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Collaboration: International

NIRT, NSF

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Curriculum Vitae

 

2001

  1. “Magnetic and high pressure transport properties of cesium substituted lanthanum calcium manganites,” G. Srinivasan, T. P. Mullin, D. Hanna, A. Manivannan, and M. S. Seehra, Applied Physics A, 72, 333 (2001).
  2. “Magnetic transitions and electrical transport in lanthanum strontium manganite:  Effect of substitutions and high pressure,” G. Srinivasan and D. Hanna, Appl. Phys. Lett. 79, 641 (2001).
  3. “Theory of magnetoelectric effects at microwave frequencies in a piezoelectric/magnetostrictive multilayer composite,” M. I. Bichurin, I. A. Kornev, V. M. Petrov, A. S. Tatarenko, Yu. V. Kiliba, and G. Srinivasan, Phys. Rev. B, 64, 094409 (2001).
  4. “Magnetoelectric bilayer and multilayer structures of magnetostrictive and piezoelectric oxides,” G. Srinivasan, E. T. Rasmussen, J. Gallegos, R. Srinivasan, Yu. I. Bokhan, and V. M. Laletin, Phys. Rev. B 64, 214408 (2001).

2002

  1. “Electrical transport and magnetoresistance in thick films of lanthanum calcium manganite prepared by tape casting,” G. Srinivasan and E. T. Rasmussen, Appl. Phys. Lett. 80, 464 (2002).
  2. “Magnetoelectric effects in bilayer and multilayers of magnetostrictive and piezoelectric perovskite oxides,” G. Srinivasan, E. T. Rasmussen, B. J. Levin, and R. Hayes, Phys. Rev.B 65, 134402 (2002).
  3. “Ferromagnetic resonance in layered manganites: Evidence for short range magnetic order,” G. Srinivasan and R. Suryanarayanan,  J. Magn. Magn. Mater. 242-245, 686 (2002).
  4. “Magnetic and magnetoelectric susceptibility of a ferroelectric/ferromagnetic composite at microwave frequencies,” M. I. Bichurin, V. M. Petrov, Yu. V. Kiliba, and G. Srinivasan, Phys. Rev. B. 66, 134404 (2002).
  5. “Theory of low frequency magnetoelectric effects in ferrite-lead zirconate titanate layered samples,” M. I. Bichurin, V. M. Petrov, and G. Srinivasan,  J. Appl. Phys.92, 7681 (2002).
  6. “Resonance magnetoelectric effect in multilayer composites,” M. I. Bichurin, V. M. Petrov, I. A. Kornev, A. S. Tatarenko, Yu. V. Kiliba, N. A. Konstantinov, and G. Srinivasan, Ferroelectrics 280,  187 (2002).
  7. “Modeling of magnetoelectric effect in ferromagnetic/piezoelectric multilayer composite,” M. I. Bichurin, V. M. Petrov, and G. Srinivasan, Ferroelectrics 280, 165 (2002).
  8. “Magnetoelectric effects in composites of ferrite and barium lead zirconate titanate,” V. M. Laletin and G. Srinivasan, Ferroelectrics 280, 177 (2002).
  9. “Giant   Magnetoelectric Effects in Layered Composites of Nickel Zinc Ferrite and Lead Zirconate Titanate,” G. Srinivasan, R. Hayes, E. T. Rasmussen, D. Feckel, V. M. Laletin, N. Paddubnaya, Solid State Commun. 124, 373 (2002).
  10. “Theory of low frequency magnetoelectric effects in ferrite-lead zirconate titanate layered samples,” M. I. Bichurin, V. M. Petrov, and G. Srinivasan, J. Appl. Phys. 92, 7681 (2002).

