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New Ferroelectrics for Naval SONAR and Modeling of Nanoscale Ferroelectric Nonvolatile Memory Materials

机译：新的铁路声纳新铁电荷和纳米级铁电非易失性记忆材料的建模

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Using quantum-mechanical simulations, we have computationally investigated new materials for use in Naval Sound Navigation and Ranging (SONAR). At the nanoscale, our quantum-mechanical studies show that ferroelectricity and the resultant favorable properties are stable at dimensions much smaller than previously thought. We have demonstrated that charge compensation by molecular adsorbates is more efficient than by traditional metal electrodes. This enables even a single molecular electrode to stabilize full-strength ferroelectricity in ultra-thin films and nanowires. We also report successful porting and performance tuning of our computer codes to the CRAY XT3 platform.

机译：使用量子机械模拟，我们已经计算了用于海军声音导航和测距（声纳）的新材料。在纳米级，我们的量子机械研究表明，铁电性和所得的有利性能在比以前思想的尺寸小于比较小的尺寸。我们已经证明，分子吸附物的电荷补偿比传统的金属电极更有效。这使得即使是单个分子电极也能够稳定超薄膜和纳米线中的全强度铁电。我们还报告了计算机代码的成功移植和性能调整到CRAY XT3平台。

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《HPCMP Users Group Conference》|2006年||共7页
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Alexie M. Kolpak; Ilya Grinberg; Andrew M. Rappe; Shawn T. Brown;
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1. A quasi-matrix ferroelectric memory for future silicon storage - a new high-density and high-speed nonvolatile memory using ferroelectric film [J] . Toshiyuki Nishihara, Yasuyuki Ito 電子情報通信学会技術研究報告. 集積回路. Integrated Circuits and Devices . 2002,第3期

机译：一种用于未来硅存储的准矩阵铁电存储器-一种使用铁电膜的新型高密度，高速非易失性存储器
2. A quasi-matrix ferroelectric memory for future silicon storage - a new high-density and high-speed nonvolatile memory using ferroelectric film [J] . Toshiyuki Nishihara, Yasuyuki Ito 電子情報通信学会技術研究報告. 集積回路. Integrated Circuits and Devices . 2002,第3期

机译：用于未来硅存储的准矩阵铁电存储器 - 使用铁电膜的新型高密度和高速非易失性记忆
3. Ferroelectricity in Covalently functionalized Two-dimensional Materials: Integration of High-mobility Semiconductors and Nonvolatile Memory [J] . Wu Menghao, Dong Shuai, Yao Kailun, Nano letters . 2016,第11期

机译：共价功能化二维材料中的铁电：高迁移率半导体与非易失性存储器的集成
4. New Ferroelectrics for Naval SONAR and Modeling of Nanoscale Ferroelectric Nonvolatile Memory Materials [C] . Alexie M. Kolpak, Ilya Grinberg, Andrew M. Rappe, HPCMP Users Group Conference . 2006

机译：新的铁路声纳新铁电荷和纳米级铁电非易失性记忆材料的建模
5. Processing and characterization of ferroelectric and electrode materials for nonvolatile and dynamic random-access memories [D] . Vellaikal, Manoj 1996

机译：用于非易失性和动态随机存取存储器的铁电和电极材料的处理和表征
6. Excellent low-voltage operating flexible ferroelectric organic transistor nonvolatile memory with a sandwiching ultrathin ferroelectric film [O] . Ting Xu, Lanyi Xiang, Meili Xu, -1

机译：夹有超薄铁电薄膜的出色低压操作柔性铁电有机晶体管非易失性存储器
7. Ferroelectric or non-ferroelectric: why so many materials exhibit ferroelectricity on the nanoscale [O] . Vasudevan, Rama K., Balke, Nina, Maksymovych, Peter, 2017

机译：铁电或非铁电：为什么会出现这么多材料纳米级的铁电性

New Ferroelectrics for Naval SONAR and Modeling of Nanoscale Ferroelectric Nonvolatile Memory Materials

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