-- 2024 --
86
S. Ghara, M. Winkler, L. Prodan, K. Geirhos, V.
Tsurkan, Wenbo Ge, Weida Wu, S. Krohns, and I. Kezsmarki
Fast non-volatile electric control of
antiferromagnetic states
Sci. Adv., submitted (2024).
85
Yunbo Ou,
Murod Mirzhalilov,
Norbert M. Nemes,
Jose L. Martinez,
Mirko Rocci,
Austin Akey,
Wenbo Ge,
Dhavala Suri,
Yiping Wang,
Haile Ambaye,
Jong Keum,
Mohit Randeria,
Nandini Trivedi,
Kenneth S. Burch,
David C. Bell,
Weida Wu,
Don Heiman,
Valeria Lauter,
Jagadeesh S. Moodera,
Hang Chi
Enhanced Ferromagnetism in Monolayer Cr2Te3 via Topological Insulator Coupling
Phys. Rev. B, submitted (2024). arXiv:2312.15028
84
Zengle Huang, Hemian Yi, Daniel Kaplan, Lujin Min,
Hengxin Tan, Ying-ting Chan, Zhiqiang Mao, Binghai Yan, Cui-Zu Chang, Weida
Wu
Hidden non-collinear spin-order induced topological
surface states
Nature Communications, 15, 2937 (2024). arXiv:2309.06632
83
Hemian Yi, Yi-Fan Zhao,Ying-Ting Chan, Jiaqi Cai, Ruobing
Mei, Xianxin Wu, Zi-Jie Yan, Ling-Jie Zhou, Ruoxi Zhang, Zihao Wang,
Stephen Paolini, Run Xiao, Ke Wang, Anthony R. Richardella, John
Singleton, Laurel E. Winter, Purnima P. Balakrishnan, Alexander J.
Grutter, Moses H. W. Chan, Nitin Samarth, Xiaodong Xu, Weida Wu, Chao-Xing Liu, and Cui-Zu Chang
Interface-Induced Superconductivity in Magnetic Topological Insulators
Science 383, 634–639 (2024). arXiv:2312.04353
-- 2023 --
82
Peter Meisenheimer, Hongrui Zhang, David Raftrey, Xiang
Chen, Yu-Tsun Shao, Ying-Ting Chan, Reed Yalisove, Rui Chen, Jie Yao,
Mary C. Scott, Weida Wu, David A. Muller, Peter Fischer, Robert J. Birgeneau & Ramamoorthy Ramesh
Ordering of room-temperature magnetic skyrmions in a polar van der Waals magnet
Nature Communications, 14, 3744 (2023). arXiv:2210.02546
81 Yang Wang, Ying-Ting Chan, Xiao Wang, Tao Wang, Xuemei M Cheng, Weida Wu and John Q Xiao
Second-harmonic signature of chiral spin structures in W/Pt/Co heterostructures with tunable magnetic anisotropy
J. Phys. D: Appl. Phys., 56, 205002, (2023).
-- 2022 --
80 Wenbo Ge, Jinwoong Kim, Ying-Ting Chan, David Vanderbilt, Jiaqiang Yan, and Weida Wu
Direct visualization of surface spin-flip transition in MnBi4Te7
Phys. Rev. Lett., 125, 037201, (2022). (selected for September issue cover) arXiv:2206.04582
79. Graham Kimbell, Changyoung Kim, Weida Wu, Mario Cuoco and Jason W. A. Robinson
Challenges in identifying chiral spin textures via the topological Hall effect
Communications Materials, 3, 19 (2022).
78. Hongrui
Zhang, David Raftrey, Ying-Ting Chan, Yu-Tsun Shao, Rui Chen, Xiang
Chen, Xiaoxi Huang, Jonathan T. Reichanadter, Kaichen Dong, Sandhya
Susarla, Lucas Caretta, Zhen Chen, Jie Yao, Peter Fischer, Jeffrey B.
Neaton, Weida Wu, David A. Muller, Robert J. Birgeneau, Ramamoorthy Ramesh
Room-temperature skyrmion lattice in a layered magnet (Fe0.5Co0.5)5GeTe2
Science Advances, 8, eabm7103 (2022).
77. J.-Q. Yan, Zengle Huang, Weida Wu, A.F. May
Vapor transport growth of MnBi2Te4 and related compounds
Journal of Alloys and Compounds, 906, 164327
(2022).
