Spin dynamics in van der Waals magnetic systems

[1]  G. Eda,et al.  Laser-induced topological spin switching in a 2D van der Waals magnet , 2023, Nature Communications.

[2]  M. Cinchetti,et al.  Ultrafast Coherent THz Lattice Dynamics Coupled to Spins in the van der Waals Antiferromagnet FePS3 , 2022, Advanced materials.

[3]  R. Hicken,et al.  All-optical control of spin in a 2D van der Waals magnet , 2022, Nature Communications.

[4]  K. Novoselov,et al.  Breaking through the Mermin-Wagner limit in 2D van der Waals magnets , 2022, Nature Communications.

[5]  Lei Fang,et al.  Development of a scanning tunneling microscope for variable temperature electron spin resonance. , 2022, The Review of scientific instruments.

[6]  Donghong Xu,et al.  Anomalous spin dynamics in a two-dimensional magnet induced by anisotropic critical fluctuations , 2022, Physical Review B.

[7]  E. Santos,et al.  Ultrafast laser-driven topological spin textures on a 2D magnet , 2022, npj Computational Materials.

[8]  Zibo Zhao,et al.  Magnetic two-dimensional chromium trihalides: structure, properties and modulation , 2022, Rare Metals.

[9]  J. Morton,et al.  Probing spin dynamics of ultra-thin van der Waals magnets via photon-magnon coupling , 2022, Nature communications.

[10]  Y. Kvashnin,et al.  Unusual Magnetic Features in Two-Dimensional Fe5GeTe2 Induced by Structural Reconstructions , 2022, The journal of physical chemistry letters.

[11]  Michael E. Ziebel,et al.  Spin Waves and Magnetic Exchange Hamiltonian in CrSBr , 2022, Advanced science.

[12]  Hyun Ho Kim,et al.  The Magnetic Genome of Two-Dimensional van der Waals Materials , 2022, ACS nano.

[13]  R. Birgeneau,et al.  A room temperature polar magnetic metal , 2022, Physical Review Materials.

[14]  H. Qu,et al.  Hybrid Magnonics for Short-Wavelength Spin Waves Facilitated by a Magnetic Heterostructure , 2022, Physical Review Applied.

[15]  W. Kwok,et al.  Tunable magnetically induced transparency spectra in magnon-magnon coupled Y3Fe5O12/permalloy bilayers , 2022, 2203.16303.

[16]  Michael E. Ziebel,et al.  Exciton-coupled coherent magnons in a 2D semiconductor , 2022, Nature.

[17]  D. Smirnov,et al.  Electronic Raman scattering in the 2D antiferromagnet NiPS3 , 2022, Science advances.

[18]  Joonho Jang,et al.  Sagnac interferometer for time-resolved magneto-optical measurements. , 2022, The Review of scientific instruments.

[19]  Shu Zhang,et al.  Quantum Imaging of Magnetic Phase Transitions and Spin Fluctuations in Intrinsic Magnetic Topological Nanoflakes. , 2021, Nano letters.

[20]  K. Novoselov,et al.  Domain wall dynamics in two-dimensional van der Waals ferromagnets , 2021, Applied Physics Reviews.

[21]  R. Duine,et al.  Quantum magnonics: When magnon spintronics meets quantum information science , 2021, 2111.14241.

[22]  J. Wrachtrup,et al.  Direct visualization of magnetic domains and moiré magnetism in twisted 2D magnets , 2021, Science.

[23]  J. Xiao,et al.  Revealing room temperature ferromagnetism in exfoliated Fe5GeTe2 flakes with quantum magnetic imaging , 2021, 2D Materials.

[24]  Le Lei,et al.  Direct observation of competition between charge order and itinerant ferromagnetism in the van der Waals crystal Fe5−xGeTe2 , 2021, Physical Review B.

[25]  Baoshun Zhang,et al.  Proximity effect of a two-dimensional van der Waals magnet Fe3GeTe2 on nickel films. , 2021, Nanoscale.

[26]  A. Hierro-Rodríguez,et al.  Ferromagnetic Resonance Studies in Magnetic Nanosystems , 2021, Magnetochemistry.

[27]  Yitong Sun,et al.  Zero-field magnon–photon coupling in antiferromagnet CrCl3 , 2021, Applied Physics Letters.

[28]  B. Satpati,et al.  Critical behavior in the van der Waals itinerant ferromagnet Fe4GeTe2 , 2021, Physical Review B.

[29]  A. Ghosh,et al.  Magnon polarons in the van der Waals antiferromagnet FePS3 , 2021, Physical Review B.

[30]  P. Sengupta,et al.  Direct Observation of Magnon-Phonon Strong Coupling in Two-Dimensional Antiferromagnet at High Magnetic Fields. , 2021, Physical review letters.

[31]  Jun Zhang,et al.  Review of Raman Spectroscopy of Two-Dimensional Magnetic van der Waals Materials , 2021, Chinese Physics B.

[32]  Zhenxing Wang,et al.  Recent progress on emergent two-dimensional magnets and heterostructures , 2021, Nanotechnology.

[33]  Jijun Zhao,et al.  Recent progress on 2D magnets: Fundamental mechanism, structural design and modification , 2021 .

[34]  S. Roche,et al.  Van der Waals heterostructures for spintronics and opto-spintronics , 2021, Nature Nanotechnology.

[35]  S. Roche,et al.  Magnetism, symmetry and spin transport in van der Waals layered systems , 2021, Nature Reviews Physics.

