Publications

1984-1989 1990-1994 1995-1999 2000-2004 Editor

Editor

2010 - 2011

 

113. Effect of disorder on spin transfer torque in magnetic tunnel junctions,  H. Y. Tang, N. Kioussis, A. Kalitsov,  and Roberto Car,  Journal of Applied Physics,  109, 07C920 (2011).

112.   "Seamless” Graphene Interconnects for the Prospect of All-Carbon Spin-Polarized Field-Effect Transistors,  Luis A. Agapito and Nicholas Kioussis, J. Phys. Chemistry, 115, 2874 -2879 (2011).

2005 - 2010

111. Electric-field control of magnetism in graphene quantum dots: Ab initio calculations, Luis Agapito, Nicholas Kioussis, and Efthimios Kaxiras, Phys. Rev. B (Rapid Comm.) 82, 201411 (2010).

110. Inhibiting Adatom Diffusion through Surface Alloying, Zhengzheng Chen, Nicholas Kioussis, King-Ning Tu, Nasr Ghoniem, and Jenn-Ming Yang, Phys. Rev. Lett. 105, 015703 (2010).

109.  Strain-field effects on the formation and migration energies of self interstitials in α-Fe from first principles,  Zhengzheng Chen, Nicholas Kioussis, Nasr Ghoniem, and Dariush Seif, Phys. Rev. B 81, 094102 (2010) .

108. Atomistic-Continuum Modeling of Dislocation Interaction with Y2O3 Particles in Iron, A. Takahashi, Z. Chen, N. Ghoniem, N. Kioussis,  Jour. of Nuclear Materials (Spring 2010, in press).

107. Influence of asymmetry on bias behavior of spin torque, H. Y. Tang, N. Kioussis, A. Kalitsov, W. H. Butler, and Roberto Car,  Phys. Rev. B 81, 054437 (2010).

106.  Modeling of dislocation interaction with solutes, nano-precipitates and interfaces: A Multiscale Challenge, N. Kioussis and N. Ghoniem, Invited Review Article, Journ. of Comput. and Theoretical Nanoscience 7, 1-30 (2010).

105. The crucial role of chemistry on dislocation mobility, Z. Chen, G. Lu, N. Kioussis, and N. Ghoniem, Z. Chen, G. Lu, N. Kioussis, and N. Ghoniem,  Phil. Mag. B (in press, November 2009).

104.  Y. -H. Tang, N. Kioussis, A. Kalitsov, W. H. Butler, and R. Car, J. Phys.: Conf. Ser., (in press, 2009).

103. Spin torques in magnetic tunnel junctions, A. Kalitsov, I. Theodonis, M. Chshiev, N. Kioussis, and W. H. Butler, Phys. Rev. B Phys. Rev. B 79, 174416 (2009).

102.  Crucial role of surface in stability and mobility of vacancy clusters in metals, A. Akbarzadeh, Z. Chen, and N. Kioussis, Phys. Rev. B 79, 195404 (2009).

101.  Controlling the non-equilibrium interlayer exchange coupling in magnetic tunnel junctions, H. Y. Tang, N. Kioussis, A. Kalitsov, W. H. Butler, and Roberto Car, Phys. Rev. Lett. 103, 057206 (2009).

100.  Polarization-induced strengthening mechanism of Cu precipitates in a-Fe, Z. Chen, N. Kioussis, and N. Ghoniem, Phys. Rev. B 80, 184104 (2009).

99.  Lubricant effect of copper nanoclusters on a dislocation core in a-Fe, Zhengzheng Chen, N.Kioussis, N. Ghoniem, and T. Hasebe, Phys. Rev. B 77, 014103 (2008).

98.  M. Chshiev, I. Theodonis, A. Kalitsov, N. Kioussis, and W. H. Butler, Theory of spin transfer torque in magnetic tunnel junctions, IEEE Trans. Mag. 44 (2008).

97.  Effect of local environment on the mobility of dislocations in refractory bcc metals: Concurrent multiscale approach, Z. Chen, G. Lu, N. Kioussis, and N. Ghoniem, Z. Chen, G. Lu, N. Kioussis, and N. Ghoniem, Phys. Rev. B 78, 134102 (2008).

