A. 期刊論文:
R.S. Tung, C.H. Chang, D.C. Chern, and J.M. Nester, "Asymptotic Anti-De Sitter Conditions for Poincare Gauge Theory", Prog. Theor. Phys. 88, 291(1992). 1992a.pdf
Y.C. Yu, E.K. Lin, C.W. Wang, P.J. Tsai, and C.H. Chang, "L X-Ray-Production in La, Nd, Er and Lu by 1~5 MeV Protons", J. Phys. B: 27, 3967 (1994). 1994a.pdf
E.K. Lin, C.W. Wang, Y.C. Yu, W.C. Cheng, C.H. Chang, Y.C. Yang, and C.Y. Chang, "Application of PIXE for Elemental Analysis of Ancient Chinese Artifacts", Nucl. Instrum. Methods 99, 394 (1995). 1995a.pdf
H.Y. Yao, E.K. Lin, C.W. Wang, Y.C. Yu, C.H. Chang, Y.C. Yang, and C.Y. Chang, "A PIXE study of Verification of Carnation in-Vitro Culture", Nucl. Instrum. Methods 109, 312 (1996). 1996a.pdf
K.R. Chu, H.Y. Chen, C.L. Hung, T.H. Chang, L.R. Barnett S.H. Chen, and T.T. Yang, “An Ultra High Gain Gyrotron Traveling Wave Amplifier", Phys. Rev. Lett. 81, 4760 (1998). 1998a.pdf
T.H. Chnag, L.R. Barrnett, K.R. Chu, F. Taai, and C.L. Hsu, “A Dual-Function Circular Polarization Converter for Microwave/Plasma Processing Systems", Rev. Sci. Instru. 70, 1530 (Feb.1999). 1999a.pdf
K.R. Chu, H.Y. Chen, C.L. Hung, T.H. Chang, L.R. Barnett, S.H. Chen, T.T. Yang, and D. Dialetis, “Theory and Experiment of Ultra high Gain Gyrotron Traveling-Wave Amplifier", IEEE Trans. Plasma Sci. 27, pp. 391-404, (1999). Invited paper. 1999b.pdf
K.R. Chu, T.H. Chang, H.Y. Chen, C.L. Hung, L.R. Barnett, S.H. Chen, and T.T. Yang “Recent Advances in Gyrotron Traveling Wave Amplifier", Recent Advances and Cross-Century Outlooks in Physics, edited by Pisin Chen and Cheuk-Yin Wong, world Scientific. pp.369-378, (1999). 1999c.pdf
S. H. Chen, K. R. Chu, and T. H. Chang, “Saturated Behavior of the Gyrotron Backward-Wave Oscillator”, Phys. Rev. Lett. 85, 2633, (2000). 2000a.pdf
Y. S. Yeh, M. H. Tsao, H. Y. Chen, and T. H. Chang, "Improved computer program for magnetron injection gun design", Int. J. Infrared and Millimeter Waves, 21, no. 9, pp. 1397-1415, (2000). 2000b.pdf
K. R. Chu, T. H. Chang, H. Y. Chen, C. L. Hung, L. R. Barnett, S. H. Chen, and T. T. Yang “Physics and Technology Issues of the Gyrotron Traveling Wave Amplifier”, Strong Microwaves in Plasmas, edited by A.G. Litvak, Nizhny Novgorod. pp. 718-727, (2000). 2000c.pdf
Y. S. Yeh, T. H. Chang, and C. T. Fan, "Beam characteristics of mechanically tunable magnetron injection guns", Int. J. Infrared and Millimeter Waves, 22, no. 7, pp. 983-997, (2001). 2001a.pdf
T. H. Chang, S. H. Chen, L. R. Barnett, and K. R. Chu, “Characterization of Stationary and Nonstationary Behavior ub Gyrotron Oscillators”, Phys. Rev. Lett. 87, 064802, (2001). 2001b.pdf
K. R. Chu, T. H. Chang, L. R. Barnett, and S. H. Chen, “Theory and Experiment of Ultra High Gain Gyrotron Traveling-Wave Amplifier”, AIP proceeding RF2001, (2001)
S. H. Chen, T. H. Chang, K. F. Pao, C. T. Fan, and K. R. Chu, “Linear and Time-Dependent Behavior of the Gyrotron Backward-Wave Oscillator”, Phys. Rev. Lett. 89, 268303, (2002). 2002a.pdf
D. B. McDermott, H. H. Song, Y. Hirata, A. T. Lin, L. R. Barnett, T. H. Chang, H. L. Hsu, P. S. Marandos, J. S. Lee, K. R. Chu, and N. C. Luhmann, Jr., “Design of a W-Band TE01 Mode Gyrotron Traveling Wave Amplifier with High Power and Broadband Capabilities”, IEEE Trans. Plasma Sci., 30, 894 (2002). 2002b.pdf
T. H. Chang, K. F. Pao, S. H. Chen, and K. R. Chu, “Self-consistent effects on the starting current of the gyrotron oscillators”, Int. J. Infrared and Millimeter Waves, 24, no. 9, pp. 1415-1420, (2003). 2003a.pdf
H. H. Song, D. B. McDermott, Y. Hirata, L. R. Barnett, C. W. Domier, H. L. Hsu, T. H. Chang, W. C. Tsai, K. R. Chu, and N. C. Luhmann, Jr. ”Theory and experiment of a 94 GHz gyrotron traveling-wave amplifier”, Phys. Plasmas, 11, pp. 2935-2941 (2004). 2004a.pdf