-- 2021 --
76. Xiaoran Liu, Shiang Fang, Yixing Fu, Wenbo Ge, Mikhail
Kareev, Jong-Woo Kim, Yongseong Choi, Evguenia Karapetrova, Qinghua Zhang, Lin
Gu, Eun-Sang Choi, FangdiWen, Justin H.Wilson, Gilberto Fabbris3 Philip J. Ryan,
John Freeland, Daniel Haskel, Weida Wu,
J. H. Pixley, Jak Chakhalian
Observation of a magnetic Weyl semimetal in thin films
of Eu2Ir2O7
Phys. Rev. Lett., 127, 277204 (2021). arXiv:2106.04062
75. Zengle Huang, Hemian Yi, Lujin Min, Zhiqiang Mao, Cui-Zu Chang, and Weida Wu
Absence of in-gap modes in charge-density-wave edge
dislocations of Weyl semimetal (TaSe4)2I
Phys. Rev. B 104, 205138 (2021). arXiv:2112.10857
74.
Wenbo Ge, Paul M. Sass, Jiaqiang Yan, Seng Huat Lee, Zhiqiang Mao, and Weida Wu
Direct evidence of ferromagnetism in MnSb2Te4
Phys. Rev. B 103, 134403 (2021). arXiv:2101.07892
73.
Hemian Yi, Zengle Huang, Wujun Shi, Lujin Min, Rui Wu, C. M. Polley,
Ruoxi Zhang, Yi-Fan Zhao, Ling-Jie Zhou, J. Adell, Xin Gui, Weiwei Xie,
Moses H. W. Chan, Zhiqiang Mao, Zhijun Wang, Weida Wu, Cui-Zu Chang
Surface Charge Induced Dirac Band Splitting in a Charge Density Wave Material (TaSe4)2I
Phys. Rev. Research 3, 013271 (2021). arXiv:2012.02402
72.
Yaohua Liu, Lin-Lin Wang, Qiang Zheng, Zengle Huang, Xiaoping Wang,
Miaofang Chi, Yan Wu, Bryan C. Chakoumakos, Michael A. McGuire, Brian
C. Sales, Weida Wu, Jiaqiang Yan,
Site Mixing for Engineering Magnetic Topological Insulators
Phys. Rev. X 11, 021033 (2021). arXiv:2007.12217
71. Lin Miao, Chul-Hee Min, Yishuai Xu, Zengle Huang,
Erica C. Kotta, Rourav Basak, M. S. Song, B. Y. Kang, B. K. Cho, K.
Kissner, Friedrich Reinert, Yi-De Chuang, Weida Wu, Jonathan D. Denlinger, and L. Andrew Wray,
Robust coherence phenomena and surface states in magnetically alloyed SmB6
Phys. Rev. Lett. 126, 136401 (2021). arXiv:1907.07074
70. Wenbo Wang, Yi-Fan Zhao, Fei Wang, Matthew W. Daniels, Cui-Zu Chang, Jiadong Zang, Di Xiao, and Weida Wu
Chiral-Bubble-Induced Topological Hall Effect in Ferromagnetic Topological Insulator Heterostructures
Nano Lett., 21 (2) 1108 (2021).
69. Zengle Huang, Mao-Hua Du, Jiaqiang Yan, Weida Wu,
Native Defects in Antiferromagnetic Topological Insulator MnBi2Te4
Phys. Rev. Materials, 4, 121202(R) (2020). arXiv:2009.07437
68.
Wenbo Wang, Lin Li, Junhua Liu, Binbin Chen, Yaoyao Ji, Jun Wang,
Guanglei Cheng, Yalin Lu, Guus Rijnders, Gertjan Koster, Weida Wu,
Zhaoliang Liao,
Magnetic domain engineering in SrRuO3 thin films
npj Quantum Materials, 5, 73 (2020).
