Plasma With Ion Drag and Ionization”, Phys. Rev. E, 59:1 (1999), 1047 |
57. |
Dubin D.H.E., “The Phonon Wake Behind a Charge Moving Relative to a Two-dimensional Plasma Crystal”, Phys. Plasmas, 7:10 (2000), 3895 |
58. |
Nosenko V., Goree J., Ma Z.W., Piel A., “Observation of Shear-Wave Mach Cones in a 2D Dusty-Plasma Crystal”, Phys. Rev. Lett., 88:13 (2002), 135001 |
59. |
Melzer A., Nunomura S., Samsonov D., Ma Z.W., Goree J., “Laser-excited Mach Cones in a Dusty Plasma Crystal”, Phys. Rev. E, 62:3 (2000), 4162 |
60. |
Raizer Yu.P., Fizika gazovogo razryada, Izd. 2-oe, dop. i pererab., Nauka, M., 1992, 536 pp. |
61. |
Land V., Goedheer W.J., “Effect of Large-angle Scattering, Ion Flow Speed and Ion-Neutral Collisions on Dust Transport under Microgravity Conditions”, New J. Phys., 8 (2006), 8 |
62. |
Saigo T., Hamaguchi S., “Shear Viscosity of Strongly Coupled Yukawa Systems”, Phys. Plasmas, 9:4 (2002), 1210 |
63. |
Zhukhovitskii D.I., Ivlev A.V., Fortov V.E., Morfill G.E., “Onset of Cavity Deformation upon Subsonic Motion of a Projectile in a Fluid Complex Plasma”, Phys. Rev. E, 87:6 (2013), 063108 |
64. |
Ivlev A.V., Zhukhovitskii D.I., “The Drag Force on a Subsonic Projectile in a Fluid Complex Plasma”, Phys. Plasmas, 19:9 (2012), 093703 |
65. |
Frenkel D., McTague J.P., “Computer Simulations of Freezing and Supercooled Liquids”, Annu. Rev. Phys. Chem., 31:1 (1980), 491 |
66. |
Zhukhovitskii D.I., Naumkin V.N., Khusnulgatin A.I., Molotkov V.I., Lipaev A.M., “Rasprostranenie trekhmernogo fronta kristallizatsii v silnoneidealnoi pylevoi plazme”, ZhETF, 157:4 (2020), 734 http://www.jetp.ac.ru/cgi-bin/dn/r_157_0734.pdf |
67. |
Zhukhovitskii D.I., “Spectra of the Liquid Cluster Surface Thermal Fluctuations”, J. Chem. Phys., 125:23 (2006), 234701 |