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101. Ultrafast Photo-induced Hidden Phase in Strained Manganite Thin Films

Author

Zhang, Jingdi, McLeod, A. S., Zhang, Gu-Feng, Stoica, Vladimir, Jin, Feng, Gu, Mingqiang, Gopalan, Venkatraman, Freeland, John W., Wu, Wenbin, Rondinelli, James, Wen, Haidan, Basov, D. N., Averitt, R. D., Zhang, Jingdi, McLeod, A. S., Zhang, Gu-Feng, Stoica, Vladimir, Jin, Feng, Gu, Mingqiang, Gopalan, Venkatraman, Freeland, John W., Wu, Wenbin, Rondinelli, James, Wen, Haidan, Basov, D. N., and Averitt, R. D.

Abstract

Correlated transition metal oxides (TMOs) are particularly sensitive to external control because of energy degeneracy in a complex energy landscape that promote a plethora of metastable states. However, it remains a grand challenge to actively control and fully explore the rich landscape of TMOs. Dynamic control with pulsed photons can overcome energetic barriers, enabling access to transient or metastable states that are not thermally accessible. In the past, we have demonstrated that mode-selective single-laser-pulse excitation of a strained manganite thin film La2/3Ca1/3MnO3 initiates a persistent phase transition from an emergent antiferromagnetic insulating ground state to a ferromagnetic metallic metastable state. Beyond the photo-induced insulator to metal transition, we recently discovered a new peculiar photo-induced hidden phase, identified by an experimental approach that combines ultrafast pump-probe spectroscopy, THz spectroscopy, X-ray diffraction, cryogenic near-field spectroscopy and SHG probe.

Published
2017

102. Ultrafast terahertz-field-driven ionic response in ferroelectric BaTiO₃

Author

Chen, Frank, Zhu, Yuan, Liu, Shi, Qi, Yue, Hwang, Harold Y., Brandt, Nathaniel, Lu, Jian, Quirin, Florian, Enquist, Henrik, Zalden, Peter, Hu, Te, Goodfellow, John, Sher, Meng Ju, Hoffmann, Matthias C., Zhu, Dilling, Lemke, Henrik Till, Glownia, James Michael, Chollet, Matthieu C., Damodaran, Anoop R., Park, Joonkyu, Cai, Zhonghou, Jung, Ilwoong, Highland, Matthew J., Walko, Donald A., Freeland, John W., Evans, Paul G., Vailionis, Arturas, Larsson, Jakob. C., Nelson, Keith A., Rappe, Andrew M., Sokolowski-Tinten, Klaus, Martin, Lane W., Wen, Haidan, and Lindenberg, Aaron M.

Subjects
Physik (inkl. Astronomie)
Abstract

The dynamical processes associated with electric field manipulation of the polarization in a ferroelectric remain largely unknown but fundamentally determine the speed and functionality of ferroelectric materials and devices. Here we apply subpicosecond duration, single-cycle terahertz pulses as an ultrafast electric field bias to prototypical BaTiO3 ferroelectric thin films with the atomic-scale response probed by femtosecond x-ray-scattering techniques. We show that electric fields applied perpendicular to the ferroelectric polarization drive large-amplitude displacements of the titanium atoms along the ferroelectric polarization axis, comparable to that of the built-in displacements associated with the intrinsic polarization and incoherent across unit cells. This effect is associated with a dynamic rotation of the ferroelectric polarization switching on and then off on picosecond time scales. These transient polarization modulations are followed by long-lived vibrational heating effects driven by resonant excitation of the ferroelectric soft mode, as reflected in changes in the c-axis tetragonality. The ultrafast structural characterization described here enables a direct comparison with first-principles-based molecular-dynamics simulations, with good agreement obtained.