[36]  Xianhui Chen,et al.  Manipulating Ferromagnetism in Few‐Layered Cr2Ge2Te6 , 2021, Advanced materials.

[37]  N. Gedik,et al.  Exciton-driven antiferromagnetic metal in a correlated van der Waals insulator , 2021, Nature Communications.

[38]  Haoran Chen,et al.  Multi-domain ferromagnetic resonance in magnetic van der Waals crystals CrI3 and CrBr3 , 2021 .

[39]  M. Katsnelson,et al.  Electronic structure of chromium trihalides beyond density functional theory , 2021, Physical Review B.

[40]  M. Stone,et al.  Magnetic Field Effect on Topological Spin Excitations in CrI3 , 2021, Physical Review X.

[41]  J. Shan,et al.  Spin Dynamics Slowdown near the Antiferromagnetic Critical Point in Atomically Thin FePS3. , 2021, Nano letters.

[42]  Hyun Ho Kim,et al.  Structural Monoclinicity and Its Coupling to Layered Magnetism in Few-Layer CrI3. , 2021, ACS nano.

[43]  S. Louie,et al.  Optical and magneto-optical properties of ferromagnetic monolayer CrBr3 : A first-principles GW and GW plus Bethe-Salpeter equation study , 2021, Physical Review Materials.

[44]  W. Zhang,et al.  Effect of dipolar interaction on exceptional points in synthetic layered magnets , 2021 .

[45]  F. Tafti,et al.  ac Susceptometry of 2D van der Waals Magnets Enabled by the Coherent Control of Quantum Sensors , 2021, PRX Quantum.

[46]  David J. Singh,et al.  Room-temperature intrinsic ferromagnetism in epitaxial CrTe2 ultrathin films , 2021, Nature Communications.

[47]  X. D. Zhu,et al.  Oblique-incidence Sagnac interferometric scanning microscope for studying magneto-optic effects of materials at low temperatures. , 2021, The Review of scientific instruments.

[48]  J. Wrachtrup,et al.  Magnetic domains and domain wall pinning in atomically thin CrBr3 revealed by nanoscale imaging , 2021, Nature Communications.

[49]  L. Balicas,et al.  Magnetism and spin dynamics in room-temperature van der Waals magnet Fe5GeTe2 , 2021, 2103.13433.

[50]  Xiaodong Xu,et al.  Interlayer electronic coupling on demand in a 2D magnetic semiconductor , 2021, Nature Materials.

[51]  M. Cinchetti,et al.  Ultrafast Amplification and Nonlinear Magnetoelastic Coupling of Coherent Magnon Modes in an Antiferromagnet. , 2021, Physical review letters.

[52]  S. Maity,et al.  Spin-phonon coupling and magnon scattering in few-layer antiferromagnetic FePS3 , 2021 .

[53]  Y. Gong,et al.  Anomalous thickness dependence of Curie temperature in air-stable two-dimensional ferromagnetic 1T-CrTe2 grown by chemical vapor deposition , 2021, Nature Communications.

[54]  D. Awschalom,et al.  Quantum Engineering With Hybrid Magnonic Systems and Materials (Invited Paper) , 2021, IEEE Transactions on Quantum Engineering.

[55]  J. Pearson,et al.  Detecting Phase-Resolved Magnetization Dynamics by Magneto-Optic Effects at 1550 nm Wavelength , 2021, IEEE Transactions on Magnetics.

[56]  B. Dlubak,et al.  Synthesis of emerging 2D layered magnetic materials. , 2021, Nanoscale.

[57]  Xiaolong Zou,et al.  Two-dimensional magnetic materials: structures, properties and external controls. , 2021, Nanoscale.

[58]  C. Hsu,et al.  Itinerant ferromagnetism mediated by giant spin polarization of the metallic ligand band in the van der Waals magnet Fe5GeTe2 , 2021, 2101.01324.

[59]  Rong Zhang,et al.  Light-Tunable Ferromagnetism in Atomically Thin Fe_{3}GeTe_{2} Driven by Femtosecond Laser Pulse. , 2020, Physical review letters.

[60]  Vibhor Singh,et al.  Coplanar cavity for strong coupling between photons and magnons in van der Waals antiferromagnet , 2020, Applied Physics Letters.

[61]  Dustin M. Lattery,et al.  Materials Engineering Enabled by Time-Resolved Magneto-Optical Kerr Effect for Spintronic Applications , 2020, ACS Applied Electronic Materials.

[62]  J. Coraux,et al.  Characterization of room-temperature in-plane magnetization in thin flakes of CrTe2 with a single-spin magnetometer , 2020, 2011.05722.

[63]  B. Ivanov,et al.  Controlling the anisotropy of a van der Waals antiferromagnet with light , 2020, Science Advances.

[64]  Wei He,et al.  Characterizing the magnetic interfacial coupling in Fe/FeGe heterostructure by ferromagnetic resonance. , 2020, ACS applied materials & interfaces.

[65]  Xing Wu,et al.  Room temperature ferromagnetism in ultra-thin van der Waals crystals of 1T-CrTe2 , 2020, Nano Research.

[66]  R. Birgeneau,et al.  Itinerant ferromagnetism in van der Waals Fe5−xGeTe2 crystals above room temperature , 2020, Physical Review B.

[67]  Wei Zhang,et al.  Self-Hybridization and Tunable Magnon-Magnon Coupling in van der Waals Synthetic Magnets , 2020, 2008.01298.

