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刘伍明,男,湖南衡阳人,1960年6月生,博士,中国科学院物理所研究员,博士生导师,杰青,T05 研究组长,凝聚态与材料计算实验室副主任,物理所学术委员会委员,国家重点基础研究发展计划(亦称973计划)首席科学家,国家重点研发计划 "量子调控与量子信息"重点专项首席科学家。
教育和研究经历
1981年或云南师范大学(物理系)学士学位;
1994 年获中国科学院金属所博士学位(导师周本濂院士),并获 1994 年在《科学引文索引》(SCI)收录的杂志上发表论文数全国第 3 名和中国科学院院长奖学金特别奖。
1994 年至 1996 年在中国科学院物理所做博士后(合作导师蒲富恪院士)。
1996 年至 1998 年在中国科学院理论物理所任副研究员。
1998 年至 2000 年在美国 Texas 大学 Austin 分校物理系任 Research Scientist。2000 年至 2002 年在美国 Delaware 大学 Bartol 研究所任 Research Scientist。
2002 年至今任中国科学院物理所研究员,博士生导师
主要研究领域:
原子分子物理、光物理和凝聚态物理。发展可积模型、量子场论等解析方法和团簇动力学平均场方法等数值方法,研究具有自旋-轨道耦合、非厄米、强关联、无序效应等量子多体系统的基态、激发态、拓扑态的精确解及其奇异性质,例如拓扑超固态、拓扑超流态、拓扑超导态、拓扑绝缘体、Mott 绝缘态、Fermi 液体态、自旋液体态等新物态及其量子相变、拓扑量子相变等。
主要成果
1991 年以来,已在《科学引文索引》(SCI)收录的刊物上发表论文 415 篇,其中美国物理学会主办的 Physical Review Letters 15 篇,Physical Review A/B/E 170 篇。英文专著 5 部,综述文章 20 篇。应诺贝尔物理奖获得者 Claude Cohen-Tannoudji 教授邀请,在其主编的《原子分子年鉴》中撰写了第三章。 经国际检索《科学引文索引》(SCI),自 1991 年以来发表的论文被 SCI 正面引用 15,500 次,得到了诺贝尔物理学奖获得者 Eric A. Cornell、Wolfgang Ketterle 教授等人的正面引用并被写入其综述文章中。H 因子 65。已获发明专利 5 项。在国际重要学术会议作大会报告 50 次,其中 2010 年在第 22 届国际原子物理学大会(ICAP,澳大利亚)作大会报告,这是中国科学家第一次在这个国际大会上作报告。曾获得中国人民解放军科技进步奖一等奖,北京市科学技术奖一等奖,中国科学院朱李月华优秀教师奖等。
学术兼职
2002 年至今,先后任 The International Conference on Low Temperature Physics、The International Conference on Atomic Physics、The International Symposium on Quantum Fluids and Solids、The Asian International Conference on Atomic and Molecular Physics 国际顾问委员会委员;中国物理学会原子分子专业委员会委员,中国物理学会低温专业委员会委员,中国物理学会凝聚态理论与统计物理专业委员会委员,中国电子学会磁学专业委员会磁学理论委员会主任,载人航天工程空间科学与应用领域专家组成员,空间科学及其应用标准化技术委员会空间基础物理委员会委员;中国科学院物理研究所学术委员会委员,中国科学院量子光学重点实验室学术委员会委员,中国科学院量子信息重点实验室学术委员会委员,教育部物质非平衡合成与调控重点实验室学术委员会委员。
2008 年至今,先后任 "Scientific Reports" 编委, "Journal of Physics: Communications" 编委, "Journal of Modern Physics" 编委, "Frontiers of Physics" 编委, "Journal of Atomic and Molecular Science" 编委, "Current Chinese Science"编委, "Symmetry"编委, "原子与分子物理学报" 编委, "中国测试" 编委。
主要研究方向:
1、原子分子物理、光学及量子精密测量:
1.1、原子与光系统的拓扑与非厄米效应:自旋-轨道耦合、磁通诱导的拓扑超流、超固及拓扑超固、自旋量子霍尔效应、拓扑量子相变;增益或损耗诱导的非厄米效应、PT 对称的非厄米性质、Majorana 零模。
1.2、激光与原子分子相互作用、超冷原子分子物理、原子分子玻色-爱因斯坦凝聚、费米子凝聚、BEC-BCS 交叉、光晶格中冷原子分子、多体玻色子和费米子系统、原子光学和原子激光理论;
1.3、量子频标、精密测量的原理;高精度的频率、相位和时间脉冲的精密测量和控制,空间和卫星原子钟;基本物理常数的精密测量。
2、凝聚态物理:
2.1、拓扑材料:拓扑绝缘体、拓扑超流体、拓扑超导体、拓扑超固体;
2.2、自旋-轨道耦合和自旋 Hall 效应,自旋电子材料和自旋电子学;
2.3、强关联系统;
2.4、无序系统。
3、量子信息和量子计算:
3.1、固态量子信息和量子计算;
3.2、信息存储、量子态操控。
4、统计物理和数学物理:
4.1、统计物理可积模型;
4.2、非线性可积模型。
主要学术成果:
学术成果
1、量子多体系统的新物态:
关于外势作用下原子相互作用参数随时间变化的玻色-爱因斯坦凝聚体中孤子激发(Phys.Rev.Lett.94,050402 (2005))的文章被 SCI 论文引用 400 次。
关于 Feshbach 共振和简谐势同步控制玻色-爱因斯坦凝聚体中孤子相互作用(Phys. Rev. A 77, 023613 (2008))的文章被 SCI 论文引用 150 次。
关于可调节相互作用和简谐势同步控制二分量玻色-爱因斯坦凝聚体中矢量孤子(Phys. Rev. A 79, 033630 (2009)) 的文章被 SCI 论文引用 150 次。
关于玻色-爱因斯坦凝聚体中孤子的 Feshbach 共振和简谐势的同步控制(Phys.Rev.A 77, 023613 (2008))的文章被 SCI 论文引用 130 次。
关于玻色—爱因斯坦凝聚体干涉(Phys.Rev.Lett.84,2294 (2000))的文章被 SCI 论文引用 300 次。
关于分数涡旋和涡旋晶格的动力学(Phys.Rev.Lett. 101,010402 (2008))的文章被 SCI 论文引用 200 次。
关于旋量玻色-爱因斯坦凝聚体的精确解和非线性调制不稳定性(Phys.Rev.A 72,033611 (2005))的文章被 SCI 论文引用 200 次。
关于具有空间调制非线性的准二维玻色-爱因斯坦凝聚体(Phys. Rev. A 81, 025604 (2010))的文章被 SCI 论文引用 150 次。
关于吸引相互作用玻色-爱因斯坦凝聚中的怪波(European Physical Journal D 64,473 (2011))的文章被 SCI 论文引用 120 次。
关于光学微腔阵列中极化光子的逆超流凝聚态(Phys.Rev.Lett.99,183602 (2007))的文章被 SCI 论文引用 140 次。
关于一般单柱缠绕模型自旋挤压(New J. Phys. 11, 073049 (2009))的文章被 SCI 论文引用 120 次。
2、量子多体系统的输运:
关于光晶格中玻色-爱因斯坦凝聚体的量子隧穿(Phys.Rev.Lett.88,170408 (2002))的文章被 SCI 论文引用 200 次。
关于光学双阱中两个 F=2 旋量玻色-爱因斯坦凝聚体的非阿贝尔约瑟夫森效应(Phys. Rev. Lett. 102, 185301 (2009))的文章被 SCI 论文引用 130 次。
关于两个弱链接微腔中光子约瑟夫森效应(Phys. Rev. Lett. 102, 023602 (2009)) 的文章被 SCI 论文引用 120 次。
关于铁磁性纳米线中的自旋极化流(Phys.Rev.E 76, 026605 (2007))的文章被 SCI 论文引用 110 次。
关于具有相互作用和晶格各向异性的量子自旋 Hall 绝缘体(Phys.Rev.B 85, 205102 (2012))的文章被 SCI 论文引用 130 次。
关于掺杂 3d 过渡金属的硅中量子反常霍尔效应和拓扑量子态(Scientific Reports 3,2908 (2013))的文章被 SCI 论文引用 170 次。
3、量子多体系统的相变:
关于巡游磁体中局域自旋磁矩模型和统一的磁学理论模型(Phys.Rev.Lett.83,207 (1999))的文章被 SCI 论文引用 130 次。
关于无序石墨烯的局域性质和 Kosterlitz-Thouless 量子相变(Phys.Rev.Lett. 102,106401 (2009))的文章被 SCI 论文引用 150 次。
4、原子分子物理、光物理及量子精密测量:
主要是研究光与物质相互作用的基本量子现象以及在量子频标、精密测量中的应用:包括原子与光场相互作用、激光冷却原子分子、超冷原子分子物理、原子分子玻色-爱因斯坦凝聚、费米子凝聚、BEC-BCS 交叉、光晶格中冷原子分子、多体玻色子和费米子系统、物质波、原子光学和原子激光理论;高精度的频率、相位和时间脉冲的精密测量和控制,空间和卫星原子钟;基本物理常数的精密测量。
