UNIVERSAL  SKELETAL  STRUCTURES 

Most recent publications on the project "Universal Skeletal Structures"

V.S. Neverov, A.B. Kukushkin. Numerical modeling of electrodynamic aggregation of magnetized nanodust // Preprint arXiv:1112.3233v1 [physics.comp-ph] (2011), 15 pp. http://arxiv.org/abs/1112.3233

A.B. Kukushkin, V.S. Neverov, N.L. Marusov, I.B. Semenov, B.N. Kolbasov, V.V. Voloshinov, A.P. Afanasiev, A.S. Tarasov, V.G. Stankevich, N.Yu. Svechnikov, .. Veligzhanin, Y.V. Zubavichus, L.A. Chernozatonskii // Few-Nanometer-Wide Carbon Toroids in the Hydrocarbon Films Deposited in Tokamak T-10 // Chem. Phys. Lett., 2011, v. 506, pp. 265-268, http://www.sciencedirect.com/science/article/pii/S0009261411003058.

A.B. Kukushkin, V.S. Neverov. Numerical code SELFAS-3 and electrodynamic aggregation of magnetized nanodust //  Preprint arXiv:1001.2328 (2010), 14 pp. http://arxiv.org/ftp/arxiv/papers/1001/1001.2328.pdf  see also numerical modeling animation (at resolution 1080p):

   

 

A.B. Kukushkin, V.S. Neverov. Magnetic Dynamo and a Trend Towards Fractality in a Random Ensemble of Magnetized Electroconductive Nanodust -Proc. 36th EPS Conf. Plasma Phys. (Sofia, June 30- July 3, 2009), ECA, vol. 33E, O-4.049, http://epsppd.epfl.ch/Sofia/pdf/O4_049.pdf  (see also oral presentation PDF 2.2 MB  )

A.B. Kukushkin, N.L. Marusov, V.S. Neverov, I.B. Semenov. Modeling of X-ray Diffraction by Carbon Nanotubes and Interpretation of Diffractometry of the Films Deposited in Tokamak T-10. - Deposited in Tokamak T-10. - Proc. 36th EPS Conf. Plasma Phys. (Sofia, June 30- July 3, 2009), ECA, vol. 33E, P-1.179, http://epsppd.epfl.ch/Sofia/pdf/P1_179.pdf

A.B. Kukushkin, N.L. Marusov, V.S. Neverov, I.B. Semenov, K.V. Cherepanov, P.V. Minashin. Dynamic percolation of electric conductivity and a trend towards fractal skeletal structuring in a random ensemble of magnetized nanodust. Preprint arXiv:0901.1835v1 [physics.comp-ph] (2009), 21 pp. http://arxiv.org/ftp/arxiv/papers/0901/0901.1835.pdf 

V.A. Rantsev-Kartinov. Microstructure of erosion spots on the surface interacting with filamented beam plasma. Preprint arXiv:0901.1861v2 [physics.plasm-ph] (2009), 6 pp. http://arxiv.org/ftp/arxiv/papers/0901/0901.1861.pdf

Recent journal papers  

A.B. Kukushkin, K.V. Cherepanov. Self-assembling of tubular skeletons from electric current filaments composed of magnetized thin rods. Phys. Lett. A, vol. 364, pp. 335-342 (2007), doi:10.1016/j.physleta.2006.12.007 (http://dx.doi.org/10.1016/j.physleta.2006.12.007)

A.B. Kukushkin. Electrodynamic aggregation of nanodust as a source of long-lived filaments in laboratory electric discharges and space. IEEE Trans. Plasma Sci., 2007, vol. 35, p. 771-777, doi:10.1109/TPS.2007.897506 (http://dx.doi.org/10.1109/TPS.2007.897506)

V.A. Rantsev-Kartinov. Skeletal Structures in the Images of Cosmic Dust Clouds and Solar System Planets. IEEE Trans. Plasma Sci., 2007, vol. 35, . 767-770, doi:10.1109/TPS.2007.897571 (http://dx.doi.org/10.1109/TPS.2007.897571)

Recent surveys

1. A.B. Kukushkin, V.A. Rantsev-Kartinov. Self-similar skeletal structures in fusion and material test devices: numerical modeling and new observational data. In: "Current Trends in International Fusion Research: A Review" (Proc. 7-th Symposium, Washington, D.C., USA, March 5-9, 2007), Eds. E. Panarella and R. Raman. NRC Research Press, Ottawa; 10 pp. (to be published) (conference talk http://www.physicsessays.com/doc/s2007/sk-wash-07.pdf).

2. A.B. Kukushkin and V.A. Rantsev-Kartinov. EVIDENCES FOR AND THE MODELS OF SELF-SIMILAR SKELETAL STRUCTURES IN FUSION DEVICES, SEVERE WEATHER PHENOMENA AND SPACE. The 6-th Symposium Current Trends in International Fusion Research: A Review, Washington, D.C., USA, March 7-11, 2005. Conference talk: Part 1 (pages 1-42, PDF 4.9 MB)  Part 2 (pages 43-64, PDF 4.3 MB )  Part 3 (pages 65-116, PDF 2.4 MB)  2-page abstract PDF 140 KB 

 

 

 

Используются технологии uCoz