List of Publications of Y

List of Publications of Y. C. Chang

A. Highly cited papers (number of citations as indicated in the square bracket is obtained from isihighlycited.com)

1. A comprehensive Study of Si Doped Ga_1-xAl_xAs (x=0 to 1): Theory and Experiment, N. Chand, T. Henderson, J. Klem, W. T. Masselink, R. Fisher, Y. C. Chang, and H. Morkoc, Phys. Rev. B 30, 4481-92 (1984). . [330]

2. Energy Spectra of Donors in GaAs-Ga_1-xAl_xAs Quantum Well Structures in the Effective Mass Approximation, C. Mailhiot, Y. C. Chang and T. C. McGill, Phys. Rev. B 26, 4449-57 (1982). [317]

3. Theory of Optical Properties of Quantum Wires in Porous Si, G. D. Sanders and Y. C. Chang*, Phys. Rev. B 45, 9202 (1992). [269]

4. Band Mixing in Semiconductor Superlattices, J. N. Schulman and Y. C. Chang, Phys. Rev. B 31, 2056 (1985). [236]

5. Interband Transitions in GaAs-Ga_1-xAl_xAs and InAs-GaSb Superlattices, Y. C. Chang* and J. N. Schulman, Phys. Rev. B 31, 2069 (1985). [226]

6. Saturation of Intervalence-band Transitions in p-type Semiconductor Quantum Wells, Y. C. Chang* and R. B. James, Phys. Rev. B 39, 12672 (1989). [170]

7. Absorption Coefficients and Exciton Oscillator Strengths in AlGaAs-GaAs Superlattices, W. T. Masselink, P. J. Pearah, J. Klem, C. K. Peng, H. Morkoc, G. D. Sanders and Y. C. Chang, Phys. Rev. B 32, 8027-34 (1985). [143]

8. Theory of Photoabsorption in Modulation Doped GaAs-Ga_1-xAl_xAs Quantum Wells, G. D. Sanders and Y. C. Chang* , Phys. Rev. B 35, 1300-15 (1987). [143]

9. Effect of Band Hybridization on the Exciton States in GaAs-Ga_1-xAl_xAs Quantum Wells, G. D. Sanders and Y. C. Chang*, Phys. Rev. B 32, 5517-20 (1985). [138]

10. Theory of Dielectric Function Anisotropies of (001) GaAs (2X1) Surfaces, Y. C. Chang* and D. E. Aspnes, Phys. Rev. B 41, 1200 (1990). [133]

11. Binding Energies of Acceptors in GaAs-Ga_1-xAl_xAs Quantum Wells, W. T. Masselink, Y. C. Chang*, and H. Morkoc, Phys. Rev. B 28, 7373-6 (1983). [130]

12. Theory of Phonon Dispersion Relations in Semiconductor Superlattices, S. K. Yip and Y. C. Chang*, Phys. Rev. B 30, 7037-59 (1984). [127]

13. Acceptor Spectra of GaAs-Ga_1-xAl_xAs Quantum Wells in External Fields: Electric, Magnetic, and Uniaxial Stress, W. T. Masselink, H. Morkoc, and Y. C. Chang, Phys. Rev. B 32, 5190-5201 (1985) [128]

14. New Evidence of Valence Band Mixing in GaAs Quantum Wells through Photoluminescence Studies, R. C. Miller, a. C. Gosard, G. D. Sanders, Y. C. Chang, and J. N. Schulman, Phys. Rev. B 32, 8452 (1985). [118]

15. Modification of Optical Properties of GaAs-Ga_1-xAl_xAs Superlattices due to Band Mixing, Y. C. Chang* and J. N. Schulman, Appl. Phys. Lett. 43, 536-8 (1983). [113]

16. Bond-orbital Models for Superlattices, Y. C. Chang, Phys. Rev. B 37, 8215 (1988). [108]

17. New Method for Calculating Electronic Properties of Superlattices Using Complex Band Structures, J. N. Schulman and Y. C. Chang, Phys. Rev. B24, 4445-8 (1981). [113]

18. Complex Band Structures of Crystalline Solids: An Eigenvalue Method, Y. C. Chang* and J. N. Schulman, Phys. Rev. B 25, 3975-86 (1982). [107]

19. A New One-Dimensional Quantum Well Structures, Y. C. Chang*, L. L. Chang, L. Esaki, Appl. Phys. Lett. 47, 1324-6 (1985). [106]

20. Optical Properties in Modulation Doped semiconductor Quantum Wells, G. D. Sanders and Y. C. Chang*, Phys. Rev. B 31, 6892 (1985). [99]

21. Direct Optical Measurements of Surface Dielectric Responses: Interrupted Growth on (001) GaAs, D. E. Aspnes, Y. C. Chang, A. A. Studna, L. T. Florez, H. H. Farrell, and J. P. Harbison, Phys. Rev. Lett. 64, 192 (1990). [97]

22. Γ-X Mixing in GaAs/Al_xGa_1-xAs and Al_xGa_1-xAs/AlAs Superlattices, D. Z.-Y. Ting and Y. C. Chang*, Phys. Rev. B 36, 4357-74 (1987). [99]

23. Effects of Quasi-Interface States in HgTe-CdTe Superlattices, Y. C. Chang*, J. N. Schulman, G. Bastard, Y. Guldner, and M. Voos, Phys. Rev. B 31, 2557 (1985). [94]

24. HgTe-CdTe Superlattice Subband Dispersion, J. N. Schulman and Y. C. Chang, Phys. Rev. B 33, 2594-2601 (1986). [93]

25. Anisotropy of Optical Phonons and Interface Modes in GaAs-AlAs Superlattices, S.-F. Ren, H. Chu, and Y. C. Chang*, Phys. Rev. B 37, 8899 (1988). [89]

26. Reduced Hamiltonian Method for Solving the Tight-Binding Model of Interfaces, J. N. Schulman and Y. C. Chang, Phys. Rev. B 27, 2346-54 (1983). [89]

27. Valence Band Mixing Effects on the Gain and Refractive Index Change of the Quantum Well Laser, D. Ahn, S. L. Chuang, and Y. C. Chang, J. Appl. Phys. 64, 4056 (1988). [84]

28. Optical Properties of the Zincblende CdSe and Zn_xCd_1-xSe films grown on GaAs, Y. D. Kim, M. V. Klein, S. F. Ren, Y. C. Chang, H. Luo, N. Samarth, and J. K. Furdyna, Phys. Rev. B 49, 7262 (1994). [83]

29. Effects of Uniaxial Stress on the Electronic and Optical Properties of GaAs-Ga_1-xAl_xAs Quantum Wells, G. D. Sanders and Y. C. Chang*, Phys. Rev. B 32, 4282-5 (1985). [72]

30. Temperature-dependent absorption measurements of excitons in GaN epilayers A. J. Fisher, W. Shan, J. J. Song, Y. C. Chang, R. Horning, and B. Goldenberg, Appl. Phys. Lett. 71, 1981 (1997) [73]

31. Theory of Line Shapes of Exciton Resonances in Semiconductor Superlattices, H. Chu and Y. C. Chang*, Phys. Rev. B 39, 10861-71 (1989). [69]

32. Complex Band Structures of Zincblende Materials, Y. C. Chang*, Phys. Rev. B 25, 605-619 (1982). [59]

33. Anisotropy of Optical Phonons in GaAs-AlAs Superlattices, S.-F. Ren, H. Chu, and Y. C. Chang*, Phys. Rev. Lett. 59, 1841-4 (1987). [56]

34. Monte Carlo Simulation of Impact Ionization in GaAs Including Quantum Effects, Y. C. Chang, D. Z.-Y. Ting, T. Y. Tang, and K. Hess, Appl. Phys. Lett. 42, 76-78 (1983). [60]

35. Saddle-point Excitons in Solids and Superlattices, H. Chu and Y. C. Chang*, Phys. Rev. B 36, 2946-9 (1987). [56]

36. Theory of Optical Anisotropy in Quantum-wire Arrays with Two-dimensional Quantum Confinement, D. S. Citrin and Y. C. Chang*, Phys. Rev. B 43 11703 (1991). [55]

37. Valence Band Structures of Semiconductor Quantum Wires, D. S. Citrin and Y. C. Chang*, Phys. Rev. B 40, 5507-14 (1989). [53]

38. Effective Bond-orbital Model for Acceptor States in Semiconductors and Quantum Dots, G. T. Einevoll and Y. C. Chang*, Phys. Rev. B 40, 9683-97 (1989). [52]

39. Optical Properties of Free Standing Silicon Quantum Wires, G. D. Sanders and Y. C. Chang*, Appl. Phys. Lett. 60 2525 (1992). [52]

40. A resonant spin lifetime transistor, X. Cartoixa, D. Z.-Y. Ting, Y. C. Chang*, Appl. Phys. Lett. 83, 1462-1464 (2003). [54]

41. Electron tunneling rate in quantum dots under uniform electric field, David M.-T. Kuo and Y.-C. Chang, Phys. Rev. B 61, 11051 (2000). [55]

42. Inversion Asymmetry, Hole Mixing, and Enhanced Pockels Effect in Quantum Wells and Superlattices, B. F. Zhu and Y. C. Chang*, Phys. Rev. B 50, 11932-11948 (1994). [47]

43. Excitonic Absorption in Modulation-doped GaAs-Al_xGa_1-xAs Quantum Wells, D. Huang, H. Chu, Y. C. Chang, R. Houbre, and H. Morkoc, Phys. Rev. B 38, 1246 (1988). [45]

44. Radiative Decay of the Bound Exciton in Direct Gap Semiconductors: The Correlation Effect, G. D. Sanders and Y. C. Chang*, Phys. Rev. B 28, 5887-96 (1983). [43]

45. Optical Anisotropy Spectra of GaAs(001) Surfaces, Y. C. Chang, S. F. Ren, and D. E. Aspnes, (invited paper) J. Vac. Sci. Technol. A 10, 1856 (1992) [43]

B. Other journal papers (chronologically ordered)

46. Ground State Energies of Bound Exciton for All Mass Ratios, Y. C. Chang* and T. C. McGill, Solid State Commun. 30, 187-190 (1979). [11]