[68]  J. Pearson,et al.  Probing magnon-magnon coupling in exchange coupled Y[Formula: see text]Fe[Formula: see text]O[Formula: see text]/Permalloy bilayers with magneto-optical effects. , 2020, Scientific reports.

[69]  C. Nuckolls,et al.  Magnetic Order and Symmetry in the 2D Semiconductor CrSBr. , 2020, Nano letters.

[70]  D. Waldeck,et al.  Magneto-Optical Detection of Photoinduced Magnetism via Chirality Induced Spin Selectivity in 2D Chiral Hybrid Organic-Inorganic Perovskites. , 2020, ACS nano.

[71]  Jonghyeon Kim,et al.  Coherent many-body exciton in van der Waals antiferromagnet NiPS3 , 2020, Nature.

[72]  M. Matsuo,et al.  Highly accurate evaluation of spin-torque efficiency by measuring in-plane angular dependence of spin-torque ferromagnetic resonance , 2020 .

[73]  T. Devolder,et al.  Imaging non-collinear antiferromagnetic textures via single spin relaxometry , 2020, Nature Communications.

[74]  J. Akimitsu,et al.  Momentum-Dependent Magnon Lifetime in the Metallic Noncollinear Triangular Antiferromagnet CrB_{2}. , 2020, Physical review letters.

[75]  K. Novoselov,et al.  Biquadratic exchange interactions in two-dimensional magnets , 2020, npj Computational Materials.

[76]  Z. Han,et al.  Laser-induced magnetization dynamics in a van der Waals ferromagnetic Cr2Ge2Te6 nanoflake , 2020 .

[77]  B. Büchner,et al.  Electron spin resonance and ferromagnetic resonance spectroscopy in the high-field phase of the van der Waals magnet CrCl3 , 2020, Physical Review Materials.

[78]  A. Angerer,et al.  Enhanced Molecular Spin-Photon Coupling at Superconducting Nanoconstrictions. , 2020, ACS nano.

[79]  Xiaodong Xu,et al.  Layered Antiferromagnetism Induces Large Negative Magnetoresistance in the van der Waals Semiconductor CrSBr , 2020, Advanced materials.

[80]  S. Chi,et al.  Magnetic anisotropy in ferromagnetic CrI3 , 2020, Physical Review B.

[81]  A. I. Figueroa,et al.  Element- and Time-Resolved Measurements of Spin Dynamics Using X-ray Detected Ferromagnetic Resonance , 2020, Synchrotron Radiation News.

[82]  L. Hollenberg,et al.  Imaging Domain Reversal in an Ultrathin Van der Waals Ferromagnet , 2020, Advanced materials.

[83]  Hyun Ho Kim,et al.  Observation of the polaronic character of excitons in a two-dimensional semiconducting magnet CrI3 , 2020, Nature Communications.

[84]  Hongjun Gao,et al.  Universal mechanical exfoliation of large-area 2D crystals , 2020, Nature Communications.

[85]  Hyun Ho Kim,et al.  Magnetic-Field-Induced Quantum Phase Transitions in a van der Waals Magnet , 2020, Physical Review X.

[86]  J. Shan,et al.  Gate-tunable spin waves in antiferromagnetic atomic bilayers , 2020, Nature Materials.

[87]  D. Guan,et al.  Spin-split valence bands of the ferromagnetic insulator Cr2Ge2Te6 studied by angle-resolved photoemission spectroscopy , 2020 .

[88]  Kenji Watanabe,et al.  Nearly room temperature ferromagnetism in a magnetic metal-rich van der Waals metal , 2020, Science Advances.

[89]  J. Berakdar,et al.  Steering magnonic dynamics and permeability at exceptional points in a parity–time symmetric waveguide , 2019, Nature Communications.

[90]  Changgu Lee,et al.  First-principles study of ferromagnetic metal Fe5GeTe2 , 2019 .

[91]  Hyung-jun Kim,et al.  Controlling the magnetic anisotropy of van der Waals ferromagnet Fe3GeTe2 through hole doping. , 2019, Nano letters.

[92]  A. Morpurgo,et al.  Determining the phase diagram of atomically thin layered antiferromagnet CrCl3 , 2019, Nature Nanotechnology.

[93]  D. Ralph,et al.  Probing and controlling magnetic states in 2D layered magnetic materials , 2019, Nature Reviews Physics.

[94]  Z. Vardeny,et al.  Observation of exceptional points in magnonic parity-time symmetry devices , 2019, Science Advances.

[95]  J. Shan,et al.  Imaging and control of critical fluctuations in two-dimensional magnets , 2019, Nature Materials.

[96]  Huaibao Tang,et al.  Transition from ferromagnetic semiconductor to ferromagnetic metal with enhanced Curie temperature in Cr2Ge2Te6 via organic ion intercalation. , 2019, Journal of the American Chemical Society.

[97]  Kenji Watanabe,et al.  Magnetic order induced polarization anomaly of Raman scattering in 2D magnet CrI3. , 2019, Nano letters.

[98]  Xiaodong Xu,et al.  Tuning inelastic light scattering via symmetry control in the two-dimensional magnet CrI3 , 2019, Nature Nanotechnology.

[99]  S. Mangin,et al.  Damping of Standing Spin Waves in Bismuth-Substituted Yttrium Iron Garnet as Seen via the Time-Resolved Magneto-Optical Kerr Effect , 2019, Physical Review Applied.

[100]  C. N. Lau,et al.  Distinct magneto-Raman signatures of spin-flip phase transitions in CrI3 , 2019, Nature Communications.

