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Journal Articles

Review articles

  1. Litvinov and S. Khizroev, “Perpendicular Magnetic Recording: Playback,” Applied Physics Reviews in Journal of Applied Physics, 97(7), 071101(1-12), 2005.

  2. S. Khizroev and D. Litvinov, “Perpendicular Magnetic Recording: Writing Process,” Applied Physics Reviews in Journal of Applied Physics, 95(9), 4521-4537 (2004).

  3. S. Khizroev and D. Litvinov, “Focused-ion-beam-based rapid prototyping of nanoscale magnetic devices,” Review in Nanotechnology 14, R7-15 (2004).

  4. D. Litvinov and S. Khizroev, “Overview of Magnetoresistive Probe Heads for Nanoscale Recording Applications,” Journal of Magnetism and Magnetic Materials 264 (2-3), 275-283 (2003).

  5. D. Litvinov and S. Khizroev, "Perpendicular Recording: A Future Technology or a Temporary Solution," Tutorial published in proceedings of the 10th NASA Goddard Space Flight Center Conference on Mass Data Storage Systems and Technologies, 1-19 (2002).

Journal articles

  1. S. Khizroev, Y. Hijazi , N. Amos , R. Chomko , D. Litvinov, ”Physics Consideration in the Design of Three-dimensional And Multi-level Magnetic Recording,” Journal of Applied Physics, in press (2006).

  2. Chunsheng E, D. Smith, E. Svedberg, S. Khizroev, D. Litvinov, “Combinatorial Synthesis of Co/Pd Magnetic Multilayers,” Journal of Applied Physics, in press (2006).

  3. V. Parekh, Ch. E, D. Smith, A. Ruiz, J.C. Wolfe, P. Ruchhoeft, E. Svedberg, S. Khizroev, D. Litvinov, “Fabrication of High Anisotropy Nanoscale Patterned Magnetic Recording Medium for Data Storage Applications,” Nanotechnology, in press (2006).

  4. D. Smith, Ch. E, S. Khizroev, D. Litvinov, “Magnetoresistive playback heads for bit-patterned medium recording applications,” Journal of Applied Physics 99, Art. No. 014503, 1-7 (2005). 5. R. Chomko, D. Litvinov, S. Khizroev, “A nanoscale transducer for perpendicular magnetic recording,” Applied Physics Letters 87, 162503 (2005).

  5. Chunsheng E, D. Smith, S. Khizroev, D. Weller, J. Wolfe, D. Litvinov, “Physics of patterned medium recording: design considerations,” Journal of Applied Physics, 98(2), Art. No. 024505, 1-8  (2005).

  6. S. Khizroev, Y. Hijazi, R. Chomko, S. Mukherjee, R. Chantrell, X. Wu, R. Carley, D. Litvinov, “Focused-ion-beam-fabricated nanoscale magnetoresistive ballistic sensors”, Applied Physics Letters, 86 (4):042502 (2005).

  7. D. Litvinov, J. Wolfe, E. Svedberg, T. Ambrose, K. Howard, F. Chen, E. Schlesinger, and S. Khizroev,  “Ion implantation of magnetic thin-films and nanostructures,” JMMM 283(1), 128-132 (2004).

  8. F. Candocia, E. Svedberg, D. Litvinov, S. Khizroev, "Deconvolution processing for increasing the resolution of magnetic force microscopy measurements," Nanotechnology 15, S575-S584 (2004).

  9. S. Mukherjee, D. Litvinov, S. Khizroev, "Atomic Scale Modeling of Nanoconstrictions," IEEE Trans. Magn. 40 (4), 2143 (2004).

