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international journal

1. Surface and structural analyses of helium ion irradiated beryllium, N.J. Dutta, S.R. Mohanty, K.P. Sooraj, M. Ranjan, Vacuum, Vol. 170, 108962 (2019).

2. Self-organized Nanostructure Formation on the Graphite Surface Induced by Helium Ion Irradiation, N.J. Dutta, S.R. Mohanty, N. Buzarbaruah, M. Ranjan, R.S. Rawat, Physics Letters A, Vol. 382, 1601-1608 (2018).

3. Modification on graphite due to helium ion irradiation, N.J. Dutta, S.R. Mohanty, N. Buzarbaruah, Physics Letters A, Vol. 380, 2525-2530 (2016).

4.Damage studies on tungsten due to helium ion irradiation, N.J. Dutta, N. Buzarbaruah and S.R. Mohanty, Journal of Nuclear Materials 452, 51–56 (2014).

5. Plasma focus assisted damage studies on tungsten, M. Bhuyan, S.R. Mohanty, C.V.S. Rao, P.A. Rayjada, P.M. Raole, Applied Surface Science, vol. 264, 674 (2013).

6. Experimental evaluation of protons emission from a plasma focus device, M. Bhuyan and S.R. Mohanty, Journal of Plasma Physics, Vol.78, 507 (2012).

7. Temporal and spatial study of neon ion emission from a plasma focus device, M. Bhuyan, N.K. Neog, S.R. Mohanty, C.V.S. Rao, P.M. Raole, Physics of Plasma, vol.18, 033101 (2011).

8. Studies on ion emission from the plasma focus device by using ion collector and track detector, M. Bhuyan, N.K. Neog, S.R. Mohanty, C.V.S. Rao, P.M. Raole, Journal of Fusion Energy, vol. 29, 177 (2010).

9. EUV diagnostics of pulsed plasma systems, S.R. Mohanty and E. Hotta, J. Physics C.S, 208, 012138 (2010).

10. Characterization of neon ion beam emitted from plasma focus device, M. Bhuyan, N.K. Neog, S.R. Mohanty, C.V.S. Rao, P.M. Raole, J. Physics C.S 208, 012126 (2010).

11. Self-organized transformation to polyaniline nanowires by pulsed energetic electron irradiation in a plasma focus device, S.R. Mohanty, N.K. Neog, R.S. Rawat, P. Lee, B.B. Nayak and B.S. Acharay, Physics Letters A, vol. 373, 1962 (2009).

12. Time resolved studies on X-ray and charged particle emission from a plasma focus device, N.K. Neog, S.R. Mohanty and T.K. Borthakur, Physics Letters A, vol. 372, 2294 (2008).

13. Effect of anode design on ion emission characteristics of a plasma focus device, S.R. Mohanty, N.K. Neog, H. Bhuyan, R.K. Rout, R.S. Rawat and P. Lee, Japanese Journal of Applied Physics, vol. 46, 3039 (2007).

14. Study on electron beam emission from a low energy plasma focus device, N. K. Neog, S.R. Mohanty, Physics Letters A, vol. 361, 377 (2007).

15. Compression and neutron and ion beams emission mechanisms within a plasma focus, H.R. Yousefi, S.R. Mohanty, Y. Nakada, H. Ito and K. Masugata, Physics of Plasma, vol.13, 114506 (2006).

16. Influence of electrode separation and gas curtain on EUV emission of a gas jet z-pinch source, S.R. Mohanty, T. Sakamoto, Y. Kobayashi, N. Izuka, N. Kishi, I. Song, M. Watanabe, T. Kawamura, A. Okino, K. Hoioka and E. Hotta, Applied Physics Letters, vol. 89, 041502 (2006).

17. Pinching Evidences in a miniature plasma focus with fast pseudospark switch, S.M. Hassan, T. Zhang, A. Patran, R.S. Rawat, S.V. Springham, T.L. Tan, D. Wong, W. Wang, S. Lee, V.A. Gribkov, S.R. Mohanty and P. Lee, Plasma Sources Science & Technology, vol. 15, 614 (2006).

18. A miniature hybrid plasma focus extreme ultraviolet source driven by ten kilo-ampere fast current pulse, S.R. Mohanty, T. Sakamoto, Y. Kobayashi, I. Song, M. Watanabe, T. Kawamura, A. Okino, K. Hoioka and E. Hotta, Review of Scientific Instruments, vol.77, 043506 (2006).

19. Comparative study on performance of a xenon capillary Z-pinch EUV lithography light source using a pinhole camera, I. Song, K. Iwata, Y. Honma, S.R. Mohanty, M. Watanabe, T. Kawamura, A. Okino, K. Yasuoka, K. Hoioka and E. Hotta, Plasma Sources Science & Technology, vol. 15, 322 (2006).

20. Performance of gas jet type Z-pinch light source for EUV lithography, I. Song, Y. Kobayashi, T. Sakamoto, S.R. Mohanty, M. Watanabe, A. Okino, T. Kawamura, K. Yasuoka, K. Horioka and E. Hotta, Microelectronic Engineering, vol.83, 710 (2006).

21. Anode length optimization in a modified plasma focus for optimal x-ray yield, N.K. Neog and S.R. Mohanty, E. Hotta, Journal of Applied Physics, vol. 99. 013302 (2006).

22. Effect of deposition parameters on morphology and size of FeCo nanoparticles synthesized by pulsed laser ablation deposition, Happy, S.R. Mohanty, P. Lee, T.L. Tan, S.V. Springham, A. Patran, R.V. Ramanujan, and R.S. Rawat, Applied Surface Science, vol. 252, 2806 (2006).