2003

  1. “Magnetic and microwave properties of MFe2O4-PZT (M=Ni, Co) and Lax(Ca, Sr)1-xMnO3-PZT multilayer structures,” A.A. Bush, Y. K. Fetisov, K. E. Kamentsev, V. F. Mesh, and G. Srinivasan, J. Magn. Magn. Mater.258-259, 45 (2003).
  2. “Magnetoelectric effects in ferrite-lead zirconate titanate layered composites: studies on the influence of zinc substitution in ferrites,” G. Srinivasan, E. T. Rasmussen, and R. Hayes, Phys. Rev. B. 67, 014418 (2003).
  3. “Theory of low frequency magnetoelectric coupling in magnetostrictive-piezoelectric bilayers,” M. I. Bichurin, V. M. Petrov, and G. Srinivasan, Phys. Rev. B 68, 054402 (2003).
  4. “Low frequency and microwave magnetoelectric effects in thick film heterostructures of lithium ferrite and lead zirconate titanate,” G. Srinivasan, R. Hayes and M. I. Bichurin, Solid State Commun. 128, 261 (2003).
  5. “Resonance magnetoelectric effects in layered magnetostrictive-piezoelectric composites,” M. I. Bichurin, D. A. Fillipov, V. M. Petrov, U. Laletsin, and G. Srinivasan, Phys. Rev. B. 68, 132408 (2003).

2004

  1. “Frequency dependence of magnetoelectric interactions in layered structures of ferromagnetic alloys and piezoelectric oxides,” U. Laletsin, N. Paddubnaya, G. Srinivasan, and C. P. DeVreugd, Appl. Phys. A. 78, 33 (2004).
  2. “Structural and magnetic properties of MFe2O4-PZT (M=Ni, Co) and Lax(Ca, Sr)1-xMnO3 -PZT multilayer composites,” G. Srinivasan, E. T. Rasmussen, A. A. Bush, K. E. Kamentsev, V. F. Meshcheryakov, and Y. K. Fetisov, Appl. Phys. A.78, 721 (2004).
  3. “Giant magnetoelectric effect in composite materials in the region of electromechanical resonance,” D. A. Filippov, M. I. Bichurin, V. M. Petrov, V. M. Laletin, N. N. Paddubnaya, and G. Srinivasan, Tech. Phys. Lett. 30, 6 (2004).
  4. “Maxwell-Wagner Relaxation in Magnetoelectric Composites,” V. M. Petrov, M. I. Bichurin, and G. Srinivasan, Tech. Phys. Lett. 30, 341 (2004).
  5. “Microwave magnetoelectric effects in single crystal bilayers of yttrium iron garnet and lead magnesium niobate-lead titanate,” S. Shastry, G. Srinivasan, M. I. Bichurin, V. M. Petrov, and A. S. Tatarenko, Phys. Rev. B. 70, 064416 (2004).
  6. “Wide-Band Magnetoelectric Characterization of a Ferrite-Piezoelectric Multilayer Using a Pulsed Magnetic Field,”  Y.K. Fetisov, K.E. Kamentsev, A.Y. Ostashchenko, and G. Srinivasan, Solid State Commun., 132, 13 (2004).
  7. “Pyroelectric effects in magnetoelectric multilayer composites,” Y. K. Fetisov, A. A. Bush, K. E. Kamentsev, and G. Srinivasan, Solid State Commun., 132, 319 (2004).