96.  Spin transfer torque in double barrier magnetic tunnel junctions, I. Theodonis, A. Kalitsov, and N. Kioussis, J. Magn. and Magn. Mater.  310, 2043 (2007).

95.  Dislocation threading across Cu/Ni interface: A hybrid atomistic-continuum approach, M. Shehadeh, G. Lu, N. Kioussis, S. Banerjee, and N. Ghoniem, Phil. Mag. 87, 1513 (2007).

94.  An improved multiscale modeling approach for metals, Y. Liu, Gang Lu, Zhengzheng Chen, and Nicholas Kioussis, Model. and Simulation in Materials Science and Engineering, 15, 275 (2007).

93.  Non-singular descriptions of dislocation cores: a hybrid ab initio continuum approach, S. Banerjee, N. M. Ghoniem, G. Lu, N. Kioussis,  Phil. Mag. B 87,  4131 – 4150 (2007).

92.  Multiplane-induced widening of stacking faults in fcc metals, M. Shehadeh, G. Lu, N. Kioussis, and N. Ghoniem, Appl. Phys. Lett. 91, 171905 (2007).

91.  Enhancing spin-transfer torque through the proximity of quantum well states, I. Theodonis, A. Kalitsov, and N. Kioussis, Phys. Rev. B 76, 224406 (2007).

90.  Evolution of Magnetism of Cr nanoclusters on Au (111) surface: First principles electronic structure calculations, H. Gotsis, N. Kioussis, and D. Papaconstantopoulos, , Phys. Rev. B. 73, 014436 (2006).

89.  The low-temperature properties of strongly correlated nanoclusters in the presence of magnetic field, Y. Luo, and N. Kioussis,  Phil. Mag. B, 86, 11 (2006).

88.  Spin-polarized current-induced torque in magnetic tunnel junctions, A. Kalitsov, I. Theodonis, N. Kioussis, M. Chshiev, and W. Bulter,  J. Appl. Phys. 99, 08G501 (2006).

87.  Anomalous Bias Dependence of spin torques in magnetic tunnel junctions, I. Theodonis, N. Kioussis, A. Kalitsov, M. Chshiev, and W. H. Butler, Phys. Rev. Lett. 97, 237205 (2006).

86. Electronic structure calculations of an oxygen vacancy in KH2PO4, C.S. Liu, C. J. Hou, , N. Kioussis, S.G. Demos, and H.B. Radousky, Phys. Rev. B  72, 134110 (2005).

