Publications: Mark Hoefer
| Title | Year | Citations | Score |
|---|---|---|---|
|
Dispersive shock waves and modulation theory
Physica D: Nonlinear Phenomena 333, 11-65, 2016 View Details |
2016 | 300 | 94.1% |
|
Spin torque–generated magnetic droplet solitons
Science 339 (6125), 1295-1298, 2013 View Details |
2013 | 325 | 93.2% |
|
Generation of dark-bright soliton trains in superfluid-superfluid counterflow
Physical review letters 106 (6), 065302, 2011 View Details |
2011 | 344 | 92.6% |
|
Dispersive and classical shock waves in Bose-Einstein condensates and gas dynamics
Physical Review A 74 (2), 023623, 2006 View Details |
2006 | 348 | 91.0% |
|
Observation of Faraday waves in a Bose-Einstein condensate
Physical review letters 98 (9), 095301, 2007 View Details |
2007 | 262 | 88.0% |
|
Dark-dark solitons and modulational instability in miscible two-component Bose-Einstein condensates
Physical Review A 84 (4), 041605, 2011 View Details |
2011 | 192 | 85.6% |
|
Theory for a dissipative droplet soliton excited by a spin torque nanocontact
Physical Review B 82 (5), 054432, 2010 View Details |
2010 | 185 | 83.8% |
|
Formation of dispersive shock waves by merging and splitting Bose-Einstein condensates
Physical review letters 101 (17), 170404, 2008 View Details |
2008 | 189 | 83.8% |
|
Dispersive and diffusive-dispersive shock waves for nonconvex conservation laws
SIAM Review 59 (1), 3-61, 2017 View Details |
2017 | 111 | 83.5% |
|
Spin-current-mediated rapid magnon localisation and coalescence after ultrafast optical pumping of ferrimagnetic alloys
Nature communications 10 (1), 1756, 2019 View Details |
2019 | 69 | 80.3% |
|
Beating dark–dark solitons in Bose–Einstein condensates
Journal of Physics B: Atomic, Molecular and Optical Physics 45 (11), 115301, 2012 View Details |
2012 | 98 | 74.0% |
|
Magnetic droplet nucleation boundary in orthogonal spin-torque nano-oscillators
Nature Communications 7 (1), 11209, 2016 View Details |
2016 | 70 | 72.3% |
|
Theory of magnetodynamics induced by spin torque in perpendicularly magnetized thin films
Physical review letters 95 (26), 267206, 2005 View Details |
2005 | 106 | 71.4% |
|
KdV breathers on a cnoidal wave background
Journal of Physics A: Mathematical and Theoretical 56 (18), 185701, 2023 View Details |
2023 | 10 | 71.4% |
|
Propagation and control of nanoscale magnetic-droplet solitons
Physical Review B 85 (21), 214433, 2012 View Details |
2012 | 81 | 69.6% |
|
Confined dissipative droplet solitons in spin-valve nanowires with perpendicular magnetic anisotropy
Physical Review Letters 112 (4), 047201, 2014 View Details |
2014 | 72 | 69.3% |
|
Solitonic dispersive hydrodynamics: theory and observation
Physical review letters 120 (14), 144101, 2018 View Details |
2018 | 49 | 68.2% |
|
Hydrodynamic optical soliton tunneling
Physical Review E 97 (3), 032218, 2018 View Details |
2018 | 47 | 67.2% |
|
Breaking of Galilean invariance in the hydrodynamic formulation of ferromagnetic thin films
Physical Review Letters 118 (1), 017203, 2017 View Details |
2017 | 52 | 66.8% |
|
Dispersive shock waves in viscously deformable media
Journal of Fluid Mechanics 718, 524-557, 2013 View Details |
2013 | 67 | 66.6% |
|
Defect modes and homogenization of periodic Schrödinger operators
SIAM Journal on Mathematical Analysis 43 (2), 971-996, 2011 View Details |
2011 | 67 | 64.0% |
|
Model for a collimated spin-wave beam generated by a single-layer spin torque nanocontact
Physical Review B 77 (14), 144401, 2008 View Details |