67. Paul M. Sass, Jinwoong Kim, David Vanderbilt, Jiaqiang Yan, and Weida Wu,
Robust A-type order and spin-flop transition on the surface of antiferromagnetic topological insulator MnBi2Te4
Phys. Rev. Lett., 125, 037201 (2020). arXiv:2006.07656
66. Graham Kimbell, Paul M. Sass, Bart Woltjes, Eun Kyo Ko, Tae Won Noh, Weida Wu, Jason W. A. Robinson,
Two-channel anomalous Hall effect in SrRuO3
Phys. Rev. Materials, 4, 054414 (2020). arXiv:2002.06062
65. Paul M. Sass, Wenbo Ge, Jiaqiang Yan, D. Obeysekera, J.J Yang, and Weida Wu,
Magnetic Imaging of Domain Walls in the Antiferromagnetic Topological Insulator MnBi2Te4
Nano Lett., 20, (4), 2609-2614 (2020). arXiv:1910.06488
64. Jisoo Moon, Zengle Huang, Weida Wu, and Seongshik Oh,
Pb-doped p-type Bi2Se3 thin films via interfacial engineering
PR Materials, 4, 024203 (2020). arXiv:1908.10318
63. Sang-Wook Cheong, Manfred Fiebig, Weida Wu, Laurent Chapon, and Valery Kiryukhin
Seeing is Believing: Visualization of Antiferromagnetic Domains
npj Quantum Materials, 5, 3 (2020).
62.
Erica Kotta, Lin Miao, Yishuai Xu, S. Alexander Breitweiser, Chris
Jozwiak, Aaron Bostwick, Eli Rotenberg, Wenhan Zhang, Weida Wu, Takehito Suzuki, Joseph Checkelsky, and L. Andrew Wray
Spectromicroscopic measurement of surface and bulk band structure interplay in a disordered topological insulator
Nature Physics, 16, 285-289 (2020).
-- 2019 --
61. Wenhan Zhang, Zheng Ju, and Weida Wu,
Intrinsic superstructure near atomically clean armchair-type step edge of graphite
Phys. Rev. B, 100, 115120 (2019). arXiv:1907.02011
60. Wenbo Wang, Matthew W. Daniels, Zhaoliang Liao,
Yifan Zhao, Jun Wang, Gertjan Koster, Guus Rijnders, Cui-zu Chang, Di
Xiao, Weida Wu
Spin chirality fluctuation in two-dimensional ferromagnets with perpendicular magnetic anisotropy
Nature Materials, 18, 1054 (2019). arXiv:1812.07005
59. J.-Q. Yan, Q. Zhang, T. Heitmann, Zengle Huang, K. Y. Chen, J.-G. Cheng, Weida Wu, D. Vaknin, B. C. Sales, and R. J. McQueeney
Crystal growth and magnetic structure of MnBi2Te4
Phys. Rev. Materials 3, 064202 (2019). arXiv:1902.10110
58.
Lorenzo Vistoli, Wenbo Wang, Anke Sander, Qiuxiang
Zhu, Blai Casals, Rafael Cichelero, Agnes Barthelemy,
Stephane Fusil,
Gervasi Herranz, Sergio Valencia, Radu Abrudan, Eugen Weschke, Kazuki
Nakazawa, Hiroshi Kohno, Jacobo Santamaria, Weida Wu, Vincent Garcia, and Manuel
Bibes
Giant
topological Hall effect in correlated oxide thin films
Nature Physics, 15, 67-72 (2019).
-- 2018 --
57.
Chen Chen, Heung-Sik Kim, Alemayehu S. Admasu, Sang-Wook Cheong,
Kristjan Haule, David Vanderbilt, and Weida
Wu,
Trimer Bonding States on the Surface of Transition-metal Dichalcogenide
TaTe2
Phys. Rev. B, 98, 195423
(2018). arXiv:1807.02597
56.
Wenhan Zhang, Damien West, Seng Huat Lee, Yunsheng Qiu, Cui-Zu Chang,
Jagadeesh S. Moodera, Yew San Hor, Shengbai Zhang, and Weida Wu
Electronic
fingerprints of Cr and V dopants in topological insulator Sb2Te3
Phys. Rev. B, 98, 115165
(2018). Editors' Suggestion
arXiv:1809.06337
55.
Stefan Wilfert, Paolo Sessi, Zhiwei Wang, Henrik
Schmidt, M. Carmen Martinez-Velarte, Seng Huat Lee, Yew San Hor,
Alexander F. Otte, Yoichi Ando, Weida
Wu, and Matthias Bode
Scanning
tunneling spectroscopy investigations of
superconducting-doped topological insulators: Experimental
pitfalls and results
Phys. Rev. B, 98, 085133
(2018).
