Amit Misra

Professor and Department Chair

amitmis@umich.edu

3062B H.H. Dow

T: (734) 763-2445

Bio

Publications

Group Members

Research


Publications

  1. Lee, J, Lin, Y, Jia, Q, Höchbauer, T, Jung, H, Shao, L, Misra, A, and Nastasi, M (2006). Role of strain in the blistering of hydrogen-implanted siliconApplied Physics Letters, 89(10).   (link)

  2. Lucca, D, Shao, L, Wetteland, C, Misra, A, Klopfstein, M, and Nastasi, M (2006). Subsurface damage in (1 0 0) ZnSe introduced by mechanical polishingNuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms, 249(1-2 SPEC. ISS.):907-910.   (link)

  3. McCabe, R, Cerreta, E, Misra, A, Kaschner, G, and Tomé, C (2006). Effects of texture, temperature and strain on the deformation modes of zirconiumPhilosophical Magazine, 86(23):3595-3611.   (link)

  4. McCabe, R, Proust, G, Misra, A, Cerreta, E, and Henrie, B (2006). EBSD and coupled EBSD/TEM analysis of zirconium deformation mechanismsMicroscopy and Microanalysis, 12(SUPPL. 2):1024-1025.   (link)

  5. Misra, A (2006). Mechanical behavior of metallic nanolaminatesNo source specified   (link)

  6. Nyilas, K, Misra, A, and Ungár, T (2006). Micro-strains in cold rolled Cu-Nb nanolayered composites determined by X-ray line profile analysisActa Materialia, 54(3):751-755.   (link)

  7. Sinha, S, Roy, S, Fitzsimmons, M, Park, S, Dorn, M, Petracic, O, Roshchin, I, Li, Z, Batlle, X, Morales, R, Misra, A, Zhang, X, Chesnel, K, Kortright, J, and Schuller, I (2006). Combined neutron and synchrotron studies of magnetic filmsPramana - Journal of Physics, 67(1):47-55.   (link)

  8. Thorp, J, Sieradzki, K, Tang, L, Crozier, P, Misra, A, Nastasi, M, Mitlin, D, and Picraux, S (2006). Formation of nanoporous noble metal thin films by electrochemical dealloying of Pt xSi 1-xApplied Physics Letters, 88(3):1-3.   (link)

  9. Wang, Y, Hoechbauer, T, Swadener, J, Darling, T, Misra, A, Hoagland, R, and Nastasi, M (2006). Study on fatigue and energy-dissipation properties of nanolayered Cu/Nb thin filmsIn: , vol. 85, pp. 323-330.   (link)

  10. Wang, Y, Misra, A, and Hoagland, R (2006). Fatigue properties of nanoscale Cu/Nb multilayersScripta Materialia, 54(9):1593-1598.   (link)

  11. Zhang, X, Wang, H, Chen, X, Lu, L, Lu, K, Hoagland, R, and Misra, A (2006). High-strength sputter-deposited Cu foils with preferred orientation of nanoscale growth twinsApplied Physics Letters, 88(17).   (link)

  12. Al-Fadhalah, K, Tomé, C, Beaudoin, A, Robertson, I, Hirth, J, and Misra, A (2005). Modeling texture evolution during rolling of a Cu-Nb multilayered systemPhilosophical Magazine, 85(13):1419-1440.   (link)

  13. Hirth, J, Hoagland, R, and Misra, A (2005). The effect of surface steps on the critical thickness for spreading of threading dislocations in thin epitaxial filmsPhilosophical Magazine, 85(26-27 SPEC. ISS.):3019-3028.   (link)

  14. Höchbauer, T, Misra, A, Hattar, K, and Hoagland, R (2005). Influence of interfaces on the storage of ion-implanted He in multilayered metallic compositesJournal of Applied Physics, 98(12).   (link)

  15. Jacobsohn, L, Zhang, X, Misra, A, and Nastasi, M (2005). Synthesis of metallic nanocrystals with size and depth control: A case studyJournal of Vacuum Science and Technology B: Microelectronics and Nanometer Structures, 23(4):1470-1473.   (link)

