Publications

Craig Fennie, assistant professor of applied and engineering physics (AEP), working with graduate students.
2016
59. Topological Superconductivity in Metal/Quantum-Spin-Ice Heterostructures
Jian-Huang She, Choong Hyun KimCraig J. Fennie, Michael J. Lawler, & Eun-Ah Kim
http://arxiv.org/abs/1603.02692
 
58. Domains and ferroelectric switching pathways in Ca3Ti2O7 from first principles
Elizabeth Nowadnick  & Craig J. Fennie
Physical Review B 94104105 (2016).
 
57, Atomic Engineering of Ferroic Layers to Create a Room-Temperature Magnetoelectric Multiferroic
Julia A. Mundy, Charles M. Brooks, Megan E. Holtz, Jarrett A. Moyer, Hena Das, Alejandro F. Rébola, John T. Heron, James D. Clarkson, Steven M. Disseler, Rainer Held, Robert Hovden, Elliot Padgett, Qingyun Mao, Hanjong Paik, Rajiv Misra, Lena F. Kourkoutis, Julie A. Borchers, William D. Ratcliff, Ramamoorthy Ramesh, Craig J. Fennie, Peter Schiffer, David A. Muller, & Darrell G. Schlom
Nature, in press
 
56. Atomic Scale Imaging of Competing Polar States in a Ruddlesden-Popper Layered Oxide
Greg Stone,​ Colin Ophus, ​Turan Birol,​ Jim Ciston,​ Che­Hui Lee,​ Ke Wang, Craig J. Fennie, Darrell G. Schlom,​ Nasim Alem, ​& Venkatraman Gopalan
Nature Communications 7, 12572 (2016)
 
55. Manipulating superconductivity in ruthenates through Fermi surface engineering
Yi-Ting Hsu, Weejee Cho, Alejandro F. Rébola  Bulat Burganov, Carolina Adamo, Kyle M. Shen,  Darrell G. Schlom, Craig J. Fennie & Eun-Ah Kim
Physical Review B 94, 045118 (2016)
 
54. Pb2MnTeO6 Double Perovskite: An Antipolar Antiferromagnet
Maria Retuerto, Stella Skiadopoulou, Man-Rong Li, Artem M. Abakumov, Mark. Croft, Alexander Ignatov, Tapati Sarkar, Brian M. Abbett, Jan Pokorný, Maxim Savinov, Dmitry Nuzhnyy, Jan Prokleška, Milinda Abeykoon, Peter W Stephens, Jason P. Hodges, Přemysl Vaněk, Craig J. Fennie, Karin M, Rabe, Stanislav Kamba, & Martha Greenblatt
Inorganic Chemistry 55, 4320-4329 (2016)
 
53. Strain Control of Fermiology and Many-Body Interactions in Two-Dimensional Ruthenates
Bulat Burganov , Carolina Adamo, Andrew Mulder, Masaki Uchida, Phil King. John Harter,  Daniel Shai, Alexandra Gibbs, Andrew Mackenzie, Reinhard Uecker, Malcolm R. Beasley, Craig J. Fennie,  Darrell G. Schlom, & Kyle M. Shen
Physical Review Letters 116, 197003 (2016)
 
52. Polar Metals by Geometric Design
T.H. Kim, D. Puggioni, Y. Yuan, L. Xie, H. Zhou, N. Campbell, P.J. Ryan, Y. Choi, J.-W. Kim, J.R. Patzner, S. Ryu, J.P. Podkaminer, J. Irwin, Y. Ma, C. J. Fennie,  M.S. Rzchowski, X.Q. Pan, V. Gopalan, J.M. Rondinelli, and C.B. Eom
Nature 533, 68-72 (2016)
2015
51. Linear magnetoelectricity at room temperature in perovskite superlattices by design
Saurabh Ghosh, Hena Das, & Craig J. Fennie
Physical Review B 92, 184112 (2015)
 
50. Ferroelectrics: The positives of going negative
Darrell G. Schlom & Craig J. Fennie
Nature Materials 14, 969-970 (2015)
 
49. Direct assignment of molecular vibrations via normal mode analysis of the neutron dynamic pair distribution function technique 
A. M. Fry-Petit, A. F. Rebola, M. Mourigal, M. Valentine, N. Drichko, J. P. Sheckelton, C. J. Fennie, & T. M. McQueen
J. Chem. Phys. 143, 124201 (2015)
 