  8. “Magnetoelectric effects in ferromagnetic/piezoelectric multilayer composites,” G. Srinivasan, C. P. DeVreugd, R. Hayes, M. I. Bichurin, and V. M. Petrov Magnetoelectric Interaction Phenomena in Crystals-NATO Science Series II. Vol. 164, Eds. M. Fiebig, V. V. Eremenko, and I. E. Chupis (Kluwer Academic Publishers, London, 2004), p.35-56.
  9. “Magnetoelectric effects in ferromagnetic metal-piezoelectric oxide layered structures,” U. Laletsin, N. Paddubnaya, G. Srinivasan, and M. I. Bichurin, Magnetoelectric Interaction Phenomena in Crystals-NATO Science Series II. Vol. 164, Eds. M. Fiebig, V. V. Eremenko, and I. E. Chupis (Kluwer Academic Publishers, London, 2004), p.57-64.
  10. “Modeling of magnetoelectric effects in ferromagnetic/piezoelectric bulk composites,” V. M. Petrov, M. I. Bichurin, V. M. Laletin, N. Paddubnaya, and G. Srinivasan, Magnetoelectric Interaction Phenomena in Crystals-NATO Science Series II. Vol. 164, Eds. M. Fiebig, V. V. Eremenko, and I. E. Chupis (Kluwer Academic Publishers, London, 2004), p.65-70.
  11. “Electromechanical resonance in multilayer and bulk magnetoelectric composites,” D. A. Fillipov, M. I. Bichurin, V. M. Petrov, V. M. Laletsin, N. N. Puddubnaya, and G. Srinivasan, Magnetoelectric Interaction Phenomena in Crystals-NATO Science Series II. Vol. 164, Eds. M. Fiebig, V. V. Eremenko, and I. E. Chupis (Kluwer Academic Publishers, London, 2004), p.71-80.
  12. “Left-handed materials based on ferromagnetic-ferroelectric composites,” M. I. Bichurin, A. S. Tatarenko, G. Srinivasan, and J. V. Mantese, Magnetoelectric Interaction Phenomena in Crystals-NATO Science Series II. Vol. 164, Eds. M. Fiebig, V. V. Eremenko, and I. E. Chupis (Kluwer Academic Publishers, London, 2004), p.81-86.
  13. “Hot-pressed magnetoelectric composites,” C. P. DeVreugd, C. S. Flattery, and G. Srinivasan, Appl. Phys. Lett. 85, 2550 (2004).
  14. “Magnetoelectric response of a multilayer ferrite-pizoelectric structure to a magnetic field pulses,” A. Y. Ostashchenko, K. E. Kamentsev, Y. K. Fetisov, and G. Srinivasan, Tech. Phys. Lett. 30, 769  (2004).
  15. “Resonant amplification of the magnetoelectric effect in ferrite-piezoelectric composites,” D. A. Filippov, M. I. Bichurin, V. M. Petrov, V. M. Laletin, and G. Srinivasan, Phys. Solid State 46, 1674 (2004).
  16. “Magnetic field sensors using magnetoelectric effects in ferrite piezoelectric multilayers,” Proceedings of IEEE Sensors 3, 1106 (2004).

