Observation of long phase-coherence length in epitaxial La-doped CdO thin films

Yu Yun; Yang Ma; Songsheng Tao; Wenyu Xing; Yangyang Chen; Tang Su; Wei Yuan; Jian Wei; Xi Lin; Qian Niu; X. C. Xie; Wei Han

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Observation of long phase-coherence length in epitaxial La-doped CdO thin films

机译：外延掺La CdO薄膜中长相干长度的观察

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The search for long electron phase-coherence length, which is the length that an electron can keep its quantum wavelike properties, has attracted considerable interest in the last several decades. Here, we report the long phase-coherence length of ~3.7 μm in La-doped CdO thin films at 2 K. Systematical investigations of the La doping and the temperature dependences of the electron mobility and the electron phase-coherence length reveal contrasting scattering mechanisms for these two physical properties. Furthermore, these results show that the oxygen vacancies could be the dominant scatters in CdO thin films that break the electron phase coherence, which would shed light on further investigation of phase-coherence properties in oxide materials.

机译：在过去的几十年中，人们一直在寻找长的电子相干长度，这是电子可以保持其量子波状性质的长度。在这里，我们报道了La掺杂的CdO薄膜在2 K时的长相干长度〜3.7μm。对La掺杂的系统研究以及电子迁移率和电子相干长度的温度依赖性揭示了相反的散射机制对于这两个物理特性。此外，这些结果表明，氧空位可能是CdO薄膜中的主要散射体，破坏了电子相干性，这将为进一步研究氧化物材料的相干性提供参考。

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《Physical review. B, Condensed Matter And Materals Physics》 |2017年第24期|245310.1-245310.8|共8页
作者
Yu Yun; Yang Ma; Songsheng Tao; Wenyu Xing; Yangyang Chen; Tang Su; Wei Yuan; Jian Wei; Xi Lin; Qian Niu; X. C. Xie; Wei Han;
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International Center for Quantum Materials, School of Physics, Peking University, Beijing 100871, People's Republic of China,Collaborative Innovation Center of Quantum Matter, Beijing 100871, People's Republic of China;

International Center for Quantum Materials, School of Physics, Peking University, Beijing 100871, People's Republic of China,Collaborative Innovation Center of Quantum Matter, Beijing 100871, People's Republic of China;

International Center for Quantum Materials, School of Physics, Peking University, Beijing 100871, People's Republic of China,Collaborative Innovation Center of Quantum Matter, Beijing 100871, People's Republic of China;

International Center for Quantum Materials, School of Physics, Peking University, Beijing 100871, People's Republic of China,Collaborative Innovation Center of Quantum Matter, Beijing 100871, People's Republic of China;

International Center for Quantum Materials, School of Physics, Peking University, Beijing 100871, People's Republic of China,Collaborative Innovation Center of Quantum Matter, Beijing 100871, People's Republic of China;

International Center for Quantum Materials, School of Physics, Peking University, Beijing 100871, People's Republic of China,Collaborative Innovation Center of Quantum Matter, Beijing 100871, People's Republic of China;

International Center for Quantum Materials, School of Physics, Peking University, Beijing 100871, People's Republic of China,Collaborative Innovation Center of Quantum Matter, Beijing 100871, People's Republic of China;

International Center for Quantum Materials, School of Physics, Peking University, Beijing 100871, People's Republic of China,Collaborative Innovation Center of Quantum Matter, Beijing 100871, People's Republic of China;

International Center for Quantum Materials, School of Physics, Peking University, Beijing 100871, People's Republic of China,Collaborative Innovation Center of Quantum Matter, Beijing 100871, People's Republic of China;

International Center for Quantum Materials, School of Physics, Peking University, Beijing 100871, People's Republic of China,Department of Physics, University of Texas at Austin, Texas 78712, USA;

International Center for Quantum Materials, School of Physics, Peking University, Beijing 100871, People's Republic of China,Collaborative Innovation Center of Quantum Matter, Beijing 100871, People's Republic of China;

International Center for Quantum Materials, School of Physics, Peking University, Beijing 100871, People's Republic of China,Collaborative Innovation Center of Quantum Matter, Beijing 100871, People's Republic of China;

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1. Observation of long phase-coherence length in epitaxial La-doped CdO thin films [J] . Yu Yun, Yang Ma, Songsheng Tao, Physical Review. B, Condensed Matter . 2017,第23a24CD期

机译：外延La掺杂CDO薄膜长相干长度观察
2. Conductivity, charge transport, and ferroelectricity of La-doped BaTiO3 epitaxial thin films [J] . Zhang Aihua, Li Qiang, Gao Dong, Journal of Physics, D. Applied Physics: A Europhysics Journal . 2020,第2期

机译：La-掺杂BATIO3外延薄膜的电导率，电荷传输和铁电性
3. Interface reaction between PbTiO3 epitaxial thin films and La-doped SrTiO3 (001) substrates through edge dislocations induced by 90° domain formation [J] . Takumi SHIMIZU, Takanori KIGUCHI, Takahisa SHIRAISHI, Journal of the Ceramic Society of Japan . 2020,第8期

机译：通过90°域形成诱导的边缘位错，PBTIO3外延薄膜和La掺杂Srtio3（001）基板之间的界面反应
4. Multiferroic Properties of Epitaxial 0.7BiFeO30.3BaTiO3 Solid Solution Thin Films on La-Doped SrTiO3 (001) Substrate [C] . Jung Min Park, Takeshi Kanashima, Masanori Okuyama, Symposium on dielectric and advanced matter physics . 2011

机译：外延0.7bifeo30.3batiO3在La-掺杂Srtio3（001）底物上固溶薄膜的多体性特性
5. Observations on the kinetics of relaxation in epitaxial films grown on conventional and compliant substrates: A continuum simulation of dislocation glide near an interface [D] . Kutka, Robert Vincent. 1998

机译：对常规兼柔性基材生长的外延薄膜放松动力学的观察：界面附近的位错滑动的连续模拟
6. In-situ observation of ultrafast 90° domain switching under application of an electric field in (100)/(001)-oriented tetragonal epitaxial Pb(Zr0.4Ti0.6)O3 thin films [O] . Yoshitaka Ehara, Shintaro Yasui, Takahiro Oikawa, -1

机译：（100）/（001）取向四方外延Pb（Zr0.4Ti0.6）O3薄膜在电场作用下超快90°域转换的原位观察
7. Observation of long phase-coherence length in epitaxial La-doped CdO thin films [O] . Yun, Yu, Ma, Yang, Tao, Songsheng, 2017

机译：外延La掺杂CdO中长相位相干长度的观察薄膜

Observation of long phase-coherence length in epitaxial La-doped CdO thin films

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