47. Low Lying Excited States of the Bound Exciton in a Spherical Model, Y. C. Chang and T. C. McGill, Solid State Commun. 32, 319-322 (1979). [2]

48. Theory of Donor States in GaP: The Role of the Camel's Back, Y. C. Chang and T. C. McGill, Solid State Commun. 33, 1035-9 (1979). [11]

49. Excitation Spectra of Bound Excitons and Bound Multi-exciton Complexes in n-type Si, Y. C. Chang and T. C. McGill, Phys. Rev. Lett. 45, 471-4 (1980). [10]

50. Model Hamiltonian of Donors in Indirect materials, Y. C. Chang, D. L. Smith and T. C. McGill, Phys. Rev. B 23, 4169-82 (1981). [19]

51. Valley-orbit Splitting for the Donor States in GaP, Y. C. Chang and T. C. McGill, Phys. Rev. B 24, 779-87 (1981). [4]

52. Theory of D^-States in Ge and Si, Y. C. Chang and T. C. McGill, Phys. Rev. B 25, 3927-44 (1982). [6]

53. Theory of Fine-Structure Splitting for Donor Bound Excitions in Indirect Materials, Y. C. Chang and T. C. McGill, Phys. Rev. B 25, 3945-62 (1982). [13]

54. Theory of Multiexciton Complexes Bound to Donors in Multivalley Semiconductors, Y. C. Chang and T. C. McGill, Phys. Rev. B 25, 3963-74 (1982). [9]

55. Energy Spectra of Donors in GaAs-Ga_1-xAl_xAs Quantum Well Structures, C. Mailhiot, Y. C. Chang, and T. C. McGill, Surface Sci. 113, 161-164 (1982). [30]

56. Energy Spectra of Donors in GaAs-Ga_1-xAl_xAs Quantum Well Structures in the Effective Mass Approximation, C. Mailhiot, Y. C. Chang and T. C. McGill, J. Vac. Sci. Technol. 21, 519-523 (1982). [15]

57. Theory of Heterostructures: An Reduced Hamiltonian Method, Y. C. Chang* and J. N. Schulman, J. Vac. Sci. Technol. 21, 540-3 (1982). [22]

58. Angle-resolved Local Density of States of Zincblende Semiconductor (110) Surfaces: An Analytic Green's Function Approach, Y. C. Chang, Phys. Rev. B 26, 4400-9 (1982). [8]

59. Breit-Wigner Fano Resonances in the photoconductivity of semiconductors: Theory, Y. C. Chang and T. C. McGill, Solid State Commun. 47, 171 (1983). [10]

60. Theory of Exciton Molecules in Thallous Halides, S. G. Chung, G. D. Sanders, and Y. C. Chang*, Solid State Commun. 45, 237-241 (1983). [0]

61. A Direct Approach to Massive Thirring Model Thermodynamics for Rational Coupling Constants, S,. G. Chung and Y. C. Chang*, Phys. Lett. 93A, 230-234 (1983). [8]

62. Thermodynamics of the Massive Thirring Model: The Discontinuity in Soliton Mass, S. G. Chung and Y. C. Chang, Phys. Rev. Lett. 50, 791-4 (1983). [11]

63. Theory of Electronic Properties of Si(111) - (7X7) Surface, Y. C. Chang, J. Vac. Sci. Technol., B1 709-713 (1983). [4]

64. Factorized S-Matrix Method for the Thermodynamics of the Massive Thirring Model, S. G. Chung, Y. Oono, and Y. C. Chang, Phys. Rev. Lett. 51, 241-4 (1983). [11]

65. Interference Effect in Multivalley Quantum Well Structure, Y. C. Chang and D. Z.-Y. Ting, J. Vac. Sci. Technol. B1, 435-8 (1983). [13]

66. Theory of the Exciton Bound to an Isoelectronic Trap in GaP, W. T. Masselink and Y. C. Chang, Phys. Rev. Lett. 51, 509-512 (1983). [21]

67. Improved GaAs/AlGaAs single Quantum Wells Through the Use of Thin Superlattice Buffers, W. T. Masselink, M. V. Klein, Y. L. Sun, Y. C. Chang, R. Fisher, T. J. Drummond, and H. Morkoc, Appl. Phys. Lett. 44, 435-7 (1984). [33]

68. Improvement of the Inverted GaAs/AlGaAs Heterostructures, R. Fisher, W. T. Masselink, Y. L. Sun, T. J. Drummond, Y. C. Chang, M. V. Klein, H. Morkoc, and E. Anderson, J. Vac. Sci. Technol. B2(3), 170-4 (1984). [12]

69. Enhanced Luminescence from GaAs/AlGaAs Single Quantum Well Structures through Improved Interfaces, W. T. Masselink, Y. L. Sun, R. Fisher, T. J. Drummond, Y. C. Chang, M. V. Klein, H. Morkoc, J. Vac. Sci. Technol. B2(3), 117-122 (1984). [22]

70. Binding Energies of Acceptors in GaAs-Ga1-xAlxAs Quantum Wells, W. T. Masselink, Y. C. Chang, and H. Morkoc, J. Vac. Sci. Technol. B2(3), 376-382 (1984). [27]

71. Disorder Effect on the Photoabsorption of III-V Semiconductor Alloys,D. Z.-Y. Ting and Y. C. Chang, Phys. Rev. B 30, 3309-15 (1984). [12]

72. Atomic geometries of ZnSe (110) and GaAs (110): Determination by Photoemission Spectroscopy, C. Mailhiot, C. B. Duke, and Y. C. Chang, Phys. Rev. B 30, 1109-11 (1984). [31]

73. Saturation in the Transfer charateriztion of (Al,Ga)As/GaAs Modulation Doped Field Effect Transistors at 77 K, W. T. Masselink, T. J. Drummond, J. Klem, W. Kopp, Y. C. Chang, F. Ponse, and H. Morkoc, Appl. Phys. Lett. 45, 1190 (1984). [11]

74. Theory of Steady State High-Field Hole Transport in GaSb and Al_xGa_1-xSb: The Impact Ionization Resonance, K. Brennan, K. Hess, and Y. C. Chang, J. Appl. Phys. 57, 1971 (1985). [15]

75. Beryllium and Silicon Doping Studies in Ga_1-xAl_xAs (x=0 to 1) and New Results on Persistent Photoconductivity, N. Chand, R. Fisher, J. Klem, T. Henderson,P. Pearah, W. T. Masselink, Y. C. Chang, and H. Morkoc, J. Vac. Sci. Technol. B 3, 1044 (1985) [21]

76. The Influence of Donor Neutralization on the Transfer Characteristics of MODFET at 77 K^o: Theory and Experiment, W. T. Masselink, T. J. Drummond, J. Klem, W. Kopp, Y. C. Chang, F. Ponse, and H. Morkoc, IEEE trans. El. Dev. ED-32, 713-6 (1985). [8]

77. HgTe-CdTe Superlattice Band Gap Enhancement due to Interdiffusion, J. N. Schulman and Y. C. Chang, Appl. Phys. Lett. 40, 571 (1985). [33]

78. Nonlinear Optical Properties of Semiconductor Superlattices, Y. C. Chang, J. Appl. Phys. 58, 499 (1985). [40]

79. Enhancement of Optical Nonlinearity in p-type Semiconductor Quantum Wells due to Confinement and Stress, Y. C. Chang, Appl. Phys. Lett. 46, 710 (1985). [22]

80. Absorption Spectra of Modulation Doped semiconductor Quantum Wells, G. D. Sanders and Y. C. Chang, J. Vac. Sci. Technol. B3(4), 1285-9 (1985). [5]

81. Band Mixing in the Emission Spectra of GaAs-Ga_1-xAl_xAs Quantum Wells, Y. C. Chang and G. D. Sanders, Phys. Rev. B 32, 5521-4 (1985) [39]

82. Optical Properties of GaAs/AlGaAs Quantum Wells Grown by Molecular Beam Epitaxy, P. J. Pearah, W. T. Masselink, T. Henderson, C. K. Peng, H. Morkoc, G. D. Sanders, and Y. C. Chang, J. Vac. Sci. Technol. B 4(2) 525 (1986). [2]

83. Theory of the Exciton molecule Bound to an Isoelectronic Impurity in GaP, B. Arfi, W. T. Masselink, and Y. C. Chang, Phys. Rev. B 33, 2401-12 (1986). [7]

84. Transient Response of Nonlinear Optical Interactions in Semiconductor Superlattices, Y. C. Chang, J. Appl. Phys. 59, 2173-83 (1986). [2]

85. Electronic and Optical Properties of Strained Layer Superlatices Made of Semiconductor Alloys, D. Z.-Y. Ting and Y. C. Chang, J. Vac. Sci. Technol. B4(4), 1002-5 (1986). [9]

86. Electron-hole Liquid in InAs Quantum Wells under Uniaxial Stress, Y. C. Chang*, H. Y. Chu, and S. G. Chung, Phys. Rev. B 33, 7364-7 (1986). [4]

87. Shallow Impurity Levels in AlGaAs/GaAs Semiconductor Quantum Wells, W. T. Masselink, Y. C. Chang, H. Morkoc, D. C. Reynolds, C. W. Litton, K. K. Bajaj, and P. W. Yu, Solid State Electronics, 29, 205-214 (1986). [35]

88. High-pressure Studies of Luminescence from GaP and GaP:N Diodes G. A. Herrmannsfeldt, Y. C. Chang, and H. G. Drickamer, Phys. Rev. B 34 5373 (1986).[0]

89. Band-structure of a Semimetallic HgTe-CdTe Superlattice, J. N. Schulman and Y. C. Chang, Surf. Sci. 174, 536-540 (1986). [1]

90. Thermodynamics of the Massive Thirring = Sine-Gordon Model: Bethe-Ansatz Variational Method, S. G. Chung and Y. C. Chang, J. Phys. A. 20 2875 (1987) . [12]

91. Electro-optic Effect in Semiconductor Superlattices, Y. C. Chang*, J. N. Schulman, and U. Efron, J. Appl. Phys. 62, 4533-7 (1987). [32]

92. Subband Related Structure in the Absorption Coefficient of HgTe/CdTe Superlattices, E.A. Patten, K. Kosai, T. N. Casselman, J. N. Schulman, Y. C. Chang, and J.-L. Staudenmann, J. Vac. Sci. Technol. A5, 3102 (1987). [10]

