PUBLICATIONS

Jian Ping Lu

 


Refereed Journal Articles:

 

  1. Properties of one-dimensional quasilattices
    J. P. Lu, T. Odagaki, and J. L. Birman
    Phys. Rev. B 33, 4809-4817 (1986).
  2. STUDIES ON QUASI-LATTICES - MISTAKES AND LONG-RANGE CORRELATION IN ONE DIMENSION
    LU, JP; BIRMAN, JL
    J PHYS-PARIS, 47 (C-3): 251-258 JUL 1986
  3. Mistakes in Quasilattices
    J. P. Lu and J. L. Birman
    Phys. Rev. Lett. 57, 2706-2709 (1986) .
  4. Electronic structure of a quasiperiodic system
    J. P. Lu and J. L. Birman
    Phys. Rev. B 36, 4471-4474 (1987).
  5. PERCOLATION AND SCALING ON A QUASI-LATTICE
    LU JP
    , BIRMAN JL
    J STAT PHYS 46 (5-6): 1057-1066 MAR 1987
  6. Acoustic-wave propagation in quasiperiodic, incommensurate, and random systems
    J. P. Lu and J. L. Birman
    Phys. Rev. B 38, 8067-8074 (1988).
  7. Competing order parameters for increased Tc in "polytype" multilayer Cu-O systems
    J. L. Birman and J.-P. Lu
    Phys. Rev. B 39, 2238-2244 (1989).
  8. Microscopic model for high-Tc oxide superconductors
    J. P. Lu, K. Arya, and J. L. Birman
    Phys. Rev. B 40, 7372-7375 (1989).
  9. COMPETITION BETWEEN MAGNETIC AND FERMI-LIQUID PHASES IN THE COPPER OXIDES
    LU JP, SI QM, LEVIN K
    PHYSICA C 162: 1465-1466 Part 2 DEC 1989.
  10. MAGNETIC-INTERACTIONS IN THE METALLIC PHASE OF THE COPPER OXIDES
    SI QM, LU JP, LEVIN K
    PHYSICA C 162: 1467-1468 Part 2 DEC 1989.
  11. Spin polarons in high-Tc copper oxides: Differences between electron- and hole-doped systems
    J. P. Lu and Q. Si
    Phys. Rev. B 42, 950-953 (1990).
  12. METALLIC COPPER-OXIDE AS AN ALMOST LOCALIZED FERMI-LIQUID
    KIM JH, SI QM, LU JP, LEVIN K
    PHYSICA B 163 (1-3): 275-277 APR 1990
  13. Phenomenological description of the copper oxides as almost localized Fermi liquids
    Q. Si, J. H. Kim, J. P. Lu, and K. Levin
    Phys. Rev. B 42, 1033-1036 (1990).
  14. NMR relaxation and neutron scattering in a Fermi-liquid picture of the metallic copper oxides
    J. P. Lu, Q. Si, J. H. Kim, and K. Levin
    Phys. Rev. Lett. 65, 2466-2469 (1990).
  15. Phase diagram of the t-J model: A semiclassical calculation
    W. Barford and J. P. Lu
    Phys. Rev. B 43, 3540-3548 (1991).
  16. Pairing of spinless fermions in two dimensions
    J. P. Lu and W. Barford
    Phys. Rev. B 44, 5263-5268 (1991).
  17. MAGNETIC-INTERACTIONS IN THE METALLIC PHASE OF THE COPPER OXIDES - A FERMI-LIQUID DESCRIPTION
    SI QM, LU JP, LEVIN K
    PHYSICA C 172 (5-6): 481-485 JAN 1 1991.
  18. NORMAL STATE PROPERTIES IN THE CUPRATES AND THEIR FERMI-LIQUID BASED INTERPRETATION
    LEVIN K, KIM JH, LU JP, SI QM
    PHYSICA C 175 (5-6): 449-522 MAY 1 1991
  19. MICROSCOPIC FERMI-LIQUID THEORY OF NMR RELAXATION AND NEUTRON-SCATTERING IN THE METALLIC COPPER OXIDES
    LU JP, SI QM, KIM JH, LEVIN K
    PHYSICA C 179 (1-3): 191-206 AUG 15 1991
  20. FROM FERMIOLOGY TO SPIN DYNAMICS - CURRENT STATUS OF FERMI-LIQUID BASED APPROACHES TO THE CUPRATES
    LEVIN K, SI QA, ZHA YY, JU HK, LU JP
    J PHYS CHEM SOLIDS 52 (11-12): 1337-1348 1991
  21. Magnetic interactions in the metallic phase of the copper oxides: A Fermi-liquid description
    Q. Si, J. P. Lu, and K. Levin
    Phys. Rev. B 45, 4930-4940 (1992).