[101]  C. Lutz,et al.  Tuning Single-Atom Electron Spin Resonance in a Vector-Magnetic Field. , 2019, Nano letters.

[102]  J. Simpson,et al.  Quasi-two-dimensional magnon identification in antiferromagnetic FePS3 via magneto-Raman spectroscopy , 2019, Physical Review B.

[103]  H. Cheong,et al.  Raman spectroscopy of two-dimensional magnetic van der Waals materials , 2019, Nanotechnology.

[104]  Jinlan Wang,et al.  High Curie temperature and intrinsic ferromagnetic half-metallicity in two-dimensional Cr3X4 (X = S, Se, Te) nanosheets , 2019, Nanoscale Horizons.

[105]  W. Wulfhekel,et al.  Towards Laterally Resolved Ferromagnetic Resonance with Spin-Polarized Scanning Tunneling Microscopy , 2019, Nanomaterials.

[106]  Joshua E. Goldberger,et al.  Pressure-controlled interlayer magnetism in atomically thin CrI3 , 2019, Nature Materials.

[107]  Michael A. McGuire,et al.  Switching 2D magnetic states via pressure tuning of layer stacking , 2019, Nature Materials.

[108]  F. Klose,et al.  Two‐Dimensional Magnets: Forgotten History and Recent Progress towards Spintronic Applications , 2019, Advanced Functional Materials.

[109]  K. Novoselov,et al.  Magnetic 2D materials and heterostructures , 2019, Nature Nanotechnology.

[110]  Y. Yu,et al.  Quantum anomalous Hall effect in intrinsic magnetic topological insulator MnBi2Te4 , 2019, Science.

[111]  Xiaodong Xu,et al.  Atomically Thin CrCl3: An In-Plane Layered Antiferromagnetic Insulator. , 2019, Nano letters.

[112]  M. Deb,et al.  Topological phases of higher Chern numbers in Kitaev–Heisenberg ferromagnet with further-neighbor interactions , 2019, Journal of physics. Condensed matter : an Institute of Physics journal.

[113]  S. Louie,et al.  Physical origin of giant excitonic and magneto-optical responses in two-dimensional ferromagnetic insulators , 2019, Nature Communications.

[114]  Xiaodong Xu,et al.  Ferromagnetism Near Room Temperature in the Cleavable van der Waals Crystal Fe5GeTe2. , 2019, ACS nano.

[115]  B. Buchner,et al.  Spin-glass state and reversed magnetic anisotropy induced by Cr doping in the Kitaev magnet α−RuCl3 , 2019, Physical Review B.

[116]  G. Eda,et al.  Spin dynamics study in layered van der Waals single-crystal Cr2Ge2Te6 , 2019, Physical Review B.

[117]  P. Jarillo-Herrero,et al.  Dynamical Slowing-Down in an Ultrafast Photoinduced Phase Transition. , 2019, Physical review letters.

[118]  J. Pearson,et al.  Optical Detection of Phase-Resolved Ferromagnetic Resonance in Epitaxial FeCo Thin Films , 2019, IEEE Transactions on Magnetics.

[119]  T. Yu,et al.  Direct Photoluminescence Probing of Ferromagnetism in Monolayer Two-Dimensional CrBr3. , 2019, Nano letters.

[120]  P. Jarillo-Herrero,et al.  Gigahertz Frequency Antiferromagnetic Resonance and Strong Magnon-Magnon Coupling in the Layered Crystal CrCl_{3}. , 2019, Physical review letters.

[121]  Xiang Zhang,et al.  Two-dimensional magnetic crystals and emergent heterostructure devices , 2019, Science.

[122]  Yasunobu Nakamura,et al.  Hybrid quantum systems based on magnonics , 2019, Applied Physics Express.

[123]  A. Morpurgo,et al.  Probing magnetism in 2D materials at the nanoscale with single-spin microscopy , 2019, Science.

[124]  J. Goldberger,et al.  Fundamental Spin Interactions Underlying the Magnetic Anisotropy in the Kitaev Ferromagnet CrI_{3}. , 2019, Physical review letters.

[125]  J. Haigh,et al.  Low-impedance superconducting microwave resonators for strong coupling to small magnetic mode volumes , 2019, Physical Review B.

[126]  Cheol-Hwan Park,et al.  Suppression of magnetic ordering in XXZ-type antiferromagnetic monolayer NiPS3 , 2019, Nature Communications.

[127]  J. Pearson,et al.  Simultaneous Optical and Electrical Spin-Torque Magnetometry with Phase-Sensitive Detection of Spin Precession , 2019, Physical Review Applied.

[128]  Shangjie Tian,et al.  Ferromagnetic van der Waals Crystal VI3. , 2018, Journal of the American Chemical Society.

[129]  D. Mandrus,et al.  Magnetism in two-dimensional van der Waals materials , 2018, Nature.

[130]  Peng Wang,et al.  Screening and Design of Novel 2D Ferromagnetic Materials with High Curie Temperature above Room Temperature. , 2018, ACS applied materials & interfaces.

[131]  B. Koopmans,et al.  Integrating all-optical switching with spintronics , 2018, Nature Communications.

[132]  R. Ewings,et al.  Magnetic exchange parameters and anisotropy of the quasi-two-dimensional antiferromagnet NiPS3 , 2018, Physical Review B.

[133]  Hyun Ho Kim,et al.  Raman fingerprint of two terahertz spin wave branches in a two-dimensional honeycomb Ising ferromagnet , 2018, Nature Communications.

