Peer reviewed International Journals articles (PUBLISHED) : 52
Peer reviewed International Journals articles (PUBLISHED) : 52
52. Synergistic effects of W-Ta alloys exposed to various ELM-like fusion events; T. Ray, J.K. Tripathi, A. Hassanein, Nuclear Fusion 64, 046001 (2024)
52. Synergistic effects of W-Ta alloys exposed to various ELM-like fusion events; T. Ray, J.K. Tripathi, A. Hassanein, Nuclear Fusion 64, 046001 (2024)
51. Synergistic effect on silicon surface under low energy he ion irradiation at elevated temperatures, N. C. Termini, J. K. Tripathi, A. Hassanein , Thin Solid Film 738, 140094 (2023)
51. Synergistic effect on silicon surface under low energy he ion irradiation at elevated temperatures, N. C. Termini, J. K. Tripathi, A. Hassanein , Thin Solid Film 738, 140094 (2023)
50. Laser-Based Fabrication of Carbon Nanotube–Metal Composites on a Polymer Substrate: Experimental Study and Characterizations; Z. Kang, J. K. Tripathi, M. Wang, A. Hassanein, B. Wu; ASME Journal of Manufacturing Science and Engineering 142, 091007 (2020)
50. Laser-Based Fabrication of Carbon Nanotube–Metal Composites on a Polymer Substrate: Experimental Study and Characterizations; Z. Kang, J. K. Tripathi, M. Wang, A. Hassanein, B. Wu; ASME Journal of Manufacturing Science and Engineering 142, 091007 (2020)
49. Influence of dual beam ion irradiation and transient heat loading on tungsten surface; G. Sinclair, S. Gonderman, J.K. Tripathi, T. Ray, A. Hassanein; Journal of Nuclear Materials: 514, 208 (2019)
49. Influence of dual beam ion irradiation and transient heat loading on tungsten surface; G. Sinclair, S. Gonderman, J.K. Tripathi, T. Ray, A. Hassanein; Journal of Nuclear Materials: 514, 208 (2019)
48. Silicon nanocone formation via low-energy helium ion sputtering; T. J. Novakowski, J. K. Tripathi, and A. Hassanein; J. Vac. Sci. Technol. B 36 051202 (2018)
48. Silicon nanocone formation via low-energy helium ion sputtering; T. J. Novakowski, J. K. Tripathi, and A. Hassanein; J. Vac. Sci. Technol. B 36 051202 (2018)
47. Effect of ELM pacing on morphology evolution and erosion of tungsten as a plasma-facing material in a fusion environment; G. Sinclair, S. Gonderman, J. K. Tripathi, and A. Hassanein ; J. Nucl. Mater. 508, 26 (2018)
47. Effect of ELM pacing on morphology evolution and erosion of tungsten as a plasma-facing material in a fusion environment; G. Sinclair, S. Gonderman, J. K. Tripathi, and A. Hassanein ; J. Nucl. Mater. 508, 26 (2018)
46. Erosion dynamics of tungsten fuzz during ELM-like heat loading; G. Sinclair, J. K. Tripathi, and A. Hassanein; J. Appl. Phys. 23, 133302 (2018)
46. Erosion dynamics of tungsten fuzz during ELM-like heat loading; G. Sinclair, J. K. Tripathi, and A. Hassanein; J. Appl. Phys. 23, 133302 (2018)
45. Deuterium desorption from ion-irradiated tantalum and effects on surface morphology; T. J. Novakowski, A. Sundaram, J. K. Tripathi, S. Gonderman, A. Hassanein; J. Nucl. Mater. 504, 1 (2018)