2000 - 2005

  1. Hierarchial Models of Nanomechnics and Micromechanics, Nasr Ghoniem and Nicholas Kioussis,  Chap. 64, Handbook of Theoretical and Computational Nanotechnology, Eds. Michael Reith and Wolfram Schommers, Vol. 1, pp. 1-97 (2005).
  2. Tunable "Doniach Phase Diagram" for stongly correlated nanoclusters, Y. Luo, C. Verdozzi, and N. Kioussis,  Phys. Rev. B 71, 033304 (2005).
  3. Impurity-induced tuning of quantum well states in spin dependent resonant tunneling, A. Kalitsov, A. Coho, N. Kioussis, A. Vedyayev, and M. Chshiev, Phys. Rev. Lett. 93, 046603 (2004).
  4. On stress assisted dislocation constriction and cross-slip (Invited article, Owen Richmond Memorial Special Issue), G. Lu, V. Bulatov, and N. Kioussis, Intern. Journ. of Plasticity 20/3 , 447-458 (2004).
  5. Tuning the magnetism in strongly-correlated electron nanoclusters, N. Kioussis, Y. Luo, and C. Verdozzi,  Physics of Spin in Solids: Materials, Methods, and Applications”,edited by S. Halilov, NATO Science Series, 156, 115 (2004).
  6. Zero-temperature phase diagram of the Periodic Anderson Model , Y. Luo, C. Verdozzi, and N. Kioussis, J. Appl. Phys. 93,  7198 (2004).
  7. Disordered Kondo nanoclusters: Effect of spacing, C. Verdozzi, Y. Luo, and N. Kioussis, Phys. Rev. B 70, 132404 (2004)
  8. A nonplanar Peierls-Nabarro model and its applications to dislocation cross slip, G. Lu, V. Bulatov, and N. Kioussis, Phil. Mag. A 83, 3539 (2003).
  9. Electronic structure calculations of intrinsic and extrinsic hydrogen defects in KH2PO4, C. Liu, Q. Zhang, N. Kioussis, S. Demos and H. Radousky, Phys. Rev. B 68, 224107 (2003).
  10. Hydrogen-induced unzipping of carbon nanotubes, H. Scudder, G. Lu, and N. Kioussis Phys. Rev. B 68, 205416 (2003).
  11. Multiscale Modeling of Nano- and Micro-Mechanics: An Overview, Nasr M. Ghoniem, Esteban Busso, and Nicholas Kioussis, and Hanchen Huang, Phil. Mag. A 83, 3475 (2003) (Review article).
  12. Influence of grain size of the extraordinary Hall effect in magnetic granular alloys, A. B. Granovsky, A.V. Kalitsov, A.B. Khanikaev, and N. Kioussis, J. Magn. & Mag. Mater. 258-259, 87 (2003).
  13. Electron- or Hole-Assisted Reactions of H Defects in Hydrogen-Bonded KDP, C. S. Liu, N. Kioussis, S. Demos and H. Radousky, Phys. Rev. Lett. 91, 015505 (2003).
  14. New evidence of the displacive feature of the ferroelectric transition in KDP-type crystals, J. Phys. Condens. Matter 14, L1-L5 (2002).
  15. Topology of Electronic Charge Density and Energetics of Planar Faults in fcc Metals, N. Kioussis, M. Herbranson, E. Collins, and M. Eberhart, Phys. Rev. Lett. 88, 125501 (2002).
  16. Layer intermixing during metal/metal oxide adsorption: Ti/sapphire(0001), C. Verdozzi, P. Schultz, R. Wu, A. Edwards and N. Kioussis, Phys. Rev. B 66, 125408 (2002).
  17. Dislocation constriction and cross-slip: an ab initio study, G. Lu, V. Bulatov, and N. Kioussis, Phys. Rev. B 66, 144103 (2002).
  18. Effect of band filling on Symmetric and Asymmetric One-Dimensional Periodic Anderson Model, Y. Luo and N. Kioussis, Phys. Rev. B 65, 195115 (2002).
  19. Ab initio study of the electronic and structural properties of the ferroelectric transition in KH2PO4, Q. Zhang, N. Kioussis, S. Demos and H. Radousky, Phys. Rev. B 65, 024108 (2002).
  20. Grain boundary sliding and migration: Effect of temperature and vacancies, P. Ballo, N. Kioussis, and G. Lu, Phys. Rev. B 64, 024104 (2001).
  21. Dislocation Core Properties of Aluminum: A first principles study, G. Lu, N. Kioussis, V. Bulatov, and E. Kaxiras, Mater. Science and Eng. A309-310, 142 (2001).
  22. Phase Diagram of the one-dimensional Periodic Anderson Model, Y. Luo and N. Kioussis, J. Appl. Phys. 89, 7180 (2001).
  23. Ab initio studies of strongly correlated electron systems, N. Kioussis, E. Collins, and S. Lim, Physica B 296, 210 (2001).
  24. Interaction of vacancies with a grain boundary in aluminum, G. Lu and N. Kioussis, Phys. Rev. B 64, 024101 (2001).
  25. Magnetic Crossover in the one-dimensional Hubbard model in the Presence of a Magnetic Field, A. Kocharian, N. Kioussis, and S.H. Park, J. Phys. Cond. Matter 13, 6759 (2001).
  26. Hydrogen-Enhanced Local Plasticity in Aluminum: An ab initio study, G. Lu, Q. Zhang, N. Kioussis, and E. Kaxiras, Phys. Rev. Lett. 87, 095501 (2001).
  27. Development of Magnetism in Strongly Correlated Electron Systems: Non-Kondo mechanism for moment collapse, E. Collins, N. Kioussis, S. P. Lim, and B. R. Cooper, Phys. Rev. B 62, 11533 (2000).
  28. Generalized Stacking Fault Energy Surface and dislocation properties of Aluminum, G. Lu, N. Kioussis, V. Bulatov, and E. Kaxiras, Phys. Rev. B 62, 3099 (2000).
  29. Tight-binding study of stacking fault energies and the Rice criterion of ductility in the fcc metals, M. Mehl, D. Papaconstantopoulos, N. Kioussis, and M. Herbranson, Phys. Rev. B 61, 4894 (2000).
  30. The Peierls Nabarro model revisited, G. Lu, N. Kioussis, V. Bulatov, and N. Kioussis, Phil. Mag. Lett. 80, 675 (2000).
  31. Competition of exchange and Crystal-Field Interactions in Cerium monopnictides and monochalcogenides, E. Collins, N. Kioussis, S. P. Lim, and B. R. Cooper, J. Appl. Phys. 87, 5143 (2000).
  32. Effect of Hydrogen on Grain-Boundary Embrittlement: An ab initio study, N. Kioussis, G. Lu, R. Wu, and M. Ciftan, in Condensed Matter Theories, 15 , 313 (Nova Sciences , 2000).