2008 | 72 | 63.8% |
|
Spin transfer torque generated magnetic droplet solitons
Journal of Applied Physics 115 (17), 2014 View Details |
2014 | 58 | 63.8% |
|
Shock waves in dispersive hydrodynamics with nonconvex dispersion
SIAM Journal on Applied Mathematics 77 (1), 26-50, 2017 View Details |
2017 | 44 | 62.4% |
|
Soliton–mean field interaction in Korteweg–de Vries dispersive hydrodynamics
Studies in Applied Mathematics 151 (3), 795-856, 2023 View Details |
2023 | 7 | 61.8% |
|
Dispersive hydrodynamics: preface
Physica D: Nonlinear Phenomena 333, 1-5, 2016 View Details |
2016 | 46 | 61.6% |
|
Observation of dispersive shock waves, solitons, and their interactions in viscous fluid conduits
Physical review letters 116 (17), 174501, 2016 View Details |
2016 | 45 | 61.0% |
|
Shock waves in dispersive Eulerian fluids
Journal of Nonlinear Science 24, 525-577, 2014 View Details |
2014 | 52 | 61.0% |
|
Piston dispersive shock wave problem
Physical review letters 100 (8), 84504, 2008 View Details |
2008 | 63 | 60.7% |
|
Dissipative shock waves generated by a quantum-mechanical piston
Nature communications 9 (1), 4665, 2018 View Details |
2018 | 36 | 60.1% |
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Modulation theory solution for nonlinearly resonant, fifth‐order Korteweg–de Vries, nonclassical, traveling dispersive shock waves
Studies in Applied Mathematics 142 (3), 219-240, 2019 View Details |
2019 | 29 | 58.6% |
|
Experimental investigations of linear and nonlinear periodic travelling waves in a viscous fluid conduit
Journal of Fluid Mechanics 954, A14, 2023 View Details |
2023 | 6 | 57.1% |
|
Interaction of linear modulated waves and unsteady dispersive hydrodynamic states with application to shallow water waves
Journal of Fluid Mechanics 875, 1145-1174, 2019 View Details |
2019 | 27 | 56.6% |
|
Observation of self-cavitating envelope dispersive shock waves in yttrium iron garnet thin films
Physical Review Letters 119 (2), 024101, 2017 View Details |
2017 | 33 | 54.8% |
|
Modulation theory for soliton resonance and Mach reflection
Proceedings of the Royal Society A 478 (2259), 20210823, 2022 View Details |
2022 | 9 | 52.3% |
|
Ultrafast perturbation of magnetic domains by optical pumping in a ferromagnetic multilayer
Physical Review B 106 (14), 144422, 2022 View Details |
2022 | 9 | 52.3% |
|
Fermionic shock waves: Distinguishing dissipative versus dispersive regularizations
Physical Review A 88 (1), 013605, 2013 View Details |
2013 | 38 | 52.1% |
|
Discontinuous shock solutions of the Whitham modulation equations as zero dispersion limits of traveling waves
Nonlinearity 33 (7), 3268, 2020 View Details |
2020 | 19 | 51.8% |
|
Solitary wave fission of a large disturbance in a viscous fluid conduit
Journal of Fluid Mechanics 883, A10, 2020 View Details |
2020 | 19 | 51.8% |
|
Matter–wave interference in bose–einstein condensates: A dispersive hydrodynamic perspective
Physica D: Nonlinear Phenomena 238 (15), 1311-1320, 2009 View Details |
2009 | 41 | 51.7% |
|
Creation and Interaction of Dark and Bright Topological Breathers from Soliton-Cnoidal Wave Collisions
arXiv preprint arXiv:2302.11161, 2023 View Details |
2023 | 5 | 51.6% |
|
Whitham modulation theory for the defocusing nonlinear Schrödinger equation in two and three spatial dimensions
Journal of Physics A: Mathematical and Theoretical 56 (2), 025701, 2023 View Details |
2023 | 5 | 51.6% |
|
Oblique interactions between solitons and mean flows in the Kadomtsev–Petviashvili equation