45. Deuterium desorption from ion-irradiated tantalum and effects on surface morphology; T. J. Novakowski, A. Sundaram, J. K. Tripathi, S. Gonderman, A. Hassanein; J. Nucl. Mater. 504, 1 (2018)
44. Effects of in-situ dual ion beam (He+ and D+) irradiation with simultaneous pulsed heat loading on surface morphology evolution of tungsten-tantalum alloys; S. Gonderman, J. K. Tripathi, G. Sinclair, T. J. Novakowski, T. Sizyuk, and A. Hassanein; Nuclear Fusion: 58, 026016 (2018)
44. Effects of in-situ dual ion beam (He+ and D+) irradiation with simultaneous pulsed heat loading on surface morphology evolution of tungsten-tantalum alloys; S. Gonderman, J. K. Tripathi, G. Sinclair, T. J. Novakowski, T. Sizyuk, and A. Hassanein; Nuclear Fusion: 58, 026016 (2018)
43. Structural Evoluions of Tungsten Surface Exposed to Low Energy Helium Ion Irradiation by Transient Heat Loading; G. Sinclair, J. K. Tripathi, P. K. Diwakar, N. Lemahieu, M. Wirtz, J. Linke, and A. Hassanein; Nuclear Materials and Energy: 12, 405 (2017)
43. Structural Evoluions of Tungsten Surface Exposed to Low Energy Helium Ion Irradiation by Transient Heat Loading; G. Sinclair, J. K. Tripathi, P. K. Diwakar, N. Lemahieu, M. Wirtz, J. Linke, and A. Hassanein; Nuclear Materials and Energy: 12, 405 (2017)
42. Effect of dual ion beam irradiation (helium and deuterium) on tungsten-tantalum alloys under fusion relevant conditions; S. Gonderman, J. K. Tripathi, T. J. Novakowski, T. Sizyuk, and A. Hassanein; Nuclear Materials and Energy: 12, 346 (2017);
42. Effect of dual ion beam irradiation (helium and deuterium) on tungsten-tantalum alloys under fusion relevant conditions; S. Gonderman, J. K. Tripathi, T. J. Novakowski, T. Sizyuk, and A. Hassanein; Nuclear Materials and Energy: 12, 346 (2017);
41. Melt layer growth and erosion during ELM-like heat loading on plasma-facing components; G. Sinclair, J. K. Tripathi, P. Diwakar, and A. Hassanein; Scientific Reports: 7, article number 12273 (2017)
41. Melt layer growth and erosion during ELM-like heat loading on plasma-facing components; G. Sinclair, J. K. Tripathi, P. Diwakar, and A. Hassanein; Scientific Reports: 7, article number 12273 (2017)
40. Suppression of surface microstructure evolution in W and W-Ta alloys during simultaneous and sequential He and D ion irradiation in fusion relevant conditions; S. Gonderman, J. K. Tripathi, T. Sizyuk, and A. Hassanein; Nucl. Fusion 57, 086001, (2017)
40. Suppression of surface microstructure evolution in W and W-Ta alloys during simultaneous and sequential He and D ion irradiation in fusion relevant conditions; S. Gonderman, J. K. Tripathi, T. Sizyuk, and A. Hassanein; Nucl. Fusion 57, 086001, (2017)
39. The effect of low energy helium ion irradiation on tungsten-tantalum (W-Ta) alloys under fusion relevant conditions; S. Gonderman, J. K. Tripathi, T. J. Novakowski, T. Sizyuk, and A. Hassanein; J. Nucl. Mater. 491, 199, (2017)
39. The effect of low energy helium ion irradiation on tungsten-tantalum (W-Ta) alloys under fusion relevant conditions; S. Gonderman, J. K. Tripathi, T. J. Novakowski, T. Sizyuk, and A. Hassanein; J. Nucl. Mater. 491, 199, (2017)