  22. Temperature Dependence of Cu Nuclear Relaxation Rates and the Anisotropy in  YBa2Cu3O7-d Below Tc: Evidence for an Unconventional Pairing State
    Jian Ping Lu
    Mod. Phys. Lett. B, 6, 547-554 (1992).
  23. Neutron scattering as a probe for unconventional superconducting states
    J. P. Lu
    Phys. Rev. Lett. 68, 125-128 (1992).
  24. Orientational Disorder and Electronic States in C60 and A3C60, where A is an Alkali Metal
    M. P. Gelfand and J. P. Lu
    Phys. Rev. Lett. 68, 1050-1053 (1992).
  25. Ground state and phase transitions in solid C60
    J. P. Lu, X.–P. Li, and R. M. Martin
    Phys. Rev. Lett. 68, 1551-1554 (1992).
  26. Ground-state structural and dynamical properties of solid C60 from an empirical intermolecular potential
    X.–P. Li, J. P. Lu, and R. M. Martin
    Phys. Rev. B 46, 4301-4303 (1992).
  27. Orientational disorder and normal-state electronic-transport properties of A3C60
    M. P. Gelfand and J. P. Lu
    Phys. Rev. B 46, 4367-4370 (1992).
  28. Pairing instabilities in the two-dimensional Hubbard model
    A. V. Chubukov and J. P. Lu
    Phys. Rev. B 46, 11163-11166 (1992).
  29. Thermal conductivity of an untwinned YBa2Cu3O7-d single crystal and a new interpretation of the superconducting state thermal transport
    R. C. Yu, M. B. Salamon, J. P. Lu, and W. C. Lee
    Phys. Rev. Lett. 69, 1431-1434 (1992).
  30. ORIENTATIONAL CORRELATIONS AND ORDER IN A3C60 - CONSEQUENCES FOR DENSITY OF STATES AND CONDUCTIVITY
    GELFAND, MP; LU, JP
    APPL PHYS A-MATER, 56 (3): 215-217 MAR 1993.
  31. COMPARISON OF SPIN DYNAMICS IN YBA2CU3O7-DELTA AND LA2-XSRXCUO4 - EFFECTS OF FERMI-SURFACE GEOMETRY
    SI QM, ZHA YY, LEVIN K, LU JP
    PHYS REV B, 47 (14): 9055-9076 APR 1 1993.
  32. SUPERCONDUCTING-STATE THERMAL TRANSPORT IN YBA2CU3O7-DELTA - REPLY
    YU RC, SALAMON MB, LU JP
    PHYS REV LETT 71 (10): 1658-1658 SEP 6 1993
  33. Erratum: Orientational disorder and normal-state electronic-transport properties of A3C90
    M. P. Gelfand and J. P. Lu
    Phys. Rev. B 47, 4149-4150 (1993).
  34. Magnetotransport properties of magnetic granular solids: The role of unfilled d bands
    L. Xing, Y. C. Chang, M. B. Salamon, D. M. Frenkel, J. Shi, and J. P. Lu
    Phys. Rev. B 48, 6728-6731 (1993).
  35. Evidence for d2x-y2 pairing from nuclear-magnetic-resonance experiments in the superconducting state of YBa2Cu3O7
    D. Thelen, D. Pines, and J. P. Lu
    Phys. Rev. B 47, 9151-9154 (1993).
  36. Metal-insulator transitions in degenerate Hubbard models and AxC60
    J. P. Lu
    Phys. Rev. B 49, 5687-5690 (1994).
  37. Density-functional calculations of the structure and stability of C240
    D. York, J. P. Lu, and W. Yang
    Phys. Rev. B 49, 8526-8528 (1994).
  38. Shape of large single- and multiple-shell fullerenes
    J. P. Lu and W. Yang
    Phys. Rev. B 49, 11421-11424 (1994).
  39. Effects of orientational disorder on the electronic structure and transport in AxC70
    J. P. Lu and M. P. Gelfand
    Phys. Rev. B 51, 16615-16618 (1995).
  40. Novel Magnetic Properties of Carbon Nanotubes
    J. P. Lu
    Phys. Rev. Lett. 74, 1123-1126 (1995).
  41. Gutzwiller approximation in degenerate Hubbard models
    Lu JP