48. Hierarchical spin-orbital polarisation of a giant Rashba system
L. Bawden, J. M. Riley, C. H. Kim, R. Sankar, E. J. Monkman, D. E. Shai, H. I. Wei, E. Lochocki, J. W. Wells, W. Meevasana, T. K. Kim, M. Hoesch, Y. Ohtsubo, P. Le Fevre, C. J. Fennie, K. M. Shen, F. C. Chou, and P. D. C. King
Science Advances 1, 2015
 
47. Interplay of octahedral rotations and lone pair ferroelectricity in CsPbF3
Eva H. Smith, Nicole A. Benedek, &  Craig J. Fennie
Inorganic Chemistry 54, 8536-8543 (2015)
 
46. Interplay of Spin-Orbit Interactions, Dimensionality, and Octahedral Rotations in Semimetallic SrIrO3
Y.F. Nie, P.D.C. King, C.-H. Kim, M. Uchida, H.I. Wei, B. D. Faeth, J. P. Ruf, J. P. C. Ruff, L. Xie, X. Pan, C. J. Fennie, D.G. Schlom, & K.M. Shen
Physical Review Letters 114, 016401 (2015)
 
45. Direct band gaps in multiferroic h-LuFeO3
B. S. Holinsworth, D. Mazumdar, C. M. Brooks, J. A. Mundy, H. Das, J. G. Cherian, S. A. McGill, C. J. Fennie, D. G. Schlom and J. L. Musfeldt
Applied Physics Letters 106, 082902 (2015)
 
44. Raman study of magnetic excitations and magneto-elastic coupling in \alpha-SrCr2O4
Michael Valentine, Seyed Koohpayeh, Martin Mourigal, Tyrel M. McQueen, Collin Broholm, Natalia Drichko, Sian Dutton, Robert J. Cava, Turan Birol, Hena Das, Craig J. Fennie
Physical Review B 91, 14411 (2015)
2014
43. Correlated vs. conventional insulating behavior in the Jeff =1/2 vs. 3/2 bands in the layered iridate Ba2IrO4
M. Uchida, Y. F. Nie, P. D. C. King, C. H. Kim, C. J. Fennie, D. G. Schlom, and K. M. Shen
Physical Review B 90, 075142  (2014)
 
42. Elastic strain engineering of ferroic oxides
Darrell G. Schlom, Long-Qing Chen, Craig J. Fennie, Venkatraman Gopalan, David A. Muller, Xiaoqing Pan, Ramamoorthy Ramesh and Reinhard Uecker
MRS Bulletin 39, pp 118-130 (2014)
 
41. Evidence for Topologically Protected Surface States and a Superconducting Phase in  [Tl4] (Tl1-xSnx) Te3 Using Photoemission, Specific Heat, and Magnetization Measurements, and Density Functional Theory
K. E. Arpino, D. C. Wallace, Y. F. Nie, T. Birol, P. D. C. King, S. Chatterjee, M. Uchida, S. M. Koohpayeh, J.-J. Wen, K. Page,  C. J. Fennie, K. M. Shen, & T. M. McQueen
Physical Review Letters 112, 017002 (2014)
 
40. Bulk magnetoelectricity in the hexagonal manganites and ferrites
Hena Das, Alexsander L. Wysocki, Yanan Geng, Weida Wu, & Craig J Fennie
Nature Communications 5, 2998 (2014)
 
39. Direct visualization of magnetoelectric domains
Yanan GengAleksander L. Wysocki, Hena Das, N. Lee, Y.J. Choi, S-W. Cheong, M. Mostovoy, Craig J. Fennie, and Weida Wu
Nature Materials 13, 163-167 (2014).
2013
38. Exploiting Dimensionality and Defect Mitigation to Create Tunable Microwave Dielectrics
Che-Hui Lee*, Nathan D. Orloff*, Turan Birol*, Ye Zhu, Veronica Goian, Ryan Haislmaier, Eftihia Vlahos, Julia A. Mundy, Yuefeng Nie, Michael D. Biegalski, Jingshu Zhang, Margitta Bernhagen, Nicole A. Benedek, Yongsam Kim, Joel D. Brock, Reinhard Uecker, X. X. Xi, Lena F. Kourkoutis, Venkatraman Gopalan, Dmitry Nuzhnyy, Stanislav Kamba, David A. Muller, Ichiro Takeuchi, James C. Booth, Craig J. Fennie & Darrell G. Schlom
Nature 502, 532-536, 2013.
* These authors contributed equally to this work.
 