[134]  X. Duan,et al.  Synthesis of Ultrathin Metallic MTe2 (M = V, Nb, Ta) Single‐Crystalline Nanoplates , 2018, Advanced materials.

[135]  M. Stone,et al.  Topological Spin Excitations in Honeycomb Ferromagnet CrI3 , 2018, Physical Review X.

[136]  Xuan Luo,et al.  Atomic scale electronic structure of the ferromagnetic semiconductor Cr2Ge2Te6. , 2018, Science bulletin.

[137]  Y. Tserkovnyak,et al.  Quantum-Impurity Relaxometry of Magnetization Dynamics. , 2018, Physical review letters.

[138]  Hyun Ho Kim,et al.  One Million Percent Tunnel Magnetoresistance in a Magnetic van der Waals Heterostructure. , 2018, Nano letters.

[139]  Jie Shan,et al.  Electric-field switching of two-dimensional van der Waals magnets , 2018, Nature Materials.

[140]  Changgu Lee,et al.  Hard magnetic properties in nanoflake van der Waals Fe3GeTe2 , 2018, Nature Communications.

[141]  Wang Yao,et al.  Two-dimensional itinerant ferromagnetism in atomically thin Fe3GeTe2 , 2018, Nature Materials.

[142]  Yuanbo Zhang,et al.  Gate-tunable room-temperature ferromagnetism in two-dimensional Fe3GeTe2 , 2018, Nature.

[143]  D. G. Joshi Topological excitations in the ferromagnetic Kitaev-Heisenberg model , 2018, Physical Review B.

[144]  Laurent Bellaiche,et al.  Interplay between Kitaev interaction and single ion anisotropy in ferromagnetic CrI3 and CrGeTe3 monolayers , 2018, npj Computational Materials.

[145]  J. Gupta,et al.  Room Temperature Intrinsic Ferromagnetism in Epitaxial Manganese Selenide Films in the Monolayer Limit. , 2018, Nano letters.

[146]  Jie Shan,et al.  Controlling magnetism in 2D CrI3 by electrostatic doping , 2018, Nature Nanotechnology.

[147]  Michael A. McGuire,et al.  Electrical control of 2D magnetism in bilayer CrI3 , 2018, Nature Nanotechnology.

[148]  Raja Das,et al.  Strong room-temperature ferromagnetism in VSe2 monolayers on van der Waals substrates , 2018, Nature Nanotechnology.

[149]  K. Konishi,et al.  Femtosecond activation of magnetoelectricity , 2018 .

[150]  T. Taniguchi,et al.  Probing magnetism in 2D van der Waals crystalline insulators via electron tunneling , 2018, Science.

[151]  Xiaodong Xu,et al.  Giant tunneling magnetoresistance in spin-filter van der Waals heterostructures , 2018, Science.

[152]  Takashi Taniguchi,et al.  Very large tunneling magnetoresistance in layered magnetic semiconductor CrI3 , 2018, Nature Communications.

[153]  Michael A. McGuire,et al.  Ligand-field helical luminescence in a 2D ferromagnetic insulator , 2017, 1710.05550.

[154]  G. Laan Time-resolved X-ray detected ferromagnetic resonance of spin currents , 2017 .

[155]  X. D. Zhu,et al.  Symmetry consideration in zero loop-area Sagnac interferometry at oblique incidence for detecting magneto-optic Kerr effects. , 2017, The Review of scientific instruments.

[156]  R. Dost,et al.  Broadband conversion of microwaves into propagating spin waves in patterned magnetic structures , 2017, 1706.04409.

[157]  B. Hillebrands,et al.  All-optical observation and reconstruction of spin wave dispersion , 2017, Nature Communications.

[158]  Jr.,et al.  Magnetic Behavior and Spin-Lattice Coupling in Cleavable, van der Waals Layered CrCl3 Crystals , 2017, 1706.01796.

[159]  W. Zheng,et al.  The Ultrafast Laser Pump-Probe Technique for Thermal Characterization of Materials With Micro/Nanostructures , 2017 .

[160]  J. Fern'andez-Rossier,et al.  On the origin of magnetic anisotropy in two dimensional CrI3 , 2017, 1704.03849.

[161]  Michael A. McGuire,et al.  Layer-dependent ferromagnetism in a van der Waals crystal down to the monolayer limit , 2017, Nature.

[162]  S. Louie,et al.  Discovery of intrinsic ferromagnetism in two-dimensional van der Waals crystals , 2017, Nature.

[163]  Ronald L. Walsworth,et al.  Control and local measurement of the spin chemical potential in a magnetic insulator , 2016, Science.

[164]  F. Reinhard,et al.  Quantum sensing , 2016, 1611.02427.

[165]  F. Guinea,et al.  Polaritons in layered two-dimensional materials. , 2016, Nature materials.

[166]  D. N. Basov,et al.  Polaritons in van der Waals materials , 2016, Science.

[167]  Jun Zhang,et al.  Raman spectroscopy of atomically thin two-dimensional magnetic iron phosphorus trisulfide (FePS3) crystals , 2016 .

[168]  J. Ryoo,et al.  Ising-Type Magnetic Ordering in Atomically Thin FePS3. , 2016, Nano letters.

[169]  A. Kirilyuk,et al.  Ultrafast nonthermal photo-magnetic recording in transparent medium , 2016, Nature.

[170]  Paul R. C. Kent,et al.  Strong anisotropy and magnetostriction in the two-dimensional Stoner ferromagnet Fe3GeTe2 , 2016 .

[171]  R. McMichael,et al.  Phase-resolved ferromagnetic resonance using heterodyne detection method. , 2016, Physical review. B.