2005

  1. “Dynamic magnetoelectric effects in bulk and layered composites of cobalt zinc ferrite and lead zirconate titanate,” G. Srinivasan, R. Hayes, C. P. De Vreugd, U. Laletsin, and N. Pudubnaya , Appl. Phys. A. 80, 891(2005).
  2. “Resonant Magnetoelectric Coupling in Trilayers of Ferromagnetic Alloys and Piezoelectric Lead Zirconate Titanate:  The Influence of Bias Magnetic Field,” G. Srinivasan, C. P. DeVreugd, V. M. Laletin, N. Paddubnaya, and M. I. Bichurin, Phys. Rev. B. 71, 184423 (2005).
  3. “Magnetoelectric Interactions in Bilayers of Yttrium Iron Garnet and Lead Magnesium Niobate-Lead Titanate :  Evidence for Strong Coupling in Single Crystals and Epitaxial Films,” G. Srinivasan, C. P. De Vreugd, M. I. Bichurin, and V. M. Petrov, Appl. Phys. Lett. 86, 222506 (2005).
  4. “Ferromagnetic-ferroelectric layered structures: Magnetoelectric interactions and devices,” G. Srinivasan, M. I. Bichurin, and J. V. Mantese, Integ. Ferroelec. 71, 45 (2005).
  5. “Electrically tunable microwave filters based on ferromagnetic resonance in single crystal ferrite-ferroelectric bilayers,” A. S. Tatarenko, M. I. Bichurin and G. Srinivasan, Elec. Lett. 41, 596 (2005).
  6. “Electrically tunable ferrite-ferroelectric microwave delay lines,” Y. K. Fetisov and G. Srinivasan, Appl. Phys. Lett. 87, 103502 (2005).
  7. “Theory of magnetoelectric effects at magneto-acoustic resonance in single crystal ferromagnetic-ferroelectric heterostructures,” M. I. Bichurin, V. M. Petrov, O. V. Ryabkov, S. V. Verkin, and G. Srinivasan, Phys. Rev. B 72, 060408 (R) 2005.
  8. “Magnetization-graded ferromagnets: The magnetic analogs of  semiconductor junction elements,” J. V. Mantese, A. L. Micheli, N. W. Schubring, R. W. Hayes, G. Srinivasan, and S. P. Alpay, Appl. Phys. Lett. 87, 082503 (2005).
  9. “A ferrite/piezoelectric microwave phase shifter: Studies on electric field tunability,” Y. K. Fetisov and G. Srinivasan, Elec. Lett. 41, 1066 (2005).
  10. “Frequency and field dependence of magnetoelectric interactions in layered ferromagnetic transition metal-piezoelectric lead zirconate titanate,” V. M. Laletin, N. Paddubnaya, G. Srinivasan, C. P. DeVreugd, and M. I. Bichurin, Appl. Phys. Lett. 87, 222507 (2005).
  11. “The floating zone crystal growth of Ni, Co, Ni-Co, Ni-Zn, and Co-Zn ferrospinels under high oxygen pressure,” A. M. Balbashov, L. N. Rybina, Y. K. Fetisov, V. F. Meshcheryakov, and G. Srinivasan, J. Crys. Growth 175, e733 (2005).
  12. “Electric field induced shift of the magnetic resonance line in ferrite-piezoelectric composites, “ O. V. Antonenkov, M. I. Bichurin, D. A. Filippov, V. M. Petrov, and G. Srinivasan, Tech. Phys. Lett. 31, 673 (2005).