    INT J MOD PHYS B 10 (27): 3717-3725 DEC 15 1996.
  42. Structural properties and vibrational modes of Si34 and Si46 clathrates
    D. Kahn and J. P. Lu
    Phys. Rev. B 56, 13898-13901 (1997).
  43. Elastic Properties of Carbon Nanotubes and Nanoropes
    J. P. Lu
    Phys. Rev. Lett. 79, 1297-1300 (1997).
  44. Elastic properties of single and multilayered nanotubes
    Lu JP

    J PHYS CHEM SOLIDS 58 (11): 1649-1652 NOV 1997.
  45. Carbon Nanotubes and Nanotube-based Nano Devices
    Jianping Lu and Jie Han,
    Int. J. High Speed Elec. and Syst., Vol. 9, 101-123 (1998).
  46. Vibrational modes of carbon nanotubes and nanoropes
    D. Kahn and J. P. Lu
    Phys. Rev. B 60, 6535-6540 (1999).
  47. Structural and electronic properties of germanium clathrates Ge46 and K8Ge46
    J. Zhao, A. Buldum, J. P. Lu, and C. Y. Fong
    Phys. Rev. B 60, 14177-14181 (1999).

 

 

 

 

  1. Band-gap change of carbon nanotubes: Effect of small uniaxial and torsional strain
     Liu Yang, M.P. Anantram, Jie Han and Jian Ping Lu
    Phys. Rev. B 60, 13874-13878 (1999).
  2. Atomic Scale Sliding and Rolling of Carbon Nanotubes
    A. Buldum and J. P. Lu
    Phys. Rev. Lett. 83, 5050-5053 (1999).
  3. Structural phase transition in carbon nanotube bundles under pressure
    M. J. Peters, L. E. McNeil, J. P. Lu, and D. Kahn
    Phys. Rev. B 61, 5939-5944 (2000).
  4. First-Principles Study of Li-Intercalated Carbon Nanotube Ropes
    J. Zhao, A. Buldum, J. Han, and J. P. Lu
    Phys. Rev. Lett. 85, 1706-1709 (2000).
  5. Lattice-oriented growth of single-walled carbon nanotubes
    Su M, Li Y, Maynor B, Buldum A, Lu JP, Liu J
    J PHYS CHEM B 104 (28): 6505-6508 JUL 20 2000.
  6. Gas Molecules Adsorption on Carbon Nanotubes
    Jijun Zhao, Alper Buldum, Jie Han, Jian Ping Lu
    Mat. Res. Soc. Symp. Vol. 633,  A133.48.1(2001).
  7. Quantum Transport Through Intermolecular Nanotube Junctions
    Alper Buldum and Jian Ping Lu
    Mat. Res. Soc. Symp. Vol. 633,  A3.3.1(2001).
  8. Contact resistance between carbon nanotubes
    A. Buldum and J. P. Lu
    Phys. Rev. B 63, 161403 (2001).
  9. Nonlinear dynamical properties of a somatosensory cortical model
    Lao R, Favorov OV, Lu JP
    INFORM SCIENCES 132 (1-4): 53-66 FEB 2001.
  10. Work functions of pristine and alkali-metal intercalated carbon nanotubes and bundles
    J. Zhao, J. Han, and J. P. Lu
    Phys. Rev. B 65, 193401 (2002).
  11. Binding energies and electronic structures of adsorbed titanium chains on carbon nanotubes
    C.-K. Yang, J. Zhao, and J. P. Lu
    Phys. Rev. B 66, 041403 (2002).
  12. Pressure-induced metallization in solid boron
    J. Zhao and J. P. Lu
    Phys. Rev. B 66, 092101 (2002).
  13. Gas molecule adsorption in carbon nanotubes and nanotube bundles
    Zhao JJ, Buldum A, Han J, Lu JP
    NANOTECHNOLOGY 13 (2): 195-200 APR 2002
  14. Generation of continuous and pulsed diagnostic imaging x-ray radiation using a carbon-nanotube-based field-emission cathode
    G. Z. Yue, Q. Qiu, Bo Gao, Y. Cheng, J. Zhang, H. Shimoda, S. Chang, J. P. Lu, and O. Zhou
    Appl. Phys. Lett. 81, 355-357 (2002).