4.1、发展参数可调的低维量子多体系统的可积模型的一般方法并得到精确解,研究量子多体系统的基态、激发态和拓扑态的性质,预言分数量子涡旋态、超固态并被实验验证,解释玻色—爱因斯坦凝聚干涉现象,发现可调幅和调频的原子激光。预言旋量玻色-爱因斯坦凝聚体的分数涡旋态和涡旋晶格态【Phys.Rev.Lett.101,010402 (2008)】,被韩国国立大学 Yong-il Shin 教授实验组证实(Phys.Rev.Lett.115,015301 (2015))。发展反散射方法获得了非线性薛定谔方程的长时间精确解,发现具有相互作用的两个或多个玻色—爱因斯坦凝聚体相互交叠在一起时,将发生干涉现象:干涉条纹不是均匀等间隔的,而是中心条纹宽、两边窄,在某些参数下条纹是弯曲的【Phys.Rev.Lett.84,2294 (2000)】;定量的解释了美国麻省理工学院 W.Ketterle 教授的实验结果(Science 275,637 (1997)),该实验图片作为2001年诺贝尔物理学奖三张图片的第二张。还获得了两个或多个玻色—爱因斯坦凝聚在扩散过程中的能级分布, 以及如何用非弹性光子实验发现能级分布等,迄今被 SCI 他引 300 次。发展 Darboux 方法得到了具有外势的相互作用系数随时间变化的非线性薛定谔方程的精确解,发现在Feshbach 共振条件下外势中原子间相互作用参数随时间变化的的玻色—爱因斯坦凝聚可以产生调幅和调频的原子激光【Phys.Rev.Lett.94,050402 (2005)】。该论文被认为是关于 Feshbach 共振条件下玻色—爱因斯坦凝聚及其稳定性的最早工作之一,引发了新的理论和实验研究,迄今被 SCI 他引 400 次。预言光学微腔阵列中极化光子的逆超流凝聚态【Phys.Rev.Lett.99,183602 (2007)】,等等。论述可积模型方法及应用的 10 篇主要论文已被 SCI 他引 2500 多次。
4.2、发展适用于有限温度和高低能区的量子隧穿的周期瞬子方法,预言光晶格中冷原子在能带间的量子隧穿效应并被实验证实,发现非阿贝尔约瑟夫森效应、光子约瑟夫森效应、人造规范场诱导的原子电子学光伏效应等新的量子输运效应。发展在有限温度、高低能区都适用的计算量子隧穿的周期瞬子方法,使得计算有限温度量子隧穿变为可能,解决了量子力学基本理论中的一个难题。周期瞬子方法填补了热助量子隧穿的计算空白,把隧穿理论推广到有限温度,在原子物理、光学、凝聚态以及高能物理都有重要应用。研究了重力作用下光晶格中冷原子在能带间的量子隧穿效应并被实验证实,以及量子隧穿逃逸率的温度依赖关系和转变温度【Phys.Rev.Lett.88,170408 (2002)】。2008年,意大利佛罗伦萨大学 G. M. Tino 教授从实验上验证了该论文预言的光晶格中冷原子在能带间的量子隧穿效应(Phys. Rev. Lett. 100, 043602 (2008)),证实了周期瞬子的计算结果。该论文是第一个定量的理论计算,引发了新的理论和实验研究,迄今被SCI他引 200 次。研究了微腔极化凝聚体的光子 Josephson 效应【Phys.Rev.Lett.102,023602 (2009)】,双光学势中两个旋量玻色-爱因斯坦凝聚体之间的非 Abelian Josephson 效应【Phys. Rev. Lett. 102, 185301 (2009)】等。论述周期瞬子方法及应用的 10 篇主要论文已被 SCI 他引 2000 多次。
4.3、发展量子场论等解析方法和动力学团簇方法等数值方法,研究规范场和光晶格中冷原子的相互作用、维度、晶格结构、组份等参数可调控的量子多体系统的拓扑超流态、Mott 绝缘态、Fermi 液体态等新物态和拓扑量子相变等。发展量子场论等解析方法,研究了由人工规范场模拟的自旋-轨道耦合效应对极化的冷原子费米气体的影响,获得了有限温度相图,分析了自旋极化超流态【Phys. Rev. Lett. 108,080406(2012)】。发展动力学团簇方法,研究光晶格中冷原子的相互作用、维度、晶格结构、组份等参数可调控的量子多体系统的超流态、Mott 绝缘态、Fermi 液体态等新物态和量子相变,特别是长程偶极关联的影响,例如三角 kagome 晶格的 Kondo 金属和亚铁磁绝缘体【Phys. Rev. Lett. 108,246402(2012)】。发展量子蒙特卡洛方法,研究微腔和光晶格中冷原子的相互作用、维度、晶格结构、组份等参数可调控的量子多体系统的新物态和量子相变,例如光学微腔中的里德伯原子的超辐射固态【Phys. Rev. Lett. 110,090402(2013)】。论述新物态和量子相变及应用的 10 篇主要论文已被SCI他引 1500 多次。
5.凝聚态物理:
5.1、半导体材料:
5.1.1、 获得了自旋-轨道耦合及自旋矩产生的半导体材料载流子的输运特性,发现硅烯中钒掺杂导致的稳定的量子反常霍尔效应和其他过渡金属掺杂产生的量子谷霍尔效应,并获得三角 Kagome 晶格中强相互作用导致的无能隙近藤金属相;首次发现类似相对论性电子 "Zitterbewegung" 的空穴快速振荡现象;发展可积模型方法获得具有自旋矩的朗道-栗弗席兹方程精确解,获得了单轴铁磁纳米线中自旋流的孤子解。相关代表性论文被美国德克萨斯大学奥斯汀分校牛谦教授和印度加尔各答大学 D. Jana 教授分别在他们的Rep. Prog. Phys. 综述中正面引用,特别提到钒掺杂的硅烯具有强磁矩,并表现出半金属性质,更重要的是具有大的拓扑非平庸能隙,高度肯定了该项工作。
5.1.2、 发现了半导体载流子输运及光电特性,提出了低维半导体光子吸收和载流子传输过程的新物理模型,在实验上通过氮化镓基底发光二极管的温度依赖的光致发光特性,确定了共振激发和非共振激发的适用范围,发现了势垒中漂移出的载流子在内建场的驱动力下对光致发光有贡献,揭示了非共振激发比共振激发更适合研究载流子输运的动力学和评估内部量子效率,并成功制备了一种在535-570 nm波长范围(绿色缺口)内拥有优势波长和黄绿两色特性的 LED 器件,该新结构在更强局域效应下可加倍提高光输出效率。该研究对于未来制造新型的 HBT、IGBT以及其他新型电子器件提供了可能,对其他具有极化特性的半导体材料系(如ZnO基材料)实现整流特性也具有重要参考意义。特殊性能 LED 器件的制备使得InGaN材料具有更长波长的光致发光特性,导致半导体发光二极管具有更丰富多彩和高效率的照明特性,从而在填补"绿色缺口"研究方面取得重大进展。相关代表性论文被纽约州立大学 Paras N. Prasad 教授在 Phys. Rep. 综述中正面引用。
5.1.3、 研究了半导体系统的量子信息应用,发展了各向异性双比特海森堡模型在有环境相互作用下的动态纠缠操控方案,可应用于量子点、电子自旋等半导体器件量子比特的纠缠演化。对于更一般的量子资源理论,证明了从半经典态通过局域保迹信道产生量子关联的充分必要条件,为利用半导体器件生成量子关联、操控量子纠缠提供了理论基础。相关代表性论文被英国皇家学会沃尔夫森研究奖获得者、牛津大学 Vlatko Vedral 教授、美国伊利诺伊大学香槟分校 Eric Chitambar 教授分别在 Rev. Mod. Phys. 综述中正面引用。
5.2、拓扑材料:包括拓扑绝缘体、拓扑超流体、拓扑超导体,研究了具有无序的石墨片的局域性质和 Kosterlitz-Thouless 量子相变(Phys.Rev.Lett. 102,106401 (2009)),有机敷层纳米粒子稳定性的热力学模型(Phys.Rev.B 70,205419 (2004)),作为碳纳米纤维催化剂的镍的成核和热力学(Phys.Rev.B 72,035453 (2005)),具有拓扑缺陷的石墨片的量子阻塞和环路电流(Phys.Rev.B 78,155413 (2008))。研究了强关联系统及无序系统理论,研究了环形的Josephson 结中涡旋的量子隧穿(Phys.Rev.B 72,014546 (2005))。
5.3、自旋电子材料:包括自旋-轨道耦合和自旋 Hall 效应、自旋电子材料和自旋电子学,主要是研究自旋电子材料和自旋电子学理论,建立了巡游磁体中局域自旋磁矩模型和统一的磁学理论模型(Phys.Rev.Lett.83,207 (1999)),三角 kagome 晶格的 Kondo 金属和亚铁磁绝缘体(Phys. Rev. Lett. 108,246402(2012)),含时磁场驱动下具有双轴各向异性铁磁体的磁化强度非线性动力学(Phys.Rev.B 60,12893 (1999)),易平面铁磁体中的畴壁相互作用(Phys.Rev.B 65,172416 (2002)),含时磁场驱动下自旋链中的非弹性孤子碰撞(Phys.Rev.E 68,036102 (2003)),具有自旋流的铁磁体的磁化强度非线性动力学(Phys.Rev.E 69,066611 (2004)),具有自旋流的铁磁性纳米线的磁化强度非线性动力学(Phys.Rev.B 72,064410 (2005)),条纹结构金属薄膜中自旋极化流诱导的畴壁共振(Phys.Rev.B 72,172411 (2005)),铁磁性纳米线中的自旋极化流(Phys.Rev.E 76, 026605 (2007)),自旋极化磁性薄膜的铁磁共振(Phys.Rev.B 78,054420 (2008)),具有双轴各向异性铁磁体的瞬子(Phys.Rev.B 79,014415 (2009))。主要是研究自旋-轨道耦合和自旋 Hall 效应、凝聚体系的场致局域化,研究了电场作用下 Bloch 电子的非线性动力学,发现精确解具有多频率结构并且随时间振荡,振荡频率由外场决定,并找到了宏观控制局域化与退局域化的条件(Phys.Rev.B 65,033102 (2002)),半导体微腔中激子发射的崩塌和恢复(Phys.Rev.A 70,013803 (2004)),室温下低耗散的量子自旋流(Phys.Rev.B 72,045201 (2005))。
6、量子信息和量子计算:
研究以固体材料作为器件的量子信息和量子计算理论,研究了含时磁场驱动下各向异性 XYZ 模型中的量子纠缠控制(Phys.Rev.A 74,052105 (2006)),一般两部分系统纠缠态的演化方程(Phys.Rev.A 79,024303 (2009)),协助和单配性约束的纠缠的限度(Phys.Rev.A 80, 034301 (2009)),协助协助纠缠态的演化方程(Phys.Rev.A 81, 042312 (2010))。