Published
2016

103. Dynamic Optical Tuning of Interlayer Interactions in the Transition Metal Dichalcogenides

Author

Mannebach, Ehren M., primary, Nyby, Clara, additional, Ernst, Friederike, additional, Zhou, Yao, additional, Tolsma, John, additional, Li, Yao, additional, Sher, Meng-Ju, additional, Tung, I-Cheng, additional, Zhou, Hua, additional, Zhang, Qi, additional, Seyler, Kyle L., additional, Clark, Genevieve, additional, Lin, Yu, additional, Zhu, Diling, additional, Glownia, James M., additional, Kozina, Michael E., additional, Song, Sanghoon, additional, Nelson, Silke, additional, Mehta, Apurva, additional, Yu, Yifei, additional, Pant, Anupum, additional, Aslan, Burak, additional, Raja, Archana, additional, Guo, Yinsheng, additional, DiChiara, Anthony, additional, Mao, Wendy, additional, Cao, Linyou, additional, Tongay, Sefaattin, additional, Sun, Jifeng, additional, Singh, David J., additional, Heinz, Tony F., additional, Xu, Xiaodong, additional, MacDonald, Allan H., additional, Reed, Evan, additional, Wen, Haidan, additional, and Lindenberg, Aaron M., additional

Published
2017
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104. Ultrafast Three-Dimensional Integrated Imaging of Strain in Core/Shell Semiconductor/Metal Nanostructures

Author

Cherukara, Mathew J., primary, Sasikumar, Kiran, additional, DiChiara, Anthony, additional, Leake, Steven J., additional, Cha, Wonsuk, additional, Dufresne, Eric M., additional, Peterka, Tom, additional, McNulty, Ian, additional, Walko, Donald A., additional, Wen, Haidan, additional, Sankaranarayanan, Subramanian K. R. S., additional, and Harder, Ross J., additional

Published
2017
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105. Controlling phase separation in vanadium dioxide thin films via substrate engineering

Author

Gilbert Corder, Stephanie N., primary, Jiang, Jianjuan, additional, Chen, Xinzhong, additional, Kittiwatanakul, Salinporn, additional, Tung, I-Cheng, additional, Zhu, Yi, additional, Zhang, Jiawei, additional, Bechtel, Hans A., additional, Martin, Michael C., additional, Carr, G. Lawrence, additional, Lu, Jiwei, additional, Wolf, Stuart A., additional, Wen, Haidan, additional, Tao, Tiger H., additional, and Liu, Mengkun, additional

Published
2017
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111. Shear strain-induced anisotropic domain evolution in mixed-phase BiFeO3 epitaxial films.

Author

Xu, Han, Chen, Zuhuang, Zhang, Xiaoyi, Dong, Yongqi, Hong, Bin, Zhao, Jiangtao, Chen, Lang, Das, Sujit, Gao, Chen, Zeng, Changgan, Wen, Haidan, and Luo, Zhenlin

Subjects
SHEAR strain, ANISOTROPY, THIN films
Abstract

Understanding and controlling the domain evolution under external stimuli in multiferroic thin films is critical to realizing nanoelectronic devices, including for non-volatile memory, data storage, sensors, and optoelectronics. In this article, we studied the shear-strain effect on the domain evolution with temperature in highly strained BiFeO3 thin films on rhombohedral LaAlO3 substrates using a high-resolution synchrotron X-ray diffraction three dimensional-reciprocal space mapping (3D-RSM) technique. The results revealed significant biaxial, anisotropic, evolution behaviors of the mixed-phase (MC + R′/T′ phases) BiFeO3 ferroelectric domains along the in-plane [100] and [010] axes. These biaxial, anisotropic, evolution behaviors were attributed to the shear-strain-modulated transition pathways of the mixed-phase ferroelectric domains. This viewpoint was further verified in the BiFeO3/LaSrAlO4 (001) system in which no anisotropic evolution behaviors of the mixed-phase domains were found. This work sheds light on the quantitative analysis of domain evolution in multi-domain systems and demonstrates that the shear-strain effect could act as an effective tool to manipulate the domain behavior and control novel functionalities of ferroelectric thin films. [ABSTRACT FROM AUTHOR]

Published
2019
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112. Structural dynamics of LaVO3 on the nanosecond time scale.

Author

Brahlek, Matthew, Stoica, Vladimir A., Lapano, Jason, Zhang, Lei, Akamatsu, Hirofumi, Tung, I-Cheng, Gopalan, Venkatraman, Walko, Donald A., Wen, Haidan, Freeland, John W., and Engel-Herbert, Roman