  16. Misra, A and Hoagland, R (2005). Effects of elevated temperature annealing on the structure and hardness of copper/niobium nanolayered filmsJournal of Materials Research, 20(8):2046-2054.   (link)

  17. Misra, A, Hirth, J, and Hoagland, R (2005). Length-scale-dependent deformation mechanisms in incoherent metallic multilayered compositesActa Materialia, 53(18):4817-4824.   (link)

  18. Misra, A, Zhang, X, Hammon, D, and Hoagland, R (2005). Work hardening in rolled nanolayered metallic compositesActa Materialia, 53(1):221-226.   (link)

  19. Mitlin, D, Misra, A, Mitchell, T, Hirth, J, and Hoagland, R (2005). Interface dislocation structures at the onset of coherency loss in nanoscale Ni-Cu bilayer filmsPhilosophical Magazine, 85(28):3379-3392.   (link)

  20. Nastasi, M, Höchbauer, T, Lee, J, Misra, A, Hirth, J, Ridgway, M, and Lafford, T (2005). Nucleation and growth of platelets in hydrogen-ion-implanted siliconApplied Physics Letters, 86(15):1-3.   (link)

  21. Park, S, Zhang, X, Misra, A, Thompson, J, Fitzsimmons, M, Lee, S, and Falco, C (2005). Tunable magnetic anisotropy of ultrathin Co layersApplied Physics Letters, 86(4):042504-1-042504-3.   (link)

  22. Roy, S, Fitzsimmons, M, Park, S, Dorn, M, Petracic, O, Roshchin, I, Li, Z, Batlle, X, Morales, R, Misra, A, Zhang, X, Chesnel, K, Kortright, J, Sinha, S, and Schuller, I (2005). Depth profile of uncompensated spins in an exchange bias systemPhysical Review Letters, 95(4).   (link)

  23. Sharif, A, Misra, A, and Mitchell, T (2005). Strength of MoSi2-based crystals at ultra-high temperatureScripta Materialia, 52(5):399-402.   (link)

  24. Sridhar, N, Anderson, P, Misra, A, and Cox, B (2005). Morphological stability of multilayer systemsIn: , vol. 2, pp. 812-815.   (link)

  25. Zhang, X, Misra, A, Wang, H, Lima, A, Hundley, M, and Hoagland, R (2005). Effects of deposition parameters on residual stresses, hardness and electrical resistivity of nanoscale twinned 330 stainless steel thin filmsJournal of Applied Physics, 97(9).   (link)

  26. Zhang, X, Misra, A, Wang, H, Swadener, J, Lima, A, Hundley, M, and Hoagland, R (2005). Thermal stability of sputter-deposited 330 austenitic stainless-steel thin films with nanoscale growth twinsApplied Physics Letters, 87(23):1-3.   (link)

  27. Andersen, P, Foecke, T, Misra, A, and Rudd, R (2004). Materials Research Society Symposium Proceedings: PrefaceIn: , vol. 821, pp. xiii.   (link)

  28. Hoagland, R, Hirth, J, Misra, A, and Mitlin, D (2004). Influence of surface steps on glide of threading dislocations during layer growthApplied Physics Letters, 84(25):5136-5138.   (link)

  29. Höchbauer, T, Misra, A, Nastasi, M, Henttinen, K, Suni, T, Suni, I, Lau, S, and Ensinger, W (2004). Comparison of thermally and mechanically induced Si layer transfer in hydrogen-implanted Si wafersNuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms, 216(1-4):257-263.   (link)

  30. Lepienski, C, Pharr, G, Park, Y, Watkins, T, Misra, A, and Zhang, X (2004). Factors limiting the measurement of residual stresses in thin films by nanoindentationThin Solid Films, 447-448:251-257.   (link)

  31. Lucca, D, Wetteland, C, Misra, A, Klopfstein, M, Nastasi, M, Maggiore, C, and Tesmer, J (2004). Assessment of subsurface damage in polished II-VI semiconductors by ion channelingNuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms, 219-220(1-4):611-617.   (link)

  32. Mahesh, S, Tomé, C, McCabe, R, Kaschner, G, Beyerlein, I, and Misra, A (2004). Application of a substructure-based hardening model to copper under loading path changesMetallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, 35 A(12):3763-3774.   (link)