93. Long-lived Excitons in InAs Quantum Wells, H. Chu, G. D. Sanders, and Y. C. Chang*, Phys. Rev. B 36, 7955 (1987). [14]

94. Shallow Impurities in Semiconductor Quantum Wells, Y. C. Chang, Physica B&C 146, 137-149 (1987) [37]

95. Disorder Effects in Alloy Superlattices, D. Z.-Y. Ting and Y. C. Chang, Phys. Rev. B 37, 8932 (1988). [1]

96. Long Wave-length Optical Modes in Polar Superlattices, H. Chu, S.-F. Ren, and Y. C. Chang*, Phys. Rev. B 37, 10746 (1988). [33]

97. Band Structure Effects on the Femtosecond Energy Relaxation of Photoexcited Electrons in AlGaAs/GaAs Quantum Wells, C. J. Stanton, D. W. Baily, K. Hess, and Y. C. Chang, Phys. Rev. B. 37, 6575 (1988). [9]

98. L-valley Derived States in (001) GaSb-AlSb Quantum Wells and Superlattices, D. Z.-Y. Ting and Y. C. Chang*, Phys. Rev. B 38, 3414 (1988). [9]

99. Orientation Dependence of Valence Subband Structures in GaAs-Ga_1-xAl_xAs Quantum wells, M.-P. Houng, Y. C. Chang*, and W. I. Wang, J. Appl. Phys. 64, 4609 (1988).[41]

100. Absorption Saturation of Heavy-to Light-Hole Band Transitions in p-type InSb, R. B. James and Y. C. Chang, Phys. Rev. B 38, 9778 (1988). [1]

101. Phonon Polaritons in Superlattices: the Dispersion effect, H. Chu and Y. C. Chang*, Phys. Rev. B 38, 12369 (1988). [33]

102. Multiple Quantum Well Spatial Light Modulators for Optical-processing Applications, T. Y. Hsu, W. Y. Wu, J. Schulman, Y. C. Chang, Optical Engineering 27, 372-384 (1988). [6]

103. Excitons Associated with Saddle-point States in GaAs/Al_xGa_1-xAs Superlattices, J. J. Song, P. S. Jung, Y. S. Yoon, H. Chu, Y. C. Chang, and C. W. Tu, Phys. Rev. B 39, 5562 (1989). [36]

104. Extrinsic Contributions to Photoreflectance of Al_xGa_1-xAs/GaAs Quantum Wells: An Investigation of the Donor-related Feature, W. M. Theis, G. D. Sanders, K. R. Evans, L. L. Liou, C. E. Leak, K. K. Bajaj, C. E. Stutz, R. L. Jones, and Y. C. Chang, Phys. Rev. B 39, 11038-43 (1989). [8]

105. Excited States of the Light-hole and Heavy-hole Free-excitons Observed in Photoreflectance, W. M. Theis, G. D. Sanders, C. E. Leak, D. C. Reynolds, Y. C. Chang, K. Alavi, C.Colvard, and I. Schidlovsky, Phys. Rev. B 39, 1442-45 (1989). [14]

106. Electronic Structures of In_1-xGa_xAs-InP strained-layered Quantum wells, M.-P. Houng and Y. C. Chang*, J. Appl. Phys. 65, 3092 (1989). [19]

107. Optical Properties of Hg_1-xCd_xTe Sawtooth Superlattices, Y. C. Chang*, J. Cheung, A. Chiou, and M. Khoshnevisan, J. Appl. Phys. 66, 829-834 (1989). [9]

108. Phonon Dispersion Curves of GaAs-AlAs Superlattices grown in the [111] and [110] Directions, S.-F. Ren, Y. C. Chang*, and H. Chu, Phys. Rev. B 40, 3060-5 (1989). [14]

109. Temporal and Spectral Dependences of the Anisotropic Dielectric responses of Singular and Vicinal (001) GaAs Surfaces During Interrupted Molecular Beam Epitaxy Growth, D. E. Aspnes, A. A. Studna, L. T. Florez, Y. C. Chang, J. P. Harbison, M. K. Kelly, H. H. Farrell, J. Vac. Sci. Technol. B 7, 901-6 (1989). [17]

110. Line-shape Theory of Magneto-absorption in Semiconductor Superlattices, H. Chu and Y. C. Chang*, Phys. Rev. B 40, 5497-5506 (1989). [16]

111. Miniband Dispersion and Excitonic Effects on the Optical Spectra of GaAs/Al_xGa_1-xAs Superlattices, B. Deveaud, A. Chomette, F. Clerot, A. Regreny, J. C. Maan, R. Romestain, G. Bastard, H. Chu, and Y. C. Chang, Phys. Rev. B 40, 5802-5 (1989). [30]

112. Exciton Line-width Narrowing in Thin Barrier GaAs/Al_xGa_1-xAs Superlattices, P. S. Jung, J. M. Jacob, J. J. Song, Y. C. Chang, and C. W. Tu, Phys. Rev. B 40, 6454-7 (1989). [11]

113. Effective Bond-orbital Model for Shallow Acceptors in Semiconductor Quantum Wells and Superlattices, G. T. Einevoll and Y. C. Chang*, Phys. Rev. B 41, 1447-60 (1990). [23]

114. Electronic Properties of Sulfur Treated GaAs (001) Surfaces, S. F. Ren and Y. C. Chang*, Phys. Rev. B 41, 7705-12 (1990). [26]

115. Subband Structures of Semiconductor Quantum Wires from the effective-bond Orbital Model, D. S. Citrin and Y. C. Chang*, J. Appl. Phys. 68, 161-8 (1990). [20]

116. Electronic structures and Optical Properties of Short-period GaAs/AlAs Superlattice, J. B. Xia and Y. C. Chang*, Phys. Rev. B 42, 1781-90 (1990). [40]

117. Quantum Monte Carlo Study of Polyexcitons in Semiconductors, A. C. Cancio and Y. C. Chang*, Phys. Rev. B 42, 11317-24 (1990). [6]

118. Surface Dielectric Functions of (2X1) and (1X2) Reconstructions of (001) GaAs Surfaces, Y. C. Chang and D. E. Aspnes, J. Vac. Sci. Technol. B 8(4), 896-9 (1990).[24]

119. Linear and Two-photon Absorption of Rectangular and Sawtooth HgTe/CdTe Superlattices , Y. C. Chang*, J. Cheung, A. Chiou, and M. Khoshnevisan, J. Appl. Phys. 68, 4233-41 (1990). [18]

120. Electronic Structures of GdAs-GaAs Metal-semiconductor Superlattices, J. B. Xia, S. F. Ren, and Y. C. Chang, Phys. Rev. B 43, 1692-8 (1991). [24]

121. Singularities in the Optical Spectra of a System Involving a Fermi Sea of Electrons and a Localized Hole: a Method for Obtaining Many-body Wavefunctions, I. Perakis and Y. C. Chang, Phys. Rev. B 43, 12556 (1991). [15]

122. Theory of Optical Anisotropy in Quantum-wire Arrays on Vicinal Substrates, D. S. Citrin and Y. C. Chang, J. Appl. Phys. 69, 2685-7 (1991).[13]

123. Optical Phonons in GaAs/AlAs Quantum Wires, S. F. Ren and Y. C. Chang, Phys. Rev. B 43, 11857 (1991).[27]

124. Effects of Crystallography and Lateral Intermixing on the Subband Structures and Optical Anisotropy in Quantum-Wire Arrays on Vicinal Substrates, D. S. Citrin and Y. C. Chang, J. Appl. Phys. 70, 867 (1991).[21]

125. Polarization Selective Electro-optic Effect in a Coupled Quantum-Wire Array, D. S. Citrin and Y. C. Chang, Appl. Phys. Lett. 59, 582 (1991). [5]

126. Non-canonical Transformation Approach to the X-ray Edge Problem, I. Perakis and Y. C. Chang, Phys. Rev. B 44, 5877 (1991). [15]

127. Excitons Bound to Isoelectronic Te Traps in ZnSe Quantum Wells, G. T. Einevoll, D. S. Citrin, and Y. C. Chang, Phys. Rev. B 44, 8068-8083 (1991). [9]

128. Microscopic Dispersive Quantum-mechanical Theory of Phonon-polaritons, D. S. Citrin, Y. C. Chang, and W. K. Wootters, Phys. Rev. B 44 11697 (1991). [0]

129. Electronic and Optical Properties of GaAs(001) (2X4) and (4X2) Surfaces, S. F. Ren and Y. C. Chang, Phys. Rev. B 44, 13573 (1991). [28]

130. Linear and Two-photon Absorptions in Si-Ge Strained-layer Superlattices, Y. C. Chang, A. E. Chiou, and M. Khoshnevisan, J. Appl. Phys. 71, 1349 (1992).[18]

131. Normal Incidence Infrared Photoabsorption in p-type GaSb/Ga_xAl_1-xSb Quantum Wells, H. Xie, J. Katz, W. I. Wang, and Y. C. Chang, J. Appl. Phys. 71, 2844 (1992). [21]

132. Fine Structures in the Electroabsorption Spectra of GaAs Quantum Wells, G. Wen and Y. C. Chang, Phys. Rev. B 45, 6101 (1992). [7]

133. Theory of Gain in GaAs/AlGaAs V-groove Quantum-wire Lasers, D. S. Citrin and Y. C. Chang, Optical Materials 1, 49 (1992).