7、统计物理和数学物理:
7.1、发展 Riemann-Hilbert 方法、反散射方法等可积模型方法,获得一维、二维单个、耦合非线性 Schrodinger 方程和方程组、离散非线性 Schrodinger 方程和方程组、Landau-Lifschitz 方程等可积和近可积系统的精确解、辐射解、长时间解:发展反散射方法获得了非线性薛定谔方程的长时间精确解,发现具有相互作用的两个或多个玻色—爱因斯坦凝聚体相互交叠在一起时,将发生干涉现象【Phys.Rev.Lett.84,2294 (2000)】,迄今被 SCI 他引 300 次。发展 Darboux 方法得到了具有外势的相互作用系数随时间变化的非线性薛定谔方程的精确解,发现在Feshbach 共振条件下外势中原子间相互作用参数随时间变化的的玻色—爱因斯坦凝聚可以产生调幅和调频的原子激光【Phys.Rev.Lett.94,050402 (2005)】,迄今被 SCI 他引 400 次。获得了极化Landau-Lifshitz-Bloch-Maxwell 方程的弱解和强解【Journal of Differential Equations286, 47 (2021)】。
7.2、利用 Bethe ansatz 方法等,获得双带费米-玻色子模型等量子可积系统的精确解和热力学。
1991 年以来,已在《科学引文索引》(SCI)收录的刊物上发表论文 415 篇,其中美国物理学会主办的 Physical Review Letters 15 篇,Physical Review A/B/E 170 篇。英文专著 5 部,综述文章 20 篇。 经国际检索《科学引文索引》(SCI),自 1991 年以来发表的论文被 SCI 正面引用 15,500 次,其中单篇被 SCI 论文引用超过 400 次的有 1 篇,超过 300 次的有 2 篇,超过 100 次的有 20 篇。H 因子 65。已获发明专利 5 项。
代表性论文及专利:
Books:
1. W.M. Liu, E. Kengne, Schrödinger Equations in Nonlinear Systems, Springer Nature Singapore Pte Ltd, 2019,
https://doi.org/10.1007/978-981-13-6581-2.
Review papers:
1. Emmanue Kengne, Wu-Ming Liu, Boris A. Malomed,Spatiotemporal engineering of matter-wave solitons in Bose-Einstein condensates,Physics Reports 899, 1-61 (2021).
2. Emmanue Kengne, Wu-Ming Liu, Boris A. Malomed,Ginzbug-Landau models of nonlinear electric transmission networks,Physics Reports 905, in press (2022).
Papers:
1. Emmanue Kengne, Wu-Ming Liu, Boris A. Malomed,Spatiotemporal engineering of matter-wave solitons in Bose-Einstein condensates,Physics Reports 899, 1-61 (2021).
2. Hao Zhu, Chao-Fei Liu, Deng-Shan Wang, Shou-Gen Yin, Lin Zhuang, Wu-Ming Liu,Spin-Orbit Coupling Controlling Topological Vortical Phase Transition in Spin-2 Rotating Bose-Einstein Condensates,Phys. Rev. A 104, 053325 (2021).
3. Zhaoming Fu, Haotian Chen, Yingkai Liu, Meng Liu, Wu-Ming Liu,Interface-induced ferroelectric domains and charged domain walls in BiFeO3/SrTiO3 superlattices,Phys. Rev. B 103, 005300 (2021).
4. Yipeng An, Jie Li, Kun Wang, Guangtao Wang, Shijing Gong, Chunlan Ma, Tianxing Wang, Zhaoyong Jiao, Xiao Dong, Guoliang Xu, Ruqian Wu, Wuming Liu,Superconductivity and topological properties of MgB2-type diborides from first principles,Phys. Rev. B 104, 134510 (2021).
5. X.M. Zhao, C.X. Guo, M.L. Yang, H. Wang, W.M. Liu, S.P. Kou,Anomoulas Non-Abelian Statistics for Non-Hermitian Majorana Zero Modes,Phys. Rev. B 104, 205031 (2021).
6. Z.F. Yu, J.K. Xue, L. Zhuang, J.K. Zhao, W.M. Liu,Non-Hermitian spectrum bifurcation and multistability in exciton-polariton condensates,Phys. Rev. B 104, 235408 (2021).
7. Xiao-Ming Zhao, Cui-Xian Guo, Su-Peng Kou, Lin Zhuang, Wu-Ming Liu,Defective Majorana zero modes in non-Hermitian Kitaev chain,Phys. Rev. B 104, in press (2021).
8. Jing-Dong Bao, Xiang-Rong Wang, Wu-Ming Liu,Ergodic time scale and transitive dynamics in single particle tracking,Phys. Rev. E 103, 032136 (2021).
9. Kai Xu, Han-Jie Zhu, Guo-Feng Zhang, Wu-Ming Liu,Enhancing the performance of open quantum battery via environment engineering,Phys. Rev. E 103, in press (2021).
10. Emmanuel Kengne, Wu-Ming Liu,Phase Engineering Chirped Super Rogue Waves in a Nonlinear Transmission Network with Dispersive Elements,Advanced Theory and Simulations 2100062, 2021.
11. Xiao Zheng, Shao-Qiang Ma, Guo-Feng Zhang, Heng Fan, Wu-Ming Liu, Leong-Chuan Kwek,Multipartite Entanglement Structure Resolution Analyzer Based on Quantum-Control-Assisted Multipartite Uncertainty Relation,
Annalen Der Physik 2100014, 2021.
https://onlinelibrary.wiley.com/doi/10.1002/andp.202100014
12. Hong-Juan Tian, Xue-Jing Feng, Wu-Ming Liu,Extended KdV equations generated by squared eigenfunction symmetry,Applied Mathematics Letters 103, in press (2021).
13. Emmanuel Kengne, Boris A. Malomed, Wu-Ming Liu,Phase engineering of chirped rogue waves in Bose–Einstein condensates with a variable scattering length in an expulsive potential,Commun. Nonlinear Sci. Numer. Simulat. 103, 105983 (2021).
14. Chunyu Jia, Rukuan Wu, Ying Hu, Wu-Ming Liu, Zhaoxin Liang,Dissipative Magnetic Soliton in a Spinor Polariton Bose-Einstein Condensate,Frontiers in Physics 53, in press (2021).
15. Ke Chu, Weicong Gu, Qingqing Li, Yaping Liu, Ye Tian, Wuming Liu,Amorphization activated FeB2 porous nanosheets enable efficient electrocatalytic N2 fixation,Journal of Energy Chemistry 53, 82 (2021).