Nonlinearity 34 (6), 3583, 2021 View Details |
2021 | 14 | 51.4% |
|
Symmetry-broken dissipative exchange flows in thin-film ferromagnets with in-plane anisotropy
Physical Review B 96 (13), 134434, 2017 View Details |
2017 | 29 | 51.4% |
|
Dispersive shock waves
Scholarpedia 4 (11), 5562, 2009 View Details |
2009 | 39 | 50.7% |
|
Interactions of dispersive shock waves
Physica D: Nonlinear Phenomena 236 (1), 44-64, 2007 View Details |
2007 | 39 | 50.0% |
|
Nonlinear Schrödinger equations and the universal description of dispersive shock wave structure
Studies in Applied Mathematics 142 (3), 241-268, 2019 View Details |
2019 | 21 | 49.7% |
|
Soliton generation and multiple phases in dispersive shock and rarefaction wave interaction
Physical Review E 80 (1), 016603, 2009 View Details |
2009 | 37 | 49.6% |
|
Attraction, merger, reflection, and annihilation in magnetic droplet soliton scattering
Physical Review B 89 (18), 180409, 2014 View Details |
2014 | 33 | 49.4% |
|
Dispersive Riemann problems for the Benjamin–Bona–Mahony equation
Studies in Applied Mathematics 147 (3), 1089-1145, 2021 View Details |
2021 | 13 | 49.2% |
|
Deterministic drift instability and stochastic thermal perturbations of magnetic dissipative droplet solitons
Physical Review B 93 (14), 144408, 2016 View Details |
2016 | 29 | 49.1% |
|
Propagating two-dimensional magnetic droplets
Physica D: Nonlinear Phenomena 241 (9), 890-901, 2012 View Details |
2012 | 35 | 49.0% |
|
Dynamic soliton–mean flow interaction with non-convex flux
Journal of Fluid Mechanics 928, A21, 2021 View Details |
2021 | 12 | 46.8% |
|
Interactions of large amplitude solitary waves in viscous fluid conduits
Journal of Fluid Mechanics 750, 372-384, 2014 View Details |
2014 | 29 | 46.4% |
|
Modulations of viscous fluid conduit periodic waves
Proceedings of the Royal Society A: Mathematical, Physical and Engineering …, 2016 View Details |
2016 | 25 | 45.3% |
|
Perturbation theory for propagating magnetic droplet solitons
Proceedings of the Royal Society A: Mathematical, Physical and Engineering …, 2015 View Details |
2015 | 25 | 43.8% |
|
Dispersive hydrodynamics in viscous fluid conduits
Physical Review E 88 (2), 023016, 2013 View Details |
2013 | 26 | 43.1% |
|
Theory of two-dimensional oblique dispersive shock waves in supersonic flow of a superfluid
Physical Review A 80 (6), 061601, 2009 View Details |
2009 | 26 | 42.7% |
|
Evolution of truncated and bent gravity wave solitons: the Mach expansion problem
Journal of Fluid Mechanics 909, A24, 2021 View Details |
2021 | 10 | 41.3% |
|
Expansion shock waves in regularized shallow-water theory
Proceedings of the Royal Society A: Mathematical, Physical and Engineering …, 2016 View Details |
2016 | 21 | 41.1% |
|
Analytical theory of modulated magnetic solitons
Physical Review B 88 (18), 184401, 2013 View Details |
2013 | 23 | 40.5% |
|
Dark solitons, dispersive shock waves, and transverse instabilities
Multiscale Modeling & Simulation 10 (2), 306-341, 2012 View Details |
2012 | 23 | 39.8% |
|
Oblique spatial dispersive shock waves in nonlinear Schrodinger flows
SIAM Journal on Applied Mathematics 77 (4), 1352-1374, 2017 View Details |
2017 | 17 | 38.1% |
|
Perspectives on spin hydrodynamics in ferromagnetic materials
Physics Letters A 383 (28), 125858, 2019 View Details |
2019 | 13 | 37.4% |
|
Hydrodynamic description of long-distance spin transport through noncollinear magnetization states: Role of dispersion, nonlinearity, and damping
Physical Review B 99 (18), 184402, 2019 View Details |