Subjects
STRUCTURAL dynamics, LANTHANUM compounds, PICOSECOND pulses
Abstract

Due to the strong dependence of electronic properties on the local bonding environment, a full characterization of the structural dynamics in ultrafast experiments is critical. Here, we report the dynamics and structural refinement at nanosecond time scales of a perovskite thin film by combining optical excitation with time-resolved X-ray diffraction. This is achieved by monitoring the temporal response of both integer and half-integer diffraction peaks of LaVO3 in response to an above-band-gap 800 nm pump pulse. We find that the lattice expands by 0.1% out of plane, and the relaxation is characterized by a biexponential decay with 2 and 12 ns time scales. We analyze the relative intensity change in half-integer peaks and show that the distortions to the substructure are small: the oxygen octahedral rotation angles decrease by ∼0.3° and La displacements decrease by ∼0.2 pm, which directly corresponds to an ∼0.8° increase in the V-O-V bond-angles, an in-plane V-O bond length reduction of ∼0.3 pm, and an unchanged out-of-plane bond length. This demonstration of tracking the atomic positions in a pump-probe experiment provides experimentally accessible values for structural and electronic tunability in this class of materials and will stimulate future experiments. [ABSTRACT FROM AUTHOR]

Published
2019
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113. Author Correction: Non-equilibrium pathways to emergent polar supertextures

Author

Stoica, Vladimir A., Yang, Tiannan, Das, Sujit, Cao, Yue, Wang, Huaiyu (Hugo), Kubota, Yuya, Dai, Cheng, Padma, Hari, Sato, Yusuke, Mangu, Anudeep, Nguyen, Quynh L., Zhang, Zhan, Talreja, Disha, Zajac, Marc E., Walko, Donald A., DiChiara, Anthony D., Owada, Shigeki, Miyanishi, Kohei, Tamasaku, Kenji, Sato, Takahiro, Glownia, James M., Esposito, Vincent, Nelson, Silke, Hoffmann, Matthias C., Schaller, Richard D., Lindenberg, Aaron M., Martin, Lane W., Ramesh, Ramamoorthy, Matsuda, Iwao, Zhu, Diling, Chen, Long-Q., Wen, Haidan, Gopalan, Venkatraman, and Freeland, John W.

Published
2024
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114. Ultrafast Optically Induced Perturbation of Oxygen Octahedral Rotations in Multiferroic BiFeO3Thin Films

Author

Li, Ni, Lee, Hyeon Jun, Sri Gyan, Deepankar, Ahn, Youngjun, Landahl, Eric C., Carnis, Jerome, Lee, Jun Young, Kim, Tae Yeon, Unithrattil, Sanjith, Jo, Ji Young, Chun, Sae Hwan, Kim, Sunam, Park, Sang-Youn, Eom, Intae, Adamo, Carolina, Li, Sabrina J., Kaaret, Jeffrey Z., Schlom, Darrell G., Wen, Haidan, Benedek, Nicole A., and Evans, Paul G.

Abstract

The functional properties of complex oxides, including magnetism and ferroelectricity, are closely linked to subtle structural distortions. Ultrafast optical excitations provide the means to manipulate structural features and ultimately to affect the functional properties of complex oxides with picosecond-scale precision. We report that the lattice expansion of multiferroic BiFeO3following above-bandgap optical excitation leads to distortion of the oxygen octahedral rotation (OOR) pattern. The continuous coupling between OOR and strain was probed using time-resolved X-ray free-electron laser diffraction with femtosecond time resolution. Density functional theory calculations predict a relationship between the OOR and the elastic strain consistent with the experiment, demonstrating a route to employing this approach in a wider range of systems. Ultrafast control of the functional properties of BiFeO3thin films is enabled by this approach because the OOR phenomena are related to ferroelectricity, and via the Fe–O–Fe bond angles, the superexchange interaction between Fe atoms.

Published
2024
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116. Picosecond Electric-Field-Induced Threshold Switching in Phase-Change Materials

Author

Zalden, Peter, primary, Shu, Michael J., additional, Chen, Frank, additional, Wu, Xiaoxi, additional, Zhu, Yi, additional, Wen, Haidan, additional, Johnston, Scott, additional, Shen, Zhi-Xun, additional, Landreman, Patrick, additional, Brongersma, Mark, additional, Fong, Scott W., additional, Wong, H.-S. Philip, additional, Sher, Meng-Ju, additional, Jost, Peter, additional, Kaes, Matthias, additional, Salinga, Martin, additional, von Hoegen, Alexander, additional, Wuttig, Matthias, additional, and Lindenberg, Aaron M., additional

Published
2016
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117. Mesoscopic structural phase progression in photo-excited VO2 revealed by time-resolved x-ray diffraction microscopy