54. Zaiyao
Fei, Bevin Huang, Paul Malinowski, Wenbo Wang,
Tiancheng Song, Joshua Sanchez, Wang Yao, Di Xiao, Xiaoyang Zhu, Andrew
May,
Weida Wu, David Cobden,
Jiun-Haw Chu, Xiaodong Xu,
Two-Dimensional
Itinerant Ising Ferromagnetism in
Atomically thin Fe3GeTe2
Nature Materials, 17, 778-782 (2018).
arXiv:1803.02559
53. Lin
Miao, Yishuai Xu, Wenhan Zhang, Daniel Older, S. Alexander Breitweiser,
Erica Kotta, Haowei He,Takehito Suzuki, Jonathan D. Denlinger, Rudro R.
Biswas, Joseph Checkelsky, Weida Wu,
and L. Andrew Wray ,
Observation
of a Topological Insulator Dirac Cone Reshaped by Non-magnetic Impurity
Resonance
npj Quantum Materials, 3, 29 (2018). arXiv:1805.00084
52. Lu
Zheng, Hui Dong, Xiaoyu Wu, Yen-Lin Huang, Wenbo Wang, Weida Wu, Zheng Wang, and Keji Lai,
Interferometric
Imaging of Nonlocal Electromechanical Power Transduction in
Ferroelectric Domains
PNAS, 115, (21) 5338-5342 (2018).
51.
Wenbo Wang, Yunbo Ou, Chang Liu, Yayu Wang, Ke He, Qi-kun Xue, and Weida Wu,
Direct
evidence of ferromagnetism in a quantum anomalous Hall system
Nature Physics, 14, 791-795
(2018). arXiv:1804.04991
50.
Wenhan Zhang, M.X. Chen, Jixia Dai, Xueyun Wang, Zhicheng Zhong, S-W.
Cheong, and Weida Wu,
Topological
Phase Transition with Nanoscale Inhomogeneity in (Bi1-xInx)2Se3
Nano Letters, 18 (4),
2677-2682 (2018). arXiv:1803.07481
49. Di
Xiao, Jue Jiang, Jae-Ho Shin, Wenbo Wang, Fei Wang, Yi-Fan Zhao,
Chaoxing Liu, Weida Wu, Moses
H. W. Chan, Nitin Samarth, and Cui-Zu Chang,
The
Realization of the Axion Insulator State in Quantum Anomalous Hall
Sandwich Heterostructures
Phys. Rev. Lett., 120, 056801
(2018). arXiv:1710.00471
48. Lu
Chen, Fan Yu, Ziji Xiang, Tomoya Asaba, Colin Tinsman, Benjamin Lawson,
Paul. M. Sass, Weida Wu, B. L.
Kang, Xianhui Chen, and Lu Li,
Torque
Diffrential Magnetometry with Qplus-Mode Quartz Tuning Fork
Phys. Rev. Applied, 9, 024005
(2018).
47.
Jisoo Moon, Nikesh Koirala, Maryam Salehi, Wenhan Zhang, Weida Wu, and Seongshik Oh,
Solution
to the hole-doping problem and tunable quantum Hall effect in Bi2Se3
thin films
Nano Letters, 18, 820-826 (2018).
-- 2017 --
46.
Yunbo Ou, Chang Liu, Gaoyuan Jiang, Yang Feng, Dongyang Zhao, Weixiong
Wu, Xiao-Xiao Wang, Wei Li, Canli Song, Li-Li Wang, Wenbo Wang, Weida Wu, Yayu Wang, Ke He, Xu-Cun
Ma & Qi-Kun Xue,
Enhancing
the Quantum Anomalous Hall Effect by Magnetic Codoping in a Topological
Insulator
Advanced Materials, 30 1703062
(2017).
45.
Wenhan Zhang, Quansheng Wu, Lunyong Zhang, Sang-Wook Cheong, Alexey A.
Soluyanov,
and Weida Wu,
Quasiparticle
interference of surface states in the type-II Weyl semimetal WTe2
Phys. Rev. B, 96, 165125
(2017) arXiv:1705.11189
44.
Wenbo Wang, Julia A. Mundy, Charles M. Brooks,
Jarrett A. Moyer, Megan E. Holtz, David A. Muller, Darrell G. Schlom,
and Weida Wu,
Visualizing
weak ferromagnetic domains in multiferroic hexagonal ferrite thin film
Phys. Rev. B, 95, 134443 (2017)
43.