  33. Mara, N, Sergueeva, A, Misra, A, and Mukherjee, A (2004). Structure and high-temperature mechanical behavior relationship in nano-scaled multilayered materialsScripta Materialia, 50(6):803-806.   (link)

  34. McCabe, R, Misra, A, and Mitchell, T (2004). Experimentally determined content of a geometrically necessary dislocation boundary in copperActa Materialia, 52(3):705-714.   (link)

  35. Misra, A, Hirth, J, Hoagland, R, Embury, J, and Kung, H (2004). Dislocation mechanisms and symmetric slip in rolled nano-scale metallic multilayersActa Materialia, 52(8):2387-2394.   (link)

  36. Misra, A, Hoagland, R, and Kung, H (2004). Thermal stability of self-supported nanolayered Cu/Nb filmsPhilosophical Magazine, 84(10):1021-1028.   (link)

  37. Misra, A, Kung, H, and Embury, J (2004). Preface to the viewpoint set on: Deformation and stability of nanoscale metallic multilayersScripta Materialia, 50(6):707-710.   (link)

  38. Mitlin, D, Misra, A, Mitchell, T, Hoagland, R, and Hirth, J (2004). Influence of overlayer thickness on the density of Lomer dislocations in nanoscale Ni-Cu bilayer thin filmsApplied Physics Letters, 85(10):1686-1688.   (link)

  39. Mitlin, D, Misra, A, Radmilovic, V, Nastasi, M, Hoagland, R, Embury, D, Hirth, J, and Mitchell, T (2004). Formation of misfit dislocations in nanoscale Ni-Cu bilayer filmsPhilosophical Magazine, 84(7):719-736.   (link)

  40. Nastasi, M, Höchbauer, T, Verda, R, Misra, A, Lee, J, Mayer, J, and Lau, S (2004). Using ion beam analysis in determining the mechanisms of cleavage in hydrogen ion implanted SiNuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms, 219-220(1-4):604-610.   (link)

  41. Wang, Z, McCabe, R, Ghoniem, N, LeSar, R, Misra, A, and Mitchell, T (2004). Dislocation motion in thin Cu foils: A comparison between computer simulations and experimentActa Materialia, 52(6):1535-1542.   (link)

  42. Zhang, X and Misra, A (2004). Residual stresses in sputter-deposited copper/330 stainless steel multilayersJournal of Applied Physics, 96(12):7173-7178.   (link)

  43. Zhang, X, Hundley, M, Malinowski, A, Misra, A, Wang, H, and Nastasi, M (2004). Microstructure and electronic properties of Cu/Mo multilayers and three-dimensional arrays of nanocrystalline Cu precipitates embedded in a Mo matrixJournal of Applied Physics, 95(7):3644-3648.   (link)

  44. Zhang, X, Misra, A, Schulze, R, Wang, H, Wetteland, C, and Nastasi, M (2004). Critical factors that determine fcc to bcc phase transformation in sputter deposited austenitic stainless steel filmsIn: , pp. 23-29.   (link)

  45. Zhang, X, Misra, A, Schulze, R, Wetteland, C, Wang, H, and Nastasi, M (2004). Critical factors that determine face-centered cubic to body-centered cubic phase transformation in sputter-deposited austenitic stainless steel filmsJournal of Materials Research, 19(6):1696-1702.   (link)

  46. Zhang, X, Misra, A, Wang, H, Nastasi, M, Embury, J, Mitchell, T, Hoagland, R, and Hirth, J (2004). Nanoscale-twirming-induced strengthening in austenitic stainless steel thin filmsApplied Physics Letters, 84(7):1096-1098.   (link)

  47. Zhang, X, Misra, A, Wang, H, Shen, T, Nastasi, M, Mitchell, T, Hirth, J, Hoagland, R, and Embury, J (2004). Enhanced hardening in Cu/330 stainless steel multilayers by nanoscale twinningActa Materialia, 52(4):995-1002.   (link)

  48. Anderson, P, Bingert, J, Misra, A, and Hirth, J (2003). Rolling textures in nanoscale Cu/Nb multilayersActa Materialia, 51(20):6059-6075.   (link)