  15. Quantum interference effects in electronic transport through nanotube contacts
    C. Buia, A. Buldum, and J. P. Lu
    Phys. Rev. B 67, 113409 (2003).
  16. Magnetism of Transition-Metal/Carbon-Nanotube Hybrid Structures
    C.-K. Yang, J. Zhao, and J. P. Lu
    Phys. Rev. Lett. 90, 257203 (2003).
  17. Gas adsorption in single-walled carbon nanotubes studied by NMR
    A. Kleinhammes, S.-H. Mao, X.-J. Yang, X.-P. Tang, H. Shimoda, J. P. Lu, O. Zhou, and Y. Wu
    Phys. Rev. B 68, 075418 (2003)
  18. Noncovalent functionalization of carbon nanotubes by aromatic organic molecules
    Jijun Zhao, Jian Ping Lu, Jie Han, and Chih-Kai Yang
    Appl. Phys. Lett. 82, 3746-3748 (2003).
  19. Quantum transport properties of ultrathin silver nanowires
    Zhao JJ, Buia CL, Han J, Lu JP
    NANOTECHNOLOGY 14 (5): 501-504 MAY 2003.
  20. A nonorthogonal tight-binding total energy model for molecular simulations
    Jijun Zhao and Jian Ping Lu
    PHYS LETT A, 319 (5-6): 523-529 DEC 15 2003.
  21. Electronic properties of carbon nanotubes with covalent sidewall functionalization
    Jijun Zhao, Hyoungki Park, Jie Han, Jian Ping Lu
    J PHYS CHEM B, 108 (14): 4227-4230 APR 8 (2003).
  22. Electron Field Emission Properties of Closed Carbon Nanotubes
    Alper Buldum and Jian Ping Lu
    Phys. Rev. Lett. 91, 236801 (2003).
  23. Modeling and simulations of carbon nanotubes and their junctions on surfaces
    Alper Buldum and Jian Ping Lu
    APPL SURF SCI, 219 (1-2): 123-128 OCT 15 2003.
  24. Electron field emission from carbon nanotubes: Modeling and simulations
    Alper Buldum and Jian Ping Lu
    MOL SIMULAT, 30 (4): 199-203 (2004).
  25. Complete Spin Polarization for a Carbon Nanotube with an Adsorbed Atomic Transition-Metal Chain
    Chih-Kai Yang, Jijun Zhao, and Jian Ping Lu
    Nano Letter 4,  561-563 (2004).
  26. Effect of residual catalyst on the vibrational modes of single-walled carbon nanotubes
    L. McNeil, H. Park, J.P. Lu, M. Peters
    J. of Appl. Phys. 96, 5158-5162 (2004).
  27. Calculation of Electronic structures of Ge44Mn2Ba8 and Ge42Mn4Ba8 clathrates
    C. Yang, J. Zhao, and J.P. Lu
    Phys. Rev. B 70, 073201 (2004).
  28. Dynamic radiography using a carbon-nanotube-based field-emission x-ray source
    Y. Cheng, J. Zhang, Y.Z. Lee, B. Gao, S. Dike, W. Lin, J. P. Lu, and O. Zhou,
    Rev. Sci. Inst., 75(10): p. 3264. (2004).
  29. Novel Micro-CT based on a Carbon Nanotube Field Emission X-ray Source
    Yueh Z. Lee, Yuan Cheng, Jian Zhang, Bo Gao, Otto Zhou, Jianping Lu, David Lalush, Weili Lin
    Radiology, submitted 2003.
  30. Distinct properties of covalently functionalized carbon nanotubes
    Hyoungki Park, Jijun Zhao, and Jian Ping Lu
    Nanotechnology 16, 635-638 (2005).
  31. Engineering the Electronic Structure of Single-Walled Carbon Nanotubes by Chemical Functionalization
    Jijun Zhao, Zhongfang Chen, Hyoungki Park, Paul von Ragué Schleyer, Jian Ping Lu
    ChemPhysChem 6, 598-601 (2005).
  32. A stationary scanning x-ray source based on carbon nanotube field emitters
    J. Zhang, G. Yang, Y. Cheng, B. Gao, Q. Qiu, Y.Z. Lee, J.P. Lu and O. Zhou
    Appl. Phys. Lett. 86, 184104 (2005).