134. Effects of Exciton Continuum on Resonant Raman Scattering in GaAs Quantum Wells, G. Wen and Y. C. Chang, Phys. Rev. B 45, 13562 (1992). [5]

135. Normal incidence intersubband optical transition in GaSb/InAs superlattices, H. H. Chen, M. P. Houng, Y. H. Wang and Y. C. Chang, Appl. Phys. Lett. 61, 509-511 (1992).[18]

136. Magnetic exchange in rare-earth metal superlattices, J. B. Xia and Y. C. Chang, Phys. Rev. B 46, 10894-10902 (1992). [3]

137. Resonant tunneling of electrons in Si/Ge strained-layer double-barrier tunneling structures, J. C. Chiang and Y. C. Chang, Appl. Phys. Lett. 61, 1045-1047 (1992). [3]

138. Electronic and Optical Properties of HgI₂, Y. C. Chang and R. B. James, Phys. Rev. B 46, 15040 (1992).[22]

139. Theory of Gain in Quantum-wire Lasers Grown in V-grooves, D. S. Citrin and Y. C. Chang, IEEE J. Quantum Electron., QE-29, 97-108 (1993). [33]

140. Noncanonical-transformation approach to the problem of an itinerant particle interacting with a Fermi sea, I. E. Perakis and Y. C. Chang, Phys. Rev. B, 47, 6573-6584 (1993). [12]

141. Theory of Nonresonant Raman Scattering of GaAs/AlAs Superlattices, S.-F. Ren, Y.-C. Chang and H. Chu, Phys. Rev. B, 47, 1489-1499 (1993). [3]

142. Theory of electron resonant tunneling of Si-based double-barrier tunneling structures, J. C. Chiang and Y. C. Chang, J. Appl. Phys. 73, 2402 (1993). [7]

143. Interference effects in the resonant tunneling spectrum, J. C. Chiang and Y. C. Chang, Phys. Rev. B 47, 7140 (1993). [8]

144. Quantum Monte Carlo Studies of Binding Energy and Radiative Lifetime of Bound Excitons in Direct Gap Semiconductors, A. C. Cancio and Y. C. Chang, Phys. Rev. B, 47, 13246-13259 (1993). [13]

145. Theory of Electronic structures of porous Si, J. B. Xia and Y. C. Chang, Phys. Rev. B 48, 5179 (1993). [20]

146. Giant Magnetoresistance in Magnetic Granular Solids, L. Xing and Y. C. Chang, Phys. Rev. B 48, 4156 (1993). [16]

147. Magneto-transport properties of Magnetic Granular Solids: the role of unfilled d-bands, L. Xing, Y. C. Chang, M. B. Salamon, J. Shi, D. M. Frenkel, and J. P. Lu, Phys. Rev. B 48, 6728 (1993). [31]

148. Theory of Transport in Silicon Quantum Wires, G. D. Sanders, C. J. Stanton, and Y. C. Chang, Phys. Rev. B 48, 11067 (1993). [24]

149. Planar-basis Pseudopotential Calculations of Si (001) 2X1 Surface with and without Hydrogen Passivation, G. Li and Y. C. Chang, Phys. Rev. B 48, 12032 (1993). [10]

150. Effect of d-Electrons in Transition-metal Ions on Band Gap Energies of Diluted Magnetic Semiconductors, Y. D. Kim, Y. C. Chang, and M. V. Klein, Phys. Rev. B 48, 17770 (1993). [15]

151. Optical Properties of GaAs/AlxGa1-xAs Multiple Quantum Wells versus Electric Field Including Exciton Transition broadening effects in Optical Modulators, C.-H. Lin, J. M. Meese, and Y.-C. Chang, J. Appl. Phys. 75, 2618 (1994). [17]

152. Complex-band Method for Calculating Ruderman-Kittel-Kasuya-Yosida Interaction in Magnetic Superlattcies, B. Lee and Y. C. Chang, Phys. Rev. B 49, 8868-8881 (1994). [4]

153. Phonon Dispersion in Red Mercuric Iodide, H. K. Sim, Y. C. Chang, and R. B. James, Phys. Rev. B 49, 4559 (1994). [6]

154. A Low-voltage, High-reflectance, Normally-off Refractive GaAs/Al_0.2Ga_0.8As Multiple-Quantum-Well Reflection Modulator, C.-H. Lin, J. M. Meese, and Y.-C. Chang, IEEE JQE 30, 1234 (1994). [7]

155. Electronic Properties of ZnSe_m(Cd_1-xZn_xSe)_n superlattices, S. F. Ren, Z. Q. Gu, and Y. C. Chang, Phys. Rev. B 49, 7569 (1994). [7]

156. Theory of Absorption S pectra for Above-barrier Excitons in Semiconductor Superlattices, G. Wen and Y. C. Chang, Phys. Rev. B 49, 16585-16592 (1994). [4]

157. Nuclear Spin-Lattice Relaxation Induced by Thermally Fluctuating Flux Lines in Type-II Superconductors, L. Xing and Y. C. Chang, Phys. Rev. Lett. 73, 488-491 (1994). [0]

158. Quantum Monte Carlo Calculations of Phonon-assisted Luminescence from Polyexcitons in Si, A. Cancio and Y. C. Chang, Phys. Rev. B 50, 11606 (1994). [0]

159. Electronic structures of As/Si(001) 2X1 and Sb/Si(001) 2X1 surfaces, G. Li and Y. C. Chang, Phys. Rev. B 50, 8675-8680 (1994). [13]

160. NMR relaxation caused by fluctuating flux lines, L. Xing and Y. C. Chang, Physica C 235-240, 2651 (1994). [0]

161. Effective mass approach to the RKKY interaction in magnetic multilayers, B. Lee and Y. C. Chang, Phys. Rev. B 51, 316 (1995). [13]

162. Electronic structure of Si(001) 2X1:H surface and pathway for H₂ desorption, G. Li, Y. C. Chang, R. Tsu, and J. E. Greene, Surf. Sci. 330, 20-26 (1995). [21]

163. Boson condensations in real time thermal quantum field theory, H. Chu, Y. C. Chang, H. Umezawa, and F. C. Khanna, Phys. Lett. A 201, 353-358 (1995). [0]

164. Study of reconstruction at interfaces of CdSe/ZnTe superlattices by total energy calculations, S. F. Ren, Z. Q. Gu, and Y. C. Chang, J. Vac. Sci. Technol. B 13(4) 1711-1714 (1995). [5]

165. Effects of realistic band structures on the interlayer coupling strengths in magnetic multilayers, B. Lee and Y. C. Chang, Phys. Rev. B 52, 3499-3510 (1995).[26]

166. Polyexcitons and Bound Multiple Excitons in Semiconductors Studied by Quantum Monte Carlo Methods, A. Cancio and Y. C. Chang, Chinese J. Phys. 33, 335-361 (1995). [1]

167. Energy levels of one and two holes in parabolic quantum dots, F. B. Pedersen and Y. C. Chang, Phys. Rev. B 53, 1507 (1996). [28]

168. Planar-basis pseudopotential method and planar Wannier functions for surfaces and heterostructures, Y. C. Chang and G. Li, Computer Phys. Commun. 95, 158-170 (1996). [3]

169. Thermal Lie groups, classical mechanics, and thermofield dynamics, A. E. Santana, F. C. Khanna, H. Chu, and Y. C. Chang, Annals of Physics 249, 481-498 (1996). [13]

170. Theoretical studies of carrier transport in HgI2, Y. C. Chang and R. B. James, Phys. Rev. B 53, 14200 (1996). [1]

171. Theory of Optical Spectra of Exciton Condensates, H. Chu and Y.C. Chang, Phys. Rev. B 54 5020 (1996). [17]

172. Optical Spectra of Exciton Condensates in Semiconductor Quantum Wells H. Chu and Y.C. Chang, Euro. Phys. Lett. 35, 535-540 (1996). [4]

173. Theory of Raman spectra of heavily-doped semiconductor multiple quantum wells, Y. C. Chang and H. Yao, Phys. Rev. B 54, 11517 (1996). [4]

174. Interlayer exchange coupling in magnetic multilayers with misaligned Fermi surfaces, B. Lee and Y. C. Chang, Phys. Rev. B 54, 6095 (1996). [16]

175. Effects of Fano resonances on the interlayer coupling in magnetic multilayers, B. Lee and Y. C. Chang, Phys. Rev. B 54 13034 (1996). [3]

176. Theory of unconfined excitons trapped by a quantum well, G. Wen, P. Zhao, and Y. C. Chang, Phys. Rev. B 54, 17779 (1996). [0]

177. p-type InGaAs/InP quantum well infrared Photodetector with peak response at 4.55 um, D. K. Sengupta, S. L. Jackson, D. Ahmari, H. C. Kuo, J. I. Malin, S. Thomas, M. Feng, G. E. Stillman, Y. C. Chang, L. Lin, and H. C. Liu, Appl. Phys. Lett. 69, 3209-3211 (1996). [7]

178. The role of nonequilibrium dynamical screening in carrier thermalization, G. Setlur and Y. C. Chang, Phys. Rev. B 55, 1517 (1997). [1]

179. Magnetic-field effects on one and two-hole states in parabolic quantum dots, F. B. Pedersen and Y. C. Chang, Phys. Rev. B 55, 4580 (1997). [18]

180. Fine structure of excitons in Cu₂O, G. M. Kavoulakis, Y. C. Chang, and G. Baym, Phys. Rev. B 55, 7593 (1997).[25]

181. On the inversion in GaAs metal-insulator-semiconductor heterostructures, Z. Chen, S. N. Mohammad, D. G. Park, H. Morkoc, and Y. C. Chang, Appl. Phys. Lett. 70, 228 (1997). [5]

182. Phonon dispersion and polar-optical scattering in 2H PbI₂, Y. C. Chang and R. B. James, Phys. Rev. B 55, 8219 (1997). [3]

183. Interlayer Exchange Coupling in Fe/Cr multilayers , L. Tsetseris, B. C. Lee, and Y. C. Chang, Phys. Rev. B 55, 11586 (1997). [17]

184. Growth and characterization of InP/InGaAs p-quantum well infrared Photodetector with extremely thin quantum wells, D. K. Sengupta, S. L. Jackson, W. Wu, J. I. Malin, H. C. Kuo, D. Ahmari, S. Thomas, T. Horton, A. Moy, K. C. Hseih, K. Y. Cheng, H. Chen, J. R. Tucker, M. Feng, G. E. Stillman, Y. C. Chang, L. Lin, and H. C. Liu, J. Electron. Mat. 26, 1382 (1997). [1]

185. Growth and characterization of n-type InP/InGaAs quantum well infrared photodetector at 8.93 microns, D. K. Sengupta, S. L. Jackson, W. Wu, J. I. Malin, H. C. Kuo, D. Ahmari, S. Thomas, T. Horton, A. Moy, K. C. Hseih, K. Y. Cheng, H. Chen, J. R. Tucker, M. Feng, G. E. Stillman, Y. C. Chang, L. Lin, and H. C. Liu, J. Electron. Mat. 26, 1376 (1997). [6]

