Optical subpicosecond nonvolatile switching and electron-phonon coupling in ferroelectric materials

Nian-Ke Chen; Junhyeok Bang; Xian-Bin Li; Xue-Peng Wang; Dan Wang; Qi-Dai Chen; Hong-Bo Sun; Shengbai Zhang

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Optical subpicosecond nonvolatile switching and electron-phonon coupling in ferroelectric materials

机译：铁电材料中的光学偶像非易失性切换和电子 - 声子耦合

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Direct optical ferroelectric switching (FE switch) has the advantage of being ultrafast over the traditional FE switch, which relies on domain nucleation and growth. However, how to realize nonvolatility in such an optical FE switch poses a serious challenge. Time-dependent density-functional theory molecular dynamics study reveals that subpicosecond nonvolatile FE switches can be realized in GeTe and PbTiO_3. While optical tuning of the transition barrier and initiation of a directional atomic motion are crucial, the dephasing of the excited state holds the key for the realization of nonvolatility.

机译：直接光学铁电切换（Fe Switch）具有超超快的优势，依赖于域成核和生长。然而，如何在这种光学FE交换机中实现非易失性带来了严峻的挑战。时间依赖性密度 - 功能理论分子动力学研究表明，可以在Gete和PBTIO_3中实现亚倍二十秒的非易失性FE开关。虽然过渡屏障的光学调谐和定向原子运动的开始是至关重要的，但是激发状态的去除保持了实现非易失性的关键。

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《Physical review.B.Condensed matter and materials physics》 |2020年第18期|184115.1-184115.5|共5页
作者
Nian-Ke Chen; Junhyeok Bang; Xian-Bin Li; Xue-Peng Wang; Dan Wang; Qi-Dai Chen; Hong-Bo Sun; Shengbai Zhang;
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State Key Laboratory of Integrated Optoelectronics College of Electronic Science and Engineering Jilin University Changchun 130012 China;

Department of Physics Chungbuk National University Chungbuk 28644 Republic of Korea;

State Key Laboratory of Integrated Optoelectronics College of Electronic Science and Engineering Jilin University Changchun 130012 China;

State Key Laboratory of Integrated Optoelectronics College of Electronic Science and Engineering Jilin University Changchun 130012 China;

Department of Materials Science and Engineering Rensselaer Polytechnic Institute Troy New York 12180 USA;

State Key Laboratory of Integrated Optoelectronics College of Electronic Science and Engineering Jilin University Changchun 130012 China;

State Key Laboratory of Integrated Optoelectronics College of Electronic Science and Engineering Jilin University Changchun 130012 China State Key Lab of Precision Measurement Technology and Instruments Department of Precision Instrument Tsinghua University Beijing 100084 China;

Department of Physics Applied Physics and Astronomy Rensselaer Polytechnic Institute Troy New York 12180 USA;

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1. Broadband nonvolatile photonic switching based on optical phase change materials: beyond the classical figure-of-merit [J] . Zhang Qihang, Zhang Yifei, Li Junying, Optics Letters . 2018,第1期

机译：基于光学相变材料的宽带非挥发性光子开关：超越古典图形
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机译：无定形GE超材料中的蛛网二秒计时的深光学切换
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机译：负折射率超材料的亚皮秒光开关
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机译：具有Si波导和相变材料的超紧凑型2×2定向耦合光开关
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机译：铁电材料的光折变特性，用于光学相位共轭，两束耦合和全息存储。
6. Giant nonvolatile resistive switching in a Mott oxide and ferroelectric hybrid [O] . Pavel Salev, Javier del Valle, Yoav Kalcheim, 2019

机译：Mott氧化物和铁电混合体中的巨型非易失性电阻开关
7. Nanoscopic Study of the Polarization-Strain Coupling in Relaxor Ferroelectric and the Search for New Relaxor Materials for Transducer and Optical Applications [O] . Toulouse, J. 2007

机译：纳米级研究弛豫铁电体中的偏振应变耦合和寻找新的弛豫材料用于传感器和光学应用
8. Nanoscopic Study of the Polarization-Strain Coupling in Relaxor Ferroelectric and the Search for New Relaxor Materials for Transducer and Optical Applications [R] . 2007

机译：纳米级研究弛豫铁电体中的偏振应变耦合和寻找新的弛豫材料用于传感器和光学应用

Optical subpicosecond nonvolatile switching and electron-phonon coupling in ferroelectric materials

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