Proceedings:

  1. Symmetry of Quasiperiodic Lattices and Decomposability of Crystallographic Point Group
    Jian Ping Lu and J. L. Birman
    Proceeding of XV International Colloquium on Group Theoretical Methods in Physics, pages 270-277, World Scientific (1987).
  2. Current Status of Fermi Liquid Based Approaches to the Cuprates
    K. Levin, Q. Si, J.H. Kim and Jian Ping Lu
     Proceedings of the
    University of Miami Workshop on Electronic Structure and Mechanisms for HTCS, pages 481-492, Plenum (1991).
  3. Magnetic Properties of Nanotubes
    Jian Ping Lu
    Physics and Chemistry of Fullerenes and Derivatives: Proceedings of the International Winterschool on Electronic Properties of Novel
    Materials, edited by H. Kuzmany et al., page 570 (World Scientific, 1995).
  4. Electron Field Emission Properties of Single-walled Carbon Nanotubes: Modeling and Simulations
    Alper Buldum and Jian Ping Lu
    Nanotech 2003 Vol. 3, page 297-300, Technical Proceedings of the 2003 Nanotechnology Conference and Trade Show, Volume 3.
  5. MINIATURE X-RAY TUBES UTILIZING CARBON NANOTUBE-BASED COLD CATHODES
    A. Reyes-Mena, D. Clark Turner, Erik Bard and Charles Jensen, Qi Qiu, Bo Gao, Jianping Lu, and Otto Zhou
    53 Annual Denver X-ray Conference Proceeding, 2004.

 


Patents:

 

 

  1. X-ray generating mechanism using electron field emission cathode
    O. Zhou and J. Lu
    US Patent 6,553,096, filed October 6, 2000, published April 22, 2003.
  2. X-ray generating mechanism using electron field emission cathode
    O. Zhou and
    J. Lu
    US Patent
    6,850,595 filed Dec. 4, 2003, published Feb. 1, 2005.
  3. Large-area individually addressable multi-beam x-ray system and method of forming same
    O. Zhou, J. Lu, Q. Qiu
    US Patent 6,876724, filed January 22, 2002, published April 5, 2005.
  4. X-ray generating mechanism using electron field emission cathode
    O. Zhou and J. Lu
    US Patent application 20030142790, filed December 4, 2002.
  5. Methods of Controlling Electron Beam Current in Field Emission Cold Cathode X-ray Tubes
    J. Lu, O. Zhou, and Y. Cheng
    US Patent Application 20040028282, file Feb. 5, 2003.
  6. Computed Tomography System for Imaging of Human and Small Animal
    O. Zhou, J. Lu, Y. Lee, W. Lin, Y. Cheng, and J. Zhang
    US Patent Application 20040213378, filed April 24, 2003.
  7. Devices and methods for producing multiple X-ray beams from multiple locations
    Q. Qiu, J. Lu, O. Zhou
    US Patent application 20040240616, filed May 30, 2003
  8. Devices and methods for producing multiple X-ray beams from multiple locations
    Q. Qiu, J. Lu, O. Zhou
    US Patent application 20040114721, filed July 9, 2003
  9. FIELD EMISSION ION SOURCE BASED ON NANOSTRUCTURE-CONTAINING MATERIAL
    Otto Z. ZHOU, Jianping LU, Changkun DONG,  Bo GAO
    US Patent Application, 2004.




Talks: