Interface-facilitated energy transport in coupled Frenkel-Kontorova chains 被引量：2

Interface-facilitated energy transport in coupled Frenkel-Kontorova chains

导出

摘要 The role of interface couplings on the energy transport of two coupled Frenkel-Kontorova （FK） chains is explored through numerical simulations. In general, it is expected that the interface cou- plings result in the suppression of heat conduction through the coupled system due to the additional interface phonon-phonon scattering. In the present paper, it is found that the thermal conductivity increases with increasing intensity of interface interactions for weak inter-chain couplings, whereas the heat conduction is suppressed by the interface interaction in the case of strong inter-chain couplings. Based on the phonon spectral energy density method, we demonstrate that the enhance- ment of energy transport results from the excited phonon modes （in addition to the intrinsic phonon modes）, while the strong interface phonon-phonon scattering results in the suppressed energy transport. The role of interface couplings on the energy transport of two coupled Frenkel-Kontorova （FK） chains is explored through numerical simulations. In general, it is expected that the interface cou- plings result in the suppression of heat conduction through the coupled system due to the additional interface phonon-phonon scattering. In the present paper, it is found that the thermal conductivity increases with increasing intensity of interface interactions for weak inter-chain couplings, whereas the heat conduction is suppressed by the interface interaction in the case of strong inter-chain couplings. Based on the phonon spectral energy density method, we demonstrate that the enhance- ment of energy transport results from the excited phonon modes （in addition to the intrinsic phonon modes）, while the strong interface phonon-phonon scattering results in the suppressed energy transport.

作者 Rui-Xia Su Zong-Qiang Yuan Jun Wang Zhi-Gang Zheng

机构地区 Department of Physics and the Beijing-Hong Kong-Singapore Joint Centre for Nonlinear and Complex Systems (Beijing) Science and Technology on Plasma Physics Laboratory Key Laboratory of Enhanced Heat Transfer and Energy Conservation (Ministry of Education) College of Information Science and Engineering

出处《Frontiers of physics》 SCIE CSCD 2016年第2期125-130,共6页 物理学前沿（英文版）

关键词 interface couplings energy transport heat conduction phonon-phonon scattering Frenkel-Kontorova （FK） chains excited phonon modes phonon spectral energy density interface couplings, energy transport, heat conduction, phonon-phonon scattering,Frenkel-Kontorova （FK） chains, excited phonon modes, phonon spectral energy density

分类号 O631.1 [理学—高分子化学] TN241 [电子电信—物理电子学]

作者简介 Corresponding authors. E-mail： jwang@bjut. edu. cnCorresponding authors. E-mail：zgzheng@hqu, edu. cn

引文网络
相关文献

参考文献4

1Nell P. Dasgupta,Peidong Yang.Semiconductor nanowires for photovoltaic and photoelectrochemical energy conversion[J].Frontiers of physics,2014,9(3):289-302. 被引量：8
2Nian Liu,Weiyang Li,Mauro Pasta,Yi Cui.Nanomaterials for electrochemical energy storage[J].Frontiers of physics,2014,9(3):323-350. 被引量：7
3侯泉文,曹炳阳,过增元.碳纳米管的热导率：从弹道到扩散输运[J].物理学报,2009,58(11):7809-7814. 被引量：27
4Jian-Sheng Wangt Bijay Kumar Agarwalla Huanan Li Juzar Thingna.Nonequilibrium Green＇s function method for quantum thermal transport[J].Frontiers of physics,2014,9(6):673-697. 被引量：13

二级参考文献130

1J. Schwinger, Brownian motion of a quantum oscillator, J. Math. Phys., 1961, 2(3): 407.
2L. P. Kadanoff and G. Baym, Quantum Statistical Mechan- ics, Benjamin/Cummings, 1962.
3L. V. Keldysh, Diagram technique for nonequilibrium pro- cesses, Soy. Phys. JETP, 1965, 20:1018.
4K. C. Chou, Z. B. Su, B. L. Hao, and L. Yu, Equilibrium and nonequilibrium formalisms made unified, Phys. Pep., 1985, 118(1 2): 1.
5P. Danielewicz, Quantum theory of nonequilibrium processes (I), Ann. Phys., 1984, 152(2): 239.
6J. Rammer and H. Smith, Quantum field-theoretical meth- ods in transport theory of metals, Rev. Mod. Phys., 1986, 58(2): 323.
7M. Bonitz (Ed.), Progress in Nonequilibrium Green's Func- tions, Singapore: World Scientific, 2000.
8M. Bonitz and D. Semkat (Eds.), Progress in Nonequilibrium Green's Functions (11) Singapore: World Scientific, 2003.
9C. Caroli, R. Combescot, P. Nozieres, and D. Saint-James, Direct calculation of the tunneling current, J. Phys. C, 1971, 4(8): 916.
10Y. Meir and N. S. Wingreen, Landauer formula for the cur- rent through an interacting electron region, Phys. Rev. Lett., 1992, 68(16): 2512.