Ying Sun, You Ba, Aitian Chen, Wei He, Wenbo Wang, Xiaoli Zheng, Lvkuan
Zou, Yijun Zhang, Qu Yang, Lingjia Yan, Ce Feng, Qinghua Zhang,
Jianwang Cai, Weida Wu, Ming
Liu, Lin Gu, Zhaohua Cheng, Ce-Wen Nan, Ziqiang Qiu, Yizheng Wu, Jia
Li, and Yonggang Zhao,
Electric-Field
Modulation of Interface Magnetic Anisotropy and Spin Reorientation
Transition in (Co/Pt)3/PMN-PT Heterostructure
ACS Appl. Mater. Interfaces, 9
(12), 10855-10864 (2017)
-- 2016 --
42.
Matthew Brahlek, Nikesh Koirala, Maryam Salehi, Jisoo Moon, Wenhan
Zhang, Haoxiang Li, Xiaoqing Zhou, Myung-Geun Han, Liang Wu, Thomas
Emge, Hang-Dong Lee, Can Xu, Seuk Joo Rhee, Torgny Gustafsson, N. Peter
Armitage, Yimei Zhu, Daniel S. Dessau, Weida
Wu, and Seongshik Oh,
Disorder-driven
topological phase transition in Bi2Se3 films
Phys. Rev. B 94, 165104 (2016)
41.
Wenbo Wang, Cui-Zu Chang, Jagadeesh S. Moodera, and Weida Wu,
Visualizing ferromagnetic domain behaviors of V-doped Sb2Te3
thin films
npj Quantum Materials, 1,
16023 (2016)
40.
Jixia Dai, Damien West, Xueyun Wang, Yazong Wang, Daniel Kwok, S.-W.
Cheong, S.B. Zhang, and Weida Wu,
Toward the
intrinsic limit topological insulator Bi2Se3
Phys. Rev. Lett. 117, 106401 (2016).
39.
Tobias
Mauerer, Matthias Vogt, Pin-Jui Hsu, Gheorghe Lucian Pascut, Kristjan
Haule, Valery Kiryukhin, Junjie Yang, Sang-Wook Cheong, Weida Wu, and Matthias Bode,
Visualizing
anisotropic propagation of stripe domain walls in staircaselike
transitions of IrTe2
Phys. Rev. B 94, 014106 (2016).
38.
Wenbo Wang, Ying Sun, Yonggang Zhao and Weida Wu,
Quantitative measurements
of shear displacement using atomic force microscopy
Appl. Phys. Lett., 108, 122901 (2016).
-- 2015 --
37. Nikesh
Koirala, Matthew J. Brahlek, Maryam Salehi, Liang Wu, Jixia Dai, Justin
Waugh, Thomas Nummy, Myung-Geun Han, Jisoo Moon, Yimei Zhu, D. Dessau, Weida Wu, N. Peter Armitage, and
Seongshik Oh,
Record
Surface State Mobility and Quantum Hall Effect in Topological Insulator
Thin Films via Interface Engineering
Nano Lett., 15, 8245-8249 (2015).
36.
Wenbo Wang, Fang Yang, Chunlei Gao, Jinfeng Jia, G. D. Gu and Weida
Wu,
Visualizing
ferromagnetic domains in magnetic topological insulators
APL Mat. 3,
083301 (2015).
-- 2014 --
35.
Jixia
Dai, Kristjan Haule,
J.J. Yang, Y.S. Oh, S-W. Cheong and Weida
Wu,
Hierarchical
stripe phases in IrTe2 driven by competition
between Ir dimerization and Te bonding
Phys. Rev. B, 90, 235121,
(2014). arXiv:1412.2846
34.
Jixia
Dai, Wenbo Wang, Matthew Brahlek, Nikesh
Koirala, Maryam Salehi, Seongshik Oh and Weida Wu,
Restoring
pristine Bi2Se3
surface with an effective Se decapping process
Nano Research, 8, 1222-1228
(2014). arXiv:1412.2847
33.
Yanan
Geng and Weida Wu,
Magnetoelectric
force microscopy based on magnetic force microscopy with modulated
electric field
Rev. Sci. Instrum. 85,
053901
(2014)
32.