1995 - 1999

  1. Effect of Disorder in the One-Dimensional Anderson Modal, in Correlation Effects and Materials Properties, F. Chen and N. Kioussis, eds. A. Gonis, N. Kioussis, and M. Ciftan, p.267 (Kluwer Acadmic/Plenum, New York, 1999).
  2. Crossover in the Attractive One-Dimensional Hubbard Model for General Electron Concentration, A. Kocharian, C. Yang, Y.L. Chiang, and N. Kioussis, Physica B 259-261, 739 (1999).
  3. Antiferromagnetism of the half-filled Anderson lattice in one dimension, C. Papatriantafillou, N. Kioussis, and S. H. Park, Phys. Rev. B 60, 13355 (1999).
  4. Correlation effects on stability in Pu metal and its alloys, P. Turchi, A. Gonis, N. Kioussis, D. Price, and Br. R. Cooper, in press in Correlation Effects and Materials Properties, eds. A. Gonis, N. Kioussis, and M. Ciftan, p. 531 (Kluwer Acadmic/Plenum, New York, 1999).
  5. Disorder effects in the one-dimensional Anderson lattice model, F. Shen and N. Kioussis, J. Appl. Phys. 85, 5330 (1999).
  6. Precursor of non-Fermi liquid behavior in the one-dimensional periodic Anderson model with disorder, F. Chen and N. Kioussis, Phil. Mag. Lett. 79, 595 (1999).
  7. The one-dimensional periodic Anderson Model: A mean-field study, C. Papatriantafillou, N. Kioussis, S. Park, and A. Kocharian, Physica B 259-261, 208 (1999).
  8. Ab initio study of anisotropic magnetism in Uranium compounds, E. Collins, N. Kioussis, and S. P. Lim, J. Appl. Phys. 85, 6226 (1999).
  9. Effect of Disorder in the Periodic Anderson Model, F. Chen and N. Kioussis, Physica B 259-261, 364 (1999).
  10. First principles studies of the ?5 tilt grain boundary in Ni3Al, G. Lu, N. Kioussis, R. Wu, and M. Ciftan, Phys. Rev. B 59, 891 (1999).
  11. Size and Dimensionality Effect in Single-Impurity Anderson Model, F. Chen and N. Kioussis, J. Appl. Phys. 83, 6429 (1998).
  12. First principles determination of the bonding mechanism and adsorption energy for CO/MgO (001), L. Chen, R. Wu, N. Kioussis, and Q. Zhang, Chem. Phys. Lett. 290, (1998).
  13. One-dimensional Hubbard Model in the presence of magnetic field, N. Kioussis, A. Kocharian, and S. Park, J. Magn. Magn. Mater. 177-181, 575 (1998).
  14. Electronic mechanism of oxygen embrittlement of TiAl, Y. Liu, K.Y. Chen, J. H. Zhang, Z. Q. Hu, G. Lu, and N. Kioussis, J. Phys. Cond. Matter. Phys. 9, 9829 (1997).
  15. First principles investigations of 4d magnetism on C(0001), L. J. Chen, R. Wu, N. Kioussis, and J. Blanco, J. Appl. Phys. 81, 4161 (1997).
  16. Ab initio electronic structure of the ?5 Grain Boundary in Ni3Al, G. Lu and N. Kioussis, Mater. Res. Soc. Symp. Proc. 472, (1997).
  17. Chemical Bonding and Elastic Constants of Nickel-Based Intermetallics, N. Kioussis, J. Blanco, S. P. Lim, and R. Wu, in Properties of Complex Inorganic Solids, eds. A. Gonis, A. Meike, and P. Turchi, 389 (Plenum, New York, 1997).
  18. First principles determination of hyperfine fields in Pt/Fe (111) multilayers, G. Lu, R. Wu, L. Chen, and N. Kioussis, NATO ASI Magnetic Hysteresis in Novel Magnetic Materials, Series E, 338, 179 (1997).
  19. First Principles Determination of the Effects of Boron and Sulfur on the Cleavage Fracture in Ni3Al, S. Sun, N. Kioussis, M. Ciftan, and A. Gonis, Mater. Res. Soc. Symp. Proc. 409, 183 (1996).
  20. Effects of Multilayer Relaxation and Surface Roughness on the Electronic Properties of Pd/W(110), R. Wu, L.J. Chen, and N. Kioussis, Chem. Phys. Lett. 258, 228 (1996).
  21. First Principles Total-Energy Calculations of the Elastic Constants of the Nickel-Based L12 Intermetallics, D. Iotova, N. Kioussis, S. P. Lim, and S. Sun, Mat. Res. Soc. Symp. Proc. 408, 557 (1996).
  22. Structural and Magnetic Properties of fcc Pt/Fe (111) Multilayers, R. Wu, L. Chen, and N. Kioussis, J. Appl. Phys. 79, 4783(1996).
  23. Impurity Effect of Bonding Charge in Ni3Al, S. Sun, N. Kioussis, S. Lim, A. Gonis, and W. Gourdin, NATO ASI, 355, 401 (1996).
  24. Hybridization-Induced Magnetism in Correlated Electron Systems, N. Kioussis, J. Thevenot, B.R. Cooper and Q. G. Sheng, J. Appl. Phys. 79, 6420 (1996).
  25. Effects of Boron and Sulfur on the Ideal Yield Stress of Ni3Al - A First Principles Study, S. Sun, N. Kioussis, M. Ciftan, and A. Gonis, NATO ASI, 355, 413 (1996).
  26. Electronic Structure and Elastic Constants of the Ni3 X (X = Mn, Al,Ga, Si, Ge) Intermetallics, D. Iotova, N. Kioussis, and S.P. Lim , Phys. Rev. B 54, 14413 (1996).
  27. First Principles Determination of the Effects of Boron and Sulfur on the Cleavage Fracture in Ni3Al, S. Sun, N. Kioussis, and M. Ciftan, Phys. Rev. B 54, 3074 (1996).
  28. Impurity Effects on Atomic Bonding in Ni3Al, S. Sun, N. Kioussis, S. Lim, A. Gonis, W. Gourdin, Phys. Rev. B 52, 14421 (1995).