  49. McCabe, R, Misra, A, and Mitchell, T (2003). Transmission electron microscopy study of the interaction between a glide dislocation and a dislocation nodePhilosophical Magazine, 83(36):4123-4129.   (link)

  50. McCabe, R, Misra, A, and Mitchell, T (2003). Study of dislocations in copper by weak beam, stereo, and in situ straining TEMIn: , pp. 25-31.   (link)

  51. McCabe, R, Misra, A, Mitchell, T, and Alexander, K (2003). A single-tilt TEM stereomicroscopy technique for crystalline materialsMicroscopy and Microanalysis, 9(1):29-35.   (link)

  52. Misra, A, Kung, H, Hammon, D, Hoagland, R, and Nastasi, M (2003). Damage mechanisms in nanolayered metallic compositesInternational Journal of Damage Mechanics, 12(4):365-376.   (link)

  53. Mitchell, T, Anderson, P, Baskes, M, Chen, S, Hoagland, R, and Misra, A (2003). Nucleation of kink pairs on partial dislocations: A new model for solution hardening and softeningPhilosophical Magazine, 83(11):1329-1346.   (link)

  54. Sharif, A, Misra, A, and Mitchell, T (2003). Deformation mechanisms of polycrystalline MoSi2 alloyed with 1 at.% NbMaterials Science and Engineering A, 358(1-2):279-287.   (link)

  55. Zhang, X, Misra, A, Wang, H, Shen, T, Swadener, J, Embury, J, Kung, H, Hoagland, R, and Nastasi, M (2003). Strengthening mechanisms in nanostructured copper/304 stainless steel multilayersJournal of Materials Research, 18(7):1600-1606.   (link)

  56. Demirel, M, Kuprat, A, George, D, Straub, G, Misra, A, Alexander, K, and Rollett, A (2002). Large scale statistics for computational verification of grain growth simulations with experimentsIn: , vol. 731, pp. 195-202.   (link)

  57. Höchbauer, T, Misra, A, Nastasi, M, and Mayer, J (2002). Physical mechanisms behind the ion-cut in hydrogen implanted siliconJournal of Applied Physics, 92(5):2335-2342.   (link)

  58. Höchbauer, T, Nastasi, M, Verda, R, Misra, A, Henttinen, K, Suni, I, Lau, S, and Mayer, J (2002). The use of ion channeling and elastic recoil detection in determining the mechanism of cleavage in the ion-cut processNuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms, 190(1-4):592-597.   (link)

  59. McCabe, R, Misra, A, and Mitchell, T (2002). The use of stereomicroscopy in conjunction with in situ straining TEM for studying dislocation behaviorMicroscopy and Microanalysis, 8(SUPPL. 2):1382-1383.   (link)

  60. McKeown, J, Misra, A, Kung, H, Hoagland, R, and Nastasi, M (2002). Microstructures and strength of nanoscale Cu-Ag multilayersScripta Materialia, 46(8):593-598.   (link)

  61. Misra, A, Hirth, J, and Kunc, H (2002). Single-dislocation-based strengthening mechanisms in nanoscale metallic multilayersPhilosophical Magazine A: Physics of Condensed Matter, Structure, Defects and Mechanical Properties, 82(16):2935-2951.   (link)

  62. Misra, A, Kung, H, and Hoagland, R (2002). Thermal stability of self-supported metallic multilayered thin filmsIn: , vol. 695, pp. 493-498.   (link)

  63. Misra, A, Kung, H, Hammon, D, Hoagland, R, and Nastasi, M (2002). Damage mechanisms in nanolayered metallic compositesIn: , pp. 577-582.   (link)

  64. Mitchell, T, Hirth, J, and Misra, A (2002). Apparent activation energy and stress exponent in materials with a high Peierls stressActa Materialia, 50(5):1087-1093.   (link)

  65. Swadener, J, Misra, A, Hoagland, R, and Nastasi, M (2002). A mechanistic description of combined hardening and size effectsScripta Materialia, 47(5):343-348.   (link)

