C. Ang, Z.Yu, H.J. Young, C.A. Randall, A.S. Bhalla, L.E. Cross, and M.T. Lanagan, “Dielectric Properties of Bi2O3-ZnO-Ta2O5 Pyrochlore and Zirconolite Structure Ceramics,” Appl. Phys. Lett., 82(21):3734-3736 (May 2003). Equal Contribution by Author
J.C. Nino*, I.M. Reaney, M.T. Lanagan, and C.A. Randall, “Transmission Electron Microscopy Investigation of Bi203-Zn0-Nb205 Pyrochlore and Related Phases,”Materials Letters, 57(2):414-419 (Dec 2002). First Author Supervised by Candidate
J.C. Nino*, M.T. Lanagan, C.A. Randall, and S. Kamba, “Correlation Between Infrared Phonon Modes and Dielectric Relaxation in Bi203-Zn0 Nb205 Cubic Pyrochlore,”Appl. Phys. Lett., 81(23): 4404-4406 (Dec 2002). First Author Supervised by Candidate
H.T. Kim, T. Shrout, C. Randall, and M. T. Lanagan, “Low-temperature Sintering and Dielectric Properties of Ag(Nb,Ta)O-3 Composite Ceramics,” J. Am. Ceram. Soc., 85 (11):2738-2744 (Nov 2002). Equal Contribution by Author
C. Ang, Z. Yu, H.J. Youn, C.A. Randall, A. S. Bhalla, L.E. Cross, J. Nino, and M. Lanagan, “Low Temperature Dieielctric Relaxation in the Pyrochlore (Bi3/4Zn1/4)2(Zn1/4Ta3/4)2O7 Compound,” Appl. Phys. Lett. 80(24):4807-4809 (June 2002). Equal Contribution by Author
E. Semouchkina, W. Cao, R. Mittra, and M. T. Lanagan, “ Numerical Modeling and Experimental Investigation of Resonance Properties of Microwave Capacitors,” Microwave Optical Tech. Lett., 29(1):54–60 (Apr 2001). Equal Contribution by Author
E. Semouchkina, W. Cao, M. T. Lanagan, R. Mittra and W. Yu, “Combining FDTD Simulations with Measurements of Microstrip Ring Resonators for Characterization of Low- and High-K Dielectrics at Microwaves,” Microwave and Optical Tech. Lett., 29(1):21–24 (Apr 2001). Contributing Author
E. Semouchkina, W. Cao, and M. T. Lanagan, “High Frequency Permittivity Determination by Spectra Simulation and Measurement of Microstrip Ring Resonators,” Electron. Lett., 36(11):956–958 (May 2000). Equal Contribution by Author