[172]  Qihua Xiong,et al.  Weak Van der Waals Stacking, Wide-Range Band Gap, and Raman Study on Ultrathin Layers of Metal Phosphorus Trichalcogenides. , 2016, ACS nano.

[173]  A. Cavalleri,et al.  An effective magnetic field from optically driven phonons , 2015, Nature Physics.

[174]  J. Sinova,et al.  Spin Hall effects , 2015 .

[175]  C. Lutz,et al.  Electron paramagnetic resonance of individual atoms on a surface , 2015, Science.

[176]  Ania C. Bleszynski Jayich,et al.  Scanned probe imaging of nanoscale magnetism at cryogenic temperatures with a single-spin quantum sensor. , 2015, Nature nanotechnology.

[177]  Yasunobu Nakamura,et al.  Quantum magnonics: The magnon meets the superconducting qubit , 2015, 1508.05290.

[178]  S. D. Conte,et al.  Macrospin dynamics in antiferromagnets triggered by sub-20 femtosecond injection of nanomagnons , 2015, Nature Communications.

[179]  R. Duine,et al.  New perspectives for Rashba spin-orbit coupling. , 2015, Nature materials.

[180]  Ivan S. Maksymov,et al.  Broadband stripline ferromagnetic resonance spectroscopy of ferromagnetic films, multilayers and nanostructures , 2015 .

[181]  Y. P. Chen,et al.  Spin Pumping in Electrodynamically Coupled Magnon-Photon Systems. , 2015, Physical review letters.

[182]  Stuart Parkin,et al.  Memory on the racetrack. , 2015, Nature nanotechnology.

[183]  Brian C. Sales,et al.  Coupling of Crystal Structure and Magnetism in the Layered, Ferromagnetic Insulator CrI3 , 2015 .

[184]  T. Higuchi,et al.  Writing and reading of an arbitrary optical polarization state in an antiferromagnet , 2014, Nature Photonics.

[185]  Yasunobu Nakamura,et al.  Coherent coupling between a ferromagnetic magnon and a superconducting qubit , 2014, Science.

[186]  P. Li,et al.  Nanometer-Thick Yttrium Iron Garnet Films With Extremely Low Damping , 2014, IEEE Magnetics Letters.

[187]  H. Tang,et al.  Strongly coupled magnons and cavity microwave photons. , 2014, Physical review letters.

[188]  T. Miyazaki,et al.  Gilbert damping constants of Ta/CoFeB/MgO(Ta) thin films measured by optical detection of precessional magnetization dynamics , 2014 .

[189]  S. Le,et al.  Perpendicular spin transfer torque magnetic random access memories with high spin torque efficiency and thermal stability for embedded applications (invited) , 2014 .

[190]  M. Fejer,et al.  A scanning, all-fiber Sagnac interferometer for high resolution magneto-optic measurements at 820 nm. , 2014, The Review of scientific instruments.

[191]  M. Cinchetti,et al.  Engineered materials for all-optical helicity-dependent magnetic switching. , 2014, Nature materials.

[192]  J. S. Lee,et al.  Spin-transfer torque generated by a topological insulator , 2014, Nature.

[193]  V. Cros,et al.  Spin-torque building blocks. , 2014, Nature materials.

[194]  A. Fert,et al.  Spin-to-charge conversion using Rashba coupling at the interface between non-magnetic materials , 2013, Nature Communications.

[195]  S. Auffret,et al.  Detection of microwave phase variation in nanometre-scale magnetic heterostructures , 2013, Nature Communications.

[196]  A. Hoffmann Spin Hall Effects in Metals , 2013, IEEE Transactions on Magnetics.

[197]  R. Moriya,et al.  Directional control of spin-wave emission by spatially shaped light , 2012, Nature Photonics.

[198]  Takayuki Kawahara,et al.  Spin-transfer torque RAM technology: Review and prospect , 2012, Microelectron. Reliab..

[199]  M. Lukin,et al.  A robust scanning diamond sensor for nanoscale imaging with single nitrogen-vacancy centres. , 2011, Nature nanotechnology.

[200]  M. Harder,et al.  Analysis of the line shape of electrically detected ferromagnetic resonance , 2011, 1105.3236.

[201]  V. Eyert,et al.  Electronic structure and magnetic ordering of the semiconducting chromium trihalides CrCl3, CrBr3, and CrI3 , 2011, Journal of physics. Condensed matter : an Institute of Physics journal.

[202]  M Lakshmanan,et al.  The fascinating world of the Landau–Lifshitz–Gilbert equation: an overview , 2011, Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences.

[203]  D. Ralph,et al.  Spin-torque ferromagnetic resonance induced by the spin Hall effect. , 2010, Physical review letters.

[204]  T. Rasing,et al.  Ultrafast optical manipulation of magnetic order , 2010 .

[205]  Mircea R. Stan,et al.  Advances and Future Prospects of Spin-Transfer Torque Random Access Memory , 2010, IEEE Transactions on Magnetics.

[206]  F. Nori,et al.  Spin oscillations in antiferromagnetic NiO triggered by circularly polarized light. , 2010, Physical review letters.

[207]  Y. Ding,et al.  A compact apparatus for studies of element and phase-resolved ferromagnetic resonance. , 2009, The Review of scientific instruments.

[208]  G. Lanzani,et al.  Coherent phonon dynamics in semiconducting carbon nanotubes: a quantitative study of electron-phonon coupling. , 2009, Physical review letters.