38. Low energy helium ion irradiation induced nanostructure formation on tungsten surface; A. Al-Ajlony, J. K. Tripathi, and A. Hassanein; J. Nucl. Mater. 488, 1, (2017)
38. Low energy helium ion irradiation induced nanostructure formation on tungsten surface; A. Al-Ajlony, J. K. Tripathi, and A. Hassanein; J. Nucl. Mater. 488, 1, (2017)
37. Self-organized growth and magnetic properties of epitaxial silicide nanoislands; J. K. Tripathi, R. Levy, Y. Camus, M. Dascalu, F. Cesura, R. Chalasani, A. Kohn, G. Markovich, and I. Goldfarb; Appl. Surf. Sci. 391, 24 (2017)
37. Self-organized growth and magnetic properties of epitaxial silicide nanoislands; J. K. Tripathi, R. Levy, Y. Camus, M. Dascalu, F. Cesura, R. Chalasani, A. Kohn, G. Markovich, and I. Goldfarb; Appl. Surf. Sci. 391, 24 (2017)
36. Effect of high-flux, low-energy He+ ion irradiation on Ta as a plasma-facing material; T. J. Novakowski, J. K. Tripathi, A. Hassanein; Scientific Reports 6, Article number: 39746 (2016)
36. Effect of high-flux, low-energy He+ ion irradiation on Ta as a plasma-facing material; T. J. Novakowski, J. K. Tripathi, A. Hassanein; Scientific Reports 6, Article number: 39746 (2016)
35. Nb2O5 Nanostructure Evolution on Nb Surfaces via Low Energy He+ Ion Irradiation; T. J. Novakowski, J. K. Tripathi, A. Hassanein; ACS Applied Materials & Interfaces 8, 34896 (2016)
35. Nb2O5 Nanostructure Evolution on Nb Surfaces via Low Energy He+ Ion Irradiation; T. J. Novakowski, J. K. Tripathi, A. Hassanein; ACS Applied Materials & Interfaces 8, 34896 (2016)
34. The effect of carbon impurities on molybdenum surface morphology evolution under high-flux low-energy helium ion irradiation; J. K. Tripathi, T. J. Novakowski, S. Gonderman, N. Bhardwaj, and A. Hassanein; J. Nucl. Mater. 478, 287 (2016)
34. The effect of carbon impurities on molybdenum surface morphology evolution under high-flux low-energy helium ion irradiation; J. K. Tripathi, T. J. Novakowski, S. Gonderman, N. Bhardwaj, and A. Hassanein; J. Nucl. Mater. 478, 287 (2016)
33. Tuning surface porosity on vanadium surface by low energy He+ ion irradiation; J. K. Tripathi, T. J. Novakowski, and A. Hassanein; Appl. Surf. Sci. 378, 63 (2016)
33. Tuning surface porosity on vanadium surface by low energy He+ ion irradiation; J. K. Tripathi, T. J. Novakowski, and A. Hassanein; Appl. Surf. Sci. 378, 63 (2016)
32. Structural response of transient heat loading on molybdenum surface exposed to low-energy helium ion irradiation; G. Sinclair, J.K. Tripathi, P.K. Diwakar, and A. Hassanein; Nucl. Fusion 56, 036005 (2016)
32. Structural response of transient heat loading on molybdenum surface exposed to low-energy helium ion irradiation; G. Sinclair, J.K. Tripathi, P.K. Diwakar, and A. Hassanein; Nucl. Fusion 56, 036005 (2016)
31. Temperature-Dependent Surface Porosity of Nb2O5 under High-Flux, Low-Energy He+ Ion Irradiation; T. J. Novakowski, J. K. Tripathi, G. M. Hosinski, G. Joseph, and A. Hassanein; Appl. Surf. Sci. 362, 35 (2016)