2019 | 13 | 37.4% |
|
Solitary wave solutions and their interactions for fully nonlinear water waves with surface tension in the generalized Serre equations
Theoretical and Computational Fluid Dynamics 32, 371-397, 2018 View Details |
2018 | 15 | 37.3% |
|
Computation of high-frequency magnetoelastic waves in layered materials
Physical Review B 107 (9), 094431, 2023 View Details |
2023 | 3 | 35.0% |
|
Vortex-antivortex proliferation from an obstacle in thin film ferromagnets
Physical Review B 95 (13), 134409, 2017 View Details |
2017 | 13 | 32.5% |
|
Integrability, exact reductions and special solutions of the KP–Whitham equations
Nonlinearity 33 (8), 4114, 2020 View Details |
2020 | 9 | 32.0% |
|
Whitham modulation theory for generalized Whitham equations and a general criterion for modulational instability
Studies in Applied Mathematics 147 (2), 724-751, 2021 View Details |
2021 | 7 | 31.6% |
|
Onset of transverse instabilities of confined dark solitons
Physical Review A 94 (1), 013609, 2016 View Details |
2016 | 13 | 31.1% |
|
Ultrafast domain dilation induced by optical pumping in ferromagnetic CoFe/Ni multilayers
NIST, 2020 View Details |
2020 | 7 | 26.6% |
|
Two-dimensional reductions of the Whitham modulation system for the Kadomtsev–Petviashvili equation
Nonlinearity 37 (2), 025012, 2024 View Details |
2024 | 2 | 25.7% |
|
Stochastic ejection of nanocontact droplet solitons via drift instability
Physical Review B 100 (1), 014402, 2019 View Details |
2019 | 7 | 24.7% |
|
Observation of traveling breathers and their scattering in a two-fluid system
Physical Review Letters 131 (14), 147201, 2023 View Details |
2023 | 2 | 21.8% |
|
Spin-piston problem for a ferromagnetic thin film: Shock waves and solitons
Physical Review B 105 (10), 104419, 2022 View Details |
2022 | 3 | 21.0% |
|
Semiclassical dynamics of quasi-one-dimensional, attractive Bose–Einstein condensates
Physics Letters A 375 (3), 726-732, 2011 View Details |
2011 | 6 | 19.5% |
|
Magnonic band structure established by chiral spin-density waves in thin-film ferromagnets
IEEE Magnetics Letters 10, 1-5, 2019 View Details |
2019 | 5 | 19.1% |
|
Controlling dispersive hydrodynamic wavebreaking in a viscous fluid conduit
Physical Review Fluids 4 (7), 074804, 2019 View Details |
2019 | 5 | 19.1% |
|
Dispersive shock waves in Bose-Einstein condensates and nonlinear nano-oscillators in ferromagnetic thin films
Ph. D. Thesis, 2006 View Details |
2006 | 5 | 18.2% |
|
Spin momentum transfer and Oersted field induce a vortex nano-oscillator in thin ferromagnetic film devices
arXiv: cond-mat 609030, 2006 View Details |
2006 | 4 | 15.6% |
|
Stationary expansion shocks for a regularized Boussinesq system
Studies in Applied Mathematics 140 (1), 27-47, 2018 View Details |
2018 | 4 | 14.8% |
|
Spin-injection-generated shock waves and solitons in a ferromagnetic thin film
IEEE Transactions on Magnetics 58 (2), 1-5, 2021 View Details |
2021 | 3 | 14.3% |
|
Interaction of linear modulated waves with unsteady dispersive hydrodynamic states
arXiv preprint arXiv:1812.06593, 2010 View Details |
2010 | 3 | 11.3% |
|
Transverse instabilities of stripe domains in magnetic thin films with perpendicular magnetic anisotropy
Physical Review B 97 (10), 104428, 2018 View Details |
2018 | 2 | 6.9% |
|
Long‐time asymptotics and the radiation condition with time‐periodic boundary conditions for linear evolution equations on the half‐line and experiment
Studies in Applied Mathematics, 2023 View Details |
2023 | 1 | 0.0% |