23. Time resolved emission spectroscopy investigations of pulsed laser ablated plasmas of ZrO2 and Al2O3, A.D. Handokoa, P. S. Lee, P. Lee, S. R. Mohanty and R.S. Rawat, Journal of Physics: Conference Series, vol. 28, pp100-4 (2006).

24. Energetic ion irradiation of American diamond in a plasma focus device and characterization of irradiated material, S.R. Mohanty, N.K. Neog, B.B. Nayak, B.S. Acharya, P. Lee, T.L. Tan and R.S. Rawat, Nuclear Instruments and Methods in Physics Research B, vol.113, 113 (2006).

25. Characteristics of xenon capillary Z-pinch extreme ultraviolet lithography source driven by different dI/dt discharge current pulses, I. Song, K. Iwata, Y. Honma, S.R. Mohanty, M. Watanabe, T. Kawamura, A. Okino, K. Yasuoka, K. Hoioka and E. Hotta, Japanese Journal of Applied Physics, vol. 44, no.12, 8640 (2005).

26. Development of a gas jet type Z-pinch EUV source for next generation lithography, I. Song, S.R. Mohanty, M. Watanabe, T. Kawamura, A. Okino, K. Yasuoka, K. Hoioka and E. Hotta, Journal of Plasma and Fusion Research, vol. 81, no. 9, 647 (2005).

27. Development of multi Faraday cup assembly for ion yield measurements from a low energy plasma focus device, S.R. Mohanty, H. Bhuyan, N.K. Neog, R.K. Rout and E. Hotta, Japanese Journal of Applied Physics, vol. 44, 5199 (2005).

28. Comparative study of soft x-ray emission characteristics in a low energy dense plasma focus device, H. Bhuyan, S.R. Mohanty, N.K. Neog, S. Bujarbarua and R. K. Rout, Journal of Applied Physics, vol. 95, 2975 (2004).

29. Discharge-based sources of XUV-X radiations: development and applications, J.M. Pouvesle, E. Robert, T. Gonthiez, R. Viladrosa, J. Pons, O. Sarroukh, M. Idrissi, B. Metay, S.R. Mohanty, C. Fleurier and C. Cachoncinlle, Plasma Sources Science & Technology, vol.12, S43 (2003).

30. Magnetic probe measurements of current sheet dynamics in a coaxial plasma accelerator, H. Bhuyan, S.R. Mohanty, N.K. Neog, S. Bujarbarua and R. K. Rout, Measurement Science and Technology, vol.14, 1769 (2003).

31. A novel fast capillary discharge system emitting intense EUV radiation- possible source for EUV lithography, S.R. Mohanty, E. Robert, R. Dussart, R. Viladrosa, J.M. Pouvesle, C. Fleurier and C. Cachoncinlle, Microelectronic Engineering, vol. 65, 47 (2003).

32. Capillary discharge sources of hard UV radiation, C. Cachoncinlle, R. Dussart, E.Robert, S. Gotez, J. Pons, S.R. Mohanty, R. Viladrosa, C. Fleurier and J.M. Pouvesle, Plasma Sources Science & Technology, vol.11, A64 (2002).

33. Recent progresses of EUV source development work at GREMI, S.R. Mohanty, C. Cachoncinlle, C. Fleurier, E. Robert, J.M.Pouvesle, R. Viladrosa and R. Dussart, Microelectronic Engineering, vol. 61-62C, 179 (2002).

34. Surface nitriding of graphite substrate by plasma focus device towards synthesis of carbon nitride coating, B.B. Nayak, B.S. Acharya, S.R. Mohanty, T.K. Borthakur and H. Bhuyan, Surface and Coating Technology, vol. 145, 8 (2001).

35. Analysis of nitrogen ion beams produced in a Dense Plasma Focus device using Faraday Cup, H. Bhuyan, S.R. Mohanty, T.K. Borthakur and R.S.Rawat, Indian Journal of Pure and Applied Physics, vol. 39, 698 (2001).

36. Analysis of soft X-ray emission from a low energy plasma focus device using vacuum photodiode, T.K. Borthakur, S.R. Mohanty, H. Bhuyan and V.N. Rai, Indian Journal of Physics, vol. 75B (5), 449 (2001).

37. Current sheath dynamics and x-ray emission studies from sequential dense plasma focus device, Ruby Gupta, S.R. Mohanty, R.S. Rawat, M.P. Srivastava, IEEE Trans. on Plasma Science, vol. 28, no. 4, 1263 (2000).

38. X-ray emissions from Dense Plasma Sequential Focus Device, S.R. Mohanty, R.S. Rawat, M.P. Srivastava, Journal of Plasma and Fusion Research, vol.2, 320 (1999).

39. Surface hardening of high carbon steel samples using ions of dense plasma focus, T.K. Borthakur, A. Sahu, S.R. Mohanty, B.B. Nayak and B.S. Acharya, Surface Engineering, vol.15, no. 1, 55 (1999).

40. Study of X-ray emission of dense plasma focus device in presence of external axial magnetic field, S.R. Mohanty, M.P. Srivastava and R.S. Rawat, Phys. Lett. A, vol. 234, 472 (1997).

41. Diode like behaviour of an ion irradiated polyaniline film, M.P. Srivastava, S.R. Mohanty, S.Annapoorni and R.S. Rawat, Phys. Lett. A, vol. 215, 63 (1996).

42. Study of current sheath dynamics in dense plasma focus in the presence of axial magnetic field using laser shadowgraphy technique, R.S. Rawat, M.P. Srivastava and S.R. Mohanty, IEEE Trans. on Plasma Science, vol. 22, no.5, 967 (1994).