Boson Journal of Modern Physics

In this study, artificial neural network (ANN) is investigated to predict the optimum gas mixture for highest soft X-ray (SXR) intensity emitted by a 4kJ plasma focus device. To do this multi-layer perceptron (MLP) neural network is used for developing the ANN model in MATLAB 7.0.4 software. In this model, the input parameters are voltage, Percentage of nitrogen in admixture and pressure and the output is SXR intensity. The obtained results show that the proposed ANN model has achieved good agreement with the experimental data and has a small error between the estimated and experimental values. Therefore, this model is a useful, reliable, fast and cheap tool to predict the optimum gas mixture for highest SXR intensity emitted by plasma focus devices.

T. Zhang, X. Lin, K. A. Chandra, T. L. Tan, S. V. Springham, A. Patran, P. Lee, S. Lee and R. S. Rawat, Current sheath curvature correlation with the neon soft x-ray emission from plasma focus device, Plasma Sources Sci. Technol., vol. 14, pp. 368-374, 2005.

Yasuo Kato, Isao Ochiai, Yoshio Watanabe, and Seiichi Murayama,Plasma focus x?ray source for lithography, J. Vac. Sci. Technol., Vol. 6, PP.195- 198, 1988.

S. Ahmad, M. Sadiq, S. Hussain, M. Shafiq, P. Lee, M. Zakaullah and A. Waheed, Enhanced and reproducible X-ray emission in a low-energy plasma focus, Europhys.Lett.,vol. 73(1), pp. 4248, 2006.

M. A. Mohammadi, S. Sobhanian1, C. S. Wong, S. Lee, P. Lee andR. S. Rawat, The effect of anode shape on neon soft x-ray emissions and current sheath configuration in plasma focus device,J. Phys. D, Appl. Phys., vol. 42, no. 4, Feb. 2009.(10pp).

D. Wong, A. Patran, T. L. Tan, R. S. Rawat, and P. Lee, Soft X-ray Optimization Studies on a Dense Plasma Focus Device Operated in Neon and Argon in Repetitive Mode, IEEE TRANSACTIONS ON PLASMA SCIENCE, vol. 32, no. 6, pp. 2227-2235, Dec. 2004.

R. S. Rawat, T. Zhang, C. B. L. Phua, J. X. Y. Then, K. A. Chandra, X. Lin, A. Patran and P. Lee, Effect of insulator sleeve length on soft x-ray emission from a neon-filled plasma focus device, Plasma Sources Sci. Technol., vol. 13, pp. 569-575, 2004.

G. Sylvester, M. Zambra, P. Silva, and J. Moreno, Ferroelectric Thick Film in an Insulator of a Low-Energy Plasma Focus, IEEE TRANSACTIONS ON PLASMA SCIENCE, vol. 34, no. 5, pp. 1934-1937, Oct. 2006.

R. Lebert, W. Neff, D. Rothweiler, Pinch Plasma Source for X ray Microscopy with Nanosecond Exposure Time, J. X-ray Sci. Technol., vol. 6, pp. 107-140, Jun. 1996.

V.A. Gribkov, A. Srivastava, P. L. C. Keat, V. Kudryashov, and S. Lee, Operation of NX2 dense plasma focus device with argon filling as a possible radiation source for micro-machining, IEEE Trans. Plasma Sci., Volume: 30, Page(s): 1331 1338, 2002.

R. S. Rawat, T. Zhang, G. J. Lim, W. H. Tan, S. J. Ng, A. Patran, S. M. Hassan, S. V. Springham, T. L. Tan,M. Zakaullah, P. Lee, and S. Lee, Soft X-ray Imaging using a Neon Filled Plasma Focus X-ray Source, Journal of Fusion Energy, vol. 23, no. 1, pp. 49-53, Mar. 2004.

M. Zakaullah, K. Alamgir, M. Shafiq, M. Sharif, and A. Waheed, Scope of Plasma Focus With Argon as a Soft X-Ray Source, IEEE TRANSACTIONS ON PLASMA SCIENCE, vol. 30, no. 6, pp. 2089-2094, Dec. 2002.

E. P. Bogolyubov, V. D. Bochkov, V. A. Veretennikov, L. T. Vekhoreva, V. A. Gribkov, A. V. Dubrovskii, Yu. P. Ivanov, A. I. Isakov, O. N. Krokhin, P. Lee, S. Lee,V. Ya. Nikulin, A. Serban,P. V.Silin, X. Feng and G. X. Zhang, A Powerful Soft X-ray Source for X-ray Lithography Based on Plasma Focusing, Physica. Scripta. , Vol. 57, pp.488-494, 1998.

Y. Katoand S. H. Be, Generation of soft x rays using a rare gas?hydrogen plasma focus and its application to x?ray lithography,Appl. Phys. Lett. , Vol. 48, pp. 686- 688, 1986.

M. Favre, S. Lee, S. P. Moo and C. S. Wong, X-ray emission in a small plasma focus operating with H2-Ar mixtures, Plasma Sources Sci. Technol. Vol. 1, pp. 122- 125, 1992.

P. Silva and M. Favre, Properties of hotspots in plasma focus discharges operating in hydrogenargonmixtures, J. Phys. D: Appl. Phys., Vol. 35, pp. 25432550, 2002.

R. Verma, P. Lee, S. Lee, S. V. Springham, T. L. Tan, R. S. Rawat, and M. Krishnan, Order of magnitude enhancement in neutron emission with deuterium-krypton admixture operation in miniature plasma focus device,Appl. Phys. Lett. , Vol. 92, 3 pages, 2008.

E. A. Rietman, Neural networks in plasma processing, Journal of Vacuum Science & Technology B, Vol.14, pp. 504- 510. 1996.

D. Wrblewski, G.L. Jahns, J.A. Leuer, Tokamak disruption alarm based on a neural network model of the high-? limit, Nuclear Fusion, vol. 37, p. 725, 1997.

P. Jagos, S. Dragutin, C. Milivoje, Analysis of Self-Organizing Phenomena in Plasma Focus: Neural Network Approach, J. Plasma Fusion Res. SERIES, Vol. 2, pp. 494- 497, 1999.

M. Habibi, R. Amrollahi, M. Attaran, R. Etaati, Design, Construction and the first experiments on the Amirkabir Plasma focus( APF) facility, Plasma Devices and Operations- PlASMA DEVICES OPER, Vol. 16, no. 3, pp. 163-169, 2008.

S. Bing, L. Mahe, L. Paul, R. Rajdeep, L. Sing. Optimization of Neon and Argon plasma Temperatures for SoftX-ray Output in PlasmaFocus American Physical Society, 42nd Annual Meeting of the APS Division of Plasma Physics combined with the 10th International Congress on Plasma Physics October 23 - 27, 2000.

Taylor J G, Neural networks and their applications. West sussex (UK), John Wiley & Sons Ltd., 1996.

Gallant A R, White H, On learning the derivatives of an unknown mapping with multilayer feed forward networks, Neural Networks 1992; 5:129-138.