Author

Zhu, Yi, primary, Cai, Zhonghou, additional, Chen, Pice, additional, Zhang, Qingteng, additional, Highland, Matthew J., additional, Jung, Il Woong, additional, Walko, Donald A., additional, Dufresne, Eric M., additional, Jeong, Jaewoo, additional, Samant, Mahesh G., additional, Parkin, Stuart S. P., additional, Freeland, John W., additional, Evans, Paul G., additional, and Wen, Haidan, additional

Published
2016
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119. Ultrafast atomic-scale structural response in monolayer and multilayer transition metal dichalcogenides

Author

Mannebach, Ehren, primary, Tung, I-Cheng, additional, Nyby, Clara, additional, Zhou, Hua, additional, Zhang, Q, additional, Ernst, Friederike, additional, Seyler, Kyle, additional, Clark, Genevieve, additional, Lin, Yu, additional, Zhu, Diling, additional, Glownia, James, additional, Kozina, Michael, additional, Song, Sanghoon, additional, Nelson, Silke, additional, Yu, Yifei, additional, Pant, Anupum, additional, Raja, Archana, additional, Guo, Yinsheng, additional, DiChiara, Anthony, additional, Mao, Wendy, additional, Cao, Linyou, additional, Tongay, Sefaattin, additional, Heinz, Tony, additional, Xu, Xiaodong, additional, Wen, Haidan, additional, and Lindenberg, Aaron M., additional

Published
2016
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120. Structural phase progression in photo-excited VO2

Author

Zhu, Yi, primary, Cai, Zhonghou, additional, Chen, Pice, additional, Zhang, Qingteng, additional, Highland, Matthew J., additional, Jung, Il Woong, additional, Walko, Donald A., additional, Dufresne, Eric M., additional, Jeong, Jaewoo, additional, Samant, Mahesh G., additional, Parkin, Stuart S. P., additional, Freeland, John W., additional, Evans, Paul G., additional, and Wen, Haidan, additional

Published
2016
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121. Threshold Switching in Phase-Change Materials by Picosecond Electric Fields

Author

Shu, Michael J., primary, Zalden, Peter, additional, Chen, Frank, additional, Zhu, Yi, additional, Wen, Haidan, additional, Johnston, Scott, additional, Shen, Zhi-Xun, additional, Landreman, Patrick, additional, Brongersma, Mark, additional, Fong, Scott, additional, Wong, H.-S. Philip, additional, Sher, Meng-Ju, additional, Jost, Peter, additional, Kaes, Matthias, additional, Salinga, Martin, additional, von Hoegen, Alexander, additional, Wuttig, Mattias, additional, and Lindenberg, Aaron M., additional

Published
2016
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122. Femtosecond Laser Pulse Driven Melting in Gold Nanorod Aqueous Colloidal Suspension: Identification of a Transition from Stretched to Exponential Kinetics

Author

Li, Yuelin, Lin, Xiao-Min, Wen, Haidan, Walko, Donald A., Deshmukh, Sanket A., Subbaraman, Ram, Sankaranarayanan, Subramanian K. R. S., Gray, Stephen K., Ho, Phay, Li, Yuelin, Lin, Xiao-Min, Wen, Haidan, Walko, Donald A., Deshmukh, Sanket A., Subbaraman, Ram, Sankaranarayanan, Subramanian K. R. S., Gray, Stephen K., and Ho, Phay

Abstract

Many potential industrial, medical, and environmental applications of metal nanorods rely on the physics and resultant kinetics and dynamics of the interaction of these particles with light. We report a surprising kinetics transition in the global melting of femtosecond laser-driven gold nanorod aqueous colloidal suspension. At low laser intensity, the melting exhibits a stretched exponential kinetics, which abruptly transforms into a compressed exponential kinetics when the laser intensity is raised. It is found the relative formation and reduction rate of intermediate shapes play a key role in the transition. Supported by both molecular dynamics simulations and a kinetic model, the behavior is traced back to the persistent heterogeneous nature of the shape dependence of the energy uptake, dissipation and melting of individual nanoparticles. These results could have significant implications for various applications such as water purification and electrolytes for energy storage that involve heat transport between metal nanorod ensembles and surrounding solvents.