1990 - 1994

  1. Anisotropic Magnetism in Hybridizing Uranium Systems, N. Kioussis, H.J.Yu, B.R. Cooper, Q.G. Sheng, and J.M. Wills, J. Appl. Phys. 73, 5424 (1993).
  2. Effect of Boron and Hydrogen Impurities on the Electronic Structure of Ni3Al, N. Kioussis, H. Watanabe, R.G. Hemker, W. Gourdin. A. Gonis, and P.E. Johnson, Mat. Res. Soc. Symp. Proc. 319, 363 (1994).
  3. Understanding and Predicting Rare Earth and Actinide Correlated Electron Magnetism, B.R. Cooper, Q.G. Sheng, S.P. Lim, C. Sanchez-Castro, N. Kioussis, and J.M. Wills, J. of Alloys and Comp., 181, 83 (1992).
  4. Moment Washout and the Onset to the Heavy Fermion State, B.R. Cooper, Q.G. Sheng, S.P. Lim, C. Sanchez-Castro, N. Kioussis, and J.M. Wills, J. Magn. and Magn. Mater. 108, 10 (1992).
  5. Magnetic Instability with Increasing Hybridization in Cerium Compounds, N. Kioussis, B.R. Cooper, and J.M. Wills, Phys. Rev. B 44, 10003 (1991).
  6. Giant-Magnetic Clusters and Susceptibility Enhancement in Pd-Ni Alloys, N. Kioussis and J.W. Garland, Phys. Rev. Lett. 67, 366 (1991).
  7. Trends of Hybridization-Induced Magnetism in Cerium Monochalcogenides, N. Kioussis, B.R. Cooper, and J.M. Wills, J. Appl. Phys. 69, 5475 (1991).
  8. Absolute Evaluation of Magnetic Ordering in Correlated f-Electron Systems, Q.-G. Sheng, B.R. Cooper, J.M. Wills, and N. Kioussis, J. Appl. Phys. 67, 5194 (1990).
  9. Theory of Magnetization and Exchange-Enhanced Susceptibility of Pd-Ni Alloys, N. Kioussis and J.W. Garland, J. Appl. Phys. 67, 4579 (1990).
  10. Prediction of Magnetic Instability with Increasing Hybridization in Cerium Compounds, N. Kioussis, B.R Cooper, J.M. Wills, and Q.-G. Sheng, Physica B 163, 107 (1990).