16. Ke Chu, Haifeng Nan, Qingqing Li, Yali Guo, Ye Tian, Wuming Liu,Amorphous MoS3 enriched with sulfur vacancies for efficient electrocatalytic nitrogen reduction,Journal of Energy Chemistry 53, 132 (2021).
17. Qiaoxin Li, Boling Guo, Wuming Liu,Weak and strong solutions to Landau-Lifshitz-Bloch-Maxwell equations with polarization,Journal of Differential Equations 286, 47-83 (2021).
18. Youlin Luo, Xiao-Qing Luo, Jianji Yi, Jie Ou, Weihua Zhu, Zhiyong Chen, W. M. Liu,Xin-Lin Wang,Whispering-gallery mode resonance-assisted plasmonic sensing and switching in subwavelength nanostructures,Journal of Materials Science 56, 4716 (2021).
19. Y. Hu, S. He, Y. W. Zhang, H. D. Yuan, W. M. Liu, C. H. Yan,Controllable photon extraction based on single-photon Raman interaction,Journal of Physics B 54, 045402 (2021).
20. W. X. Guo, Y. H. Chen, L. Zhuang, W. M. Liu,First-Order Metal-Ferromagnetic Insulator Phase Transition Induced by Rashba Spin-Orbit Coupling on the Puckered Honeycomb Lattice,Journal of Physics: Condensed Matter 54, 335603 (2021).
21. Jie Ou, Xiao-Qing Luo, You-Lin Luo, Wei-Hua Zhu, Zhi-Yong Chen, W. M. Liu, Xin-Lin Wang,Near-infrared dual-wavelength plasmonic switching and digital metasurface unveiled by plasmonic Fano resonance,Nanophotonics 10, 947 (2021).
22. K.A. Yasir, Z.X. Liang, X.L. Gao, W.M. Liu,Social Distancing Mediated Generalized Model to Predict Epidemic Spread of COVID-19,Nonlinear Dynamics 50, 2100062 (2021).
23. Yipeng An, Kun Wang, Shijing Gong, Yusheng Hou, Chunlan Ma, Mingfu Zhu, Chuanxi Zhao, Tianxing Wang, Shuhong Ma, Heyan Wang, Ruqian Wu, Wuming Liu,Nanodevices engineering and spin transport properties of MnBi2Te4 monolayer,NPJ Computational Materials 7, 45 (2021).
24. Wenxi Lai, Jinyan Niu, Yu-Quan Ma, Wu-Ming Liu,Asymmetric field photovoltaic effect of neutral atoms,
Optics Communications 505, 127607 (2021).https://doi.org/10.1016/j.optcom.2021.127607.
25. Qi Xiong, Hui Liu, ZaiQing Chen, YongHang Tai,JunSheng Shi, WuMing Liu,Detection of binocular chromatic fusion limit for opposite colors,Optics Express 29, 35022 (2021).
26. S. Zou, W.K. Bai, T. Yang, W.M. Liu,Formation of vortex rings and hopfions in trapped Bose-Einstein Condensates,Physics of Fluids 33, 027105 (2021).
27. Xiaoqiao Huang, Qiong Li, Yonghang Tai, Zaiqing Chen, Jun Zhang, Junsheng Shi,Bixuan Gao, Wuming Liu,
Hybrid deep neural model for hourly solar irradiance forecasting,Renewable Energy 171, 1041 (2021).
28. Qiong Li, Xiaoqiao Huang, Yonghang Tai, Wenfeng Gao, L. Wenxian, Wuming Liu,Thermal stratification in a solar hot water storage tank with mantle heat exchanger,Renewable Energy 173, 1 (2021).
29. W.K. Bai, J.C. Xing, T. Yang, W.M. Liu,Nonlinear Dynamics of a Bose-Einstein condensate excited by a vortex ring phase imprinting,Results in Physics 22, 103828 (2021).
30. Yi-Cai Zhang, Yu-Rong Wu, Xiao-Fei Zhang, Chao-Fei Liu, W.M. Liu,Superfluid density and collective modes of fermion superfluid in dice lattice,Scientific Reports 11, 13572 (2021).
31. Wei Wang, Hao Zhu, Li Wang, Wen-Kai Bai, Xu-Zong Chen, Wu-Ming Liu,Precise measurements of cold atoms under ground and microgravity,Scientia Sinica Physica, Mechanica, Astronomica 51, 074207 (2021).
32. Zai-Dong Li, Qi-Qi Guo, Yong Guo, Peng-Bin He, Wu-Ming Liu,Interaction region of magnon-mediated spin torques and novel magnetic states,Chinese Physics 30, 107506 (2021).
33. L. Wang, J. Li, X. L. Zhou, X. R. Chen, W. M. Liu,Adjustable half-skyrmion chains induced by SU(3) spin-orbit coupling in rotating Bose-Einstein condensates,Chinese Physics 30, 120302 (2021).
34. Xun-Gao Wang, Yuan Sun, Liang Liu, Wu-Ming Liu,Collective modes of type-II Weyl fermions with repulsive S-wave interaction,Chinese Physics 30, in press (2021).
35. Wen-Xiang Guo, Wu-Ming Liu,Topological Lifshitz Transition and Novel Edge States Induced by Non-Abelian SU(2) Gauge Field on Bilayer Honeycomb Lattice,Chinese Physics 30, in press (2021).
36. H.J. Zhu, K. Xu, G.F. Zhang, W.M. Liu,Finite-system Multicriticality at the Superradiant Quantum Phase Transition,Phys. Rev. Lett. 125, 050402 (2020).
37. Yan-Jun Zhao, Xun-Wei Xu, Hui Wang, W.M. Liu,Vortex-Meissner phase transition induced by two-tone-drive-engineered artificial gauge potential in the fermionic ladder constructed by superconducting qubit circuits,
Phys. Rev. A 102, 053722 (2020).
38.Wen-Kai Bai, Tao Yang, W.M. Liu,Topological transition from superfluid vortex rings to isolated knots and links,Phys. Rev. A 102, 063318 (2020).
39. Y.P. An, Y.S. Hou, S.J. Gong, R.Q. Wu, T.X. Wang, Z.Y. Jiao, H.Y. Wang, W.M. Liu,Evaluating the exfoliation of two-dimensional materials with a Green's function surface model,Phys. Rev. B 101, 075416 (2020).
40. F.D. Sun, Y.X. Yu, J.W. Ye, W.M. Liu,Classification of the quantum chaos in colored Sachdev-Ye-Kitaev models,
Phys. Rev. D 101, 026009 (2020).
41. Emmanuel Kengne, W.M. Liu,Engineering rogue waves with quintic nonlinearity and nonlinear dispersion effects in a modified Nogochi nonlinear electric transmission network,Phys. Rev. E 102, 012203 (2020).
42. Yan-Jun Zhao, Dongyang Yu, Boyang Liu, W.M. Liu,Tunable quantum switcher and router of single atoms using effective magnetic fields,Phys. Rev. Research 2, 033484 (2020).
43. Y.F. Jiang, A. Zheng, S.J. Zheng, W.M. Liu, L. Zhuang,Amorphous photonic structures with high reflective index based on incorporating Fe3O4@SiO2 core/shell colloidal nanoparticles into silica nanospheres,Journal of Applied Physics 128, 103106 (2020).
44. Kengne Emmanuel, W.M. Liu,Dissipative ion-acoustic solitons in ion-beam plasma obeying a κ-distribution,
AIP Advances 10, 045218 (2020).
45. Q.Q. Li, Y.L. Guo, Y. Tian, W.M. Liu, K. Chu,Activating VS2 basal planes for enhanced NRR electrocatalysis: the synergistic role of S-vacancies and B dopants,Journal of Materials Chemistry A 8, 16195 (2020).
46. Ye Tian, Xue-Hui Shao, Meng-Han Zhu, Wu-Ming Liu, Zhen Wei, Ke Chu,A spinel ferrite catalyst for efficient electroreduction of dinitrogen to ammonia,Dalton Transactions 49, 12559 (2020).
47. Q. Li, W.X. Lin, T. Liu, Y.G. Zhang, X. Ding, X.Q. Huang, W.M. Liu,Experiment and Simulation Study on Convective Heat Transfer of All-glass Evacuated Tube Solar Collector,Renewable Energy 152, 1129 (2020).
48. K. Xu, G.F. Zhang, Y. Zhou, W.M. Liu,Quantum evolution speed in a double-layer environment,Journal of Optical Society of America B 37, 933 (2020).
49. W.P. Zhang, F. Liang, Y.R. Su, K. Liu, M.J. Tang, Z.W. Xie, L. Li, W.M. Liu,Numerical Simulation Research of Wide-angle Beam Steering Based on Catenary Shaped Ultrathin Metalens,Optics Communications 474, 126085 (2020).
50. Z. Deng, H. Chen, W.M. Liu,Hybrid Nano-Scale Au with ITO structure for High-Performance Near-Infrared Silicon-Based Photodetector with ultralow dark current,Photonics Research 8, 1662 (2020).
51. Y. Wang, J.W. Ding, D.L. Wang, W.M. Liu,Intrinsical localization of both topological (anti-kink) envelope and gray (black) gap solitons of the condensed bosons in deep optical lattices,Chaos 30, 123133 (2020).
52. Kengne Emmanuel, Ahmed Lakhssassi, W.M. Liu,Nonlinear Schamel–Korteweg deVries equation for a modified Noguchi nonlinear electric transmission network: Analytical circuit modeling,Chaos, Solitons and Fractals 140, 110229 (2020).
53. Y. Yin, B.S. Wang, Y.W. E, J.Y. Yao, L. Wang, X.D. Bai, W.M. Liu,Raman spectra and phonon structures of BaGa4Se7 crystal,Communications Physics 9, 34 (2020).
54. X. Zheng, S.Q. Ma, G.F. Zhang, H. Fan, W.M. Liu,Unified and Exact Framework for Variance-Based Uncertainty Relations,Scientific Reports 10, 150 (2020).
55. J.L. Ma, L. Tan, Q. Li, H.Q. Gu, W.M. Liu,Superfluid-Mott-insulator quantum phase transition in hybrid cavity optomechanical arrays,Journal of Physics B 53, 195402 (2020).
56.Emmanuel Kengne, W.M. Liu,Modulational instability and soliton control in a cubic-quintic dissipative Gross-Pitaevskii equation with distributed coefficients,Journal of Physics B 53, 215003 (2020).
57. H.Y. Wang, Z. Zheng, L. Zhuang, Y.H. Tai, J.S. Shi, W.M. Liu,Topological supersolidity of dipolar Fermi gases in a spin-dependent optical lattice,Journal of Physics: Condensed Matter 32, 235701 (2020).
58. H.Y. Wang, Z. Zheng, L. Zhuang, Y.H. Tai, J.S. Shi, W.M. Liu,Topological supersolidity of dipolar Fermi gases in a spin-dependent optical lattice,Journal of Physics: Condensed Matter 32, 355404 (2020).
59. K. Xu, H.J. Zhu, G.F. Zhang, J.C. Wang, W.M. Liu,Quantum speedup in noninertial frames,Euro. Physics Journal C 80, 462 (2020).
60. Tie-Fu Zhang, Wei Han, Ren-Yuan Liao, Jin-Wu Ye, W.M. Liu,Supersolid phase of spin-orbit-coupling cold atoms in optical lattice,Euro. Physics Journal D 74, 138 (2020).
61. J.J. Yi, X.Q. Luo, J. Ou, Y.L. Luo, Z.Y. Chen, W.H. Zhu, W.M. Liu, X.L. Wang,Near- and mid-infrared plasmonic Fano resonances induced by different geometricconfigurations in subwavelength nanostructures,Physica E 124, 114345 (2020).
62. W.X. Lai, Y.Q. Ma, L. Zhuang, W.M. Liu,Photovoltaic effect of atomtronics induced by artificial gauge field,
Phys. Rev. Lett. 122, 223202 (2019).
63. Y.C. Zhang, C.F. Liu, B. Xu, G. Chen, W.M. Liu,Two-fluid theory for a superfluid system with anisotropic effective masses,Phys. Rev. A 99, 043622 (2019).
64. G.B. Zhu, Q. Sun, H.M. Yang, L.L. Wang, W.M. Liu, A.C. Ji,Interaction-driven topological phase transition in a p-orbital honeycomb optical lattice,Phys. Rev. A 100, 043608 (2019).
65. K. Xu, G.F. Zhang, W.M. Liu,Quantum dynamical speedup in correlated noisy channels,Phys. Rev. A 100, 052305 (2019).
66. D.Y. Yu, W. Zhang, W.M. Liu,Enhanced Fulde-Ferrell-Larkin-Ovchinnikov and Sarma superfluid states near an orbital Feshbach resonance,Phys. Rev. A 100, 053612 (2019).
67. L.W. Jiang, W. Quan, F. Liu, W.F. Fan, L. Xing, L.H. Duan, W.M. Liu, J.C. Fang,Closed-loop Control of Compensation Point in the K-Rb-21Ne Comagnetometer,Phys. Rev. Applied 12, 024017 (2019).
68. E. Kengne, W.M. Liu,Transmission of rogue wave signals through a modified Noguchi electrical transmission network,Phys. Rev. E 99, 062222 (2019).
69. X.R. Wei, J.T. Sheng, Y.L. Wu, W.M. Liu, H.B. Wu,Twin-beam-enhanced displacement measurement of a membrane in a cavity,Appl. Phys. Lett. 115, 251105 (2019).
70. T.P. Hou, Z.H. Li, K.M. Wu, H.F. Lin, Y. Li, G.H. Zhang, W.M. Liu,Role of external magnetic fields in determining the thermodynamic properties of iron carbides in steel,Acta Materialia 167, 71 (2019).
71. Y.J. Zhao, D.Y. Yu, L. Zhuang, X.L. Gao, W.M. Liu,Tunable spinful matter wave valve,Scientific Reports 9, 8653 (2019).
72. H.B. Luo, L. Li, W.M. Liu,Three-Dimensional Skyrmions with Arbitrary Topological Number in a Ferromagnetic Spin-1 Bose-Einstein Condensate,Scientific Reports 9, 18804 (2019).
73.R. Ooi, W.M. Liu,Molecular Bose-Einstein Condensates: Effects of Molecular Rotations on TransitionTemperature and Heat Capacity,J. Phys. B 52, 145301 (2019).
74. E. Kengne, W.M. Liu,Management of modulated wave solitons in a two-dimensional nonlinear transmission network,European Physical Journal B 92, 235 (2019).
75. H.B. Xue, J.Q. Liang, W.M. Liu,Non-Markovian full counting statistics of cotunneling assisted sequential tunneling in a side-coupled double quantum dot system,Physica E 109, 39 (2019).
76. L. Li, H.J. Chen, Z.W. Xie, W.D. Chen, W.P. Zhang, W.M. Liu, L. Li,Ultra-broadband metamaterial absorber for infrared transparency window of the atmosphere,Physics Letters A 383, 126025 (2019).
77. Y. Tian, D.Z. Xu, K. Chu, Z. Wei, W.M. Liu,Metal-free N, S co-doped graphene for efficient and durable nitrogen reduction reaction,J. Mater. Sci. 54, 9088 (2019).
78. E. Kengne, A. Lakhssassi, W.M. Liu,Non-autonomous solitons in inhomogeneous nonlinear media with distributed dispersion,Nonlinear Dynamics 97, 449 (2019).
79. H.J. Zhu, G.F. Zhang, L. Zhuang, W.M. Liu,Universal dissipationless dynamics in Gaussian continuous-variable open systems,Phys. Rev. Lett. 121, 220403 (2018).
80. E. Kengne, W.M. Liu,Soliton-like pulses along a modified Noguchi nonlinear electrical network with second-neighbor interactions: Analytical studies,Phys. Rev. E 97, 052205 (2018).
81. E. Kengne, W.M. Liu,Management of matter-wave solitons in Bose-Einstein condensates with time-dependent atomic scattering length in a time-dependent parabolic complex potential,Phys. Rev. E 98, 012204 (2018).
82. Q. Lu, B.S. Wang, X.R. Chen, W.M. Liu,Robust large-gap quantum spin Hall insulators in methyl-functionalized III-Bi buckled honeycombs,Phys. Rev. Materials 2, 014005 (2018).
83. L.X. Niu, X.X. Guo, Y. Zhan, X.Z.g Chen, W.M. Liu, X.J. Zhou,Optimized fringe removal algorithm for absorption image,Appl. Phys. Lett. 113, 144103 (2018).
84. T.P. Hou, K.M. Wu, W.M. Liu, M.J. Peet, C.N. Hulme-Smith, L. Guo,High magnetic field induced alloy carbides stability beyond thermal effect in Fe-based materials,Scientific Reports 8, 3049 (2018).
85. J.L. Ma, L. Tan, Q. Li, H.Q. Gu, W.M. Liu,The effect of oscillator and dipole-dipole interaction on multiple optomechanically induced transparency in cavity optomechanical system,Scientific Reports 8, 14367 (2018).
86. Y.Q. Yao, W. Han, J. Li, W.M. Liu,Localized nonlinear waves and dynamical stability in spinor BoseCEinstein condensates with timeCspace modulation,J. Phys. B 51, 105001 (2018).
87. Q. Li, L. Tan, J.L. Ma, H.Q. Gu, Y.X. Shi, W.M. Liu,Dynamical Phase Transition of two-component Bose-Einstein condensate with nonlinear tunneling in an optomechanical cavity-mediated double-well system,J. Phys. B. 51, 155501 (2018).
88. J. Li, X.F. Zhang, W.M. Liu,Weyl type spin-orbit coupled ferromagnetic Bose-Einstein condensates under rotation,Annals of Physics 396, 87 (2018).
89. K.A. Yasir, L. Zhuang, W.M. Liu,Spin-Orbit Coupling Induced Back-action Cooling in Cavity-Optomechanics with a Bose-Einstein Condensate,Phys. Rev. A 95, 013810 (2017)
90. C.F. Liu, G. Juzeliunas, W.M. Liu,Spin-orbit coupling manipulating composite topological spin textures in atomic-molecular Bose-Einstein condensates,Phys. Rev. A 95, 023624 (2017)
91. J. Li, Y.M. Yu, L. Zhuang, W.M. Liu,Dirac monopoles with polar-core vortex induced by spin-orbit coupling in spinor Bose-Einstein condensates,Phys. Rev. A 95, 043633 (2017)
92. L.L. Wang, Q. Sun, W.M. Liu, G. Juzeliunas, A.C. Ji,Fulde-Ferrell-Larkin-Ovchinnikov state to topologic superfluidity transition in bilayer spin-orbit coupled degenerate Fermi gas,Phys. Rev. A 95, 053628 (2017)
93. B. Dong, Q. Sun, W.M. Liu, A.C. Ji, X.F. Zhang, S.G. Zhang,Multiply quantized and fractional skyrmions in a dipolar Bose-Einstein condensate under rotation,Phys. Rev. A 96, 013619 (2017)
94. L.L. Wang, M. Gong, W.M. Liu,Multiple Majorana Fermions in atomic Fermi double wires with Spin-Orbit Coupling,Phys. Rev. A 96, 023623 (2017)
95. R.C. Wu, L. Tan, W.X. Zhang, W.M. Liu,Quantum phase transitions of light in a dissipative Dicke-Bose-Hubbard model,Phys. Rev. A 96, 033633 (2017).
96. P. Zuo, Y. Jiang, Z.G. Ma, L. Wang, B. Zhao, Y.F. Li, G. Yue, H.Y. Wu, H.J. Yan, H.Q. Jia, W.X. Wang, J.M. Zhou, Q. Sun, W.M. Liu, A.C. Ji, H. Chen,p-n Junction Rectifying Characteristics of Purely n-Type GaN-Based Structures,
Phys. Rev. Applied 8, 024005 (2017).
97. B.S. Wang, Q. Lu, Y.M. Yu, Y.F. Ge, K.C. Zhang, W.M. Liu, Y. Liu,Magnetic diversity in stable and metastable structures in CrAs,Phys. Rev. B 96, 134116 (2017).
98. E. Kengne, A. Lakhssassi, W.M. Liu,Generation of matter-wave solitons in a nonlinear LC network through a Gross-Pitaevskii equation with time-dependent linear potential,Phys. Rev. E 96, 022221 (2017).
99. J.H. Liu, D.Y. Jing, L.L. Wang, P.S. He, W. Quan, W.M. Liu,The polarization and the fundamental sensitivity of 39K (133Cs) - 85Rb - 4He (21Ne) hybrid optical pumping spin exchange relaxation free atomic magnetometers,
Scientific Reports 7, 6776 (2017)
100. Y. Tian, Y.F. Ye, X.J. Wang, S. Peng, Z. Wei, X. Zhang, W.M. Liu,Three-dimensional N-doped, plasma-etched graphene: Highly active metal-free catalyst for hydrogen evolution reaction,Applied Catalysis A 529, 127 (2017).
101.Y. Tian, Z. Wei, X. Zhang, S. Peng, X. Zhang, W.M. Liu,Plasma-etched, S-doped graphene for effective hydrogen evolution reaction,International Journal of Hydrogen Energy 42, 4184 (2017). Cited 50 times in Web of Science
102. Y. Tian, Z. Wei, K.H. Zhang, W. Peng, X. Zhang, W.M. Liu, K. Chu,Three-dimensional phosphorus-doped graphene as an efficientmetal-free electrocatalyst for electrochemical sensing,Sensors and Actuators B 241, 584 (2017). Cited 50 times in Web of Science
103. Z.M. Wang, J.L. Lian, J.Q. Liang, Y.M. Yu, W.M. Liu,Collapse of superradiant phase and multiple quantum phase transitions for Bose-Einstein condensate in optomechanical cavity,Phys. Rev. A 93, 033630 (2016)
104. S.S. Zhang, W.M. Liu, H. Pu,Itinerant chiral ferromagnetism in a trapped Rashba spin-orbit coupled Fermi gas,
Phys. Rev. A 93, 043602 (2016)
105. S. W. Su, S. C. Gou, Q. Sun, L. Wen, W. M. Liu, A. C. Ji, J. Ruseckas, G. Juzeliunas,Rashba-type Spin-orbit coupling in Bilayer Bose-Einstein Condensates,Phys. Rev. A 93, 053630 (2016)
106. W. Han, X.F. Zhang, S.W. Song, W. Zhang, W.M. Liu, S.G. Zhang,Quantum phases of Bose-Einstein condensates with SU(3) spin-orbit coupling,Phys. Rev. A 94, 033629 (2016)
107. L. Wen, Q. Sun, Y. Chen, D.S. Wang, J. Hu, H. Chen, W.M. Liu, G. Juzeliunas, B. A. Malomed, A.C. Ji,Motion of solitons in one-dimensional spin-orbit-coupled Bose-Einstein condensates,Phys. Rev. A 94, 061602 (2016) Cited 50 times in Web of Science
108. F.D. Sun, J.W. Ye, W.M. Liu,Classification of magnons in rotated ferromagnetic Heisenberg model and their competing responses in transverse fields,Phys. Rev. B 94, 024409 (2016)
109. S.S. Zhang, J.W. Ye, W.M. Liu,Itinerant magnetic phases and quantum Lifshitz transitions in a three-dimensional repulsively interacting Fermi gas with spin-orbit coupling,Phys. Rev. B 94, 115121 (2016)
110. C.N. He, W.Q. Huang, L. Xu, Y.C. Yang, G.F. Huang, P. Peng, W.M. Liu,Tuning the near-gap electronic structure, interface charge transfer and visible light response of hybrid doped graphene and Ag3PO4 composite: The effect of dopants,Scientific Reports 6, 22267 (2016).
111. K.A. Yasir, W.M. Liu,Controlled electromagnetically induced transparency and Fano resonances in hybrid Bose-Einstein condensate optomechanics,Scientific Reports 6, 22651 (2016) Cited 50 times in Web of Science
112. T. Ye, S. Meng, J. Zhang, Y.W. E, Y.P. Yang, W.M. Liu, Y. Yin, L. Wang,Mechanism and modulation of terahertz generation from a semimetal - graphite,Scientific Reports 6, 22798 (2016)
113. C. Li, C.L. Xue, Z. Liu, H. Cong, B.W. Cheng, Z.H. Hu, X. Guo, W.M. Liu,High-responsivity vertical-illumination Si/Ge uni-traveling-carrier photodiodes based on silicon-on-insulator substrate,Scientific Reports 6, 27743 (2016)
114. T. Yang, Z.Q. Hu, S. Zou, W.M. Liu,Dynamics of vortex quadrupoles in nonrotating Bose-Einstein condensates,
Scientific Reports 6, 29066 (2016)
115. Y.Q. Yao, J. Li, W. Han, D.S. Wang, W.M. Liu,Localized spatially nonlinear matter waves in atomic-molecular Bose-Einstein condensates with space-modulated nonlinearity,Scientific Reports 6, 29566 (2016).
116. X.F. Zhang, W. Han, H.F. Jiang, W.M. Liu, H. Saito, S.G. Zhang,Topological defect formation in rotating binary dipolar BoseCEinstein condensate,Ann. Phys. 375, 368 (2016).
117. D.S. Wang, W. Han, Y.R. Shi, Z.D. Li, W.M. Liu,Dynamics and stability of stationary states for the spin-1 BoseCEinstein condensates in a standing light wave,Commun. Nonlinear Sci. Numer. Simulat. 36, 45 (2016).
118. J.B. He, P.P. Wang, H.X. Yang, Y.J. Long, L.X. Zhao, C. Ma, M. Yang, D.M. Wang,X.C. Shangguan, M.Q. Xue, P. Zhang, Z.A. Ren, J.Q. Li, W.M. Liu, G.F. Chen,Superconductivity in Pd-intercalated charge-density-wave rare earth poly-tellurides RETen,Supercond. Sci. Technol. 29, 065018 (2016).
119. W.Q. Wang, L. Wang, Y. Jiang, Z.G. Ma, L. Sun, J. Liu, Q.L. Sun, B. Zhao, W.X. Wang, W.M. Liu, H.Q. Jia, H. Chen,
Carrier transport in IIICV quantum-dot structures for solar cells or photodetectors,Chinese Physics B 25, 097307 (2016).
