Experience and Life of Wu Gang
Home
About Me
My Publications
My Photos
My Dragon Cave
Mylo2
Contact Me
Site Map
Publication List:
(Following articles may be downloaded for personal use only. Their copyrights belong to the corresponding publishers. Any other use requires prior permission of the author and the publishers.)
 
1. Characteristics of the wave function of coupled oscillators in semiquantum chaos, Gang Wu and Jinming Dong, Physics Letters A 300, 199 (2002).
2. Control of semiquantum chaos by the nonfeedback method, Baowei Liu, Jinming Dong, Gang Wu and Weizhong He, Chinese Physics Letters 19, 1763 (2002).
3. Noise-induced order phenomenon in semiquantum system, Gang Wu and Jinming Dong, Physics Letters A 308, 391 (2003).
4. Heat conduction in a carbon chain, Na Wei, Gang Wu, and Jinming Dong, Physics Letters A 325, 403 (2004).
5. Linear optical properties of deformed carbon nanotubes, Hui Jiang, Gang Wu, Xiaoping Yang and Jinming Dong, Physical Review B 70, 125404 (2004).
6. Anomalous heat conduction in a carbon nanowire: Molecular dynamics calculations, Gang Wu and Jinming Dong, Physical Review B 71, 115410 (2005).
7. Raman modes of the deformed single-wall carbon nanotubes, Gang Wu, Jian Zhou and Jinming Dong, Physical Review B 72, 115411 (2005).
8. Radial-breathing-like phonon modes of double-walled carbon nanotubes, Gang Wu, Jian Zhou and Jinming Dong, Physical Review B 72, 115418 (2005).
9. Radial breathinglike mode of the collapsed single-walled carbon nanotube bundle under hydrostatic pressure, Gang Wu, Xiaoping Yang, and Jinming Dong, Appl. Phys. Lett. 88, 223114 (2006).
10. Raman characteristic peaks induced by the topological defects of carbon nanotube intramolecular junctions, Gang Wu and Jinming Dong, Phys. Rev. B 73, 245414 (2006).
11. Single-walled carbon nanotube bundle under hydrostatic pressure studied by first-principles calculations, Xiaoping Yang, Gang Wu and Jinming Dong, Phys. Rev. B 73, 235403 (2006).
12. Nonlinear optical susceptibility of deformed achiral carbon nanotubes studied from first-principles calculations, Jian Zhou, Hongming Weng, Gang Wu, and Jinming Dong, Appl. Phys. Lett. 89, 013102 (2006).
13. Structural transformations of double-walled carbon nanotube bundle under hydrostatic pressure, Xiaoping Yang, Gang Wu, and Jinming Dong, Appl. Phys. Lett. 89, 113101 (2006).
14. Thermal rectification in carbon nanotube intramolecular junctions: Molecular dynamics calculations, Gang Wu and Baowen Li, Phys. Rev. B 76, 085424 (2007).
15. The study of structural, electronic and optical properties of double-walled carbon nanotube bundles under hydrostatic pressure, Xiaoping Yang and Gang Wu, Europhysics Letters 81, 47003 (2008).
16. G-band variation of individual single-walled carbon nanotubes under torsional strain, Gao B, Duan XJ, Zhang J, Wu Gang, Dong JM, Liu ZF, J. Phys. Chem. C 112, 10789 (2008).

17. Thermal rectifiers from deformed carbon nanohorns, Gang Wu and Baowen Li, J. Phys.: Condens. Matter 20, 175211(2008). (The legend of Fig. 3 is wrong. Red line is for elongated structure, and blue line is for undeformed horn.) [Old version]

18. Density-gradient-corrected embedded atom method, Gang Wu, Gang Lu, Carlos J. García-Cervera, and Weinan E, Phys. Rev. B 79, 035124 (2009).

(The program package to perform the energy and force calculations by using the Gradient Corrected Embedded Atom Method (GCEAM) potential can be found here. The original tex file can be found on arXiv:0901.4594v1 [cond-mat.mes-hall].)

(The absolute errors in Figure 6 is in the unit of J/m^2. This point can be seen from the comparison between Fig. 6 and Table I.)
(There are two more references which explain the importance of the gradient-correction. See:

    L.D. Roelofs, S.M. Foiles, M.S. Daw, and M.I. Baskes, Surface Science vol. 234, 63 (1990).
    Edmund B. Webb III and Gary S. Grest, Phys. Rev. Lett. 86, 2066 (2001).
  Thanks Dr. Edmund B. Webb III for reminding us.)

19. Structural and vibrational properties of deformed carbon nanotubes, Xiao-ping YANG, Gang WU, Jin-ming DONG, Front. Phys. China 4(3): 280 (2009). (Invited review article)

20. Itinerant Flat-Band Magnetism in Hydrogenated Carbon Nanotubes, Xiaoping Yang and Gang Wu.

 

 

My Doctoral thesis: The theoretical investigation on the vibrational properties and Raman spectra of Single-walled carbon nanotubes and their composites. (in Chinese, 《碳纳米管及其复合结构中的声子和拉曼谱的理论研究》).

 

 

Seminar/Symposia/Schools Attended/Presented Paper/Poster:

 

1. The 7th Asian Workshop on First-Principles Electronic Structure Calculations, Tamkang University, Taipei, Taiwan, November 1-3, 2004.
Poster presentation of paper "Anomalous heat conduction in a carbon nanowire: Molecular dynamics calculations"


2. ICTP-NSFC-ICTS Asian/Pacific Regional School on: "Electronic Structure Methods and Their Applications", Chinese Academy of Sciences, Beijing, P.R. China, July 19-30, 2004.


3. International Workshop on Transmission of Information and Energy in Nonlinear and Complex Systems, University of Singapore, Singapore, August 1-4, 2006.


4. Dynamical Chaos and Non-equilibrium Statistical Mechanics: From Rigorous Results to Applications in Nano-systems, University of Singapore, Singapore, 1 Aug. - 30 Sep. 2006.

 

5. 4th International Conference on Materials for Advanced Technologies (ICMAT 2007) 1 to 6 July 2007, Singapore.

Poster presentation of paper "Radial Breathing Mode (RBM) of the Collapsed Single-walled carbon nanotube (SWNT) Bundle Under Hydrostatic Pressure" and "Asymmetric Heat Conduction in Deformed Carbon Nanohorns".

 

6. Itinerant Flat-Band Magnetism in Hydrogenated Carbon Nanotubes (ICMAT 2009) June 29 to July 3, 2009, Singapore.

Poster presentation "Itinerant Flat-Band Magnetism in Hydrogenated Carbon Nanotubes" with Dr. Yang Xiaoping. This poster is selected as the "Best Poster".