Namrata
Bansal, Myung Rae Cho, Matthew Brahlek, Nikesh Koirala, Yoichi Horibe,
Jing Chen, Weida Wu, Yun
Daniel Park, Seongshik Oh,
Transfer
of MBE-grown Bi2Se3 films to arbitrary substrates
and Gate-induced metal-insulator transition via Dirac gap
Nano Lett., 14, 1343-1348
(2014). arXiv:1402.6307
31.
Wenbo
Wang, Yanan Geng, and Weida Wu,
Background-free
Piezoresponse Force Microscopy for quantitative measurements
Appl. Phys. Lett., 104,
072905
(2014).
30.
Hena
Das, Aleksander L. Wysocki, Yanan Geng, Weida Wu and Craig J. Fennie,
Bulk
magnetoelectricity in the hexagonal manganites and ferrites
Nature Communications, 5,
2998 (2014).
doi:10.1038/ncomms3998 arXiv:1302.1099
29.
Yanan
Geng, Hena Das, Aleksander L. Wysocki, Xueyun Wang, S-W. Cheong, M.
Mostovoy, Craig J. Fennie and Weida Wu
Direct
visualization of magnetoelectric domains
Nature Materials, 13,
163-167 (2014).
doi:10.1038/nmat3813
-- 2013 --
28.
Pin-Jui
Hsu, Tobias Mauerer, Matthias Vogt, J.J. Yang, Yoon Seok Oh, S-W.
Cheong, Matthias Bode, and Weida Wu
Hysteretic
melting transition of a soliton lattice in a commensurate
charge modulation
Phys. Rev. Lett., 111, 266401 (2013). arXiv:1311.3015
Room-temperature
multiferroic hexagonal LuFeO3 films
Phys.
Rev. Lett., 110, 237601
(2013). arXiv:1209.3293
26
Rama K.
Vasudevan, Weida Wu, Jeffrey
R. Guest, Arthur P. Baddorf, Anna N. Morozovska, Eugene A. Eliseev,
Nina Balke, V. Nagarajan, Peter Maksymovych and Sergei V. Kalinin
Domain
Wall Conduction and Polarization-Mediated Transport in Ferroelectrics
(Feature
Article)
Adv.
Funct. Mater., 23,
2592-2616 (2013).
25. Pin-Jui
Hsu, Tobias Mauerer, Weida Wu,
and Matthias Bode
Observation
of a spin-density wave node on antiferromagnetic Cr(110)
islands (Editors' Suggestion)
Phys. Rev. B,
87, 115437 (2013).
24. Yanan
Geng, J.H. Lee, D.G. Schlom, J.W. Freeland, and Weida Wu
Magnetic
inhomogeneity
in a multiferroic EuTiO3 thin film
Phys.
Rev. B, 87, 121109 (R)
(2013).
-- 2012 --
23.
Yanan
Geng, N. Lee, Y. J. Choi, S.-W. Cheong, and Weida Wu
Collective
magnetism at multiferroic vortex domain walls
Nano Lett.,
12, 6055–6059
(2012). arXiv:1201.0694
22.
Weida Wu,
Y. Horibe, N. Lee, S.-W. Cheong, and J. R. Guest
Conduction
of
topologically-protected charged ferroelectric domain walls
Phys. Rev. Lett., 108,
077203 (2012). arXiv:1112.6193
-- 2011 --
21.
Edward B.
Lochocki, S.
Park, Nara Lee, S.-W. Cheong, and Weida
Wu
Piezoresponse
force microscopy of domains and walls in multiferroic
HoMnO3
Appl. Phys. Lett., 99,
232901 (2011).
-- 2010 --
20.
Weida Wu,
J. R. Guest, Y. Horibe, S.Park,
T. Choi, S.-W. Cheong, and M. Bode
Polarization-modulated
rectification at ferroelectric surfaces
Phys. Rev. Lett., 104,
217601 (2010).
19
T.
Choi, Y. Horibe, H.T. Yi, Y.J. Choi, Weida
Wu, and S.-W. Cheong
Insulating
interlocked ferroelectric and structural antiphase
domain walls in multiferroic YMnO3
Nature Materials, 9,
253 (2010).
-- 2009 --
18.
S.
Park, P. Ryan, E. Karapetrova, J. W. Kim, J. X. Ma,
J. Shi, J. W. Freeland, and Weida Wu
Microscopic
evidence of a strain-enhanced
ferromagnetic state in LaCoO3 thin film
Appl. Phys. Lett., 95, 072508 (2009).