186. Coherent-transient four-wave-mixing studies of excitons in a high quality GaN epilayer, A. J. Fischer, W. Shan, G. H. Park, J. J. Song, D. S. Kim, D. S. Yee, Y. C. Chang, R. Horning, B. Goldenberg, H. Jeon, Phys. Stat. Sol. A164, 481-486 (1997) [3]

187. Analytic Green’s function calculation of the Interlayer Exchange Coupling in Fe/Cr multilayers ,L. Tsetseris, B. Lee, and Y.-C. Chang, Phys. Rev. B 56, R11392-R11395 (1997). [10]

188. Multiband quantum transimitting boundary method for non-orthogonal basis, G. C. Liang, Y. A. Lin, D. Z. Y. Ting, and Y. C. Chang, VLSI Design 8(1-4) 507-513 (1998). [0]

189. Large Optical Nonlinearities Near the Band Gap of GaN Thin Films T. J. Schmidt, J. J. Song, Y. C. Chang, R. Horning, and B. Goldenberg, Appl. Phys. Lett. 72, 1504 (1998). [18]

190. Single-particle Green funtions in exactly solvable models of Bose and Fermi liquids, G. S. Setlur and Y. C. Chang, Phys. Rev. B 57, 15144 (1998). [8]

191. Red-shifting and Broadening of Quantum-well infrared Photodetector's Response via Impurity-free Vacancy Disordering, D. K. Sengupta, V.Jandhyala, S. Kim, W. Fang, J. Malin, P. Apostolakis, K. C. Hsieh, Y. C. Chang, S. L. Chuang, S. Bandara, S. Gunapala, M. Feng, E. Michielssen, and G. E. Stillman, IEEE J. of Selected Topics in Qauntum Electronics, 4, 1-12, (1998). [13]

192. Analysis of ellipsometric and photoemission spectra of diluted magnetic semiconductors by hybridization interaction mechanism, Y. D. Kim, Y. C. Chang, and M. V. Klein, Thin Solid Films, 313-314, 183 (1998). [0]

193. Band structures and optical properties of Ga_1-xIn_xAs quantum wires grown by strain-induced lateral ordering, L. Li and Y. C. Chang, J. Appl. Phys. 84, 6162-6169 (1998).

194. Raman studies of delta-doped semiconductors and quantum wells, Y. C. Chang, H. Yao, and M. Mohiuddin, J. Appl. Phys. 85, 1616 (1999). [3]

195. Analysis of Reflectance Difference Spectra of Si(001)(2X1):As/Sb Surfaces, L. Wei, G. Li, and Y. C. Chang, Surface Science 439, 14-20 (1999). [0]

196. Dynamic behavior of electron tunneling in quantum well systems under electric field, David M.-T. Kuo and Y. C. Chang, Phys. Rev. B. 60, 15957 (1999) [20]

197. Reply to Comment on Single-particle Green functions in Exactly solvable models of Bose and Fermi liquids, G. S. Setlur and Y.-C. Chang, Phys. Rev. B 60, 8390-8391 (1999).

198. Optical conductivity and Raman spectra of coupled electron-phonon systems via bosonic algebra, David M.-T. Kuo, G. S. Setlur and Y. C. Chang, Phys. Rev. B 61, 290 (2000).

199. Inter-subband electro-absorption spectra of semiconductor quantum wells, David M.-T. Kuo and Y.-C. Chang, J. Appl. Phys. 87, 2936 (2000). [4]

200. Interlayer exchange coupling in (111) Co/Cu/Co trilayers: full-band versus reflection-amplitude calculation, B. C. Lee and Y. C. Chang, Phys. Rev. B 62, 3888-3894 (2000). [5]

201. Modeling self-assembled quantum dots by effective bond-orbital method, S. Sun and Y. C. Chang, Phys. Rev. B, 62, 13631 (2000). [36]

202. Theoretical modeling of dark current and photo-response for quantum well and quantum dot infrared detectors, D. M.-T. Kuo, A. Fang, and Y. C. Chang, Infrared Phys. Tech. 42, 433-442 (2001). [10]

203. Systematic study of Ga_1-xIn_xAs self-assembled quantum wires with varying interfacial strain relaxation, L. Li, S. J. Sun, and Y. C. Chang, J. Appl. Phys. 89, 2251-2260 (2001). [4]

204. Ultrafast carrier dynamics in a highly excited GaN epilayer, C. K. Choi, Y. K. Kwon, J. S. Krasinski, G. H. Park, G. Setlur, J. J. Song, and Y. C. Chang, Phys. Rev. B. 63, 115315 (2001). [13]

205. Femtosecond pump-probe spectroscopy and time-resolved photoluminescence of an In_xGa_1-xN/GaN double heterostructure , C. K. Choi, B. D. Little, Y. K. Kwon, J. B. Lam, H. Gainer, J. J. Song, Y. C. Chang, S. Keller, U. K. Mishra, and S. P. DenBaars, Phys. Rev. B. 63, 195302 (2001). [10]

206. Theoretical study of perpendicular giant magnetoresistance in Fe/Cr multilayers, J. Velev and Y.-C. Chang, Phys. Rev. B 63, 184411 (2001). [4]

207. Analytic Green's function method for multilayer systems, B. C. Lee and Y. C. Chang, J. Korean Phys. Soc. 39, 329 (2001). [3]

208. Perpendicular giant magnetoresistance in spin valves, J. Velev and Y. C. Chang, Phys. Rev. B 64, 104404 (2001). [3]

209. Tunneling current through a quantum dot array, D. M.-T. Kuo, G. Y. Guo, and Y. C. Chang, Appl. Phys. Lett. 79, 3851 (2001). [11]

210. Time-resolved photoluminescence study of InGaN/GaN multiple quantum well structures: Effect of Si doping in the barriers, C. K. Choi, B. D. Little, Y. K. Kwon, J. B. Lam, H. Gainer, J. J. Song, Y. C. Chang, S. Keller, U. K. Mishra, and S. P. DenBaars, Phys. Rev. B 64, 245339 (2001). [34]

211. Polarization dependence of the excitonic optical Stark effect in GaN, C. K. Choi, J. B. Lam, G. H. Gainer, S. K. Shee, J. S. Krasinski, J. J. Song, and Y. C. Chang, Phys. Rev. B 65, 155206 (2002). [6]

212. Stability of ion-bound excitons in two dimensions , W. Y. Ruan and Y. C. Chang, Phys. Rev. B 66, 115314 (2002). [3]

213. Tunneling current through a quantum dot with strong electron-phonon interaction, D. M.-T. Kuo and Y. C. Chang, Phys. Rev. B 66, 085311 (2002). [25]

214. Effects of J-gate and uniform electric field on the exchange splitting of a coupled donor pair in Si for quantum computing, A. Fang, Y. C. Chang, and J. R. Tucker, Phys. Rev. B 66, 155331 (2002). [16]

215. Perpendicular giant magnetoresistance in Fe/Cr nanowires, J. Velev and Y. C. Chang, J. Mag. Mag. Mat. 250, 219 (2002). [5]

216. Decaying rates of N-electron quasi-bound states in a double-barrier quantum dot under electric and magnetic fields, W. Y. Ruan and Y. C. Chang, Phys. Rev. B 66, 155311 (2002). [1]

217. The Excitonic Optical Stark Effect in GaN, C. K. Choi, Y.-C. Chang, J.B. Lam, G.H. Gainer, S. K. Shee, J. S. Krasinski, J.J. Song, Phys. Stat. Sol. A190, 99-105 (2002).

218. Optical properties of self-assembled quantum wires for application in infra-red detection, L. Li, S. J. Sun, and Y.-C. Chang, Infrared Phys. Tech. 44, 57 (2003). [7]

219. Effects of Coulomb blockade on the photocurrent in quantum dot infrared photodetectors, D. M.-T. Kuo and Y. C. Chang , Phys. Rev. B 67, 035313 (2003). [4]

220. Finite size effects on the conductance and giant magnetoresistance of Fe/Cr and Co/Cu nanowires, J. Velev and Y. C. Chang, Phys. Rev. B 67, 144425 (2003). [1]

221. Entanglement and correlation for identical particles in quantum computing, A. Fang and Y. C. Chang, Phys. Lett. A 311, 443 – 458, (2003). [0]

222. Effects of electron correlation on the photocurrent in quantum dot infrared photodetectors, Y. C. Chang , D. M.-T. Kuo, Appl. Phys. Lett. 83, 156 (2003). [4]

223. Emission spectrum of a single quantum dot embedded in a p-n junction, D. M.-T. Kuo and Y. C. Chang, Phys. Rev. B 69, R41306 (2004). [7]

224. Inverted ordering of acceptor bound exciton states in Si: the role of electron-hole correlation, W. Y. Ruan and Y. C. Chang , Phys. Rev. B 69, 245206 (2004). [0]

225. Electrically driven spontaneous emission spectrum of a single quantum dot , D. M.-T. Kuo and Y. C. Chang, J. Phys. Soc. Jap. 74, 690 (2005). [2]

226. Suppression of the D’yakonov-Perel’s spin relaxation mechanism for all spin components in [111] zincblende quantum wells, X. Cartoixa, D. Z,-Y. Ting, and Y. C. Chang, Phys. Rev. B. 71, 045313 (2005). [13]

227. [111] heterostructures for spin devices, X. Cartoixa, D. Z,-Y. Ting, and Y. C. Chang, J. Superconductivity 18, 163 (2005). [1]

228. Theoretical studies of phosphorous delta-doped silicon for quantum computing, G. Qian, Y.-C. Chang, and J.R. Tucker, Phys. Rev. B71, 045309 (2005) [6]

229. Tunnelling current and emission spectrum of single electron transistor under optical pumping, David M.-T. Kuo and Y.-C. Chang, Phys. Rev. B 72, 085334 (2005). [13]

230. Simulation of Si:P spin-based quantum computer architecture, A. Fang, Y.-C. Chang, J. R. Tucker, Phys. Rev. B 72, 075355 (2005). [5]

