Unpublished Abstract
(Last update : August, 2001)
H.-S. Sim, K.-H. Ahn, and K. J. Chang,
Effective g-factor in the \nu =1 Quantum Hall Systems,
Bull. Korean Phys. Soc. 14, 478 (1996).
G. Ihm, S. J. Lee, H.-S. Sim, K.-H. Ahn,
and K. J. Chang,
Edge States in a Magnetic Quantum Dot,
Bull. Korean Phys. Soc. 15, 176 (1997).
H.-S. Sim, K. J. Chang, N. Kim, G. Ihm, and S. J. Lee,
Edge States in Nonuniform Magnefic Fields,
Bull. Korean Phys. Soc. 15, 257 (1997).
H.-S. Sim, K. J. Chang, N. Kim, G. Ihm, and S. J. Lee,
Composite Fermion Edge States in Smoothly Varying Confinement Potentials
,
Bull. Korean Phys. Soc. 16, 72 (1998).
H.-S. Sim, K. J. Chang, G. Ihm, N. Kim, and S. J. Lee,
Composite Fermion Edge Channels in Fractional Quantum Hall Systems,
APCTP/ICTP Joint International Conference on Highlight in Condensed Matter
Physics (1998).
G. Ihm, N. Kim, H.-S. Sim, K. J. Chang, and S. J. Lee,
Composite Fermions in a Magnetic Quantum Dot,
International Workshop on Physics and Applications of Semiconductor Quantum
Structures, c21 (1998).
H.-S. Sim, G. Ihm, and K. J. Chang,
Composite Fermion Edge Channels in Fractional Quantum Hall Systems,
International Workshop on Physics and Applications of Semiconductor Quantum
Structures, c43 (1998).
G. Ihm, N. Kim, H.-S. Sim, and K. J. Chang,
Edge States in Magnetic Quantum Structures and Composite Fermion
Systems,
APCTP Winter Workshop on Strongly Correlated Electron Systems,
12 (1999).
H.-S. Sim, G. Ihm, and K. J. Chang,
Theory and Applications of Composite Fermion Edge States,
Proc. of the Symposium '99 on Theoretical Solid State Physics,
(Daiduk, Korea, 1999), p. 21.
H.-S. Sim, C.-J. Park, and K. J. Chang,
Electron Transport Behavior of Metallic Carbon Nanotubes with Defects,
Bull. Korean Phys. Soc. 17, 58 (1999).
H.-S. Sim, C.-J. Park, and K. J. Chang,
Electron Transmission through Carbon Nanotubes with Local Radial
Deformations,
Bull. Korean Phys. Soc. 17, 343 (1999).
H.-S. Sim, C. J. Park, and K. J. Chang,
Conductance of single-wall carbon nanotubes with local flattening
deformations,
Proc. of the Symposium 2000 on Theoretical Solid State Physics,
(Daiduk, Korea, 2000), p. 10.
H.-S. Sim, K. J. Chang, and G. Ihm,
Composite Fermion Transport in Narrow Constrictions,
Bull. Korean Phys. Soc. 18, 90 (2000).
D.-H. Kim, H.-S. Sim, and K. J. Chang,
Antiresonances in Encapsuled Nanotubes,
Bull. Korean Phys. Soc. 18, 342 (2000).
K. J. Chang, Y. H. Kim, and H.-S. Sim,
Electronic Structure of Collapsed C, BN, BC3 Nanotubes,
International Workshop on Quantum Transport in Synthetic Metals II
(Seoul, Korea, August 28-31, 2000).
D.-H. Kim, H.-S. Sim, and K. J. Chang,
Electronic and Transport Properties of Carbon Nanotubes Encapsulating
Fullerene Molecules,
Bull. Korean Phys. Soc. 19, 105 (2001).
D.-H. Kim, H.-S. Sim, and K. J. Chang,
Resonant Transport in Carbon Nanotubes Encapsulating C60,
International Workshop on Quantum Transport in Synthetic Metals and
Quantum Functional Semiconductor (Seoul, Korea, May, 2001), p.75.
H.-S. Sim, G. Ihm, N. Kim, S. J. Lee, and K. J. Chang,
Edge-channel Transport through Quantum Wires with a Magnetic Quantum
Dot,
10th International Conference on Modulated Semiconductor Structures,
MoP50 (Linz, Austria, July 23-27, 2001).