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2006

  1. “Ferrite-ferroelectric layered structures for electrically and magnetically tunable microwave resonators,” A. A. Semenov, S. F. Karmanenkov, V. E. Demidov, B. A. Kalinikos, G. Srinivasan, A. N. Slavin, and J. V. Mantese, Appl. Phys. Lett. 88, 033503 (2006).
  2. “Magnetoelectric coupling in bilayers of Pb(Zr,Ti)O3 epoxy and hot pressed manganite perovskite,” N. Zhang, X. Yin, M. Wang, T. Schneider, and G. Srinivasan, Chin. Appl. Phys. Lett. 23, 463 (2006).
  3. “Electric field tuning characteristics of a ferrite-piezoelectric microwave resonator,” Y. K. Fetisov and G. Srinivasan, Appl. Phys. Lett. 88, 143503 (2006).
  4. “A magnetoelectric microwave phase shifter,” A. S. Tatarenko, G. Srinivasan and M. I. Bichurin, Appl. Phys. Lett. 88, 183507 (2006).
  5. “A Magnetoelectric Microwave Band-Pass Filter,” A.S. Tatarenko, V. Gheevarughese, G. Srinivasan, Elec. Lett. 42, 540 (2006).
  6. “Dual-Tunable Hybrid Wave Ferrite-Ferroelectric Microwave Resonator,” A.A. Semenov, S.F. Karmanenko, B.A. Kalinikos, G. Srinivasan, A.N. Slavin, J.V. Mantese, Elec. Lett. 42, 641 (2006)
  7. “Ferrite-piezoelectric multilayers for magnetic field sensors,” Y. Fetisov, A. Bush, K. Kamentsev, A. Ostashchenko, and G. Srinivasan, IEEE Sensors 6, 935 (2006).
  8. “Microwave magnetoelectric effects and signal processing devices,” G. Srinivasan and Y. K. Fetisov, Integrated Ferroelectrics 83, 89 (2006).
  9. “Dependence of the magnetoelectric coupling in NZFO-PZT laminate composites on ferrite compactness,” N. Zhang, W. Ke, T. Schneider, and G. Srinivasan, J. Phys.:Condens. Matter. 18, 11013 (2006).
  10. “Low-frequency nonlinear magnetoelectric effects in a ferrite-piezoelectric multilayer,” K. E. Kamentsev, Y. K. Fetisov, and G. Srinivasan, Appl. Phys. Lett. 89, 142510 (2006).
  11. “Millimeter-wave magnetoelectric effects in bilayers of barium hexaferrite and lead zirconate titanate,” G. Srinivasan, I. V. Zavislyak, and A. S. Tatarenko, Appl. Phys. Lett. 89, 152508 (2006).
  12. “Electric field tunable ferrite-ferroelectric hybrid wave microwave resonators: Experiment and Theory,” A. B. Ustinov, V. S. Tiberkevich, G. Srinivasan, A. N. Slavin, A. A. Semenov, S. F. kamanenko, B. A. Kalinikos, J. V. Mantese, and R. Ramer, J. Appl. Phys. 100, 093905 (2006).
  13. “Magnetoacoustic resonance in tangentially magnetized ferrite-piezoelectric bilayers,” O.V. Ryabkov, V. M. Petrov, M. I. Bichurin, and G. Srinivasan, Tech. Phys. Lett. 32, 1021 (2006).
  14. “Ferrite-piezoelectric layered structures:  Microwave magnetoelectric effects and electric field tunable devices,” G. Srinivasan and Y. K. Fetisov, Ferroelectrics 342, 65 (2006).