37. Structural control of magnetic anisotropy in a strain driven multiferroic EuTiO3 thin film
X. Ke, T. Birol, R. Misra, J.-H. Lee, B. J. Kirby, D. G. Schlom, C. J. Fennie, and J. W. Freeland
Physical Review B 88, 094434 (2013).
 
36. Origin of giant spin-lattice coupling and the suppression of ferroelectricity in EuTiOfrom first principles
Turan Birol & Craig J Fennie
Physical Review B 88, 094103 (2013).
 
35. Why are there so few perovskite ferroelectrics?
Nicole A. Benedek & Craig J Fennie
The Journal of Physical Chemistry C 117, 13339–13349 (2013).
(Feature Article)
 
34. Formation of heavy d–electron quasiparticles in Sr3Ru2O7
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
New Journal of Physics 15, 063029 (2013).
 
33. Turning ABO3 antiferroelectrics into ferroelectrics: Design rules for practical rotation-driven ferroelectricity in double perovskites and A3B2O7 Ruddlesden-Popper Compounds
Andrew T. Mulder, Nicole A. Benedek, James M. Rondinelli, & Craig J. Fennie
Advanced Functional Materials 23, 4810-4820 (2013).
 
32. Effect of film thickness and biaxial strain on the curie temperature of EuO
A. Melville, T. Mairoser, A. Schmehl, T. Birol, T. Heeg, B. Holländer, J. Schubert, C. J. Fennie, & D. G. Schlom
Applied Physics Letters 102, 062404 (2013).
 
31. Reversible Control of Magnetic Interactions by Electric Field in a Single Phase Material
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
Nature Communications 4, 1334 (2013).
2012
30. Spin-lattice coupling and phonon dispersion of CdCr2Ofrom first principles
A. Kumar, C. J. Fennie, & K. M. Rabe
Physical Review  B 86, 184429 (2012).
 
29. The Magnetoelectric Effect in Transition Metal Oxides: Insights and the Rational Design of New Materials from First-Principles
Turan Birol, Nicole A. Benedek, Hena Das, Alex Wysocki, Andrew T. Mulder, Brian M. Abbett, Eva H. Smith, Saurabh Ghosh, & Craig J. Fennie
Current Opinions in Solid State and Materials Science 16, 227-242 (2012).
(Invited Review)
 
28. Electrical properties of improper ferroelectrics from first principles
Massimiliano Stengel, Craig J. Fennie, & Philippe Ghosez
Physical Review B 86, 094112 (2012).
 
27. Polar octahedral rotations: a path to new multifunctional materials
Nicole A. Benedek, Andrew T. Mulder & Craig J. Fennie
Journal of Solid State Chemistry 195, November 2012 pages 11-20.
 
26. Magnetodielectric effect and phonon properties of compressively strained EuTiO3 thin films deposited on LSAT
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, & J. Petzelt
Physical Review B85, 094435 (2012).
 
25. Octahedral rotation-induced ferroelectricity in cation ordered perovskites
James M. Rondinelli & Craig J. Fennie
Advanced Materials 24, 1961-1968 (2012).
 
24. RbFe2+Fe3+F6: Synthesis, Structure, and Characterization of a New Charge-Ordered Magnetically Frustrated Pyrochlore-Related Mixed-Metal Fluoride
Sun Woo Kim, Sang-Hwan Kim, P. Shiv Halasyamani, Mark Green, Kanwal Preet Bhatti, C. Leighton, Hena Das, & Craig J. Fennie
Chemical Science 3, 741 (2012).
2011
23. Interface control of emergent ferroic order in Ruddlesden-Popper Srn+1TinO3n+1
Turan Birol, Nicole A. Benedek, & Craig J. Fennie
Physical Review Letters 107257602 (2011).
 
22. Band-Gap and band edge engineering of complex oxides via ferroic distortion and anisotropic strain: The case of SrTiO3
Robert F. Berger, Craig J. Fennie, & Jeffrey B. Neaton
Physical Review Letters 107, 146804 (2011).
 
21. Hybrid Improper Ferroelectricity: A mechanism for controllable polarization-magnetization coupling
Nicole A. Benedek & Craig J. Fennie
Physical Review Letters 106, 107204 (2011).
(Highlighted in Nature Materials News & Viewsand in Physics Viewpoint.)

 

2010
20. Transition metal oxides, Resistance is not futile
Craig J. Fennie & Darrell G. Schlom
Nature Materials9, 787-788 (2010).
 
