Your search keyword '"Park, Suji"' showing total 5 results

1. Light-Driven Ultrafast Polarization Manipulation in a Relaxor Ferroelectric

Author

Park, Suji, Wang, Bo, Yang, Tiannan, Kim, Jieun, Saremi, Sahar, Zhao, Wenbo, Guzelturk, Burak, Sood, Aditya, Nyby, Clara, Zajac, Marc, Shen, Xiaozhe, Kozina, Michael, Reid, Alexander H, Weathersby, Stephen, Wang, Xijie, Martin, Lane W, Chen, Long-Qing, and Lindenberg, Aaron M

Subjects

Electrons, ferroelectrics, structural dynamics, ultrafast, electron diffraction, Nanoscience & Nanotechnology

Abstract

Relaxor ferroelectrics have been intensely studied for decades based on their unique electromechanical responses which arise from local structural heterogeneity involving polar nanoregions or domains. Here, we report first studies of the ultrafast dynamics and reconfigurability of the polarization in freestanding films of the prototypical relaxor 0.68PbMg1/3Nb2/3O3-0.32PbTiO3 (PMN-0.32PT) by probing its atomic-scale response via femtosecond-resolution, electron-scattering approaches. By combining these structural measurements with dynamic phase-field simulations, we show that femtosecond light pulses drive a change in both the magnitude and direction of the polarization vector within polar nanodomains on few-picosecond time scales. This study defines new opportunities for dynamic reconfigurable control of the polarization in nanoscale relaxor ferroelectrics.

Published

2022

2. Giant Terahertz Birefringence in an Ultrathin Anisotropic Semimetal

Author

Sie, Edbert J., primary, Othman, Mohamed A. K., additional, Nyby, Clara M., additional, Pemmaraju, Das, additional, Garcia, Christina A. C., additional, Wang, Yaxian, additional, Guzelturk, Burak, additional, Xia, Chenyi, additional, Xiao, Jun, additional, Poletayev, Andrey, additional, Ofori-Okai, Benjamin K., additional, Hoffmann, Matthias C., additional, Park, Suji, additional, Shen, Xiaozhe, additional, Yang, Jie, additional, Li, Renkai, additional, Reid, Alexander H., additional, Weathersby, Stephen, additional, Muscher, Philipp, additional, Finney, Nathan, additional, Rhodes, Daniel, additional, Balicas, Luis, additional, Nanni, Emilio, additional, Hone, James, additional, Chueh, William, additional, Devereaux, Thomas P., additional, Narang, Prineha, additional, Heinz, Tony F., additional, Wang, Xijie, additional, and Lindenberg, Aaron M., additional

Published

2024

3. Excitation-Dependent High-Lying Excitonic Exchange via Interlayer Energy Transfer from Lower-to-Higher Bandgap 2D Material

Author

Karmakar, Arka, primary, Kazimierczuk, Tomasz, additional, Antoniazzi, Igor, additional, Raczyński, Mateusz, additional, Park, Suji, additional, Jang, Houk, additional, Taniguchi, Takashi, additional, Watanabe, Kenji, additional, Babiński, Adam, additional, Al-Mahboob, Abdullah, additional, and Molas, Maciej R., additional

Published

2023

4. Optical Control of Non-Equilibrium Phonon Dynamics

Author

Krishnamoorthy, Aravind, primary, Lin, Ming-Fu, additional, Zhang, Xiang, additional, Weninger, Clemens, additional, Ma, Ruru, additional, Britz, Alexander, additional, Tiwary, Chandra Sekhar, additional, Kochat, Vidya, additional, Apte, Amey, additional, Yang, Jie, additional, Park, Suji, additional, Li, Renkai, additional, Shen, Xiaozhe, additional, Wang, Xijie, additional, Kalia, Rajiv, additional, Nakano, Aiichiro, additional, Shimojo, Fuyuki, additional, Fritz, David, additional, Bergmann, Uwe, additional, Ajayan, Pulickel, additional, and Vashishta, Priya, additional

Published

2019

5. Excitation-Dependent High-Lying Excitonic Exchange viaInterlayer Energy Transfer from Lower-to-HigherBandgap 2D Material

Author

Karmakar, Arka, Kazimierczuk, Tomasz, Antoniazzi, Igor, Raczyński, Mateusz, Park, Suji, Jang, Houk, Taniguchi, Takashi, Watanabe, Kenji, Babiński, Adam, Al-Mahboob, Abdullah, and Molas, Maciej R.

Abstract

High light absorption (∼15%) and strong photoluminescence (PL) emission in monolayer (1L) transition metal dichalcogenides (TMDs) make them ideal candidates for optoelectronic device applications. Competing interlayer charge transfer (CT) and energy transfer (ET) processes control the photocarrier relaxation pathways in TMD heterostructures (HSs). In TMDs, long-distance ET can survive up to several tens of nm, unlike the CT process. Our experiment shows that an efficient ET occurs from the 1Ls WSe2-to-MoS2with an interlayer hexagonal boron nitride (hBN), due to the resonant overlapping of the high-lying excitonic states between the two TMDs, resulting in enhanced HS MoS2PL emission. This type of unconventional ET from the lower-to-higheroptical bandgap material is not typical in the TMD HSs. With increasing temperature, the ET process becomes weaker due to the increased electron–phonon scattering, destroying the enhanced MoS2emission. Our work provides new insight into the long-distance ET process and its effect on the photocarrier relaxation pathways.

Published

2023