教师简介

我们的研究方向是凝聚态物理,聚焦自旋动力学,具体研究薄膜生长,磁光等多场调控,探索磁性材料中自旋进动及其与自旋流、电磁波的相互作用。


论文发表情况见orcid:

https://orcid.org/0000-0001-8979-3577


邮箱:

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教育经历
  • 2002-9 — 2008-7
    复旦大学
    光学
    博士生
  • 1998-9 — 2002-7
    山东大学
    物理学
    学士
工作经历
  • 2017-6 — 至今
     山东大学 
  • 2008-8 — 2012-3
     IMR  日本东北大学 
研究概况

光与物质的强耦合: 腔电动力学与自旋体系的耦合;

自旋电子学: 自旋动力学, 自旋流, 自旋扭矩

波动物理: 光、微波及准粒子的结构光学

研究方向
论文

(1) 刘嘉慧.The anomalous Hall effect controlled by residual epitaxial strain in antiferromagnetic Weyl semimetal Mn3Sn thin films grown by molecular beam epitaxy.Results in Physics.2023 (52):106803

(2) 周华.Structural and optoelectronic properties of combining Nb-doped SrTiO3/ITO films on (001)-YSZ substrate.Results in Physics.2021,26

(3) 赵晓楠.Purely Electrical Controllable Complete Spin Logic in a Single Magnetic Heterojunction.Advanced Functional Materials.2021 (31)

(4) 钟海.Ten States of Nonvolatile Memory through Engineering Ferromagnetic Remanent Magnetization.Advanced Functional Materials.2019 (29)

(5) 赵越.Temperature controlled magnon–photon coupling in a YIG/GGG-superconducting cavity coupled system

(6) 赵越.Control of magnon–photon coupling by a direct current in a Py/Pt-superconducting cavity hybrid system

(7) 赵晓楠.Purely Electrical Controllable Spin-Orbit Torque-Based Reconfigurable Physically Unclonable Functions.Advanced Electronic Materials.2023

(8) 谢雪杰.Engineering Spin Configurations of Synthetic Antiferromagnet by Controlling Long-Range Oscillatory Interlayer Coupling and Neighboring Ferrimagnetic Coupling.ADVANCED MATERIALS .2023,35 (2)

(9) Critical magnetic field for lifting the degeneracy of monochiral domain walls with strong interlayer antiferromagnetic coupling.PHYSICAL REVIEW B.2022 (105)

(10) 韩翔.Fully electrical controllable spin-orbit torque based half-adder.Applied physics letters.2023 (122)

(11) 赵晓楠.Purely Electrical Controllable Spin–Orbit Torque-Based Reconfigurable Physically Unclonable Functions.Advanced Electronic Materials.2023 (9)

(12) 周铁.Perpendicular effective field induced by spin-orbit torque and magnetization damping in chiral domain walls.PHYSICAL REVIEW B.2023 (107)

(13) 邢玉陟.Voltage control of magnetic properties in GdxFe100-x films by hydrogen migration.applied physics letters.2022 (76)

(14) 黄启坤.Field-Free Magnetization Switching in a Ferromagnetic Single Layer through Multiple Inversion Asymmetry Engineering.ACS nano.2022 (8):12462

(15) Variation between Antiferromagnetism and Ferrimagnetism in NiPS3 by Electron Doping.Advanced Functional Materials.2022 (adfm.202112750):2112750

(16) 范轶博.Programmable Spin-Orbit Torque Multistate Memory and Spin Logic Cell.ACS nano.2022 (4):6878

(17) 谢雪杰.Engineering Spin Configurations of Synthetic Antiferromagnet by Controlling Long-Range Oscillatory Interlayer Coupling and Neighboring Ferrimagnetic Coupling.ADVANCED MATERIALS .2023 (2):2208275

(18) 王乐栋.Néel vector driven spin current in a van der Waals antiferromagnetic insulator (CrCl3)/heavy metal (Pt) bilayer.PHYSICAL REVIEW B Journal.2022,106 (106, 024422 (2022))

(19) 赵越.Measuring the magnon phase in a hybrid magnon-photon system.PHYSICAL REVIEW B Journal.2022 (PHYSICAL REVIEW B)

(20) 张琪.Zero-field magnon-photon coupling in antiferromagnet CrCl3.APPLIED PHYSICS LETTERS Journal.2021,119 (10)

(21) 卢志健.Broadband and switchable fast-slow light in the YIG-microstrip cavity system.JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS Journal.2022,546

(22) 米锌林.Gilbert damping in the layered antiferromagnet CrCl3.Chin. Phys. B.2022,31 (2)

(23) 邢若飞.Flexible Self-Powered Weak Light Detectors Based on ZnO/CsPbBr3/ γ-CuI Heterojunctions.ACS. Appl. Mater. Interfaces.2022 (14)

(24) 吴振发.Flexible Mott Synaptic Transistor on Polyimide Substrate for Physical Neural Networks.Advanced Electronic Materials.2022 (1)

(25) 弭孟娟.Variation between Antiferromagnetism and Ferrimagnetism in NiPS3 by Electron Doping.Advanced Functional Materials.2022,32 (29):2112750