Published
2015
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123. Femtosecond Laser Pulse Driven Melting in Gold Nanorod Aqueous Colloidal Suspension: Identification of a Transition from Stretched to Exponential Kinetics

Author

Chemical Engineering, Li, Yuelin, Lin, Xiao-Min, Wen, Haidan, Walko, Donald A., Deshmukh, Sanket A., Subbaraman, Ram, Sankaranarayanan, Subramanian K. R. S., Gray, Stephen K., Ho, Phay, Chemical Engineering, Li, Yuelin, Lin, Xiao-Min, Wen, Haidan, Walko, Donald A., Deshmukh, Sanket A., Subbaraman, Ram, Sankaranarayanan, Subramanian K. R. S., Gray, Stephen K., and Ho, Phay

Abstract

Many potential industrial, medical, and environmental applications of metal nanorods rely on the physics and resultant kinetics and dynamics of the interaction of these particles with light. We report a surprising kinetics transition in the global melting of femtosecond laser-driven gold nanorod aqueous colloidal suspension. At low laser intensity, the melting exhibits a stretched exponential kinetics, which abruptly transforms into a compressed exponential kinetics when the laser intensity is raised. It is found the relative formation and reduction rate of intermediate shapes play a key role in the transition. Supported by both molecular dynamics simulations and a kinetic model, the behavior is traced back to the persistent heterogeneous nature of the shape dependence of the energy uptake, dissipation and melting of individual nanoparticles. These results could have significant implications for various applications such as water purification and electrolytes for energy storage that involve heat transport between metal nanorod ensembles and surrounding solvents.

Published
2015

124. Unconventional slowing down of electronic recovery in photoexcited charge-ordered La1/3Sr2/3FeO3.

Author

Yi Zhu, Hoffman, Jason, Rowland, Clare E., Park, Hyowon, Walko, Donald A., Freeland, John W., Ryan, Philip J., Schaller, Richard D., Bhattacharya, Anand, and Wen, Haidan

Abstract

The coupling of ordered electronic phases with lattice, spin, and orbital degrees of freedom are of central interest in strongly correlated systems. Their interplay has been intensively studied from femtosecond to picosecond time scales, while their dynamics beyond nanoseconds are usually assumed to follow lattice cooling. Here, we report an unusual slowing down of the recovery of an electronic phase across a first-order phase transition. Following optical excitation, the recovery time of both transient optical reflectivity and X-ray diffraction intensity from the charge-ordered superstructure in a La1/3Sr2/3FeO3 thin film increases by orders of magnitude as the sample temperature approaches the phase transition temperature. In this regime, the recovery time becomes much longer than the lattice cooling time. The combined experimental and theoretical investigation shows that the slowing down of electronic recovery corresponds to the pseudo-critical dynamics that originates from magnetic interactions close to a weakly first-order phase transition. [ABSTRACT FROM AUTHOR]

Published
2018
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125. Giant optical enhancement of strain gradient in ferroelectric BiFeO3 thin films and its physical origin

Author

Li, Yuelin, primary, Adamo, Carolina, additional, Chen, Pice, additional, Evans, Paul G., additional, Nakhmanson, Serge M., additional, Parker, William, additional, Rowland, Clare E., additional, Schaller, Richard D., additional, Schlom, Darrell G., additional, Walko, Donald A., additional, Wen, Haidan, additional, and Zhang, Qingteng, additional

Published
2015
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129. Lensless Imaging of Nano- and Meso-Scale Dynamics with X-rays

Author

Clark, Jesse N., primary, Trigo, Mariano, additional, Henighan, Tom, additional, Harder, Ross, additional, Abbey, Brian, additional, Katayama, Tetsuo, additional, Kozina, Mike, additional, Dufresne, Eric, additional, Wen, Haidan, additional, Walko, Donald, additional, Li, Yuelin, additional, Huang, Xiaojing, additional, Robinson, Ian, additional, and Reis, David, additional

Published
2015
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130. Visualization of nanocrystal breathing modes at extreme strains

Author

Szilagyi, Erzsi, primary, Wittenberg, Joshua S., additional, Miller, Timothy A., additional, Lutker, Katie, additional, Quirin, Florian, additional, Lemke, Henrik, additional, Zhu, Diling, additional, Chollet, Matthieu, additional, Robinson, Joseph, additional, Wen, Haidan, additional, Sokolowski-Tinten, Klaus, additional, and Lindenberg, Aaron M., additional

Published
2015
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131. Femtosecond Laser Pulse Driven Melting in Gold Nanorod Aqueous Colloidal Suspension: Identification of a Transition from Stretched to Exponential Kinetics

