Publications (as of 8/2000)
60. Gas molecules adsorption in SWNTs, in preparation
(2000).
59. Observation of Nanometer-Scale Rolling
Motion Mediated by Commensurate Contact, M.F. Falvo, J. Steele, A. Buldum, J.D.
Schall, R.M. Taylor, J. P. Lu, D. Brenner, R. Superfine, submitted (2000).
58. Effects of Atomic Scale Registry on Contact
Conductance of Nanotubes, in preparation (2000).
57. Contact Resistance of Nanotubes, Alper
Buldum and Jian Ping Lu. Phys. Rev. Lett. Submitted (2000).
56. 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).
55. Lattice-Oriented
Growth of Single-Walled Carbon Nanotubes,
M. Su, Y. Li, B. Maynor, A. Buldum, J. P. Lu, J. Liu, J. Phys.
Chem. (2000).
54. Vibrational modes
of carbon nanotubes and nanoropes, Daniel Kahn and Jian Ping Lu, Phys. Rev.
B 60, 6535-6540 (1999).
53. Band-gap change
of carbon nanotubes: Effect of small uniaxial and torsional strain, Liu Yang,
M.P. Anantram, Jie Han, Jian Ping Lu. Phys. Rev. B 60, 3874-13878 (1999).
52. Atomic Scale
Sliding and Rolling of Carbon Nanotubes, Alper Buldum and Jian Ping Lu. Phys.
Rev. Lett. 83, 5050-5053 (1999).
51. Structural and
electronic properties of germanium clathrates Ge46 and K8Ge46, Jijun Zhao,
Alper Buldum, Jian Ping Lu, C. Y. Fong. Phys. Rev. B 60, 14177-14181 (1999).
50. Structural phase
transition in carbon nanotube bundles under pressure, M. J. Peters, L. E.
McNeil, Jian Ping Lu, Daniel Kahn. Phys. Rev. B 61, 5935-5944 (1999).
49. Existence of Low Dimensional
Chao in a Cerebral Cortical Model, Rochelle Lao, Oleg V. Favorov, Jian Ping Lu,
summitted to Phys. Rev. D. (1999).
48. Carbon Nanotubes and
Nanotube-based Nano Devices, Jianping Lu and Jie Han, Int. J. High Speed
Elec. and Syst., Vol. 9, 101-123 (1998).
47. Structural
Properties and Vibrational Modes of Si34 and Si46 Clathrates, Daniel Kahn and
Jian Ping Lu, Phys. Rev. B 56, 13898
(1997).
46. The Elastic Properties of Carbon Nanotubes
and Nanoropes, Jian Ping Lu, Phys. Rev. Lett. 79, 1297-1301 (1997).
45. The Elastic Properties of Single and
Multilayered Carbon Nanotubes, Jian Ping Lu, J. Phys. Chem. Solids 58,
1649-1652 (1997).
44. Gutzwiller Approximation in Degenerate
Hubbard Models, Jian Ping Lu, Mord. Phys. B 10, 3717-3725, 1996.
43. Magnetic Properties of Nanotubes, Jian Ping
Lu, page 570, Physics and Chemistry of Fullerenes and Derivatives: Proceedings
of the International Winterschool on Electronic Properties of Novel Materials,
edited by H. Kuzmany et al. (World Scientific, 1995).
42. Effects of Orientational Disorder on the
Band Structure and Transport Properties of AxC70, Jian Ping Lu and M. P.
Gelfand, Phys. Rev. B 51, 16615 (1995).
41. Novel Magnetic Properties of Carbon
Nanotubes, Jian Ping Lu, Phys. Rev. Lett. 74, 1123-1126 (1995).
40. Density-Functional Calculations of the
Structure and Stability of C240, Darrin York, Jian Ping Lu, and Weitao Yang,
Phys. Rev. B 49, 8526-8529 (1994).