2007

  1. “Ferrite-ferroelectric hybrid wave phase shifters,” A. Ustinov, G. Srinivasan, and B. A. Kalinikos, Appl. Phys. Lett.90, 031913 (2007).
  2. “Microwave magnetoelectric interactions in multiferroics,” G. Srinivasan, A. S. Tatarenko, Y. K. Fetisov, V. Gheevarughese, and M. I. Bichurin, Mater. Res. Soc. Symp. Proc. 966, T-14-01, (2007).
  3. “Internal magnetostatic potentials of magnetization-graded ferromagnetic materials,” C. Sudakar, R. Naik, G. Lawes, J. V. Mantese, A. L. Micheli, G. Srinivasan, and S. P. Alpay, Appl. Phys. Lett. 90, 062502 (2007).
  4. “Structure, magnetism and tunable microwave properties of PLD-grown barium ferrite/barium strontium titanate bilayer films” R. Heindl, H. Srikanth, S. Watanachchi, P. Mukherjee, T. Weller, A. S. Tatarenko, and G. Srinivasan, J. Appl. Phys.  101, 09M503 (2007).
  5. “Is the magnetoelectric effects in bonded bilayers linear,” N. Zhang, D. Liang, N. Schneider, and G. Srinivasan, J. Appl. Phys. 101, 083902 (2007).
  6. “Dispersion characteristics for low-frequency magnetoelectric coefficients in bulk ferrite-piezoelectric composites,” V.M. Petrov, M.I. Bichurin, G. Srinivasan, Junyi Zhai and D. Viehland, Solid State Commun. 142, 515 (2007).
  7. “Ferroic and magnetic characterization of ferroic Pb(Fe0.5Nb0.5)O3 ceramics,”  O. Raymond1, R. Font2, G. Alvarez3, J. Portelles, G. Srinivasan, and J. M. Siqueiros, Mat. Res. Soc. Symp. Proc. 966, T-03-05 (2007).
  8. “Magnetoelectric effects in porous ferromagnetic-piezoelectric bulk composites:Experiment and theory,” V. M. Petrov, G. Srinivasan, U. Laletsin, M. I. Bichurin, D. S. Tuskov, and N. puddubnaya, Phys. Rev. B 75, 174422 (2007).
  9. “Theory of magnetoelectric effects in ferrite-piezoelectric nanocomposites,” V. M. Petrov, G. Srinivasan, M. I. Bichurin, and A. Gupta, Phys. Rev.B 75, 224407 (2007).
  10. “Ultralow-frequency magnetoelectric effect in a multilayer ferrite-piezoelectric structure,” K. E. Kamentsev, Y. K. Fetisov, and G. Srinivasan, Tech. Phys. 52, 727 (2007).
  11. “A magnetoelectric microwave attenuator,”  A.S. Tatarenko, G. Srinivasan, and D. A. Filippov, Elec. Lett. 43, (2007).
  12. “Magnetoelectric interactions in a ferromagnetic-piezoelectric layered structures: Phenomena and devices,” M. I. Bichurin, D. Viehland and G. Srinivasan, J. Elec. Ceramics 19, 243 (2007).
  13. “Inverse Magnetoelectric Effects in a Ferromagnetic-Piezoelectric Layered Structure,” Y.K. Fetisov, V. M. Petrov,  and G. Srinivasan, J. Mater. Res. 22, 2074 (2007).
  14. “Resonance magnetoelectric effects in magnetostrictive-piezoelectric three-layer structures,” D. A. Filippov, U. Laletsin, and G. Srinivasan, J. Appl. Phys. 102, 093901 (2007).
  15. “Effects of Exchange Interactions on Magneto-Acoustic Resonance in Layered Nanocomposites of Yttrium Iron Garnet and Lead Zirconate Titanate,” O.V. Ryabkov, S.V. Averkin  M.I. Bichurin, V. M. Petrov and G.Srinivasan, J. Mater. Res. 22, 2174 (2007).
  16. “Low-frequency and resonance magnetoelectric effects in lead zirconate titanate and single crystal nickel zinc ferrite bilayers,” V.  Gheevarughese, U. Laletsin, V. Petrov, G. Srinivasan, and N. Fedotov, J. Mater. Res. 22, 2130 (2007).
  17. “Theory of electric field induced magnetic excitations in ferrite-piezoelectric nanobilayers,” V. Petrov and G. Srinivasan, O. V. Ryabkov, S. V. Averkin, and M. I. Bichurin,” Solid State Commun.144, 50 (2007).
  18. “Three-dimensional left-handed materials lens,” R. V. Petrov, G. Srinivasan, M. I. Bichurin, D. Viehland, Appl. Phys. Lett. 91, 104103 (2007).