31. Temperature-Dependent Surface Porosity of Nb2O5 under High-Flux, Low-Energy He+ Ion Irradiation; T. J. Novakowski, J. K. Tripathi, G. M. Hosinski, G. Joseph, and A. Hassanein; Appl. Surf. Sci. 362, 35 (2016)
30. Temperature-Dependent Surface Modification of Ta due to High-Flux, Low-Energy He+ Ion Irradiation; T. J. Novakowski, J. K. Tripathi, A. Hassanein; J. Nucl. Mater. 467, 244 (2015)
30. Temperature-Dependent Surface Modification of Ta due to High-Flux, Low-Energy He+ Ion Irradiation; T. J. Novakowski, J. K. Tripathi, A. Hassanein; J. Nucl. Mater. 467, 244 (2015)
29. Role of carbon impurities on the surface morphology evolution of tungsten under high dose helium ion irradiation ; A. Al-Ajlony, J. K. Tripathi, A. Hassanein ; J. Nucl. Mater. 466 , 569, (2015)
29. Role of carbon impurities on the surface morphology evolution of tungsten under high dose helium ion irradiation ; A. Al-Ajlony, J. K. Tripathi, A. Hassanein ; J. Nucl. Mater. 466 , 569, (2015)
28. Tailoring Molybdenum Nanostructure Evolution by Low-Energy He+ Ion Irradiation; J. K. Tripathi, T. J. Novakowski, A. Hassanein; Appl. Surf. Sci. 353 , 1070, (2015)
28. Tailoring Molybdenum Nanostructure Evolution by Low-Energy He+ Ion Irradiation; J. K. Tripathi, T. J. Novakowski, A. Hassanein; Appl. Surf. Sci. 353 , 1070, (2015)
27. Temperature Dependent Surface Modification of Molybdenum due to Low Energy He+ Ion Irradiation; J. K. Tripathi, T. J. Novakowski, G. Joseph, J. Linke, A. Hassanein; J. Nucl. Mater. 464, 97, (2015)
27. Temperature Dependent Surface Modification of Molybdenum due to Low Energy He+ Ion Irradiation; J. K. Tripathi, T. J. Novakowski, G. Joseph, J. Linke, A. Hassanein; J. Nucl. Mater. 464, 97, (2015)
26. Effect of lithium in the DIII-D SOL and plasma-facing surfaces; G.L. Jacksona, C.P. Chrobak, A.G. McLean, R. Maingi, D.K. Mansfield, A.L. Roquemore, P. Diwakar, A. Hassanein, A. Lietz, D.L. Rudakov, T. Sizyuk, J. K. Tripathi; Journal of Nuclear Materials 463, 1160 (2015)
26. Effect of lithium in the DIII-D SOL and plasma-facing surfaces; G.L. Jacksona, C.P. Chrobak, A.G. McLean, R. Maingi, D.K. Mansfield, A.L. Roquemore, P. Diwakar, A. Hassanein, A. Lietz, D.L. Rudakov, T. Sizyuk, J. K. Tripathi; Journal of Nuclear Materials 463, 1160 (2015)
25. Low Energy Ar+ ion Irradiation Induced Surface Modification in Cadmium Zinc Telluride (CdZnTe); J.K. Tripathi, S S Harilal, and A Hassanein; Materials Research Express 1, 035904 (2014)
25. Low Energy Ar+ ion Irradiation Induced Surface Modification in Cadmium Zinc Telluride (CdZnTe); J.K. Tripathi, S S Harilal, and A Hassanein; Materials Research Express 1, 035904 (2014)
24. Self-ordered Magnetic alpha-FeSi2 Nano-Stripes on Si(111); J.K. Tripathi, G. Markovich and I. Goldfarb; Appl. Phys. Lett. 102, 251604 (2013)
24. Self-ordered Magnetic alpha-FeSi2 Nano-Stripes on Si(111); J.K. Tripathi, G. Markovich and I. Goldfarb; Appl. Phys. Lett. 102, 251604 (2013)
23. The Effect of Fe Coverage on Structure, Morphology, and Magnetic Properties of alpha-FeSi2 Nanoislands; J. K. Tripathi, M. Garbrecht, W. D. Kaplan, G. Markovich and I. Goldfarb; Nanotechnology 23, 495603 (2012) selected as an article of particular interest and featured in nanotechweb.org news;
23. The Effect of Fe Coverage on Structure, Morphology, and Magnetic Properties of alpha-FeSi2 Nanoislands; J. K. Tripathi, M. Garbrecht, W. D. Kaplan, G. Markovich and I. Goldfarb; Nanotechnology 23, 495603 (2012) selected as an article of particular interest and featured in nanotechweb.org news;
22. Effect of Low energy He+- ion irradiation on structural and magnetic properties of thin Pt/Cr/Co Multilayers; J. K. Tripathi, M. O. Liedke, T. Strache, R. Grötzschel , A. Gupta and T. Som; Nucl. Instrum. Meth. B 272, 96 (2012)
22. Effect of Low energy He+- ion irradiation on structural and magnetic properties of thin Pt/Cr/Co Multilayers; J. K. Tripathi, M. O. Liedke, T. Strache, R. Grötzschel , A. Gupta and T. Som; Nucl. Instrum. Meth. B 272, 96 (2012)
21. Ion erosion induced nanostructured semiconductor surfaces; V. Venugopal, T. Basu, S. Garg, J. K. Tripathi, S. Chandramohan, P. Das, T. K. Chini, S. R. Bhattacharyya, D. Kanjilal, and T. Som; Int. J. Nanotechnol. 9, 1007 (2012)
21. Ion erosion induced nanostructured semiconductor surfaces; V. Venugopal, T. Basu, S. Garg, J. K. Tripathi, S. Chandramohan, P. Das, T. K. Chini, S. R. Bhattacharyya, D. Kanjilal, and T. Som; Int. J. Nanotechnol. 9, 1007 (2012)
20. Coverage-dependent self-organized ordering of Co- and Ti-silicide nanoislands along step-bunch edges of vicinal Si(111); J. K. Tripathi, M. Garbrecht, Claudia G. Sztrum-Vartash, Eran Rabani, Wayne D. Kaplan and I. Goldfarb; Phys. Rev. B 83, 165409 (2011)
20. Coverage-dependent self-organized ordering of Co- and Ti-silicide nanoislands along step-bunch edges of vicinal Si(111); J. K. Tripathi, M. Garbrecht, Claudia G. Sztrum-Vartash, Eran Rabani, Wayne D. Kaplan and I. Goldfarb; Phys. Rev. B 83, 165409 (2011)
19. Investigation of swift heavy ion-induced mixing in metal/polymer systems; Jai Prakash, A. Tripathi, S.A. Khan, Sarvesh Kumar, F. Singh, J.K. Tripathi and Jalaj Tripathi; Radiat. Eff. & Defect S. 166, 682 (2011)
19. Investigation of swift heavy ion-induced mixing in metal/polymer systems; Jai Prakash, A. Tripathi, S.A. Khan, Sarvesh Kumar, F. Singh, J.K. Tripathi and Jalaj Tripathi; Radiat. Eff. & Defect S. 166, 682 (2011)
18. Evidence of electronic growth in titanium and cobalt silicide islands; S. Manor, J.K. Tripathi and I. Goldfarb; J. Mater. Sci. 45, 6313 (2010)
18. Evidence of electronic growth in titanium and cobalt silicide islands; S. Manor, J.K. Tripathi and I. Goldfarb; J. Mater. Sci. 45, 6313 (2010)
17. Effect of thermal annealing on structural and magnetic properties of thin Pt/Cr/Co multilayers; J.K. Tripathi, B. Satpati, Maciej Oskar Liedke, A. Gupta and T. Som; J. Magn. Magn. Mater.322, 3464 (2010)
17. Effect of thermal annealing on structural and magnetic properties of thin Pt/Cr/Co multilayers; J.K. Tripathi, B. Satpati, Maciej Oskar Liedke, A. Gupta and T. Som; J. Magn. Magn. Mater.322, 3464 (2010)
16. Ion induced modification in structural and magnetic properties of Pt/Cr/Co multilayers; J.K. Tripathi, A. Gupta and T. Som; Solid State Commun. 150, 333 (2010)
16. Ion induced modification in structural and magnetic properties of Pt/Cr/Co multilayers; J.K. Tripathi, A. Gupta and T. Som; Solid State Commun. 150, 333 (2010)
15. Ion Beam Modification of Magnetic Thin Films Grown by Physical Vapor Deposition Techniques; J.K. Tripathi, Sanjukta Ghosh, Maciej Oskar Liedke, A. Kanjilal, B. Satpati, A. Gupta and T. Som; Asian J. Phys. 19, 155 (2010) [Review Article]
15. Ion Beam Modification of Magnetic Thin Films Grown by Physical Vapor Deposition Techniques; J.K. Tripathi, Sanjukta Ghosh, Maciej Oskar Liedke, A. Kanjilal, B. Satpati, A. Gupta and T. Som; Asian J. Phys. 19, 155 (2010) [Review Article]
14. Modifications in structural and optical properties of Mn-ion implanted CdS thin films; S. Chandramohan, A. Kanjilal, T. Strache, J.K. Tripathi, S.N. Sarangi, R. Sathyamoorthy and T. Som; Appl. Surf. Sci. 256, 465 (2009)
14. Modifications in structural and optical properties of Mn-ion implanted CdS thin films; S. Chandramohan, A. Kanjilal, T. Strache, J.K. Tripathi, S.N. Sarangi, R. Sathyamoorthy and T. Som; Appl. Surf. Sci. 256, 465 (2009)
13. Structural and optical properties of Mn-doped CdS thin films prepared by ion implantation; S. Chandramohan, A. Kanjilal, J. K. Tripathi, S. N. Sarangi, R. Sathyamoorthy and T. Som; J. Appl. Phys. 105, 123507 (2009)
13. Structural and optical properties of Mn-doped CdS thin films prepared by ion implantation; S. Chandramohan, A. Kanjilal, J. K. Tripathi, S. N. Sarangi, R. Sathyamoorthy and T. Som; J. Appl. Phys. 105, 123507 (2009)
12. Phase formation and changes in magnetic property of Co/Cr/ Pt multilayers; J.K. Tripathi, A.Gupta and T. Som; Surf. Coat. Technol. 203, 2700 (2009)
12. Phase formation and changes in magnetic property of Co/Cr/ Pt multilayers; J.K. Tripathi, A.Gupta and T. Som; Surf. Coat. Technol. 203, 2700 (2009)
11. Modification of the magnetic and the structural properties of Pt/Cr/Co multilayers by He+ ion irradiation; J. K. Tripathi, A. Kanjilal, Parasmani Rajput, A. Gupta and T. Som; Nucl. Instrum. Meth. B 267, 1608 (2009)
11. Modification of the magnetic and the structural properties of Pt/Cr/Co multilayers by He+ ion irradiation; J. K. Tripathi, A. Kanjilal, Parasmani Rajput, A. Gupta and T. Som; Nucl. Instrum. Meth. B 267, 1608 (2009)
10. Effect of ion beam irradiation on magnetic and structural properties of Pt/Cr/Co multilayers; J.K. Tripathi, Dileep Kumar, P. Malar, T. Osipowicz, V. Ganesan, A. Gupta and T. Som; Nucl. Instrum. Meth. B 266, 1247 (2008)
10. Effect of ion beam irradiation on magnetic and structural properties of Pt/Cr/Co multilayers; J.K. Tripathi, Dileep Kumar, P. Malar, T. Osipowicz, V. Ganesan, A. Gupta and T. Som; Nucl. Instrum. Meth. B 266, 1247 (2008)
9.Tuning magnetic properties of Co/Pt thin films using energetic ions; T. Som, S. Ghosh, J.K. Tripathi, R. Grötzschel, M. Mäder, V. Ganesan, A. Gupta and D. Kanjilal; Nucl. Instrum. Meth. B 266, 1542 (2008)