39. The Shape of Large Single- and
multiple-shell Fullerenes, Jian Ping Lu and Weitao Yang, Phys. Rev. B 49,
11421-11424 (1994).
38. Metal-Insulator Transitions in Degenerate
Hubbard Models and AxC60, Jian Ping Lu, Phys. Rev. B 49, 5687-5690 (1994).
37. Magneto-Transport Properties of Magnetic
Granular Solids, L. Xing, Y. C. Chang, M. B. Salamon, J. Shi, D. Frenkel, and
Jian Ping Lu, Phys. Rev. B 48, 6728-6731 (1993).
36. Orientational Correlations and Order in
A3C60 : Consequences for Density of
States and Conductivity, M. P. Gelfand and Jian Ping Lu, Applied Physics
A 56, 215-217 (1993).
35. Evidence for dx2-y2 Pairing from
Nuclear Magnetic Resonance Experiments in the Superconducting State of
Y1B2Cu3O7, D. Thelen, D. Pines and Jian Ping Lu, Phys. Rev. B 47, 9151-9154
(1993).
34. Comparison of Spin Dynamics in Y1B2Cu3O7-d and La2-xSrxCuO4: Effects of
Fermi-surface Geometry, Q. Si, Y. Zha, K. Levin, and Jian Ping Lu, Phys. Rev. B
47, 9055-9076 (1993).
33. Electron Transport in Metallic Quantum Wire:
Effects of Surface Scattering due to Random Roughness, K. Arya, Jian Ping Lu
and J. L. Birman, preprint, 37 pages.
32. Magnetic Interactions in the Metallic Phase
of the Copper Oxides: a Fermi Liquid Description, Q. Si, Jian Ping Lu, Q. Si,
and K. Levin, Physical Rev. B 45, 4930-4940 (1993).
31. Thermal Conductivity of an Untwinned Single Crystal and a New Interpretation of
the Superconducting-State Thermal Transport, R. Yu, M. Salamon, Jian Ping Lu
and W. Lee, Phys. Rev. Lett. 69, 1431-1434 (1992).
30. Orientational Disorder and Normal-state
Electronic-transport Properties of A3C60, M. Gelfand and Jian Ping Lu, Phys.
Rev. B 46, 4367-4370 (1992).
29. Ground State and Phase Transitions in Solid
C60, Jian Ping Lu, X.-P. Li and R. M. Martin, Phys. Rev. Lett. 68, 1551-1554
(1992).
28. Orientational Disorder and Electronic States
in C60 and AxC60, M. Gelfand and Jian Ping Lu, Phys. Rev. Lett. 68, 1050-1053
(1992).
27. Ground State Properties of Solid C60 from an Empirical Intermolecular
Potential, X. Li, Jian Ping Lu and R. Martin, Phys. Rev. B, 46, 4301-4303
(1992).
26. Pairing Instabilities in the 2D Hubbard
Model, A. Chubukov and Jian Ping Lu, Phys. Rev. B 46, 11163-11166 (1992).
25. Temperature Dependence of Cu Nuclear
Relaxation Rates and the Anisotropy in
Below : Evidence for an
Unconventional Pairing State, Jian Ping Lu, Mod. Phys. Lett. B, 6, 547-554
(1992).
24. Magnetic Interactions in the Metallic Phase
of the Copper Oxides: a Fermi Liquid Description, Q. Si, Jian Ping Lu, and K.
Levin, Phys. Rev. B 45, 4930-4933 (1992).
23. Neutron Scattering as a Probe for
Unconventional Pairing States, Jian Ping Lu, Phys. Rev. Lett. 68, 125-128
(1992).
22. Pairing of Spinless Fermions in Two
Dimensions, Jian Ping Lu and W. Barford, Phys. Rev. B 44, 5263-5268 (1991).
21. Phase Diagram of the t-J model: A
Semiclassical Calculation, W. Barford and Jian Ping Lu, Phys. Rev. B 43,
3540-3548 (1991).