231. Fermi-level oscillation in n-type delta -doped Si: a self-consistent tight-binding approach, X. Cartoixa, Y.-C. Chang, Phys. Rev. B 72, 125330 (2005). [0]

232. Efficient Finite-element Green's function approach for CD metrology of 3D gratings on multilayer films, Y.-C. Chang, G. Li, H. Chu, J. Opsal, J. Opt. Soc. Am. A 23, 638 (2006).[7]

233. Symmetrized-basis LASTO calculations of defects in CdTe and ZnTe, Y.-C. Chang, R. B. James, and J. Davenport, Phys. Rev. B 73, 035211 (2006). [19]

234. Higher-order contributions to Rashba and Dresselhaus effects, X. Cartoixa, L.-W. Wang, D.Z.-Y. Ting, Y.-C. Chang, Phys. Rev. B 73, 20534 (2006). [13]

235. Electric near-field enhancement of a sharp semi-infinite conical probe: Material and cone angle dependence, A. V. Goncharrenko, J. K. Wang, and Y. C. Chang, Phys. Rev. B 74, 235442 (2006). [6]

236. Band structure and impurity effects on optical properties of quantum well and quantum dot infrared photodetectors, D. Z.-Y. Ting, Y. C. Chang, S. V. Bandara, C. J. Hill, S. D. Gunapala, Infrared Phys. Techn. 50, 136 (2007). [7]

237. Dimension of 640 × 512 pixels long-wavelength infrared (LWIR) quantum-dot infrared photodetector (QDIP) imaging focal plane array, S.D. Gunapala, S.V. Bandara, C.J. Hill, D.Z. Ting, J.K. Liu, S.B. Rafol, E.R. Blazejewski, J.M. Mumolo, S.A. Keo, S. Krishna, Y.-C. Chang, and C. A. Shott, Infrared Phys. Tech. 50, 149 (2007). [10]

238. 640 × 512 pixels long-wavelength infrared (LWIR) quantum-dot infrared photodetector (QDIP) imaging focal plane array, S.D. Gunapala, S.V. Bandara, C.J. Hill, D.Z. Ting, J.K. Liu, S.B. Rafol, E.R. Blazejewski, J.M. Mumolo, S.A. Keo, S. Krishna, Y.-C. Chang, and C. A. Shott, IEEE J. Quantum Electronics, 43, 230 (2007). [23]

239. Optical properties of core-shell particle composites. II. Nonlinear response, A. V. Goncharenko and Y. C. Chang, Chem. Phys. Lett. 439, 121-126 (2007).

240. Optical characterization of CO₂-laser-ablated Si-rich SiO_x, G. R. Lin, C. J. Lin, and Y. C. Chang, Appl. Phys. Lett. 90, 151903 (2007). [2]

241. Low refractive index Si nanopillars on Si substrate, G. R. Lin, Y. C. Chang, E. S. Liu, H. C. Kuo, and H. S. Lin, Appl. Phys. Lett. 90, 181923 (2007). [12]

242. Theory of confinement effects in finite one-dimensional phononic crystals, S. Y. Ren and Y. C. Chang*, Phys. Rev. B 75, 212301 (2007). [4]

243. Quantum well intrasubband photodetector (QWISP) for far infared and terahertz radiation detection, D. Z.-Y. Ting, Y. C. Chang, S. V. Bandara, C. J. Hill, S. D. Gunapala, Appl. Phys. Lett. 91, 073510 (2007). [8]

244. Dielectric functions and electronic structure of InAs_xP_1-x films on InP, S. G. Choi, C. J. Palmstrøm, Y. D. Kim, D. E. Aspnes, H. Kim, Y. C. Chang, Appl. Phys. Lett. 91, 041917 (2007). [6]

245. Effect of the incident angle on the electric near field of a conical probe for plane wave and Gaussian beam illumination, A. V. Goncharenko and Y. C. Chang, Optics Express 15, 11517-29 (2007).

246. Tunneling current spectroscopy of a nanostructure junction involving multiple energy levels, D. M.-T. Kuo and Y. C. Chang*, Phys. Rev. Lett. 99, 086803 (2007). [19]

247. Dresselhaus effect in bulk wurtzite structures, W. T. Wang, C. L. Wu, J. C. Chiang, S. F. Tsay, M. H. Gau, I. Lo, H. F. Kao D. J. Jang, Y. C. Chang, C. N. Chen, H. C. Hsueh, Appl. Phys. Lett. 91, 082110 (2007). [8]

248. Resolving the wave-vector and the refractive index from the coefficient of reflectance, V.U. Nazarov and Y. C. Chang, Opt. Lett. 32, 2939 (2007); erratum: Opt. Lett. 32, 3345 (2007). [6]

249. Reflection and emission properties of an infrared emitter, C. M. Wang and Y. C. Chang*, M. W. Tsai, Y. H. Ye, C. Y. Chen, Y. W. Jiang, S. C. Lee, and D. P. Tsai, Optics Express 15, 14673-8 (2007). [10]

250. Including nonlocality in the exchange-correlation kernel from time-dependent current density functional theory: Application to the stopping power of electron liquids V.U. Nazarov, J.M. Pitarke, Y. Takada, G. Vignale, Y.-C. Chang, Phys. Rev. B 76, 205103 (2007). [9]

251. Time-dependent current-density functional theory for the friction of ions in an interacting electron gas, V.U. Nazarov, J.M. Pitarke, Y. Takada, G. Vignale, Y.-C. Chang, Int. J. Mod. Phys. B, 22, 3813 (2008). IF:0.841 [2]

252. Angle-independent infrared filter assisted by localized surface plasmon polariton, C. M. Wang, Y. C. Chang, M. W. Tsai, Y. H. Ye, C. Y. Chen, Y. W. Jiang, S. C. Lee and D. P. Tsai, IEEE Photon. Tech. Lett. 20(13), p.1103-1105(2008) IF:2.015 [3]

253. Characterization of Si nanorods by spectroscopic ellipsometry with efficient theoretical modeling, S.H. Hsu, E. S. Liu, Y.C. Chang*, J. N. Hilfiker, Y. D. Kim, T. J. Kim, C. J. Lin, and G. R. Lin, Phys. Stat. Sol. (a), 205, 876-9 (2008). IF:1.214 [7]

254. Dielectric properties of InAsP alloy thin films and evaluation of direct- and reciprocal-space methods of determining critical-point parameters, S. G. Choi, D. E. Aspnes, N. A. Stoute, Y. D. Kim, H. J. Kim, Y. C. Chang, C. J. Palmstrøm, Phys. Stat. Sol. (a), 205, 884-7 (2008). [1]

255. Optical nanometrology of Au nanoparticles on a multilayer film, Y.C. Chang, S.H. Hsu, Y. D. Kim, Phys. Stat. Sol. (c) 5, 1194-7 (2008).

256. Optical properties of In_xAl_1-xAs alloy films, J. J. Yoon , T. H. Ghong , J. S. Byun , Y. D. Kim, D. E. Aspnes, H. Kim, Y.-C. Chang , J. Song, Appl. Phys. Lett. 92, 151907 (2008). [3]

257. Theory of charge transport in a quantum dot tunnel junction with multiple energy levels, Y. C. Chang* and D. M.-T. Kuo, Phys. Rev. B 77, 245412 (2008). [6]

258. Broadband and omnidirectional antireflection employing disordered GaN nanopillars, C.-H. Chiu, P. Yu, H.-C. Kuo, C.-C. Chen, T.-C. Lu, S.-C. Wang, S.-H. Hsu, Y.-J. Cheng, and Y.-C. Chang, Opt. Express 16, 8748 (2008). [10]

259. Generation of dc spin current in a narrow channel with Rashba and Dresselhaus spin-orbit interactions, C. S. Tang, W. H. Kuan, W. Xu, Y. C. Chang, J. Vac. Sci. Technol. B 26(4) 1624 (2008). IF:1.597 [1]

260. Optical Properties of GaN by Using Ellipsometry and a Band Calculation, T. J. Kim, J. S. Byun, Y. D. Kim, H. Kim, Y-C Chang, J. Korean Phys. Soc., 53, 1575-1579 (2008).

261. Analytical approach for strain and piezoelectric potential in conical self-assembled quantum dots, T. O. Cheche, Y.-C. Chang*, J. Appl. Phys. 104, 083524 (2008). IF:2.316

262. Nonmagnetic control of spin flow: Generation of pure spin current in a Rashba-Dresselhaus quantum channel, C. H. Lin, C. S. Tang, Y. C. Chang*, Phys. Rev. B 78, 245312 (2008). [3]

263. Efficiency Enhancement of GaAs Photovoltaics Employing Antireflective Indium Tin Oxide Nanocolumns, P. Yu, C. H. Chang, C.-H. Chiu, C.-S. Yang, J. C. Yu, H.-C. Kuo, S. H. Hsu, Y. C. Chang, Adv. Mater., 21, 1618 (2009) [11]

264. Aspect-ratio-dependent ultra-low reflection and luminescence of dry-etched Si nanopillars on Si substrate, Y.-H. Pai, F.-S. Meng, C.-J. Lin, H.-C. Kuo, S.-H. Hsu, Y.-C. Chang, and G.-R. Lin, Nanotechnology, 20, 035303, (2009). [2]

265. Multi-peak negative differential resistance device consisting of multiple quantum dots sandwiched between two metallic electrodes, D. M.-T. Kuo, Y.-C. Chang, Physica E 41, 395–398 (2009).

266. Enhancement factor, electrostatic force and emission current in nanoneedle emitter, E. G. Pogorelov, A. I. Zhbanov, and Y. C. Chang, Euro Phys. Lett. 85, 17001 (2009) IF:2.201

267. Field enhancement factor and field emission from a hemi-ellipsoidal metallic needle, E. G. Pogorelov, A. I. Zhbanov, and Y. C. Chang, Ultramicroscopy 109, 373 (2009). [2]

268. Exact dynamical exchange-correlation kernel of a weakly inhomogeneous electron gas, V. U. Nazarov, G. Vignale, and Y.-C. Chang, Phys. Rev. Lett., 102, 113001 (2009) [2]

269. Spatial filtering by using cascading plasmonic gratings, C. M. Wang, Y. C. Chang, and D. P. Tsai, Optics Express 17, 6218–6223 (2009).