  66. Vaidya, R, Rangaswamy, P, Butt, D, Misra, A, Gallegos, D, Castro, R, and Petrovic, J (2002). Use of a cobalt-based metallic glass for joining MoSi2 to stainless steelMaterials Science Forum, 386-388:535-540.   (link)

  67. Zhang, X, Misra, A, Wang, H, Kung, H, Embury, J, Hoagland, R, and Nastasi, M (2002). Microstructures and mechanical properties of nanostructured copper-304 stainless steel multilayers synthesized by magnetron sputteringIn: , vol. 740, pp. 49-54.   (link)

  68. Höchbauer, T, Misra, A, Nastasi, M, and Mayer, J (2001). Investigation of the cut location in hydrogen implantation induced silicon surface layer exfoliationJournal of Applied Physics, 89(11 I):5980-5990.   (link)

  69. Höchbauer, T, Misra, A, Verda, R, Zheng, Y, Lau, S, Mayer, J, and Nastasi, M (2001). The influence of ion-implantation damage on hydrogen-induced ion-cutNuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms, 175-177:169-175.   (link)

  70. Keast, V, Misra, A, Kung, H, and Mitchell, T (2001). Compositional distributions in nanoscale metallic multilayers studied using x-ray mappingJournal of Materials Research, 16(7):2032-2038.   (link)

  71. Madan, A, Barnett, S, Misra, A, Kung, H, and Nastasi, M (2001). Structure, stability, and mechanical properties of epitaxial W/NbN superlatticesJournal of Vacuum Science and Technology, Part A: Vacuum, Surfaces and Films, 19(3):952-957.   (link)

  72. Misra, A and Kung, H (2001). Deformation behavior of nanostructured metallic multilayersAdvanced Engineering Materials, 3(4):217-222.   (link)

  73. Misra, A and Nastasi, M (2001). Intrinsic residual stresses in metal films synthesized by energetic particle depositionNuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms, 175-177:688-693.   (link)

  74. Misra, A, Gibala, R, and Noebe, R (2001). Optimization of toughness and strength in multiphase intermetallicsIntermetallics, 9(10-11):971-978.   (link)

  75. Misra, A, Hirth, J, Kung, H, Hoagland, R, and Embury, J (2001). Dislocation models for strengthening in nanostructured metallic multilayersIn: , vol. 634, pp. B4.2.1-B4.2.6.   (link)

  76. Misra, A, Mitchell, T, Sharif, A, Chen, S, Baskets, M, and Hoagland, R (2001). Yield stress anomalies, dislocation core structures and substitutional alloying in molybdenum disilicideIn: , pp. 449-456.   (link)

  77. Misra, A, Sharif, A, Petrovic, J, and Mitchell, T (2001). Mechanical behavior of molybdenum disilicide-based alloysIn: , vol. 646, pp. N471-N476.   (link)

  78. Mitchell, T, Baskes, M, Hoagland, R, and Misra, A (2001). Dislocation core structures and yield stress anomalies in molybdenum disilicideIntermetallics, 9(10-11):849-856.   (link)

  79. Sharif, A, Misra, A, Petrovic, J, and Mitchell, T (2001). Alloying of MoSi2 for improved mechanical propertiesIntermetallics, 9(10-11):869-873.   (link)

  80. Sharif, A, Misra, A, Petrovic, J, and Mitchell, T (2001). Solid solution hardening and softening in MoSi2 alloysScripta Materialia, 44(6):879-884.   (link)

  81. Vaidya, R, Rangaswamy, P, Misra, A, and Verdier, M (2001). Residual stresses and interface strengths in MoSi2/stainless steel 316L joints produced by metallic-glass brazingMetallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, 32(6):1459-1465.   (link)

  82. Verda, R, Maggiore, C, Tesmer, J, Misra, A, Hoechbauer, T, Nastasi, M, and Bower, R (2001). Erratum: Depth profiling of hydrogen in crystalline silicon using elastic recoil detection analysis (Nuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms (2001) 183 (401-412) PII: S0168583X01006358)Nuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms, 184(4):656.   (link)