1984-1989

  1. Orbitally-Driven Magnetism in Correlated Electron Systems, B.R. Cooper, J. M. Wills, N. Kioussis, and Q.-G. Sheng, J.de Phys. Colloq. C8, 463 (1988).
  2. Trends of Hybridization in Correlated Electron Magnetism, B.R. Cooper, J.M. Wills, N. Kioussis, and Q.-G. Sheng, J. Appl. Phys. 64, 5587 (1988).
  3. Mechanism for Occurence of Paramagnetic Planes Within Magnetically- Ordered Cerium Systems, N. Kioussis, B.R. Cooper, and A. Banerjea, Phys. Rev. B 38, 9132 (1988).
  4. Resonant Band-electron-f-electron Scattering Theory for Highly Correlated Actinide Systems, G.-J. Hu, N. Kioussis, B.R. Cooper, and A. Banerjea, Phys. Rev B 38, 2639 (1988).
  5. Basis of Strong Change of Hybridization-Induced Magnetic Ordering between CeSb and CeTe, N. Kioussis, B.R. Cooper, and J.M. Wills, J. Appl.Phys. 63, 3683 (1988).
  6. Theory of the Magnetization and Exchange-Enhanced Susceptibility of Alloys: II. Zero Temperature Magnetization and Susceptibility in the Presence of Local Moments, N. Kioussis and J.W. Garland, Phys. Rev. B 37, 3626 (1988).
  7. Theory of the Magnetization and Exchange-Enhanced Susceptibility of Alloys I. Zero Temperature Susceptibility of Paramagnetic Alloys in the Random-Phase Approximation, N. Kioussis and J.W. Garland, Phys. Rev. B 37, 3611 (1988).
  8. Resonant Band-f Scattering and the Magnetic Properties of Highly Correlated Actinide Systems, G.-J Hu, N. Kioussis, B.R. Cooper, and A. Banerjea, J. Appl. Phys. 61, 3385 (1987).
  9. Mechanism for Existence of Nonmagnetic Cerium Sites in Magnetically Ordered Cerium Compounds, N. Kioussis, B.R. Cooper, and A. Banerjea, J. Appl. Phys. 61, 3388 (1987).
  10. Theory of Anisotropic Magnetic Behavior in Hybridizing Actinide Systems, B.R. Cooper, G.-J. Hu, N. Kioussis, and J.M. Wills, J. Magn. Magn. Mat. 63-64, 121 (1987).
  11. Theory of Anisotropic Magnetic Behavior of Moderately Delocalized Plutonium Systems, B.R. Cooper, A. Banerjea, N. Kioussis, and J.M. Wills, J. Less Common Metals, 121, 271 (1986).
  12. Anisotropy of Critical Correlations in Moderately Delocalized Cerium and Actinide Systems, N. Kioussis and B.R. Cooper, Phys. Rev. B 34, 3261 (1986).
  13. Critical Correlations in Moderately Delocalized Cerium Compounds, N.Kioussis and B.R. Cooper, J. Magn. Magn. Mat. 54-57, 701 (1986).
  14. A New Thermodynamic Model for the Hard-Core Fluid with a Yukawa Tail, G.A Mansouri and N. Kioussis, J. Chem. Phys. 82, 2076 (1985).
  15. Magnetic Polarization Clouds, Percolation, and the Critical Concentration for Ferromagnetism, J.W. Garland and N. Kioussis, J. Appl.Phys. 55, 2356 (1984).