120. H.Y. Wu, Z.G. Ma, Y. Jiang, H.J. Yang, Y.F. Li, L. Wang, P. Zuo, H.Q. Jia, W.X. Wang, J.M. Zhou, W.M. Liu, H. Chen,Direct observation of the carrier transportation process in InGaN quantum wells with a pn-junction,Chinese Physics B 25, 117803 (2016).
121. C.H. Raymond Ooi, W.M. Liu, E.A. Sete,Quantum dynamics and spectra of vibrational Raman-resonance fluorescence in two-mode cavity,Phys. Rev. A 92, 063847 (2015)
122. L. Li, N.N. Hao, G.C. Liu, Z.M. Bai, Z.D. Li, S. Chen, W.M. Liu,Quantum Hall effects in a non-Abelian honeycomb lattice,Phys. Rev. A 92, 063618 (2015)
123. F.D. Sun, J.W. Ye, W.M. Liu,Quantum magnetism of spinor bosons in optical lattices with synthetic non-Abelian gauge fields,Phys. Rev. A 92, 043609 (2015)
124. Y.M. Yu, B.B. Suo, H.H. Feng, H. Fan, W.M. Liu,Finite-field calculation of static polarizabilities and hyperpolarizabilities of In+ and Sr,Phys. Rev. A 92, 052515 (2015)
125. Q. Sun, L. Wen, W.M. Liu, G. Juzeliunas, A.C. Ji,Tunneling-assisted spin-orbit coupling in bilayer Bose-Einstein condensates,Phys. Rev. A 91, 033619 (2015) Cited 40 times in Web of Science
126. W. Han, G. Juzeliunas, W. Zhang, W.M. Liu,Supersolid with nontrivial topological spin textures in spin-orbit-coupled Bose gases,Phys. Rev. A 91, 013607 (2015) Cited 60 times in Web of Science
127. B. Xu, H.Y. Wu, Y.C. Zhang, H.T. Wang, W.M. Liu,Excitation spectra and hard-core thermodynamics of bosonic atoms in optical superlattices,Phys. Rev. A 91, 013617 (2015)
128. D. Zhao, S.W. Song, L. Wen, Z.D. Li, H.G. Luo, W.M. Liu,Topological defects and inhomogeneous spin patterns induced by the quadratic Zeeman effect in spin-1 Bose-Einstein condensates,Phys. Rev. A 91, 013619 (2015)
129. D. Wang, Z. Liu, W.M. Liu, J.P. Cao, H. Fan,Fermionic non-Abelian fractional Chern insulators from dipolar interactions,Phys. Rev. B 91, 125138 (2015)
130. E. Kengne, A. Lakhssassi, W.M. Liu,Dynamics of modulated waves in a lossy modified Noguchi electrical transmission line,Phys. Rev. E 91, 062915 (2015)
131. T. Zhang, J.H. Lin, Y.M. Yu, X.R. Chen, W.M. Liu,Stacked bilayer phosphorene: strain-induced quantum spin Hall state and optical measurement,Scientific Reports 5, 13927 (2015) Cited 50 times in Web of Science
132. Y. Jiang, Y.F. Li, Y.Q. Li, Z. Deng, T.P. Lu, Z.G. Ma, P. Zuo, L.G. Dai, L. Wang, H.Q. Jia, W.X. Wang, J.M. Zhou, W.M. Liu, H. Chen,Realization of high-luminousefficiency InGaN light-emitting diodes in the "green gap" range,
Scientific Reports 5, 10883 (2015) Cited 80 times in Web of Science
133. K. A. Yasir, W.M. Liu,Tunable Bistability in Hybrid Bose-Einstein Condensate Optomechanics,Scientific Reports 5, 10612 (2015)
134. H.F. Lin, H.D. Liu, H.S. Tao, W.M. Liu,Phase transitions of the ionic Hubbard model on the honeycomb lattice,
Scientific Reports 5, 9810 (2015)
135. H.B. Xue, J.Q. Liang, W.M. Liu,Negative differential conductance and super-Poissonian shot noise in single-molecule magnet junctions,Scientific Reports 5, 8730 (2015)
136. X.L. Zhang, W.M. Liu,Electron-phonon coupling and its implication for the superconducting topological insulators,Scientific Reports 5, 8964 (2015)
137. H.B. Xue, H.J. Jiao, J.Q. Liang, W.M. Liu,Non-Markovian full counting statistics in quantum dot molecules,
Scientific Reports 5, 8978 (2015)
138. R. Radha, P.S. Vinayagam, J.B. Sudharsan, W.M. Liu, B.A. Malomed,Engineering bright solitons to enhance stability of two-component Bose-Einstein condensates,Physics Letters A 379, 2977 (2015).
139. M. Yang, X.L. Zhang, W.M. Liu,Tunable topological quantum states in three- and two-dimensional materials,
Frontiers of Physics 10, 108102 (2015).
140. H.S. Tao, W. Wu, Y.H. Chen, W.M. Liu,Quantum phase transition of cold atoms in honeycomb optical lattices,
Romanian Reports in Physics 67, 187 (2015).
141. H.F. Lin, H.S. Tao, W.X. Guo, W.M. Liu,Antiferromagnetism and Kondo screening on a honeycomb lattice,
Chinese Physics B 24, 057101 (2015).
142. Yu Yi-Xiang, Jinwu Ye, Wu-Ming Liu,Coherence lengths in attractively interacting Fermi gases with spin-orbit coupling,Phys. Rev. A 90, 053603 (2014)
143. Heng-Fu Lin, Yao-Hua Chen, Hai-Di Liu, Hong-Shuai Tao, Wu-Ming Liu,Mott transition and antiferromagnetism of cold fermions in the decorated honeycomb lattice,Phys. Rev. A 90, 053627 (2014)
144. Yi-Cai Zhang, Wu-Ming Liu, Hui Hu,Tuning a magnetic Feshbach resonance with spatially modulated laser light,Phys. Rev. A 90, 052722 (2014)
145. Shu-Wei Song, Yi-Cai Zhang, Hong Zhao, Xuan Wang, Wu-Ming Liu,Fragmentation of spin-orbit-coupled spinor Bose-Einstein condensates,Phys. Rev. A 89, 063613 (2014) Cited 50 times in Web of Science
146. Pei-Song He, Yao-Hui Zhu, W.M. Liu,Drag force on a moving impurity in a spin-orbit-coupled Bose-Einstein condensate,Phys. Rev. A 89, 053615 (2014)
147. Xuebing Luo, Kezhao Zhou, W.M. Liu, Zhaoxin Liang, Zhidong Zhang,Fidelity susceptibility and topological phase transition of a two-dimensional spin-orbit-coupled Fermi superfluidPhys. Rev. A 89, 043612 (2014)
148. Fei-Jie Huang, Qi-Hui Chen, Wu-Ming Liu,Impact of scalar potentials on cold atoms with spin-orbit coupling,
Phys. Rev. A 89, 033624 (2014)
149. Shao-Jian Jiang, Wu-Ming Liu, Gordon W. Semenoff, Fei Zhou,Universal Bose gases near resonance: A rigorous solution,Phys. Rev. A 89, 033614 (2014) Cited 40 times in Web of Science
150. Rui-Ning Wang, Jorge H. Rodriguez, Wu-Ming Liu,Negative magnetoresistance and spin filtering of spin-coupled di-iron-oxo clusters,Phys. Rev. B 89, 235414 (2014).
151. C.H. Du, Z.G. Ma, J.M. Zhou, T.P. Lu, Y. Jiang, H.Q. Jia, W.M. Liu, H. Chen,The emission intensity of GaN-based green light emitting diodes on c-plane sapphire,Applied Physics Letters 104, 151102 (2014).
152. T.P. Lu, Z.G. Ma, C.H. Du, Y.T. Fang, H.Y. Wu, Y. Jiang, L. Wang, L.G. Dai, H.Q. Jia, W.M. Liu, H. Chen,Temperature-dependent photoluminescence in light-emitting diodes,Scientific Reports 4, 6131 (2014) Cited 90 times in Web of Science
153. H.S. Tao, Y.H. Chen, H.F. Lin, H.D. Liu, W.M. Liu,Layer Anti-Ferromagnetism on Bilayer Honeycomb Lattice,
Scientific Reports 4, 5367 (2014)
154. M. Yang, W.M. Liu,The d-p band-inversion topological insulator in bismuth-based skutterudites,Scientific Reports 4, 5131 (2014) Cited 50 times in Web of Science
155. Yi-Cai Zhang, Shu-Wei Song, Wu-Ming Liu,The confinement induced resonance in spin-orbit coupled cold atoms with Raman coupling,Scientific Reports 4, 4992 (2014)
156. Hai-Di Liu, Yao-Hua Chen, Heng-Fu Lin, Hong-Shuai Tao, Wu-Ming Liu,Antiferromagnetic Metal and Mott Transition on Shastry-Sutherland Lattice,Scientific Reports 4, 4829 (2014)
157. Chao-Fei Liu, Heng Fan, Shih-Chuan Gou, Wu-Ming Liu,Crystallized and amorphous vortices in rotating atomic-molecular Bose-Einstein condensates,Scientific Reports 4, 4224 (2014)
158. Z. Deng, Y. Jiang, W.X. Wang, L.W. Cheng, W. Li, W. Lu, H.Q. Jia, W.M. Liu, J.M. Zhou, H. Chen,
Indium segregation measured in InGaN quantum well layer,Scientific Reports 4, 6734 (2014)
159. An Bao, Hong-Shuai Tao, Hai-Di Liu, XiaoZhong Zhang, W.M. Liu,Quantum magnetic phase transition in square-octagon latticeScientific Reports 4, 6918 (2014)
160. X.Q. Luo, D.L. Wang, Y.C. She, H. Fan, W.M. Liu,Adjustable electromagnetically induced transparency and absorption, optical controlled-phasegate in semiconductor quantum wells,European Physical Journal D 68, 89 (2014).