2008

  1. "Multiferroic magnetoelectric composites:  Historical perspective, status and future directions,” Ce-Wen Nan, M. I. Bichurin, S. Dong, D. Viehland, and G. Srinivasan, J. Appl. Phys. 103, 031101 (2008).
  2. “Experimental determination of the magnetoelectric coupling coefficient via piezoelectric measurements,” M. Vopsaroiu, M. Stewart, T. Hegarty, A. Muniz-Piniella, N. McCartney, M. Cain, and G. Srinivasan, Meas. Sci. Technol. 19, 045106 (2008).
  3. “Microwave resonators based on single-crystal yttrium iron garnet and lead magnesium niobate-lead titanate layered structures,” A. B. Ustinov, G. Srinivasan, and Y. K. Fetisov, J. Appl. Phys. 103, 063901 (2008).
  4. “Frequency dependence of the magnetoelectric effect in ceramic composites based on lead zirconate titanate and nickel ferrite,” V. M. Laletin, V. M. Petrov, D. S. Tuskov, and G. Srinivasan, Tech. Phys. Lett. 34, 83 (2008).
  5. “Microwave magnetoelectric effects in ferrite-piezoelectric composites and dual electric and magnetic field tunable filters,” A. S. Tatarenko, V. Gheevarughese, G. Srinivasan, O. V. Antonenkov, and G. Srinivasan, in press, J. Electroceram. 2008.
  6. “Q-factor of dual-tunable resonators based on yttrium iron garnet and barium strontium titanate layered structures,” A. B. Ustinov, B. A. Kalinikos, V. S. Tiberkevich, A. N. Slavin, and G. Srinivasan, J. Appl. Phys. 103, 2008.
  7. “Resonance magnetoelectric interactions due to bending modes in a Ni-PZT bilayer,” D.V. Chashin, Y.K. Fetisov, and K.E. Kamentsev, and G. Srinivasan, Appl. Phys. Lett. 92, 102511 (2008).
  8. “Magnetoelectric effects in bilayers of lead zirconate titanate and single crystal hexaferrites,” V. L. Mathe, G. Srinivasan, and A. M. Balbashov, Appl. Phys. Lett. 92, 122505 (2008).
  9. “A miniature antenna based on magnetoelectric composites,” R. Petrov, A. S. Tatarenko, S. Pandey, G. Srinivasan, J. V. Mantese, and R. Azadegan, Elec. Lett. 44, 528 (2008).
  10. “High-Q active-ring microwave resonators based on ferrite-ferroelectric layered structures,” A. B. Ustinov, G. Srinivasan, and B. Kalinikos, Appl. Phys. Lett. 92, 193512 (2008).
  11. “Shape-controlled monocrystalline ferroelectric barium titanate manostructures: from natubes to nanowires to ordered nanostructures,” N. Bao, L. Shen, G. Srinivasan, K. Yanagisawa, and G. Srinivasan, in press, J. Phys. Chem. 2008.
  12. “A magnetic field controlled negative-index microwave lens,” R. V. Petrov, R. Rahul, G. Srinivasan, and M. I. Bichurin, in press, Microwave and Optical Technology Letters, 2008.
  13. “Antenna miniaturization with ferrite-ferroelectric composites,” R. Petrov, A. Tatarenko, G. Srinivasan, and J. V. Mantese, in press, Mic. Opt. Tech. Lett. 2008.
  14. “Nonlinear electrical tuning of ferromagnetic resonance in YIG film-PZT layered structure,” Y. K. Fetisov and G. Srinivasan, Appl. Phys. Lett. 93, 033508 (2008).
  15. “Magnetoelectric effects in layered samples of lead zirconium titanate and nickel films deposited by electrolysis,” D.V. Chashin, Y.K. Fetisov, E.V. Tafintseva, G. Srinivasan,   in press, Solid State Commun. 2008.
  16. “Tuning the magneto-electric effect of multiferroic composites via crystallographic texture,” M. Vopsaroiu, M. Stewart, T. Fry, M. Cain, and G. Srinivasan, submitted to IEEE Trans. Magn., 2008.
  17. “Magnetic and Dielectric Excitations in the W-Band in Aluminum Substituted Barium and Strontium Hexaferrites,”  M. A. Popov, I.V. Zavislyak, A.S. Tatarenko, and G. Srinivasan, submitted to IEEE Trans. Magn. 2008.
  18. “Enhancement of Magnetoelectric Coupling in Functionally Graded Ferroelectric and Ferromagnetic Bilayers,” V. M. Petrov and G. Srinivasan, submitted to Phys. Rev. B. 2008.
  19. “Magnetoelectric effects in magnetostrictive films on piezoelectric substrates,” D. Filippov, G, Srinivasan, and A. Gupta, submitted to J. Phys: Condensed Matter 2008.
  20. "Coupled tunneling, electromagnetic and magnetostatic modes in barium ferrite films,” I. V. Zavislyak, A.S. Tatarenko, and G. Srinivasan, submitted to Integ. Ferroelec. 2008.
  21. “Microwave magnetoelectric effects in bilayers of single crystal ferrite and functionally graded piezoelectric,” V. M. Petrov and G. Srinivasan, submitted to J. Appl. Phys. 2008.