270. Submonolayer quantum dot infrared photodetector, D. Z.-Y. Ting, S. V. Bandara, S. D. Gunapala, J. M. Mumolo, S. A. Keo, C. J. Hill, J. K. Liu, E. R. Blazejewski, S. B. Rafol, and Y. C. Chang, Appl. Phys. Lett. 94, 1 (2009). [2]

271. Effective dielectric properties of biological cells: Generalization of the spectral density function approach, A. Goncharenko, Y. C. Chang, J. Phys. Chem. B 113 (29), 9924–9931 (2009). [1]

272. Dielectric response of AlSb from 0.7 to 5.0 eV determined by in situ ellipsometry, Y. W. Jung,1 T. H. Ghong, J. S. Byun,1 Y. D. Kim, H. J. Kim, Y. C. Chang, S. H. Shin, and J. D. Song, Appl. Phys. Lett. 94, 231913 (2009).

273. T-shaped plasmonic array as a narrow-band thermal emitter or biosensor, C. M. Wang, Y. C. Chang*, M. N. Abbas, M. H. Shih, and D. P. Tsai, Optics Exp. 17, 13526-31 (2009). [2]

274. Interband transitions of InAs_xSb_1−xalloy films, T. J. Kim, J. J. Yoon, S. Y. Hwang, D. E. Aspnes, Y. D. Kim, H. J. Kim, Y. C. Chang, and J. D. Song, Appl. Phys. Lett. 95, 111902 (2009).

275. Characterization of Nonlinear Optical Properties of Crystal RbGeCl₃．x(H₂O) in Infrared Region, L-C Tang, L-Q Liu, Y-C Chang, J-H Yao, J-Y Huang, and C-S Chang, Jpn. J. Appl. Phys., 48, 082001 (2009).

276. Bistable states of quantum dot array junctions for high-density memory, D. M.-T. Kuo and Y.-C. Chang*, Jpn. J. Appl. Phys., 48, 104504 (2009).

277. Manipulative depolarization and reflectance spectra of morphologically controlled nano-pillars and nano-rods, G.-R. Lin, F.-S. Meng, Y.-H. Pai, Y.-C. Chang, and S.-H. Hsu, Optics Exp., 17, 20824-32 (2009).

278. Linear and second-order optical response in rhombohedrally distorted perovskite ternary halides, CsGeX₃ (X=Cl, Br, and I), from first principles, L.-C. Tang, Y.-C. Chang, J.-Y. Huang, M.-H. Lee, C.-S. Chang, Jpn. J. Appl. Phys., 48, 112402 (2009).

279. One-dimensional quantum waveguide theory of Rashba electrons, D.-Y. Liu, J.-B. Xia, and Y.-C. Chang, J. Appl. Phys., 106, 093705 (2009). [1]

280. Cesium doped and undoped ZnO Nanocrystalline thin films: a comparative study of structural and Micro-Raman investigation of optical phonons, R. Thangavel, R. Moirangthem, W-S Lee, Y-C Chang*, P-K Wei, and J. Kumar, J. Ram. Spect. DOI 10.1002/jrs.2599 (2010).

281. Optical metrology of randomly-distributed Au colloids on a multilayer film, S.-H. Hsu, Y.-C. Chang*, Y.-C. Chen, P.-K. Wei, Y. D. Kim, Optics Exp. 18, 1310-15 (2010).

282. Plasmon-polariton band structures of asymmetric T-shaped plasmonic gratings, M. N. Abbas, Y. C. Chang*, M. H. Shih, Optics Exp. 18, 2509-14 (2010).

283. Surface States/Modes in One-Dimensional Semi-infinite Crystals, S. Y. Ren, Y. C. Chang*, Annals of Physics 325, 937-947 (2010).

284. Surface plasmon resonance ellipsometry based sensor for studying biomolecular interaction, R. S. Moirangthem, Y. C. Chang*, S. H. Hsu, P. K. Wei, Biosensors and Bioelectronics 25, 2633-38 (2010).

285. Thermoelectric and thermal rectification properties of quantum dot junctions, D. M.-T. Kuo and Y.-C. Chang*, Phys. Rev. B 81, 205321 (2010).

286. On the relation between the scalar and tensor exchange-correlation kernels of the time-dependent density-functional theory, V. Nazarov, G. Vignale, and Y-C Chang, J. Chem. Phys. 133, 021101 (2010).

287. Van der Waals interaction between two crossed carbon nanotubes, A. I. Zhbanov, E. G. Pogorelov, and Y.-C. Chang, ACS nano, in press (2010). IF=5.472

288. Corrected field enhancement factor for the floating sphere model of carbon nanotube emitter, E. G. Pogorelov, Y.-C. Chang, A. I. Zhbanov, and Y. G. Lee, J. Appl. Phys., 108, 044502 (2010).

289. Comment on 'Model calculation of the scanned field enhancement factor of CNTs', A. I. Zhbanov, Y.-G. Lee, E. G. Pogorelov, Y.-C. Chang, Nanotechnology, in press (2010).

290. Analytical solutions to light scattering by plasmonic nanoparticles with nearly spherical shape and nonlocal effect, H.-Y. Xie, M.-Y. Ng and Y.-C. Chang*, J. Opt. Soc. Am. A, in press (2010).

291. Spin-degenerate surface and resonant spin lifetime transistor in wurtzite structures, W.-T. Wang, C. L. Wu, J. C. Chiang, I. Lo, H. F. Kao, Y. C. Hsu, W. Y. Pang, D. J. Jang, M.-E. Lee, Y.-C. Chang, and Chun-Nan Chen, J. Appl. Phys., in press (2010).

C. Conference Proceedings

292. Inverted Ordering of Acceptor Bound Exciton States in Semiconductors, Y. C. Chang, Proceedings of the Physics of Semiconductors (San Francisco, 1984) p.601-4.

293. Band mixing effect in semiconductor superlattices, Y. C. Chang and J. N. Schulman, Superlattices and Microstructures, 1, 357-361 (1985). [2]

294. Electronic and Optical Properties of Modulation Doped Semiconductor Quantum Wells, G. D. Sanders and Y. C. Chang, Proceedings of the Physics of Semiconductors (San Francisco, 1984) p.467-470; Superlattices and Microstructures, 1, 147 (1985).

295. Phonon Dispersion Relations in Sermiconductor Superlattices in the Adiabatic Bond-Charge Model, S. K. Yip and Y. C. Chang, Superlattices and Microstructures, 1, 165-171 (1985). [1]

296. Theory of Nonlinear Optical Properties of Semiconductor Superlattices, Y. C. Chang (invited paper), Proceedings of the SPIE Conference on Quantum Well and Superlattice Physics, Vol. 792, p. 134 (1987).

297. Shallow Impurities in Semiconductor Quantum Wells, Y. C. Chang, (invited paper) Proceedings of 2nd International Conference on Shallow Impurity Centers, (Trieste, Italy 1986).

298. Multiple Quantum Well-Based Spatial Light Modulator, E. Efron, T. Y. Hsu, J. N. Schulman, W. Y. Wu, I. Rouse, I. J. D'Haenens, and Y. C. Chang, Proceedings of the SPIE Conference on Quantum Well and Superlattice Physics, Vol. 792, p. 197 (1987).

299. Free-carrier Absorption and Saturation of Intervalence-band Transitions in p-type Semiconductor Quantum Wells, Y. C. Chang and R. B. James, Proceedings of the SPIE Conference on Quantum Well and Superlattice Physics, Vol. 792, p. 214 (1987).

300. Electronic States in Heterostructures, Y. C. Chang, G. D. Sanders, and D. Z.-Y. Ting, (invited paper) Proceedings of the International Meeting on Excitons in Confined Systems (Rome, 1987), edited by R. Del Sole, A. D'Andrea and A. Lapiccirella, p. 159.

301. Excitons in Heterostructures, Y. C. Chang, G. D. Sanders, and H. Chu, (invited paper) Proceedings of the International Meeting on Excitons in Confined Systems (Rome, 1987), edited by R. Del Sole, A. D'Andrea and A. Lapiccirella, p. 189.

302. Shallow Impurities in Semiconductor Quantum Wells, Y. C. Chang, (invited paper) Proceedings of 3rd International Conference on Modulated Semiconductor Structures (Montpellier, France 1987), J. Phys. C 5, 373 (1987). [3]

303. Saturation of Intervalence-band Transitions in p-type Semiconductor Quantum Wells(invited paper), Y. C. Chang and R. B. James, Proceedings of the fourth international laser science conference (Atlanta, 1988).

304. Saddle-point Excitons in GaAs/Al_xGa_1-xAs Superlattices: Magneto-optical Studies, B. Deveaud, A. Chomette, F. Clerot, A. Regreny, J. C. Maan, R. Romestain, G. Bastard, H. Chu, and Y. C. Chang, Superlattices and Microstructures, 6, 183-185 (1989). [6]

305. Optical Properties of Semiconductor Superlattices (invited paper) Y. C. Chang, H. Chu, and G. D. Sanders, Proceedings of NATO advanced research workshop on Band structure engineering in semiconductor microstructures, (Il Cirocci, Italy, 1988), edited by R. A. Abram and M. Jaros [NATO ASI Series B: Physics Vol. 189, 341].

306. Saddle-point Excitons and Fano Resonances in Semiconductor Superlattice (invited paper), Y. C. Chang and H. Chu, Proceedings of NATO advanced research workshop on Low-dimensional systems, (Marmaris, Turkey, 1990), edited by J. Beeby, p. 217.

307. Phonons in Semiconductor Superlattices (invited paper), Y. C. Chang, S. F. Ren, and H. Chu, Proceedings of Fifth International Conference on Superlattices and Microstructures (Berlin, 1990), edited by R. Enderlin; Superlattices and Microstructures 9, 383-389 (1992) [9]

308. Many-body Effects on the Optical Spectra of Doped Semiconductors and Quantum Wells, I. Perakis and Y. C. Chang, Proceedings of the 20th International Conference on the Physics of Semiconductors, Thessaloniki, 1990, edited by E. M. Anastassakis and J. D. Joannopoulos, Vol. 2, 1109-12.

309. Optical Anisotropy Spectra of GaAs(001) Surfaces, Y. C. Chang, S. F. Ren, and D. E. Aspnes, (invited), Proceedings of the 38th Annual Symposium and Topical Conferences of American Vacuum Society, Seattle.