161. J.H. Wu, R. Qi, A.C. Ji, W.M. Liu,Quantum tunnelling of cold atoms in traps and cavities,Front. Phys. 9, 137 (2014).
162. X.Y. Hu, W.M. Liu,Positive Aspects of Noise Effect on Quantum Correlations,International Journal of Software and Informatics 8, 225 (2014).
163. R. Kumar, L. Wen, R. Radha, W.M. Liu,Splitting and recombination of 2D matter-wave solitons in a transient trap,Romanian Reports in Physics 66, 443 (2014).
164. Z.D. Li, P.B. He, W.M. Liu,Dynamics of magnetization in ferromagnet with spin-transfer torque,Chinese Physics B 23, 117502 (2014).
165. X.F. Zhang, Q. Sun, Y.C. Wen, W.M. Liu, S. Eggert, A.C. Ji,Rydberg Polaritons in a Cavity: A Superradiant Solid
Phys. Rev. Lett. 110, 090402 (2013) Cited 50 times in Web of Science
166. Q. Sun, G. B. Zhu, W. M. Liu, A. C. Ji,Spin-orbit coupling effects on the superfluidity of a Fermi gas in an optical lattice,Phys. Rev. A 88, 063637 (2013) Cited 50 times in Web of Science
167. Boyang Liu, Xiao-Lu Yu, and Wu-Ming LiuRenormalization-group analysis of p-orbital Bose-Einstein condensates in a square optical latticePhys. Rev. A 88, 063605 (2013)
168. Chao-Fei Liu, Yan-Mei Yu, Shih-Chuan Gou, W. M. Liu,Vortex chain in anisotropic spin-orbit-coupled spin-1 Bose-Einstein condensates,Phys. Rev. A 87, 063630 (2013) Cited 40 times in Web of Science
169. G. B. Zhu, Q. Sun, Y. Y. Zhang, K. S. Chan, W. M. Liu, A. C. Ji,Spin-based effects and transport properties of a spin-orbit-coupled hexagonal optical lattice,Phys. Rev. A 88, 023608 (2013)
170. Xueyuan Hu, Heng Fan, D. L. Zhou, Wu-Ming Liu,Superadditivity of quantum-correlating power,Phys. Rev. A 88, 012315 (2013) Cited 70 times in Web of Science
171. Shang-Shun Zhang, Xiao-Lu Yu, Jinwu Ye, Wu-Ming Liu,Collective modes of spin-orbit-coupled Fermi gases in the repulsive regime,Phys. Rev. A 87, 063623 (2013)
172. Pei-Song He, Wen-Long You, Wu-Ming Liu,Stability of a two-dimensional homogeneous spin-orbit-coupled boson system,Phys. Rev. A 87, 063603 (2013)
173. Xiao-Lu Yu, Shang-Shun Zhang, Wu-Ming Liu,Normal-state properties of spin-orbit-coupled Fermi gases in the upper branch of the energy spectrum,Phys. Rev. A 87, 043633 (2013)
174. Renyuan Liao, Zhi-Gao Huang, Xiu-Min Lin, Wu-Ming Liu,Ground-state properties of spin-orbit-coupled Bose gases for arbitrary interactions,Phys. Rev. A 87, 043605 (2013) Cited 50 times in Web of Science
175. Xueyuan Hu, Heng Fan, D. L. Zhou, Wu-Ming Liu,Quantum correlating power of local quantum channels,
Phys. Rev. A 87, 032340 (2013). Cited 40 times in Web of Science
176. Shang-Shun Zhang, Heng Fan, Wu-Ming Liu,Interaction- and filling-induced quantum anomalous Hall effect in ultracold neutral Bose-Fermi mixtures on a hexagonal lattice,Phys. Rev. A 87, 023622 (2013) Cited 50 times in Web of Science
177. Yi-Cai Zhang, Shu-Wei Song, Chao-Fei Liu, Wu-Ming Liu,Zitterbewegung effect in spin-orbit-coupled spin-1 ultracold atomsPhys. Rev. A 87, 023612 (2013) Cited 50 times in Web of Science
178. E. Kengne, A. Lakhssassi, W.M. Liu, R. Vaillancourt,Phase engineering, modulational instability, and solitons of Gross–Pitaevskii-type equations in 1+1 dimensionsPhys. Rev. E 87, 022914 (2013).
179. Yu Yi-Xiang, Jinwu Ye, Wu-Ming Liu,Goldstone and Higgs modes of photons inside a cavity,Scientific Reports 3, 3476 (2013) Cited 50 times in Web of Science
180. Xiao-Long Zhang, Lan-Feng Liu, Wu-Ming LiuQuantum Anomalous Hall Effect and Tunable Topological States in 3d Transition Metals Doped Silicene,Scientific Reports 3, 2908 (2013) Cited 130 times in Web of Science
181. Fadi Sun, Xiao-Lu Yu, Jinwu Ye, Heng Fan, Wu-Ming Liu,Topological Quantum Phase Transition in Synthetic Non-Abelian Gauge Potential: Gauge Invariance and Experimental Detections,Scientific Reports 3, 2119 (2013)
182. J.W. Ye, F.D. Sun, Y.X. Yu, W.M. Liu,Exciton correlations and input-output relations in non-equilibrium exciton superfluids,Annals of Physics 329, 51 (2013).
183. Y.Q. Ma, S.J. Gu, S. Chen, H. Fan, W.M. Liu,The Euler number of Bloch states manifold and the quantum phases in gapped fermionic systems,
Eur. Phys. Lett. 103, 10008 (2013).180. C.C. Wu, J. Sun, F.J. Huang, Y.D. Li, W.M. Liu,Majorana fermions in a periodically driven semiconductor-superconductor Heterostructure,Eur. Phys. Lett. 104, 27004 (2013).
184. E. Kengne, A. Lakhssassi, R. Vaillancourt, W.M. Liu,Modulational instability of Bose-Einstein condensate in a complex polynomial in elliptic Jacobian functions potential,Eur. Phys. J. B 86, 199 (2013).
185. E. Kengne, A. Lakhssassi, R. Vaillancourt, W.M. Liu,On the propagation of nonlinear signals in nonlinear transmission lines,Eur. Phys. J. Plus 128, 63 (2013).
186. Y.R. Zhang, G.R. Jin, J.P. Cao, W.M. Liu, H. Fan,Unbounded quantum Fisher information in two-path interferometry with finite photon number,J. Phys. A 46, 035302 (2013).
187. D.S. Wang, S.W. Song, W.M. Liu,Localized nonlinear matter waves in Bose-Einstein condensates with spatially and spatiotemporally modulated nonlinearities,Journal of Physics: Conference Series 400, 012078 (2013).
188. E. Kengne, A. Lakhssassi, R. Vaillancourt, W.M. Liu,Exact wave solutions for Bose-Einstein condensates with time-dependent scattering length and spatiotemporal complicated potential,J. Math. Phys. 54, 051501 (2013).
189. Q. Sun, W.M. Liu, A.C. Ji,Optomechanics with interacting Fermi gases: a new approach to detecting spin-charge separation in one-dimensional ultracold atom systems,New J. Phys. 15, 013013 (2013).
190. X.F. Zhang, B. Li, J.C. Chen, S.G. Zhang, W.M. Liu,Formation of dark state in coupled atomic-molecular Bose-Einstein condensates with an external potential,Optics Communications 291, 455 (2013).
191. Y.C. Zhang, H.T. Wang, S.Q. Shen, W.M. Liu,Particle-hole bound states of dipolar cold molecules in an optical lattice,Chinese Phys. B 22, 090501 (2013).
192. S.W. Song, L. Wen, C.F. Liu, S.C. Gou, W.M. Liu,Ground states, solitons and spin textures in spin-1 BoseCEinstein condensates,Front. Phys. 8, 302 (2013).
193. F.J. Huang, Q.H. Chen, W.M. Liu,Higgs type excitations in cold atom systems,Science China 56, 2272 (2013).
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