[209]  P. Bruno,et al.  Curie temperatures of fcc and bcc nickel and permalloy: Supercell and Green's function methods , 2008 .

[210]  A. Taroni,et al.  Universal window for two-dimensional critical exponents , 2008, Journal of physics. Condensed matter : an Institute of Physics journal.

[211]  D. Ralph,et al.  Spin transfer torques , 2007, 0711.4608.

[212]  T. Rasing,et al.  All-optical magnetic recording with circularly polarized light. , 2007, Physical review letters.

[213]  G. Goujon,et al.  Element-selective X-ray detected magnetic resonance: a novel application of synchrotron radiation. , 2007, Journal of synchrotron radiation.

[214]  Jian-Gang Zhu,et al.  Magnetic tunnel junctions , 2006 .

[215]  S. Maekawa,et al.  Room-temperature reversible spin Hall effect. , 2006, Physical review letters.

[216]  M. Fejer,et al.  High resolution polar Kerr effect measurements of Sr2RuO4: evidence for broken time-reversal symmetry in the superconducting state. , 2006, Physical review letters.

[217]  M. Tinkham,et al.  Direct electronic measurement of the spin Hall effect , 2006, Nature.

[218]  M. Fejer,et al.  Modified Sagnac interferometer for high-sensitivity magneto-optic measurements at cryogenic temperatures , 2006, cond-mat/0603284.

[219]  P. Kim,et al.  Experimental observation of the quantum Hall effect and Berry's phase in graphene , 2005, Nature.

[220]  A. Geim,et al.  Two-dimensional gas of massless Dirac fermions in graphene , 2005, Nature.

[221]  R. Pisarev,et al.  Ultrafast non-thermal control of magnetization by instantaneous photomagnetic pulses , 2005, Nature.

[222]  K. Novoselov,et al.  Two-dimensional atomic crystals. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[223]  D. D. Awschalom,et al.  Observation of the Spin Hall Effect in Semiconductors , 2004, Science.

[224]  D. Spoddig,et al.  Spin–orbit-coupling effects on g-value and damping factor of the ferromagnetic resonance in Co and Fe films , 2003 .

[225]  S. D. Ganichev,et al.  Spin-galvanic effect , 2002, Nature.

[226]  S. Heinze,et al.  Resolving complex atomic-scale spin structures by spin-polarized scanning tunneling microscopy. , 2001, Physical review letters.

[227]  M. Kleiber,et al.  Topology-induced spin frustrations at the Cr(001) surface studied by spin-polarized scanning tunneling spectroscopy , 2000, Physical review letters.

[228]  P. Champion,et al.  Investigations of amplitude and phase excitation profiles in femtosecond coherence spectroscopy , 2000, physics/0008221.

[229]  S. Heinze,et al.  Real-space imaging of two-dimensional antiferromagnetism on the atomic scale , 2000, Science.

[230]  G. Bihlmayer,et al.  First-principles investigation of the stability of 3d monolayer/Fe(001) against bilayer formation , 2000 .

[231]  Tokura,et al.  Ultrafast spin dynamics and critical behavior in half-metallic ferromagnet: Sr2FeMoO6 , 2000, Physical review letters.

[232]  J. Moodera,et al.  SPIN-TUNNELING IN FERROMAGNETIC JUNCTIONS , 1999 .

[233]  J. Hirsch Spin Hall Effect , 1999, cond-mat/9906160.

[234]  M. Hawley,et al.  Structural and magnetic properties of “expanded” Mn , 1998 .

[235]  M. Farle Ferromagnetic resonance of ultrathin metallic layers , 1998 .

[236]  H. Wider,et al.  V and Cr on Ru surfaces , 1998 .

[237]  J. C. Walker,et al.  Structural and magnetic properties of Mn epitaxially grown on Cu(111) (abstract) , 1997 .

[238]  M. Kuhn,et al.  Growth and structure of ultrathin Cr films on Pt(111) , 1997 .

[239]  Mt Johnson,et al.  Magnetic anisotropy in metallic multilayers , 1996 .

[240]  Merle,et al.  Ultrafast spin dynamics in ferromagnetic nickel. , 1996, Physical review letters.

[241]  Nightingale,et al.  Dynamic exponent of the two-dimensional Ising model and Monte Carlo computation of the subdominant eigenvalue of the stochastic matrix. , 1996, Physical review letters.

[242]  Bernard Dieny,et al.  GIANT MAGNETORESISTANCE IN SPIN-VALVE MULTILAYERS , 1994 .

[243]  Henry,et al.  Structural changes in metastable epitaxial Co/Mn superlattices. , 1994, Physical review. B, Condensed matter.

[244]  B. Heinrich,et al.  Ultrathin metallic magnetic films: magnetic anisotropies and exchange interactions , 1993 .

[245]  M. Wuttig,et al.  LEED structure determination of two ordered surface alloys: Cu(100)-c(2 × 2)Mn and Ni(100)-c(2 × 2)Mn , 1993 .

[246]  S. Bramwell,et al.  Magnetization and universal sub-critical behaviour in two-dimensional XY magnets , 1993 .

[247]  F. Jona,et al.  New metastable phase of Mn by epitaxy on Cu{111} , 1992 .

[248]  Eom,et al.  Measurement of the spontaneous polar Kerr effect in YBa2Cu3O7 and Bi2Sr2CaCu2O8. , 1992, Physical review letters.

[249]  Tian,et al.  Atomic and electronic structure of thin films of Mn on Pd{111} , 1992, Physical review. B, Condensed matter.