20. Microscopic Fermi Liquid Theory of NMR
Relaxation and Neutron Scattering in the Metallic Copper Oxides, Jian Ping Lu,
Q. Si, J.H. Kim and K. Levin, Physica C 179, 191-206 (1991).
19. Current Status of Fermi Liquid Based
Approaches to the Cuprates, K. Levin, Q. Si, J.H. Kim and Jian Ping Lu, pages
481-492, Proceedings of the University of Miami Workshop on Electronic Structure
and Mechanisms for HTCS, Plenum (1991).
18. Normal State Properties of the Cuprates and
Their Fermi Liquid Based
Interpretation, K. Levin, J.H. Kim, Jian Ping Lu, and Q. Si, Physica
C175, Review, 449-522 (1991).
17. Magnetic Interactions in the Metallic Phase
of the Copper Oxides: a Fermi Liquid Description, Q. Si, Jian Ping Lu, Q. Si,
and K. Levin, Physica C 172, 481-485 (1991).
16. Phenomenological Description of the Copper
Oxides as Almost Localized Fermi
Liquids Q. Si, J. Kim, Jian Ping Lu and K. Levin, Phys. Rev. B Rapid. Comm. 42,
1033-1036 (1990).
15. NMR Relaxation and Neutron Scattering in a
Fermi Liquid Picture of the Metallic Copper Oxides, Jian Ping Lu, Q. Si, J.H.
Kim and K. Levin, Phys. Rev. Lett. 65, 2466-2469 (1990).
14. Spin Polarons in High-Tc Copper Oxides:
Differences Between the Electron and Hole Doped Systems Jian Ping Lu and Q. Si,
Phys. Rev. B 42, 950-953 (1990).
13. Metallic Copper Oxide as an Almost Localized
Fermi Liquid J. Kim, Q. Si, Jian Ping Lu and K. Levin, Physica B 163, 275-277
(1990).
12. Magnetic Interactions in the Metallic Phase
of the Copper Oxides Q. Si, Jian Ping
Lu and K. Levin, Physica C 162-164, 1467-1468 (1989).
11. Competition Between Magnetic and Fermi
Liquid Phase in the Copper Oxides, Jian Ping Lu, Q. Si and K. Levin, Physica C
162-164, 1465-1466 (1989).
10. Microscopic Model for High Tc Oxide
Superconductors, Jian Ping Lu, K. Arya and J. L. Birman, Phys. Rev. B Rapid.
Comm. 40, 7372-7375 (1989).
9. Competing Order Parameters for Increased
Tc in Polytypes Multilayer Cu-O Systems, Jian Ping Lu and J. L. Birman,
Phys. Rev. B 39, 2238-2244 (1989).
8. Interacting Order Parameter Model for Increased in Polytypes of the Cu-O Systems, Jian Ping Lu and J. L. Birman, Mod.
Phys. Lett. B 2, 1297-1302 (1988).
7. Wave Propagation in Periodic,
Incommensurate, Quasiperiodic and Random
Systems, Jian Ping Lu and J. L. Birman, Phys. Rev. B 38, 8067-8074
(1988).
6. Electronic Structure of a Quasiperiodic
System, Jian Ping Lu and J. L. Birman, Phys. Rev. B Rapid. Comm. 36, 4471-4474
(1987).
5. 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).
4. Percolation and Scaling on a Quasilattice,
Jian Ping Lu and J. L. Birman, J. Stat. Phys. 46, 1057-1066 (1987).
3. Studies in Quasilattice: Mistakes and Long
Range Correlation, Jian Ping Lu and J. L. Birman, J. de Phys. C3, 251-258
(1986).
2. Mistakes in Quasilattice, Jian Ping Lu and
J. L. Birman, Phys. Rev. Lett. 57, 2706-2709 (1986).
1. Properties of One Dimensional Quasilattices,
Jian Ping Lu, T. Odagaki and J. L. Birman, Phys. Rev. B 33, 4809-4816 (1986).