  10. D. Litvinov and S. Khizroev, "Orientation-Sensitive Magnetic Force Microscopy for Future Probe Storage Applications," Applied Physics Letters 81(10), 1878-1880 (2002) [Editor's choice in the AIP Virtual Journal of Nanoscience & Technology, Vol. 6(11), Sept. 2002].
  11. S. Khizroev, D.A. Thompson, M.H. Kryder, D. Litvinov, "Direct Observation of Magnetization Switching in Focused Ion-beam Fabricated Nanotubes," Applied Physics Letters 81(12), 2256-2257 (2002) [Editor's choice in the AIP Virtual Journal of Nanoscience & Technology, Vol. 6(12), Sept. 2002].
  12. D. Litvinov and S. Khizroev, "Focused Ion Beams in Future Nanoscale Probe Recording," Nanotechnology 13, 179-184 (2002).
  13. S. Khizroev, J. Bain, and D. Litvinov, "Focused Ion Beam Fabrication of Nanomagnetic Probes," Nanotechnology 13, 619-622 (2002).
  14. A. Lyberatos, S. Khizroev, and D. Litvinov, "Thermal Effects in High-Speed Switching of the Magnetization of Fine Grains," Japanese Journal of Applied Physics 41, 1598-1602 (2003).
  15. E. Svedberg, S. Khizroev, D. Litvinov, "Magnetic Force Microscopy Study of Perpendicular Media," Journal of Applied Physics 91(8), 5365-5370 (2002).
  16. J.T. Wolfson, J.A. Bain, S. Khizroev, and D. Litvinov, "Dynamic Kerr Imaging of Soft Underlayer for Perpendicular Recording Applications," (invited) Journal of Applied Physics 91(10), 8665-8669 (2002).
  17. D. Litvinov, A. Lyberatos, J. Wolfson, J.A. Bain, and S. Khizroev, "Recording Layer Influence on the Dynamics of a Soft Underlayer," IEEE Transactions on Magnetics, 38(5), 1994-1996 (2002).
  18. S. Khizroev, A. Lyberatos, M.H. Kryder, and D. Litvinov, "Physics of Perpendicular Recording: Effects of Magnetic ‘Charge' Distribution," Japanese Journal of Applied Physics, Part 2 Letters, 41 (7A), L758-L760 (2002).
  19. D. Litvinov, J. Wolfson, J. Bain, R.W. Gustafson, M.H. Kryder, and S. Khizroev, "Narrow Gap Single Pole Heads," IEEE Transactions on Magnetics, 38(5), 2253-2255 (2002).
  20. S. Khizroev, R.W. Gustafson, M.H. Kryder, and D. Litvinov, "Multiple Magnetic ‘Image' Reflection in Perpendicular Recording," IEEE Transactions on Magnetics, 38(5), 2066-2068 (2002).
  21. S. Khizroev and D. Litvinov, "Parallels between Playback in Perpendicular and Longitudinal Recording, " Journal of Magnetism and Magnetic Materials, 257(1), 126-131 (2003).
  22. E. Svedberg, S. Khizroev, Ch. Chang, D. Litvinov, "Signal-to-Noise Degradation in Perpendicular Media under Thermal Aging and Aging in Magnetic Field," Journal of Applied Physics, 92(11), 67146720 (2002).
  23. E. Svedberg, Ch. Chang, D. Litvinov, S. Khizroev, "Magnetic Force Microscopy of Skew Angle Dependencies in Perpendicular Magnetic Recording," Journal of Applied Physics, 93(3), 2828-2833 2002.
  24. D. Litvinov and S. Khizroev, "Perpendicular Recording: A Future Technology or a Temporary Solution," Proceedings of the 10th NASA Goddard Space Flight Center Conference on Mass Data Storage Systems and Technologies, 1-19 (2002).
  25. S. Khizroev, M.H. Kryder, and D. Litvinov, "Physics of Perpendicular Recording: Playback," Journal of Applied Physics, 93(11), 9155-9164 (2003).
  26. J. Wu, L. Holloway, H. Laidler, K.O'Grady, S. Khizroev, J.K. Howard, R.W. Gustafson, and D. Litvinov, "Magnetic Characterisation of Perpendicular Recording Media," IEEE Transactions on Magnetics 38(4), 1682-1686 (2002).
  27. S. Khizroev, Y.-K. Liu, K. Mountfield, M.H. Kryder, and D. Litvinov, "Physics of Perpendicular Magnetic Recording: Writing Process," Journal of Magnetism and Magnetic Materials 246 (1-2), 352-361 (2002).
  28. D. Litvinov, M.H. Kryder, and S. Khizroev, "Recording Physics of Perpendicular Media: Hard Layers," Journal of Magnetism and Magnetic Materials 241(2-3), 453-465 (2002).
  29. D. Litvinov, J.Wolfson, J.A. Bain, R.W. Gustafson, M.H. Kryder, S. Khizroev, "The Role of the Gap in Single Pole Heads in Perpendicular Recording," IEEE Transactions on Magnetics 38(4), 1658-1663 (2002).
  30. S. Khizroev and D. Litvinov, "Response to Comment on "On the Mechanism of the Cubic Phase Formation in the Boron Nitride Thin-Film Systems," Applied Physics Letters 80(7), 1308-1309 (2002).
  31. A. Lyberatos, S. Khizroev, and D. Litvinov, "High speed coherent switching of magnetic recording media," IEEE Transactions on Magnetics 37(4), 1369-1372 (2001).
  32. D. Litvinov, M.H. Kryder, and S. Khizroev, "Recording Physics of Perpendicular Media: Soft Underlayers," Journal of Magnetism and Magnetic Materials 232(1-2), 84-90 (2001).
  33. B. Lu, T. Klemmer, S. Khizroev, K. Howard, D. Litvinov, A.G. Roy, and D.E. Laughlin, "CoCrPtTa/Ti perpendicular media deposited at high sputtering rate," IEEE Transactions on Magnetics 37(4), 1319-1322 (2001).
  34. D. Litvinov, R. Chomko, J. Wolfson, E. Svedberg, J. Bain, R. White, R. Chantrell, P. Ridley, S. Khizroev, "Dynamics of Perpendicular Recording," IEEE Transactions on Magnetics 37(4), 1376-1378 (2001).
  35. S. Khizroev and D. Litvinov, "Soft Underlayers," Proceedings of the 20th Lake Arrowhead Conference on Data Storage (2001).
  36. D. Litvinov, T. Roscamp, T. Klemmer, M. Wu, J.K. Howard, S. Khizroev, "Co/Pd Multilayers for Perpendicular Recording Media," MRS Proceedings 674, T3.9 (2001).
  37. S. Khizroev and D. Litvinov, "On the Mechanism of Cubic Phase Formation in Boron Nitride Thin-Film Systems," Applied Physics Letters, 79(3), 353, 2001.
  38. T. Klemmer, K. Howard, S. Khizroev, D. Litvinov, A. Roy, and D. Laughlin, "Seed Layer Effect on the Microstructure and Magnetic Properties of Co/Pd Multilayers," Journal of Applied Physics 89, 7531 (2001).
  39. S. Khizroev, M.H. Kryder, and D. Litvinov, "Next Generation Perpendicular Recording Systems," IEEE Transactions on Magnetics 37(4), 1922-1925 (2001).
  40. D. Litvinov, R. Chomko, G. Chen, L. Abelmann, K. Ramstock, and S. Khizroev, "Micromagnetics of a Soft Underlayer," IEEE Transactions on Magnetics 36(5), 2483 (2000).
  41. D. Litvinov, H. Gong, D. Lambeth, S. Khizroev, and K. Howard, "RHEED Based Texture Determination: Magnetic Thin Films, " Journal of Applied Physics, 87(9), 5693 (2000).
  42. L. Abelmann, S. Khizroev, D. Litvinov, J. Zhu, J. Bain, M.H. Kryder, K. Ramstock, C. Lodder, "Micromagnetic simulation of an ultra-small single pole perpendicular write head, " Journal of Applied Physics, 87(9), 6636 (2000).
  43. H. Gong, D. Litvinov, T. Klemmer, D. N. Lambeth, J. K. Howard, "Seed Layer Effects on the Magnetoresistive Properties of NiFe Films, " IEEE Transactions on Magnetics 36(5), 2963 (2000).
  44. L. Pust, L.E. Wenger, R.A. Lukaszew, Y. Sheng, D. Litvinov, Y. Wang, C. Uher, and R. Clarke, "Temperature Dependence of the Magnetization Reversal in Co(fcc)-BN-Co(poly hcp) Structures," Journal of Applied Physics, 85(8), 5765 (1999).
  45. D. Litvinov and R. Clarke, "In-situ Texture Monitoring for Growth of Oriented Cubic Boron Nitride Films," Applied Physics Letters, 74(7), 955 (1999).
  46. D. Litvinov, T. O'Donnell, and R. Clarke, "Thin film texture detem1ination from RHEED," Journal of Applied Physics, 85(4), 2151 (1999).
  47. D. Litvinov, C.A. Taylor II, D. Barlett, and R. Clarke, "Real-Time Strain Monitoring in Thin Film Growth: Cubic Boron Nitride on Si (100)," Materials Science and Engineering: B, BS6 (1999).
  48. D. Litvinov and R. Clarke, "Reduced Bias Growth of Cubic Boron Nitride," Applied Physics Letters, 71(14), 1969 (1997).
  49. D. Litvinov, C.A. Taylor II, and R. Clarke, "Semiconducting Cubic Boron Nitride," Journal of Diamond and Related Materials, 7,360 (1997).

 

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