[250]  T. Moriya,et al.  Theory of itinerant electron magnetism , 1991 .

[251]  P. Bloemen,et al.  Magnetic anisotropy of multilayers , 1991 .

[252]  Eom,et al.  Test for nonreciprocal circular birefringence in YBa2Cu3O7 thin films as evidence for broken time-reversal symmetry. , 1990, Physical review letters.

[253]  S. Blügel,et al.  Magnetic properties of 3d transition metal monolayers on metal substrates , 1989 .

[254]  Willem Hoving,et al.  A comparison of the magnetic anisotropy of [001] and [111] oriented Co/Pd Multilayers , 1989 .

[255]  Binasch,et al.  Enhanced magnetoresistance in layered magnetic structures with antiferromagnetic interlayer exchange. , 1989, Physical review. B, Condensed matter.

[256]  Etienne,et al.  Giant magnetoresistance of (001)Fe/(001)Cr magnetic superlattices. , 1988, Physical review letters.

[257]  Warden,et al.  Derivation of the resonance frequency from the free energy of ferromagnets. , 1988, Physical review. B, Condensed matter.

[258]  Meier,et al.  Lack of evidence for ferromagnetism in the vanadium monolayer on Ag(001). , 1988, Physical review. B, Condensed matter.

[259]  Lechner,et al.  Direct observation of critical phenomena by incoherent neutron scattering. , 1986, Physical review letters.

[260]  U. Gradmann,et al.  Magnetic properties of very thin films , 1985 .

[261]  T. Moriya Recent progress in the theory of itinerant electron magnetism , 1979 .

[262]  H. Capellmann Theory of itinerant ferromagnetism in the 3-d transition metals , 1979 .

[263]  R. Prange,et al.  Local-band theory of itinerant ferromagnetism. II. Spin waves , 1977 .

[264]  I. Yamamoto,et al.  EPR g-Shift and Anisotropic Magnetic Susceptibility in K 2 MnF 4 , 1977 .

[265]  Bertrand I. Halperin,et al.  Theory of dynamic critical phenomena , 1977, Physics Today.

[266]  M. Julliere Tunneling between ferromagnetic films , 1975 .

[267]  U. Gradmann Ferromagnetism near surfaces and in thin films , 1974 .

[268]  M. Lines Magnetism in Two Dimensions , 1969 .

[269]  J. Müller,et al.  Very Thin (2–200 Å) Ferromagnetic NiFe Films , 1968 .

[270]  T. Moriya Theory of Absorption and Scattering of Light by Magnetic Crystals , 1968 .

[271]  M. Lines Examples of two dimensional ordered magnetic systems , 1967 .

[272]  N. Mermin,et al.  Absence of Ferromagnetism or Antiferromagnetism in One- or Two-Dimensional Isotropic Heisenberg Models , 1966 .

[273]  Y. Tanabe,et al.  Magnon-Induced Electric Dipole Transition Moment , 1965 .

[274]  J. W. Halley,et al.  Odd-Exciton Magnon Interaction and Explanation of Anomalous Far-Infrared Absorption in Antiferromagnetic Fe F 2 , 1965 .

[275]  J. Dillon,et al.  Magnetization, Resonance, and Optical Properties of the Ferromagnet CrI3 , 1965 .

[276]  R. Plumier Neutron Diffraction Study of Magnetic Stacking Faults in Antiferromagnetic K2NiF4 , 1964 .

[277]  M. K. Wilkinson,et al.  Neutron diffraction investigation of antiferromagnetism in CrCl3 , 1961 .

[278]  H. Suhl Ferromagnetic Resonance in Nickel Ferrite Between One and Two Kilomegacycles , 1955 .

[279]  C. Kittel On the Theory of Ferromagnetic Resonance Absorption , 1948 .

[280]  L. Onsager Crystal statistics. I. A two-dimensional model with an order-disorder transition , 1944 .

[281]  Yi Du,et al.  Recent advances in two-dimensional van der Waals magnets , 2022, Microstructures.

[282]  R. Zhang 张,et al.  Magnetic dynamics of two-dimensional itinerant ferromagnet Fe3GeTe2 , 2021, Chinese Physics B.

[283]  Kaushik Roy,et al.  Spin-Transfer Torque Devices for Logic and Memory: Prospects and Perspectives , 2016, IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems.

[284]  J. P. Whitehead,et al.  Dipolar effects in magnetic thin films and quasi-two-dimensional systems , 2000 .

[285]  Gurney,et al.  Giant magnetoresistive in soft ferromagnetic multilayers. , 1991, Physical review. B, Condensed matter.

[286]  V. M. Edelstein Spin polarization of conduction electrons induced by electric current in two-dimensional asymmetric electron systems , 1990 .

[287]  P. Bruno,et al.  Tight-binding approach to the orbital magnetic moment and magnetocrystalline anisotropy of transition-metal monolayers. , 1989, Physical review. B, Condensed matter.

[288]  Z. Frait,et al.  Spin-Wave Resonance in Metals , 1988 .

[289]  S. Barnes Theory of electron spin resonance of magnetic ions in metals , 1981 .

[290]  K. Nagata Short range order effects on EPR frequencies in antiferromagnets , 1977 .

[291]  T. Phillips,et al.  Spin waves in ferromagnets , 1966 .

[292]  J. Artman Ferromagnetic Resonance in Metal Single Crystals , 1957 .

[293]  T. Gilbert A Lagrangian Formulation of the Gyromagnetic Equation of the Magnetization Field , 1955 .