Publications
Most of our papers are on the arXiv.
2013
[36] Hena Das, Alex Wysocki, & Craig J Fennie, “Bulk coupling of polarization and magnetism in the hexagonal ferrites,” under review. arXiv:1302.1099
[35] Nicole A. Benedek and Craig J Fennie, “Why are there so few perovskite ferroelectrics,” under review.
[34] M. P. Allan, A. Tamai, E. Rozbicki, M. H. Fischer, J. Voss, P. D. C. King, W. Meevasana, S. Thirupathaiah, E. Rienks, J. Fink, A. Tennant, R. S. Perry, J. F. Mercure, M. A. Wang, C. J. Fennie, E.-A. Kim, M. J. Lawler, K. M. Shen, A. P. Mackenzie, Z.-X. Shen, F. Baumberger, “Formation and consequences of heavy d–electron quasiparticles in Sr3Ru2O7,” under review. arXiv:1210.8382
[33] Andrew T. Mulder, Nicole A. Benedek, James M. Rondinelli, & Craig J. Fennie, “Turning ABO3 antiferroelectrics into ferroelectrics: Design rules for practical rotation-driven ferroelectricity in double perovskites and A3B2O7 Ruddlesden-Popper Compounds,” Advanced Functional Materials (2013).
[32] A. Melville, T. Mairoser, A. Schmehl, T. Birol, T. Heeg, B. Holländer, J. Schubert, C. J. Fennie, and D. G. Schlom, “Effect of film thickness and biaxial strain on the curie temperature of EuO,” Applied Physics Letters 102, 062404 (2013).
[31] P. J. Ryan, J. -W. Kim, T. Birol, P. Thompson, J. -H. Lee, X. Ke, P. S. Normile, E. Karapetrova, P. Schiffer, S. D. Brown, C. J. Fennie, & D. G. Schlom, “Reversible Control of Magnetic Interactions by Electric Field in a Single Phase Material,” Nature Communications 4, 1334 2013.
2012
[30] A. Kumar, C. J. Fennie and K. M. Rabe, “Spin-lattice coupling and phonon dispersion of CdCr2O4 from first principles,” Physical Review B 86, 184429 (2012).
[29] Turan Birol, Nicole A. Benedek, Hena Das, Alex Wysocki, Andrew T. Mulder, Brian M. Abbett, Eva H. Smith, Saurabh Ghosh, Craig J. Fennie, “The Magnetoelectric Effect in Transition Metal Oxides: Insights and the Rational Design of New Materials from First-Principles.” Invited Review, Current Opinions in Solid State and Materials Science 16, 227-242 (2012).
[28] Massimiliano Stengel, Craig J. Fennie, & Philippe Ghosez. “Electrical properties of improper ferroelectrics from first principles,” Physical Review B 86, 094112 (2012).
[27]. Nicole A. Benedek, Andrew T. Mulder & Craig J. Fennie, “Polar octahedral rotations: a path to new multifunctional materials,” Journal of Solid State Chemistry, 195, November 2012 pages 11-20.
[26] S. Kamba, V. Goian, M. Orlita, D. Nuzhnyy, J.H. Lee, D.G. Schlom, K.Z. Rushchanskii, M. Lezaic, T. Birol, C. J. Fennie, P. Gemeiner, B. Dkhil, V. Bovtun, M. Kempa, J. Hlinka, and J. Petzelt, “Magnetodielectric effect and phonon properties of compressively strained EuTiO3 thin films deposited on LSAT,” Physical Review B 85, 094435 (2012).
[25]. James M. Rondinelli & Craig J. Fennie, “Ferroelectricity in noncentrosymmetric structures from centric polyhedral building blocks,” Advanced Materials 24, 1961-1968 (2012).
[24] Sun Woo Kim, Sang-Hwan Kim, P. Shiv Halasyamani, Mark Green, Kanwal Preet Bhatti, C. Leighton, Hena Das, & Craig J. Fennie, “RbFe2+Fe3+F6: Synthesis, Structure, and Characterization of a New Charge-Ordered Magnetically Frustrated Pyrochlore-Related Mixed-Metal Fluoride,” Chemical Science 3, 741 (2012).
2011
[23] Turan Birol, Nicole A. Benedek, & Craig J. Fennie, “Interface control of emergent ferroic order in Ruddlesden-Popper Srn+1TinO3n+1,” Physical Review Letters 107, 257602 (2011).
[22]. Robert F. Berger, Craig J. Fennie, & Jeffrey B. Neaton, “Band-Gap and band edge engineering of complex oxides via ferroic distortion and anisotropic strain: The case of SrTiO3,” Physical Review Letters 107, 146804 (2011).
[21]. Nicole A. Benedek & Craig J. Fennie, “Hybrid Improper Ferroelectricity: A mechanism for controllable polarization-magnetization coupling,” Physical Review Letters 106, 107204 (2011).
Highlighted in Nature Materials News & Views and in Physics Viewpoint.
2010
[20.] Craig J. Fennie & Darrell G. Schlom, “Transition metal oxides, Resistance is not futile,” Nature Materials 9, 787-788 (2010).