9.Tuning magnetic properties of Co/Pt thin films using energetic ions; T. Som, S. Ghosh, J.K. Tripathi, R. Grötzschel, M. Mäder, V. Ganesan, A. Gupta and D. Kanjilal; Nucl. Instrum. Meth. B 266, 1542 (2008)
8. Ion irradiation induced Nano Granular magnetic Fe5Si3 silicide phase formation in Fe/Si structures; J.K. Tripathi and P. C. Srivastava; Appl. Surf. Sci. 255, 2767 (2008)
8. Ion irradiation induced Nano Granular magnetic Fe5Si3 silicide phase formation in Fe/Si structures; J.K. Tripathi and P. C. Srivastava; Appl. Surf. Sci. 255, 2767 (2008)
7. Effect of Swift (~ 100 MeV) Heavy Ion Irradiation on Surface Morphology and Electronic Transport in Fe Film on Si Substrate; J.K. Tripathi and P.C. Srivastava; Appl. Surf. Sci. 253, 8689 (2007)
7. Effect of Swift (~ 100 MeV) Heavy Ion Irradiation on Surface Morphology and Electronic Transport in Fe Film on Si Substrate; J.K. Tripathi and P.C. Srivastava; Appl. Surf. Sci. 253, 8689 (2007)
6. A Study on Swift (~100 MeV) Heavy Ion Irradiated Ni films on Si substrates; J.K. Tripathi, P.S. Pandey and P.C. Srivastava; Nucl. Instrum. Meth. B 262, 51 (2007)
6. A Study on Swift (~100 MeV) Heavy Ion Irradiated Ni films on Si substrates; J.K. Tripathi, P.S. Pandey and P.C. Srivastava; Nucl. Instrum. Meth. B 262, 51 (2007)
5. Magnetic Behaviour of Nano Granular Silicide Phase (Formed due to Swift Heavy Fe7+Ion Irradiation Induced Intermixing); P.C. Srivastava and J.K. Tripathi; Nano: Brief Reports and Reviews 2, 129 (2007)
5. Magnetic Behaviour of Nano Granular Silicide Phase (Formed due to Swift Heavy Fe7+Ion Irradiation Induced Intermixing); P.C. Srivastava and J.K. Tripathi; Nano: Brief Reports and Reviews 2, 129 (2007)
4. Giant magnetoresistance (GMR) in swift heavy ion irradiated Fe films on c-silicon (Fe/c-Si); P.C. Srivastava and J.K. Tripathi; J. Phys. D Appl. Phys. 39, 1465 (2006)
4. Giant magnetoresistance (GMR) in swift heavy ion irradiated Fe films on c-silicon (Fe/c-Si); P.C. Srivastava and J.K. Tripathi; J. Phys. D Appl. Phys. 39, 1465 (2006)
2. Magnetic and semiconducting nanostructures by swift heavy ion irradiation of Fe20Ni80 films on Si substrates; P.C. Srivastava, J.K. Tripathi and P.S. Pandey; Semicond. Sci. Technol. 20, L61 (2005)
2. Magnetic and semiconducting nanostructures by swift heavy ion irradiation of Fe20Ni80 films on Si substrates; P.C. Srivastava, J.K. Tripathi and P.S. Pandey; Semicond. Sci. Technol. 20, L61 (2005)
2. Electronic flow across Swift (~ 100 MeV) heavy ion irradiated Fe/Si interfaces; P.C. Srivastava, P.S. Pandey and J. K. Tripathi; Semicond. Sci. Technol. 19, L17 (2004)
2. Electronic flow across Swift (~ 100 MeV) heavy ion irradiated Fe/Si interfaces; P.C. Srivastava, P.S. Pandey and J. K. Tripathi; Semicond. Sci. Technol. 19, L17 (2004)
1. In situ I-V study of swift (~ 100 MeV) O6+ ion-irradiated Pd/n-Si devices; P.C. Srivastava, O. P. Sinha, J.K. Tripathi and D Kabiraj; Semicond. Sci. and Technol. 17, L44 (2002)
1. In situ I-V study of swift (~ 100 MeV) O6+ ion-irradiated Pd/n-Si devices; P.C. Srivastava, O. P. Sinha, J.K. Tripathi and D Kabiraj; Semicond. Sci. and Technol. 17, L44 (2002)