Y. S. Yeh, T. H. Chang, and T. S. Wu, “Comparative analysis of gyrotron backward-wave oscillators operating at different cyclotron harmonics”, Phys. Plasmas 11, pp. 4547-4553, (2004). 2004b.pdf
W. C. Tsai, T. H. Chang, N. C. Chen, K. R. Chu, H. H. Song, and N. C. Luhmann, Jr., “Absolute instabilities in a high-order-mode gyrotron traveling-wave amplifier”, Phys. Rev. E, 70, 056402 (2004). 2004c.pdf
T. H. Chang and S. H. Chen, “Stepwise frequency tuning of a gyrotron backward-wave oscillator”, Phys. Plasmas, 12, 013104, (2005). 2005a.pdf
T. H. Chang, “A field probing approach and its application to a power distribution network”, Int. J. Infrared and Millimeter Waves, 26, No. 3, pp.409-419, (2005). 2005b.pdf
T. H. Chang, “Minimizing the Switching Noise in the Power Distribution Network using External Coupled Resistive Termination”, IEEE Trans. Adv. Packag., 28, 754 (2005). 2005c.pdf
T. H. Chang, C. F. Yu, and C. T. Fan, “Novel polarization controllable TE21 mode converter”, Rev. Sci. Instrum. 76, 074703 (2005). 2005d.pdf
C. F. Yu and T. H. Chang*, ”High Performance Circular TE01 Mode Converter”, IEEE Trans. Microwave Theory Tech. 53, 3794 (2005). (*corresponding author) 2005e.pdf
K. F. Pao, T. H. Chang, C. T. Fan, S. H. Chen, C. F. Yu, and K. R. Chu, “Dynamics of Mode Competition in the Gyrotron Backward-Wave Oscillator”, Phys. Rev. Lett., 95, 185101 (2005). 2005f.pdf
T. H. Chang and N. C. Chen, “Transition of absolute from global to local modes in gyrotron traveling-wave amplifier”, Phys. Rev. E ( to be published). 2006a.pdf
A. Bhaskar, T. H. Chang*, H. Y. Chang, and S. Y. Cheng, “Low-temperature processing of sol-gel derived PZT thin films using 2.45GHz microwave annealing,” submitted to Applied Physics Letter.
Y. S. Yeh, T. H. Chang, and Y. C. Yu, “Stability Analysis of a Gyrotron Backward-Wave Oscillator with an External Injection Signal”, submitted to IEEE Trans. Plasma Sci.
T. H. Chang, C. T. Fan, K. F. Pao, S. H. Chen, and K. R. Chu, “Stability and Tunability of the Gyrotron Backward-Wave Oscillator ”, to be submitted to Physical Review E.
L. R. Barnett, H. Y. Chang, T. H. Chang*, W. Y. Chiang, S. Y. Cheng, K. R. Chu, L.C. Tai, and C. F. Yu, “A scanning quasi-optical microwave applicator for advanced material processing,” to be submitted to Applied Physics Letter. (*corresponding author)
B. 中文期刊:
1. 張存續, 鄭復興, 與楊滋德, “真空爐焊接技術探討”, 真空科技, 第12卷, 第4期, p.36, (1999).
2. 洪健倫, 張存續, 朱國瑞, 戴涪, 與呂康威, “應用於大面積微波電漿源之輻射共振腔原理探討”, 真空科技, 第13卷, 第3期, p.25, (2000).
3. 張存續, “高速數位電路之電源完整性”, 電子月刊, 二月號, pp. 186-193 (2003). (每月精選) 2003B1.pdf
4. 朱國瑞, 柏賴德, 張存續, 張宏宜, 姜惟元, 戴伶潔, 余青芳, 寇崇善, 鄭世裕, “一個應用微波處理材料的新工具”, 工業材料, 十二月號, pp.77-80 (2004). 2004B1.pdf
5. 張存續, “微波與材料之頻率響應與反應特性”, 工業材料, 十二月號, pp.81-87 (2004). 2004B2.pdf
C. 國內外專利:
戴涪, 許覺良, 朱國瑞, 馮嘉鳴, 張存續, 呂康威, “圓極化循迴器”, 專利證書號: 125309.
戴涪, 許覺良, 朱國瑞, 李學志, 彭國源, 賈漢榮, 賀克勤, 張存續, ”300FECR電漿機台設備”,. 專利證書號:137744.
張存續, ”功率分配系統之共振頻率之調離方法,” 專利證書號:91136048.
張存續, ”藉由外部耦合電阻性終結器降低功率分配系統中之開關雜訊之方法,” 專利證書號:004359.
T. H. Chang, “Method of Detuning Resonant Frequencies of a Power Distribution System,” U.S. (10/291,530).
T. H. Chang and J. Chen, “Method of Reducing Switching Noise in a Power Distribution System by External Coupled Resistive Terminations,” U.S. (10/377,676).
L. R. Barnett, K. R. Chu, T. H. Chang, H. Y. Chang, W.Y. Chiang, C. F. Yu, L. C. Tai, S.Y. Cheng, C.S. Kou, “Quasi-optical material treatment apparatus,” U.S. and Taiwan, patent pending.
T. H. Chang, H.Y. Chang, C. S. Y. Cheng, M. C. Lain, and W. T. Fan, “High-Q Elliptical Applicator for Material Processing,” U.S. and Taiwan, patent pending.
C. F. Yu, and T. H. Chang*, ”Novel polarization controllable TE21 mode converter,” U.S. and Taiwan, patent pending.
T. H. Chang and C. F. Yu, “High Performance TE01 mode converter,” U.S. and Taiwan, patent pending.