  83. Verda, R, Maggiore, C, Tesmer, J, Misra, A, Hoechbauer, T, Nastasi, M, and Bower, R (2001). Depth profiling of hydrogen in crystalline silicon using elastic recoil detection analysisNuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms, 183(3-4):401-412.   (link)

  84. Yamamoto, T, Misra, A, Hoagland, R, Nastasi, M, Kung, H, and Hirth, J (2001). Misfit dislocations in epitaxial Ni/Cu bilayer and Cu/Ni/Cu trilayer thin filmsIn: , vol. 673, pp. P7.1.1-P7.1.6.   (link)

  85. Zheng, Y, Lau, S, Höchbauer, T, Misra, A, Verda, R, He, X, Nastasi, M, and Mayer, J (2001). Orientation dependence of blistering in H-implanted SiJournal of Applied Physics, 89(5):2972-2978.   (link)

  86. Höchbauer, T, Misra, A, Verda, R, Nastasi, M, Mayer, J, Zheng, Y, and Lau, S (2000). Hydrogen-implantation induced silicon surface layer exfoliationPhilosophical Magazine B: Physics of Condensed Matter; Statistical Mechanics, Electronic, Optical and Magnetic Properties, 80(11):1921-1931.   (link)

  87. Misra, A and Gibala, R (2000). Plasticity in multiphase intermetallicsIntermetallics, 8(9-11):1025-1034.   (link)

  88. Misra, A and Nastasi, M (2000). The role of oxygen in the intrinsic tensile residual stress evolution in sputter-deposited thin metal filmsJournal of Vacuum Science and Technology A: Vacuum, Surfaces and Films, 18(5):2517-2521.   (link)

  89. Misra, A, Kung, H, Mitchell, T, and Nastasi, M (2000). Residual stresses in polycrystalline Cu/Cr multilayered thin filmsJournal of Materials Research, 15(3):756-763.   (link)

  90. Misra, A, Sharif, A, Petrovic, J, and Mitchell, T (2000). Rapid solution hardening at elevated temperatures by substitutional Re alloying in MoSi2Acta Materialia, 48(4):925-932.   (link)

  91. Misra, A, Verdier, M, Mahan, J, and Mitchell, T (2000). Characterization of epitaxial growth of semiconducting rhenium disilicide filmsMaterials Research Society Symposium - Proceedings, 580:135-140.   (link)

  92. Sharif, A, Chu, F, Misra, A, Mitchell, T, and Petrovic, J (2000). Elastic constants of erbia single crystalsJournal of the American Ceramic Society, 83(9):2246-2250.   (link)

  93. Sharif, A, Misra, A, Petrovic, J, and Mitchell, T (2000). Slip systems in Erbia single crystalsKey Engineering Materials, 171-174:801-808.   (link)

  94. Fayeulle, S, Misra, A, Kung, H, and Nastasi, M (1999). Thermal annealing, irradiation, and stress in multilayersNuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms, 148(1-4):227-231.   (link)

  95. Lee, D, Misra, A, Walter, K, and Nastasi, M (1999). Inhomogeneous structure in hydrogenated tetrahedral amorphous carbon thin filmsPhysical Review B - Condensed Matter and Materials Physics, 59(19):12283-12285.   (link)

  96. Misra, A and Gibala, R (1999). Slip transfer and dislocation nucleation processes in multiphase ordered Ni-Fe-Al alloysMetallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, 30(4):991-1001.   (link)

  97. Misra, A and Nastasi, M (1999). Evolution of tensile residual stress in thin metal films during energetic particle depositionJournal of Materials Research, 14(12):4466-4469.   (link)

  98. Misra, A and Nastasi, M (1999). Limits of residual stress in Cr films sputter deposited on biased substratesApplied Physics Letters, 75(20):3123-3125.   (link)

  99. Misra, A, Chu, F, and Mitchell, T (1999). Incommensuration and other structural anomalies in rhenium disilicidePhilosophical Magazine A: Physics of Condensed Matter, Structure, Defects and Mechanical Properties, 79(6):1411-1422.   (link)

  100. Misra, A, Fayeulle, S, Kung, H, Mitchell, T, and Nastasi, M (1999). Residual stresses and ion implantation effects in Cr thin filmsNuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms, 148(1-4):211-215.   (link)