[19]. J. H. Lee L. Fang, E. Vlahos, X. Ke, Y. W. Jung, L. Fitting Kourkoutis, J.W. Kim, P. Ryan, T. Heeg, M. Roeckerath, V. Goian, M. Bernhagen, R. Uecker, C. Hammel, K. M. Rabe, S. Kamba, J. Schubert, J. W. Freeland, D. A. Muller, C. J. Fennie, P. Schiffer, V. Gopalan, E. Johnston-Halperin & D. G. Schlom, “A Strong Ferroelectric Ferromagnet created by mean of Spin-Lattice Coupling.” Nature 466, 954-958 (2010).
[18]. D. P. Shoemaker, A. L. Hector, C. J. Fennie, A. Llobet, Th. Proffen, R. Seshadri, “Uncorrelated Bi displacements in the “charge-ice” pyrochlore Bi2Ti2O7 studied by neutron total scattering,” Physical Review B 81, 144133 (2010).
2009
[17]. T. Varga, A. Kumar, E. Vlahos, S. Denev, M. Park, S. Hong, T. Sanehira, Y. Wang, C. J. Fennie, S. K. Streiffer, X. Ke, P. Schiffer, V. Gopalan, and J.F. Mitchell, “Coexistence of weak ferromagnetism and ferroelectricity in the high pressure LiNbO3-type phase of FeTiO3,” Physical Review Letters103, 047601 (2009).
Selected as a US Dept of Energy Highlight.
[16]. Carl-Johan Eklund, Craig J. Fennie, and Karin M. Rabe, “Strain-induced ferroelectricity in orthorhombic CaTiO3 from first principles” Physical Review B 79, 220101 R (2009).
[15] J. H. Lee, X. Ke, N. J. Podraza, L. F. Kourkoutis, T. Heeg, C. J. Fennie, J. Schubert, D. A. Muller, P. Schiffer, and D. G. Schlom “Optical band gap and magnetic properties of unstrained EuTiO3 films, Applied Physics Letters94, 212509 (2009).
[14]. Na Sai, Craig J. Fennie, and Alexander Demkov, “Absence of critical thickness in a material displaying an improper ferroelectric transition: the case of ultrathin YMnO3 films,” Physical Review Letters102, 107601 (2009).
[13]. N. Orloff, I. Takeuchi, J. C. Booth, D. Gu, J. Mateu, C. J. Fennie, K. M. Rabe, W. Tian, and D. G. Schlom, “Broadband dielectric spectroscopy of Ruddlesden-Popper Srn+1TinO3n+1 (n=1,2,3) thin films,” Applied Physics Letters94, 042908 (2009).
2008
[12]. Claude Ederer and Craig J. Fennie, “Electric-field switchable magnetization via the Dzyaloshinskii -Moriya interaction: FeTiO3 versus BiFeO3,” invited paper, Special Issue on Multiferroics, J. Phys.: Condens. Matter20, 434219 (2008).
[11]. S. Fujino, M. Murakami, V. Nagaajan, S.-H. Lim, A. Varatharajan, C. J. Fennie, M. Wuttig, L. Salamanca-Riba, and I. Takeuchi “Combinatorial discovery of a lead-free morphotropic phase boundary in a thin-film piezoelectric perovskite,” Applied Physics Letters92, 202904 (2008).
[10]. Craig J. Fennie, “Ferroelectrically induced weak-ferromagnetism by design,” Physical Review Letters100, 167203 (2008).
2007
[9]. Na Sai, Jaekwang Lee, Craig J. Fennie, and Alexander Demkov, “Spin-filtering multiferroic-semiconductor heterojuctions,” Applied Physics Letters91, 202910 (2007).
2006
[8]. Craig J. Fennie and Karin M. Rabe, “Magnetic and electric phase control in epitaxial EuTiO3 from first principles,” Physical Review Letters97, 267602 (2006).
[7]. G.-W. Chern, C. J. Fennie, and O. Tchernyshyov, “Broken parity and a chiral ground state in the frustrated magnet CdCr2O4,” Physical Review B 74, 060405 R (2006).
[6]. Craig J. Fennie and Karin M. Rabe, “Ferroelectricity in the Dion-Jacobson CsBiNb2O7 from first principles,” Applied Physics Letters88, 262902 (2006).
[5]. Craig J. Fennie and Karin M. Rabe, “Magnetically-induced phonon anisotropy in ZnCr2O4 from first principles,” Physical Review Letters96, 205505 (2006).
2005
[4]. Craig J. Fennie and Karin M. Rabe, “Polar phonons and intrinsic dielectric response of the ferromagnetic insulating spinel CdCr2S4 from first principles,” Physical Review B 72, 214123 (2005).
[3]. Craig J. Fennie and Karin M. Rabe, “The ferroelectric transition in YMnO3 from first principles,” Physical Review B 72, 100103 R (2005).
[2]. Craig J. Fennie and Karin M. Rabe, “First principles investigation of epitaxially strained Pb2TiO4,” Physical Review B 71, 100102 R (2005).
2003
[1]. Craig J. Fennie and Karin M. Rabe, “Structural and dielectric properties of Sr2TiO4 from first principles,” Physical Review B 68, 184111 (2003).