4.12: References
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[1] C. Holloway and G. A. Hufford, “Internal inductance and conductor loss associated with the ground plane of a microstrip line,” IEEE Trans. on Electromagnetic Compatibility, vol. 39, no. 2, pp. 73–78, May 1997.
[2] G. Ponchak and A. Downey, “Characterization of thin film microstrip lines on polyimide,” IEEE Trans. on Components, Packaging, and Manufacturing Technology, Part B: Advanced Packaging, vol. 21, no. 2, pp. 171–176, May 1998.
[3] Hai-Young Lee and T. Itoh, “Phenomenological loss equivalence method for planar quasitem transmission lines with a thin normal conductor or superconductor,” IEEE Trans. on Microwave Theory and Techniques, vol. 37, no. 12, pp. 1904–1909, Dec. 1989.
[4] W. Heinrich, “Quasi-tem description of MMIC coplanar lines including conductor-loss effects,” IEEE Trans. on Microwave Theory and Techniques, vol. 41, no. 1, pp. 45–52, Jan. 1993.
[5] M. Born and E. Wolf, Principles of Optics: Electromagnetic Theory of Propagation, Interference, and Diffraction of Light, 7th ed. Cambridge University Press, 1999.
[6] K. Coperich, J. Morsey, V. Okhmatovski, A. Cangellaris, and A. Ruehli, “Systematic development of transmission-line models for interconnects with frequency-dependent losses,” IEEE Trans. on Microwave Theory and Techniques, vol. 49, no. 10, pp. 1677–1685, Oct. 2001.
[7] W. Heinrich, “Full-wave analysis of conductor losses on MMIC transmission lines,” IEEE Trans. on Microwave Theory and Techniques, vol. 38, no. 10, pp. 1468–1472, Oct. 1990.
[8] R. Faraji-Dana and Y. Chow, “The current distribution and ac resistance of a microstrip structure,” IEEE Trans. on Microwave Theory and Techniques, vol. 38, no. 9, pp. 1268–1277, Sep. 1990.
[9] A. Djordjevic and T. Sarkar, “Closed-form formulas for frequency-dependent resistance and inductance per unit length of microstrip and strip transmission lines,” IEEE Trans. on Microwave Theory and Techniques,, vol. 42, no. 2, pp. 241–248, Feb. 1994.
[10] B. Biswas, A. Glasser, S. Lipa, M. Steer, P. Franzon, D. Griffis, and P. Russell, “Experimental electrical characterization of on-chip interconnects,” in IEEE 6th Topical Meeting on Electrical Performance of Electronic Packaging, 1997, pp. 57–59.
[11] A. Deutsch, R. Krabbenhoft, K. Melde, C. Surovic, G. Katopis, G. Kopcsay, Z. Zhou, Z. Chen, Y. Kwark, T.-M. Winkel, X. Gu, and T. Standaert, “Application of the short-pulse propagation technique for broadband characterization of pcb and other interconnect technologies,” IEEE Trans. on Electromagnetic Compatibility, vol. 52, no. 2, pp. 266–287, May 2010.
[12] T. Edwards and M. Steer, Foundations for Microstrip Circuit Design. John Wiley & Sons, 2016.
[13] G. Vendelin, “Limitations on stripline Q,” Microwave Journal, pp. 63–69, 1970.
[14] H. Hasegawa, M. Furukawa, and H. Yanai, “Properties of microstrip line on si-sio2 system,” IEEE Trans. on Microwave Theory and Techniques, vol. 19, no. 11, pp. 869–881, Nov. 1971.
[15] D. Jager, “Slow-wave propagation along variable schottky-contact microstrip line,” IEEE Trans. on Microwave Theory and Techniques, vol. 24, no. 9, pp. 566–573, Sep. 1976.
[16] Y. K. et al, “Quasi-tem analysis of ”slowwave” mode propagation on coplanar microstructure mis transmission lines,” IEEE Trans. on Microwave Theory and Techniques, vol. 35, no. 6, pp. 545–551, Jun. 1987.