Piezoelectric, continuously twisted, structurally chiral mediums (PCTSCMs)
216. A. Lakhtakia, 'Elastodynamic wave propagation in a continuously twisted structurally chiral medium along the axis of spirality,' Journal of the Acoustical Society of America, 95, 1994, 597 - 600; erratum: 95, 1994, 3669.
239. S.F. Nagle, A. Lakhtakia & W. Thompson, Jr., 'Modal structures for axial wave propagation in a continuously twisted structurally chiral medium (CTSCM),' Journal of the Acoustical Society of America, 97, 1995, 42 - 50.
240. A. Lakhtakia, 'Wave propagation in a piezoelectric, continuously twisted, structurally chiral medium along the axis of spirality,' Applied Acoustics, 44, 1995, 25 - 37; erratum: 44, 1995, 385.
264. S.F. Nagle & A. Lakhtakia, 'Shear axial modes in a PCTSCM. Part I: piezoelectric stiffening and selective attenuation,' Sensors and Actuators A: Physical, 49, 1995, 195 - 201; corrigenda: 55, 1996, 229.
287. S.F. Nagle & A. Lakhtakia, 'Shear axial modes in a PCTSCM. Part II: towards transduction applications,' Sensors and Actuators A: Physical, 55, 1996, 139 - 147.
288. A. Lakhtakia, 'Exact analytic solution for oblique propagation in a piezoelectric, continuously twisted, structurally chiral medium,' Applied Acoustics, 49, 1996, 225 - 236.
298. A. Lakhtakia, K. Robbie & M.J. Brett, 'Spectral Green's function for wave excitation and propagation in a piezoelectric, continuously twisted, structurally chiral medium,' Journal of the Acoustical Society of America, 101, 1997, 2052 - 2059.
307. A. Lakhtakia & W. Thompson, Jr., 'Shear axial modes in a PCTSCM. Part III: sensing shear waves,' Sensors and Actuators A: Physical, 58, 1997, 67 - 74.
352. A. Lakhtakia & M.W. Meredith, 'Shear axial modes in a PCTSCM. Part IV: bandstop and notch filters,' Sensors and Actuators A: Physical, 73, 1999, 193 - 200.
372. A. Lakhtakia, 'Shear axial modes in a PCTSCM. Part V: transmission spectral holes,' Sensors & Actuators A: Physical, 80, 2000, 216 - 223.
381. A. Lakhtakia & J.A. Sherwin, 'Displacement in a continuously twisted structurally chiral medium due to axial loading,' Journal of the Acoustical Society of America, 107, 2000, 3549 - 3551.
385. A. Lakhtakia, 'Axial loading of a chiral sculptured thin film,' Modelling and Simulation in Materials Science and Engineering, 8, 2000, 677 - 686.
390. A. Lakhtakia, 'Shear axial modes in a PCTSCM. Part VI: simpler transmission spectral holes,' Sensors & Actuators A: Physical, 87, 2000, 78 - 80.
405. A. Lakhtakia, 'Perturbational solution for quasi-axial propagation in a piezoelectric, continuously twisted, structurally chiral medium,' Applied Acoustics, 62, 2001, 1019 - 1023.
438. A. Lakhtakia, 'Microscopic model for elastostatic and elastodynamic excitation of chiral sculptured thin films,' Journal of Composite Materials, 36, 2002, 1277 - 1298.
464. A. Lakhtakia, 'Shear axial modes in a PCTSCM Part VII. Reflection spectral holes,' Sensors and Actuators A: Physical, 104, 2003, 188 - 190.
542. R.J. Carey & A. Lakhtakia, 'Shear axial modes in a PCTSCM, Part VIII: Spectral holes with dissimilar materials but without phase defects,' Sensors and Actuators A: Physical, 126, 2006, 382 - 385.
Sculptured Thin Films
Helicoidal Bianisotropic Mediums
Updated on: June 25, 2006