Author

Li, Yuelin, primary, Jiang, Zhang, additional, Lin, Xiao-Min, additional, Wen, Haidan, additional, Walko, Donald A., additional, Deshmukh, Sanket A., additional, Subbaraman, Ram, additional, Sankaranarayanan, Subramanian K. R. S., additional, Gray, Stephen K., additional, and Ho, Phay, additional

Published
2015
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132. Bunch Length Measurements with Laser/SR Cross-Correlation

Author

Miller, Timothy, Corbett, Jeff, Daranciang, Dan, Fisher, Alan, Goodfellow, John, Huang, Xiaobiao, Lindenberg, Aaron, Mok, Walter, Safranek, James, and Wen, Haidan

Subjects
06 Beam Instrumentation and Feedback, Physics::Optics, T24 Lasers, Accelerator Physics
Abstract

By operating SPEAR3 in the quasi-isochronous (low-alpha) mode, one can produce synchrotron radiation with pulse durations of order 1ps. Applications include pump-probe x-ray science and the production of THz radiation. Measurements of short pulse lengths are difficult, however, because the light intensity is low and streak camera resolution is of order 2ps. Bunch arrival time and timing jitter are also important factors. In order to further quantify the pulse length and timing system performance, a 5MHz, 50fs mode-locked laser was used to cross-correlate with the visible SR beam in a BBO crystal. The 800nm laser pulse was delayed with a precision mechanical stage and the product SHG radiation detected with a photodiode / lock-in amplifier using the ring frequency as reference. In this paper we report on the experimental setup, preliminary pulse length measurements and prospects for further improvement., Proceedings of the 1st International Particle Accelerator Conference, IPAC2010, Kyoto, Japan

Published
2010
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133. Localized Excited Charge Carriers Generate Ultrafast Inhomogeneous Strain in the Multiferroic BiFeO3

Author

CORNELL UNIV ITHACA NY DEPT OF MATERIALS SCIENCE AND ENGINEERING, Schick, Daniel, Herzog, Marc, Wen, Haidan, Chen, Pice, Adamo, Carolina, Gaal, Peter, Schlom, Darrell G, Evans, Paul G, Li, Yuelin, Bargheer, Matias, CORNELL UNIV ITHACA NY DEPT OF MATERIALS SCIENCE AND ENGINEERING, Schick, Daniel, Herzog, Marc, Wen, Haidan, Chen, Pice, Adamo, Carolina, Gaal, Peter, Schlom, Darrell G, Evans, Paul G, Li, Yuelin, and Bargheer, Matias

Abstract

We apply ultrafast x-ray diffraction with femtosecond temporal resolution to monitor the lattice dynamics in a thin film of multiferroic BiFeO3 after above-band-gap photoexcitation. The sound-velocity limited evolution of the observed lattice strains indicates a quasi-instantaneous photoinduced stress which decays on a nanosecond time scale. This stress exhibits an inhomogeneous spatial profile evidenced by the broadening of the Bragg peak. These new data require substantial modification of existing models of photogenerated stresses in BiFeO3: the relevant excited charge carriers must remain localized to be consistent with the data., The original document contains color images. Published in Physical Review Letters, v112 article ID 097602, 3 Mar 2014. Sponsored in part by DoE.

Published
2014

134. Synchronized charge oscillations in correlated electron systems

Author

Shukla, Nikhil, primary, Parihar, Abhinav, additional, Freeman, Eugene, additional, Paik, Hanjong, additional, Stone, Greg, additional, Narayanan, Vijaykrishnan, additional, Wen, Haidan, additional, Cai, Zhonghou, additional, Gopalan, Venkatraman, additional, Engel-Herbert, Roman, additional, Schlom, Darrell G., additional, Raychowdhury, Arijit, additional, and Datta, Suman, additional

Published
2014
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137. Optoelectronic measurement of x-ray synchrotron pulses: A proof of concept demonstration

Author

Durbin, Stephen M., Mahmood, Aamer, Caffee, Marc W., Savikhin, Sergei, Dufresne, Eric M., Wen, Haidan, Li, Yuelin, Durbin, Stephen M., Mahmood, Aamer, Caffee, Marc W., Savikhin, Sergei, Dufresne, Eric M., Wen, Haidan, and Li, Yuelin