共引文献49

1董世知,何佳奇,马壮,胡旭东,尹金鹏,胡宏宇,刘志宇,张星.一步水热法合成镍铜复合磷化物及其电催化析氢性能[J].硅酸盐学报,2023,51(1):152-162. 被引量：3
2彭佳,冯妍卉,李威,张欣欣.含有Stone-Wales缺陷的碳纳米管的热导率模拟[J].工程热物理学报,2010,31(11):1901-1904. 被引量：2
3金蔚,惠宁菊,屈世显.螺旋纳米带中的声子输运[J].物理学报,2011,60(1):492-499. 被引量：2
4杨平,吴勇胜,许海锋,许鲜欣,张立强,李培.TiO_2/ZnO纳米薄膜界面热导率的分子动力学模拟[J].物理学报,2011,60(6):557-563. 被引量：3
5李元伟,曹炳阳.含内热源碳纳米管的热导率研究[J].工程热物理学报,2011,32(12):2083-2085. 被引量：1
6陈俊,史琳,王楠,毕胜山.基于分子动力学模拟流体输运性质的稳定性分析[J].物理学报,2011,60(12):421-427.
7董源,过增元.非平衡热力学中传热过程熵产表达式的修正[J].物理学报,2012,61(3):97-101. 被引量：2
8杨平,王晓亮,李培,王欢,张立强,谢方伟.氮掺杂和空位对石墨烯纳米带热导率影响的分子动力学模拟[J].物理学报,2012,61(7):368-375. 被引量：8
9李威,冯妍卉,陈阳,张欣欣.碳纳米管中点缺陷对热导率影响的正交试验模拟分析[J].物理学报,2012,61(13):338-347. 被引量：5
10孙健,刘伟强.疏导式结构在头锥热防护中的应用[J].物理学报,2012,61(17):332-338. 被引量：3

同被引文献8

1李晓礼,刘锋,林麦麦,陈建敏,段文山.Frenkel-Kontorova模型中垫底势对最大静摩擦力的影响[J].物理学报,2010,59(4):2589-2594. 被引量：3
2邹杰,张宇,喻奇敏.一个双势能井振子同宿分岔的全局控制条件的分析[J].科学技术与工程,2010,10(17):4230-4232. 被引量：1
3魏飞,李威,陈明.构造一类具有Silnikov鞍焦同宿轨的动力系统[J].北京化工大学学报（自然科学版）,2011,38(1):140-143. 被引量：3
4韩秀琴,姜虹,石玉仁,刘妍秀,孙建华,陈建敏,段文山.一维Frenkel-Kontorova(FK)模型原子链的相变研究[J].物理学报,2011,60(11):500-503. 被引量：2
5陈洋洋,赵卫,陈树辉.强非线性自激振子同宿轨道的摄动分析方法[J].噪声与振动控制,2013,33(4):195-199. 被引量：1
6Jian-Sheng Wangt Bijay Kumar Agarwalla Huanan Li Juzar Thingna.Nonequilibrium Green＇s function method for quantum thermal transport[J].Frontiers of physics,2014,9(6):673-697. 被引量：13
7张国山,胡雪兰.具有恒Lyapunov指数谱的新三维混沌系统分析与电路实现[J].大学物理,2016,35(3):34-39. 被引量：4
8陈建宏,吴学勇,刘昊,董向成.周期驱动下保守椭圆摆系统的混沌运动[J].大学物理,2016,35(4):7-10. 被引量：2

引证文献2

1康举,黄头生,孟天祥,张化永.一维Frenkel-Kontorova模型原子链的同宿轨和拟周期行为研究[J].大学物理,2018,37(12):26-29.
2Chao Zhang,Fuming Xu,Jian Wang.Full counting statistics of phonon transport in disordered systems[J].Frontiers of physics,2021,16(3):143-153. 被引量：1

二级引证文献1

1朱桐斌,张流业.基于统计方法的直升机振动数据极坐标融合研究[J].山东航空学院学报,2025,42(4):1-10.

1刘利民,曾立华,雷春华,朱小娟,彭夷安.SrAl_2O_4:Eu^(2+),Dy^(3+)的发光性质及机理[J].湖南有色金属,1998,14(3):48-50. 被引量：1
2刘德胜,解士杰,韩圣洁.准一维共聚物的电子结构研究[J].物理学报,2000,49(8):1556-1560. 被引量：6
3冯名诚,程杰,李宏,刘德胜.界面耦合对共聚物能带及键结构的影响[J].原子与分子物理学报,2002,19(3):327-330.
4朱崇强,杨春晖,王锐,吕维强,孙彧,王蒙,李春彦.砷化锗镉晶体的合成与生长[J].人工晶体学报,2007,36(4):947-949.
5刘国栋,罗福,王贵兵.飞秒激光辐照下硅薄膜的非傅里叶能量输运研究[J].高压物理学报,2007,21(2):183-187. 被引量：3
6荣洪庆.七号信令网A链路数序编排原理与方法[J].邮电设计技术,1997(7):10-12.
7李静,杨身园,李树深.Structural and Electronic Properties of Zigzag Graphene Nanoribbons on Si(001)Substrates[J].Chinese Physics Letters,2015,32(2):115-118.
8王悦辉,朱一水,朱朔萱.纳米银对表面吸附甲基橙分子的光谱学性质的影响[J].无机化学学报,2010,26(8):1415-1420. 被引量：5
9徐世红,徐彭寿,刘先明,朱警生,麻茂生,张裕恒,许振嘉.Cs／InP　（100）　界面相互作用性质的研究[J].Journal of Semiconductors,1994,15(12):820-825.
10张义门,滕建旭.MOSFET中载流子能量输运计算机辅助分析[J].电子科学学刊,1991,13(5):482-488.

Frontiers of physics

2016年第2期

浏览历史

内容加载中请稍等...