310. Raman Spectra of GaAs-Al_xGa_1-xAs Superlattices, Y. C. Chang, S.-F. Ren, and G. Wen, Superlattices and Microstructures 13, 165-168 (1993), Proc. 6th Intl. Conf. on Superlattices and Microstructures (Beijing, 1992), edited by B. F. Zhu. [6]

311. InAs/GaSb Superlattice Structure for Normal Incidence Intersubband Infrared Photodetecors, M. P. Houng, Y. H. Wang, H. H. Chen, and Y. C. Chang, Proc. 6th Intl. Conf. on Superlattices and Microstructures (Beijing, 1992), edited by B. F. Zhu.

312. Theory of Electronic structures of porous Si, J. B. Xia and Y. C. Chang, Proc. 21st Intl. Conf. Phys. Semicond. (Beijing,1992).

313. Optical Spectra of an Itinerant Hole Interacting with a Fermi Sea of Electrons, I. E. Perakis and Y. C. Chang, Proc. 21st Intl. Conf. Phys. Semicond. (Beijing,1992).

314. Optical properties and phonon modes of HgI₂ (invited paper) Y. C. Chang, H. K. Sim, and R. B. James, Semiconductors for room temperature detector application, vol. 302, edited by R. B. James, T. E. Schlesinger, P. Siffert, and L Franks, Materials Research Society Meeting, Pittsburgh, 1993, p. 121.

315. Electronic and Optical Properties of HgI₂, Y. C. Chang, H. K. Sim, and R. B. James, Mat. Res. Soc. Symp. Proc. 302, 121 (1993).

316. Device modeling from first principles at the atomic level, (invited paper) Y. C. Chang, Proceedings of the 22nd international symposium on compound semiconductors, Cheju Island, Korea (1995).

317. Photoluminescence excitation study of LO-phonon assisted excitonic transitions in GaN, S. J. Hwang, Y. H. Cho, J. J. Song, W. Shan, and Y. C. Chang, MRS proceedings, Nitride Semiconductor Symposium, Materials Research Society, (1998) p.691-696.

318. Coherent dynamics of excitons in GaN studied by femotosecond four-wave mixing spectroscopy J. Fisher, W. Shan, J. J. Song, D. S. Kim, D. S. Yee, Y. C. Chang, R. Horning, B. Goldberg, SPIE proceedings, 3277, 78-85 (1998).

319. Large Optical Nonlinearities in the Band Gap region of GaN Thin Films grown by MOCVD on Sapphire T. J. Schmidt, Y. C. Chang, and J. J. Song, Proceedings of SPIE conference on Optoelkectronic Materials and Devices, Taipei (1998), p. 61-67.

320. Theoretical studies of Cd vacancies and vacancy-chlorine complexes in CdTe and Cd_1-xZn_xTe, Y. C. Chang and R. B. James, Proceedings of SPIE on Hard x-ray, gamma-ray, and neutron detector physics, Colorado (1999), p. 381.

321. Theoretical studies of dark current in quantum dots, David M.-T. Kuo and Y. C. Chang, (MRS conference proceedings, San Francisco, 1999).

322. Ultrafast carrier dynamics in a highly excited GaN epilayer, C. K. Choi, Y. H. Kwon, J. S. Krasinski, G. H. Park, G. Setlur, J. J. Song, Y. C. Chang, Photonic West 2000, San Jose, California, (2001).

323. Theoretical modeling of dark current and photo-response for quantum well and quantum dot infrared detectors [Proceedings of the workshop on quantum well infrared photodetectors QWIP 2000, Dana Port, California, 2000.]

324. Theoretical modeling of femtosecond pump-probe spectroscopy in GaN systems, Y. C. Chang, C. K. Choi and J. J. Song, Proceedings Photonic West 2000, San Jose, California, (2001).

325. The excitonic optical Stark effect in GaN, C. K. Choi, Y. C. Chang, J. B. Lam, H. Gainer, S. K. Shee, J. S. Krasinski, and J. J. Song, Proceedings of the international workshop on Physics of Light-matter coupling in Nitrides, Rome (2001); Phys. Stat. Sol. (a) 190, 99 (2002).

326. Fundamental solutions for real-time optical CD metrology, J. Opsal, H. Chu, Y. Wen, Y.C. Chang and G. Li, Proceedings of SPIE 2002, Metrology, Inspection and Process Control for Microlithography XVI, p. 163 (2002).

327. Electrically Controlled Spin Device Concepts, D. Z.-Y. Ting, X. Cartoixà, and Y.-C. Chang, Physics of Semiconductors: Proceedings of the 27^th International Conference on the Physics of Semiconductors (ICPS-27), edited by J. Menéndez and C. G. Van de Walle, AIP Conference Proceedings 772 Part B, pp. 1421-1422 (2005).

328. Demonstration of 640X512 pixels long-wavelength infrared(LWIR) quantum dot infrared photodetector (QDIP) imaging focal plane array, S.D. Gunapala, S.V. Bandara, C.J. Hill, D.Z. Ting, J.K. Liu, S.B. Rafol, E.R. Blazejewski, J.M. Mumolo, S.A. Keo, S. Krishna, Y.-C. Chang, and C. A. Shott, Infrared Phys. Techn. 50, 149 (2006). [Proceedings of the workshop on quantum well infrared photodetectors QWIP 2006, Kandy, Srilanka , 2006.]

329. Optical nanometrology of Au nanoparticles on a multilayer film, Y.C. Chang, S.H. Hsu, Y. D. Kim, Phys. Stat. Sol. (c), 5, 1194-7 (2008) / DOI 10.1002/pssc.200777834. [Proceedings of the International Conference on Spectroscopic ellipsometry (ICSE-4)]

330. “Van der Waals interaction between carbon nanotubes”, E. G. Pogorelov, A. Zhbanov, Y.-C. Chang, NDNC-2008, Taipei, p. 291.

331. “Electric field pulling of carbon nanotubes from a film during field emission”, A. Zhbanov, E. G. Pogorelov, Yia-Chung Chang, N. Sinitsyn, G. Torgashov, NDNC-2008, Taipei, p. 464. (2008)

332. Observation of new critical point in In_xAl₁_-xAs alloy using spectroscopic ellipsometry, J.J. Yoon, T.H. Ghong, J.S. Byun, Y.J. Kang, Y.D. Kim, H.J. Kim, Y.C. Chang, J.D. Song, Applied Surface Science 256, 1031 (2009). [Proceedings of the 4th Vacuum and Surface Sciences Conference of Asia and Australia (VASSCAA-4), Matsue City, Japan (2008)]

333. “Novel quantum well, quantum dot, and superlattice heterostructure based infrared detectors”, D. Z.-Y. Ting, S. V. Bandara, C. J. Hill, S. D. Gunapala, Y-C Chang, H. C. Liu, C. Y. Song, A. Soibela, J. Mumolo, J. Nguyen, J. K. Liu, S. A. Keo, S. B. Rafol, and E. R. Blazejewski, Proc. of SPIE Vol. 7298 729805 (2009).

334. Dots, QWISPs, and BIRDs, D. Z.-Y. Ting, S. V. Bandara, J. Mumolo, S. A. Keo, J. Nguyen, H.C. Liu, C.Y. Song, Y.-C. Chang, S. B. Rafol, C. J. Hill, S. D. Gunapala, A. Soibel, J. K. Liu, E. Blazejewski, Infrared Phys. Techn. 52, 294-298 (2009). [Proceedings of the workshop on quantum structure infrared photodetectors (QSIP 2009), Yosemite, California, 2009]

D. Books & Book Chapters

1. Electronic States in Heterostructures, Y. C. Chang, G. D. Sanders, and D. Z.-Y. Ting, Excitons in Confined Systems (Springer-Verlag), edited by R. Del Sole, A. D'Andrea and A. Lapiccirella, p. 159 (1987)

2. Excitons in Heterostructures, Y. C. Chang, G. D. Sanders, and H. Chu, Excitons in Confined Systems (Springer-Verlag), edited by R. Del Sole, A. D'Andrea and A. Lapiccirella, p. 189 (1987).

3. Optical Properties of Semiconductor Superlattices, Y. C. Chang, H. Chu, and G. D. Sanders, in Band structure engineering in semiconductor microstructures, Il Cirocci, Italy, (1988).

4. Saddle-point Excitons and Fano Resonances in Semiconductor Superlattice, Y. C. Chang and H. Chu, in Low-dimensional systems, (Springer-Verlag) , edited by J. Beeby, p. 217 (1990).

5. Magneto-optical Study of Miniband Dispersion and Excitonic Effects in GaAs/Al_xGa_1-xAs Superlattices, B. Deveaud, A. Chomette, F. Clerot, A. Regreny, R. Romestain, J. C. Maan G. Bastard, H. Chu, and Y. C. Chang, in Spectroscopy of Semiconductor Microstructures, edited by G. Fasol and A. Fasolino, and P. Lugli, (Plenum, Paris), P. 391-405 (1989).

6. Optical properties and phonon modes of HgI₂, Y. C. Chang, H. K. Sim, and R. B. James, Semiconductors for room temperature detector application, vol. 302, edited by R. B. James, T. E. Schlesinger, P. Siffert, and L Franks, Materials, p. 121, (1993)

7. Properties of III-V Quantum Wells and Superlattices, Y. C. Chang, EMIS Datareviews Sreies, edited by P. Bhattacharya, London, INSPEC, No. 15, p. 35 (1996).

8. Broad-spectrum InGaAs/InP Quantum Well Infrared Photodetector via Quantum Well Intermixing, D. K. Sengupta, Y. C. Chang, and G. E. Stillman, in Optoelectronic Properties of Semicondutors and Superlattices, volume on Semiconductor Quantum Well Intermixing - Material Properties and Optoelectronics Applications, edited by E. Herbert, Gordon and Breach, Philadelphia, (1998).

9. Carbon nanotube field emitters, A. Zhbanov, E. Pogorelov, and Y-C Chang, in Carbon Nanotubes, Edited by Jose Mauricio Marulanda, In-Teh, Vukovar, Croatia, Ch. 17, p. 311 (2010).