(26) 周华.Structural and optoelectronic properties of combining Nb-doped SrTiO 3 / ITO films on (001)-YSZ substrate.Results in Physics.2021 (2211-3797)

(27) 弭孟娟.Variation between Antiferromagnetism and Ferrimagnetism in NiPS3by Electron Doping.Advanced functional materials.2022 (adfm.202112750)

(28) Qiao, Shizhu.Intensity distribution, evolution, and dispersion of discrete spin wave modes in nanoscale spin-torque oscillator.JOURNAL OF APPLIED PHYSICS Journal.2021,129 (24)

(29) 赵晓楠.Purely Electrical Controllable Complete Spin Logic in a Single Magnetic Heterojunction.Advanced functional materials.2021

(30) 董亚男.Spin-orbit torque controllable complete spin logic in a single magnetic heterojunction.APPLIED PHYSICS LETTERS Journal.2021,118 (15)

(31) 张琪.Coupling of microwave photons to optical and acoustic magnon modes in the layered antiferromagnetic insulator CrCl3.PHYSICAL REVIEW B.2021,104 (9)

(32) 郭家俊.High exchange-bias blocking temperature in an ultrathin amorphous antiferromagnet system.PHYSICAL REVIEW B.2021,104 (10)

(33) 卢志健.Interference induced microwave transmission in the YIG-microstrip cavity system.JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS Journal.2021,540

(34) 谢雪杰.Controllable field-free switching of perpendicular magnetization through bulk spin-orbit torque in symmetry-broken ferromagnetic films.Nature Communications.2021,12 (1)

(35) 孙振东.Carrier-dependent quadratic scaling of anomalous Hall conductivity in ferromagnetic semiconductor.Results in Physics.2021 (29)

(36) 蔡立.Single crystal epitaxial [Co/CoO](n) superlattices consisting of ferromagnetic metal and antiferromagnetic insulator.JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS Journal.2020,495

(37) 薛建树.Enhanced spin transfer torque in platinum/ferromagnetic-metal structures by optimizing the platinum thickness.JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS Journal.2020,496

(38) 王乐栋.Magnetization coupling in a YIG/GGG structure.PHYSICAL REVIEW B.2020,102 (14)

(39) 黄启坤.Electrical Control of Perpendicular Magnetic Anisotropy and Spin-Orbit Torque-Induced Magnetization Switching.Advanced Electronic Materials.2020

(40) 郭家俊.Evidence for linear dependence of exchange bias on pinned uncompensated spins in an Fe/FeO bilayer.PHYSICAL REVIEW B.2021,103 (5)

(41) 康仕寿.Spin detection using a ferromagnetic noncollinear spin valve.JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS Journal.2019,485 :85

(42) 钟海.Ten States of Nonvolatile Memory through Engineering Ferromagnetic Remanent Magnetization.Advanced functional materials.2019,29 (2)

(43) 康仕寿.Abnormal anomalous Hall effect in permalloy thin film driven by an adjacent silicon oxide layer.Journal of magnetism and magnetic materials.2019

(44) 康仕寿.Detection of interfacial spin accumulation induced by anomalous Hall effect in ferromagnets.Journal of magnetism and magnetic materials.2019

(45) 王静.Reversible electrical-field control of magnetization and anomalous Hall effect in Co/PMN-PT hybrid heterostructures.Applied physics letters.2018,112 (15)

(46) 黄启坤.Distinguishing Interface Magnetoresistance and Bulk Magnetoresistance through Rectification of Schottky Heterojunctions.ACS Applied Materials & Interfaces.2018,10 (29):24905

(47) 王乐栋.Electrical Control of Spin-Mixing Conductance in a Y3Fe5O12/Platinum Bilayer.PHYSICAL REVIEW APPLIED.2019,11 (4)

(48) 钟海.Ten States of Nonvolatile Memory through Engineering Ferromagnetic Remanent Magnetization.Advanced functional materials.2019,29 (2)

(49) 康仕寿.Abnormal anomalous Hall effect in permalloy thin film driven by an adjacent silicon oxide layer.Journal of magnetism and magnetic materials.2019

(50) 王乐栋.Electrical Control of Spin-Mixing Conductance in a Y3Fe5O12/Platinum Bilayer.PHYSICAL REVIEW APPLIED.2019,11 (4)

(51) 康仕寿.Abnormal anomalous Hall effect in permalloy thin film driven by an adjacent silicon oxide layer.Journal of magnetism and magnetic materials.2019

(52) 康仕寿.Detection of interfacial spin accumulation induced by anomalous Hall effect in ferromagnets.Journal of magnetism and magnetic materials.2019

(53) 王静.Reversible electrical-field control of magnetization and anomalous Hall effect in Co/PMN-PT hybrid heterostructures.Applied physics letters.2018,112 (15)

(54) 黄启坤.Distinguishing Interface Magnetoresistance and Bulk Magnetoresistance through Rectification of Schottky Heterojunctions.ACS Applied Materials & Interfaces.2018,10 (29):24905

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