Abstract

Optoelectronic detection using photoconductive coplanar stripline devices has been applied to measuring the time profile of x-ray synchrotron pulses, a proof of concept demonstration that may lead to improved time-resolved x-ray studies. Laser sampling of current vs time delay between 12 keV x-ray and 800 nm laser pulses reveal the similar to 50 ps x-ray pulse width convoluted with the similar to 200 ps lifetime of the conduction band carriers. For GaAs implanted with 8 MeV protons, a time profile closer to the x-ray pulse width is observed. The protons create defects over the entire depth sampled by the x-rays, trapping the x-ray excited conduction electrons and minimizing lifetime broadening of the electrical excitation. (C) 2013 American Institute of Physics. [http://dx.doi.org/10.1063/1.4791559]

Published
2013

138. Ultrafast Photovoltaic Response in Ferroelectric Nanolayers

Author

Massachusetts Institute of Technology. Department of Chemistry, Massachusetts Institute of Technology. School of Science, Nelson, Keith Adam, Brandt, Nathaniel Curran, Hwang, Harold Young, Daranciang, Dan, Highland, Matthew J., Wen, Haidan, Young, Steve M., Vattilana, Michael, Nicoul, Matthieu, Quirin, Florian, Goodfellow, John, Qi, Tingting, Grinberg, Ilya, Fritz, David M., Cammarata, Marco, Zhu, Diling, Lemke, Henrik T., Walko, Donald A., Dufresne, Eric M., Li, Yuelin, Larsson, Jo¨rgen, Reis, David A., Sokolowski-Tinten, Klaus, Rappe, Andrew M., Fuoss, Paul H., Stephenson, G. Brian, Lindenberg, Aaron M., Massachusetts Institute of Technology. Department of Chemistry, Massachusetts Institute of Technology. School of Science, Nelson, Keith Adam, Brandt, Nathaniel Curran, Hwang, Harold Young, Daranciang, Dan, Highland, Matthew J., Wen, Haidan, Young, Steve M., Vattilana, Michael, Nicoul, Matthieu, Quirin, Florian, Goodfellow, John, Qi, Tingting, Grinberg, Ilya, Fritz, David M., Cammarata, Marco, Zhu, Diling, Lemke, Henrik T., Walko, Donald A., Dufresne, Eric M., Li, Yuelin, Larsson, Jo¨rgen, Reis, David A., Sokolowski-Tinten, Klaus, Rappe, Andrew M., Fuoss, Paul H., Stephenson, G. Brian, and Lindenberg, Aaron M.

Abstract

We show that light drives large-amplitude structural changes in thin films of the prototypical ferroelectric PbTiO[subscript 3] via direct coupling to its intrinsic photovoltaic response. Using time-resolved x-ray scattering to visualize atomic displacements on femtosecond time scales, photoinduced changes in the unit-cell tetragonality are observed. These are driven by the motion of photogenerated free charges within the ferroelectric and can be simply explained by a model including both shift and screening currents, associated with the displacement of electrons first antiparallel to and then parallel to the ferroelectric polarization direction., United States. Dept. of Energy (contract DE-FG02-07ER46431), United States. Office of Naval Research (grant N00014-06-1- 0459)

Published
2012

139. Ultrafast Photovoltaic Response in Ferroelectric Nanolayers

Author

Daranciang, Dan, Highland, Matthew J., Wen, Haidan, Young, Steve M., Brandt, Nathaniel C., Hwang, Harold Y., Vattilana, Michael, Nicoul, Matthieu, Quirin, Florian, Goodfellow, John, Qi, Tingting, Grinberg, Ilya, Fritz, David M., Cammarata, Marco, Zhu, Diling, Lemke, Henrik T., Walko, Donald A., Dufresne, Eric M., Li, Yuelin, Larsson, Jörgen, Reis, David A., Sokolowski-Tinten, Klaus, Nelson, Keith A., Rappe, Andrew M., Fuoss, Paul H., Stephenson, G. Brian, Lindenberg, Aaron M., Daranciang, Dan, Highland, Matthew J., Wen, Haidan, Young, Steve M., Brandt, Nathaniel C., Hwang, Harold Y., Vattilana, Michael, Nicoul, Matthieu, Quirin, Florian, Goodfellow, John, Qi, Tingting, Grinberg, Ilya, Fritz, David M., Cammarata, Marco, Zhu, Diling, Lemke, Henrik T., Walko, Donald A., Dufresne, Eric M., Li, Yuelin, Larsson, Jörgen, Reis, David A., Sokolowski-Tinten, Klaus, Nelson, Keith A., Rappe, Andrew M., Fuoss, Paul H., Stephenson, G. Brian, and Lindenberg, Aaron M.