17. Y.J.
Choi, S. B. Kim, T. Asada, S. Park, Weida
Wu, Y. Horibe, and S-W. Cheong,
Giant
magnetic coercivity and ionic superlattice
nano-domains in Fe0.25TaS2
Europhysics
Lett., 86, 37012
(2009).
16. S. Park, Y. Horibe, Y. J. Choi, C. L. Zhang, S.-W. Cheong, and Weida Wu
Pancakelike
Ising
domains and charge-ordered superlattice domains in
LuFe2O4
Phys. Rev. B, 79,
180401 (R) (2009).
-- 2008 --
15. Weida Wu, V. Kiryukhin, H.-J. Noh,
K.-T. Ko, J.-H. Park, W. Ratcliff II, P.A. Sharma, N.
Harrison, Y.J. Choi, Y. Horibe, S. Lee, S. Park, H.T.
Yi, C.L. Zhang, S.-W. Cheong
Formation
of pancakelike Ising domains and
giant magnetic coercivity in ferrimagnetic
LuFe2O4
Phys. Rev. Lett., 101,
137203 (2008).
14. Y.H.
Sun, Y.G. Zhao, H.F. Tian, C.M. Xiong,
B.T. Xie, M.H. Zhu, S. Park, Weida
Wu, J.Q. Li, and Q. Li
The
electric and magnetic modulation of fully strained "dead"
layers in La0.67Sr0.33MnO3 films.
Phys.
Rev. B, 78, 024412
(2008).
13. B.T.
Xie, Y.G. Zhao, C.M. Xiong, S. Park, and Weida
Wu
Current-voltage
characteristics of phase separated La0.5Ca0.5MnO3/Nb-SrTiO3
p-n junction and magnetic tunability
Appl.
Phys. Lett., 92, 232109
(2008).
-- 2007 --
12.
Weida Wu
and Paul M. Chaikin
Numerical
investigation of Nernst effect in quasi-one-dimensional systems
Phys.
Rev. B, 76, 153102
(2007).
---------- Before
joining Rutgers ---------------
11.
Casey
Israel, Weida Wu and Alex de
Lozanne
High-Field
Magnetic Force Microscopy as Susceptibility Imaging
Appl.
Phys. Lett.,
89, 032502 (2006).
10. Weida Wu,
Casey Israel, Namjung Hur, Soonyong Park, Sang-Wook Cheong
and Alex de Lozanne
Magnetic
imaging of supercooling glass transition in a weakly
disordered ferromagnetic manganite.
Nature
Materials, 5,
881 (2006).
9. Weida Wu,
Ayan Guha, Suenne Kim and A. L. de Lozanne
A
compact dual-tip STM design
IEEE
Transection on Nanotechnology, 5,
77
(2006).
8.
Moon-Sun Nam, Arzhang Ardavan, Weida
Wu, P.M. Chaikin
Magnetothermoelectric
effects in (TMTSF)2ClO4
Phys.
Rev. B, 74, 073105
(2006).
7. J.
Shinagawa, Weida Wu, P. M.
Chaikin, W. Kang, W. Yu, F. Zhang, Y. Kurosaki, C. Parker, S.E. Brown
Se77
NMR studies on magic angle effect and nature of the superconducting
state in the organic superconductors (TMTSF)2X
J.
Low Temp. Phys., 142,
227 (2006).
6.
Weida Wu,
N. P. Ong and P. M. Chaikin
Giant
angular-dependent Nernst
effect in quasi-one-dimensional organic conductor (TMTSF)2PF6
Phys. Rev.
B, 72,
235116 (2005). arXiv:cond-mat/0507612
5.
Weida Wu,
P.M. Chaikin, W. Kang, J. Shinagawa, W. Yu and S.E.
Brown
77Se NMR Probe of
Magnetic
Excitations of the Magic Angle Effect in (TMTSF)2PF6
Phys. Rev. Lett.,
94, 097004, (2005).
4.
N.P.
Ong, Weida
Wu, P.M. Chaikin and P.W. Anderson
Phase Coherence and the Nernst Effect at Magic
Angles in
Organic Conductors,
EuroPhys. Lett., 66
(4) 579 (2004). arXiv:cond-mat/0401159
3.
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