19. A Strong Ferroelectric Ferromagnet created by mean of Spin-Lattice Coupling
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
Nature 466, 954-958 (2010).
 
18. Uncorrelated Bi displacements in the “charge-ice” pyrochlore Bi2Ti2O7 studied by neutron total scattering
D. P. Shoemaker, A. L. Hector, C. J. Fennie, A. Llobet, Th. Proffen, & R. Seshadri
Physical Review B 81144133 (2010).
2009
17. Coexistence of weak ferromagnetism and ferroelectricity in the high pressure LiNbO3-type phase of FeTiO3
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, & J.F. Mitchell
Physical Review Letters 103, 047601 (2009).
(Selected as a US Dept of Energy Highlight.)
 
16. Strain-induced ferroelectricity in orthorhombic CaTiO3 from first principles
Carl-Johan Eklund, Craig J. Fennie, & Karin M. Rabe
Physical Review B 79, 220101 R (2009).
 
15. Optical band gap and magnetic properties of unstrained EuTiO3 films
J. H. Lee, X. Ke, N. J. Podraza, L. F. Kourkoutis, T. Heeg, C. J. Fennie, J. Schubert, D. A. Muller, P. Schiffer, & D. G. Schlom
Applied Physics Letters 94, 212509 (2009).
 
14. Absence of critical thickness in a material displaying an improper ferroelectric transition: the case of ultrathin YMnO3 films
Na Sai, Craig J. Fennie, & Alexander Demkov
Physical Review Letters 102, 107601 (2009).
 
13. Broadband dielectric spectroscopy of Ruddlesden-Popper Srn+1TinO3n+1 (n=1,2,3) thin films
N. Orloff, I. Takeuchi, J. C. Booth, D. Gu, J. Mateu, C. J. Fennie, K. M. Rabe, W. Tian, & D. G. Schlom
Applied Physics Letters 94, 042908 (2009).
2008
12. Electric-field switchable magnetization via the Dzyaloshinskii -Moriya interaction: FeTiO3 versus BiFeO3
Claude Ederer & Craig J. Fennie
J. Phys.: Condens. Matter 20, 434219 (2008).
(Invited paper, Special Issue on Multiferroics)
 
11. Combinatorial discovery of a lead-free morphotropic phase boundary in a thin-film piezoelectric perovskite
S. Fujino, M. Murakami, V. Nagaajan, S.-H. Lim, A. Varatharajan, C. J. Fennie, M. Wuttig, L. Salamanca-Riba, & I. Takeuchi
Applied Physics Letters 92, 202904 (2008).
 
10. Ferroelectrically induced weak-ferromagnetism by design
Craig J. Fennie
Physical Review Letters 100, 167203 (2008).
2007
9. Spin-filtering multiferroic-semiconductor heterojuctions
Na Sai, Jaekwang Lee, Craig J. Fennie, & Alexander Demkov
Applied Physics Letters 91, 202910 (2007).

 

2006
8. Magnetic and electric phase control in epitaxial EuTiO3 from first principles
Craig J. Fennie & Karin M. Rabe
Physical Review Letters 97, 267602 (2006).
 
7. Broken parity and a chiral ground state in the frustrated magnet CdCr2O4
G.-W. Chern, C. J. Fennie, & O. Tchernyshyov
Physical Review B 74, 060405 R (2006).
 
6. Ferroelectricity in the Dion-Jacobson CsBiNb2O7 from first principles
Craig J. Fennie & Karin M. Rabe
Applied Physics Letters 88, 262902 (2006).
 
5. Magnetically-induced phonon anisotropy in ZnCr2O4 from first principles
Craig J. Fennie & Karin M. Rabe
Physical Review Letters 96, 205505 (2006).
2005
4. Polar phonons and intrinsic dielectric response of the ferromagnetic insulating spinel CdCr2S4 from first principles
Craig J. Fennie & Karin M. Rabe
Physical Review B 72, 214123 (2005).
 
3. The ferroelectric transition in YMnO3 from first principles
Craig J. Fennie & Karin M. Rabe
Physical Review B 72, 100103 R (2005).
 
2. First principles investigation of epitaxially strained Pb2TiO4
Craig J. Fennie & Karin M. Rabe
Physical Review B 71, 100102 R (2005).
2003
1. Structural and dielectric properties of Sr2TiO4 from first principles
Craig J. Fennie & Karin M. Rabe
Physical Review B 68, 184111 (2003).