Abstract

We show that light drives large-amplitude structural changes in thin films of the prototypical ferroelectric PbTiO3 via direct coupling to its intrinsic photovoltaic response. Using time-resolved x-ray scattering to visualize atomic displacements on femtosecond time scales, photoinduced changes in the unit-cell tetragonality are observed. These are driven by the motion of photogenerated free charges within the ferroelectric and can be simply explained by a model including both shift and screening currents, associated with the displacement of electrons first antiparallel to and then parallel to the ferroelectric polarization direction.

Published
2012

140. Probing the hydrogen-bond network of water via time-resolved soft X-ray spectroscopy

Author

Huse, Nils, Wen, Haidan, Nordlund, Dennis, Szilagyi, Erzsi, Daranciang, Dan, Miller, Timothy A., Nilsson, Anders, Schoenlein, Robert W., Lindenberg, Aaron M., Huse, Nils, Wen, Haidan, Nordlund, Dennis, Szilagyi, Erzsi, Daranciang, Dan, Miller, Timothy A., Nilsson, Anders, Schoenlein, Robert W., and Lindenberg, Aaron M.

Abstract

We report time-resolved studies of hydrogen bonding in liquid H2O, in response to direct excitation of the O-H stretch mode at 3 mm, probed via soft X-ray absorption spectroscopy at the oxygen K-edge. This approach employs a newly developed nanofluidic cell for transient soft X-ray spectroscopy in the liquid phase. Distinct changes in the near-edge spectral region (XANES) are observed, and are indicative of a transient temperature rise of 10 K following transient laser excitation and rapid thermalization of vibrational energy. The rapid heating occurs at constant volume and the associated increase in internal pressure, estimated to be 8 MPa, is manifested by distinct spectral changes that differ from those induced by temperature alone. We conclude that the near-edge spectral shape of the oxygen K-edge is a sensitive probe of internal pressure, opening new possibilities for testing the validity of water models and providing new insight into the nature of hydrogen bonding in water., authorCount :9

Published
2009
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142. Structural and electronic recovery pathways of a photoexcited ultrathin VO2film

Author

Wen, Haidan, primary, Guo, Lu, additional, Barnes, Eftihia, additional, Lee, June Hyuk, additional, Walko, Donald A., additional, Schaller, Richard D., additional, Moyer, Jarrett A., additional, Misra, Rajiv, additional, Li, Yuelin, additional, Dufresne, Eric M., additional, Schlom, Darrell G., additional, Gopalan, Venkatraman, additional, and Freeland, John W., additional

Published
2013
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145. Electronic Origin of Ultrafast Photoinduced Strain inBiFeO3

Author

Wen, Haidan, primary, Chen, Pice, additional, Cosgriff, Margaret P., additional, Walko, Donald A., additional, Lee, June Hyuk, additional, Adamo, Carolina, additional, Schaller, Richard D., additional, Ihlefeld, Jon F., additional, Dufresne, Eric M., additional, Schlom, Darrell G., additional, Evans, Paul G., additional, Freeland, John W., additional, and Li, Yuelin, additional

Published
2013
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146. Ultrafast Photovoltaic Response in Ferroelectric Nanolayers

Author

Daranciang, Dan, primary, Highland, Matthew J., additional, Wen, Haidan, additional, Young, Steve M., additional, Brandt, Nathaniel C., additional, Hwang, Harold Y., additional, Vattilana, Michael, additional, Nicoul, Matthieu, additional, Quirin, Florian, additional, Goodfellow, John, additional, Qi, Tingting, additional, Grinberg, Ilya, additional, Fritz, David M., additional, Cammarata, Marco, additional, Zhu, Diling, additional, Lemke, Henrik T., additional, Walko, Donald A., additional, Dufresne, Eric M., additional, Li, Yuelin, additional, Larsson, Jörgen, additional, Reis, David A., additional, Sokolowski-Tinten, Klaus, additional, Nelson, Keith A., additional, Rappe, Andrew M., additional, Fuoss, Paul H., additional, Stephenson, G. Brian, additional, and Lindenberg, Aaron M., additional

Published
2012
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