Simple swimmer at low Reynolds number: three linked spheres.
about
Artificial Molecular MachinesRemote control of self-assembled microswimmers.Versatile microrobotics using simple modular subunits.Active Brownian particles and run-and-tumble particles separate inside a maze.Statistical mechanics and hydrodynamics of bacterial suspensions.Reverse engineering the euglenoid movement.Magnetically controlled ferromagnetic swimmers.The hydrodynamics of a run-and-tumble bacterium propelled by polymorphic helical flagella.Finding the ciliary beating pattern with optimal efficiency.Modelling the fluid mechanics of cilia and flagella in reproduction and development.'Fuelled' motion: phoretic motility and collective behaviour of active colloids.Swimming in granular media.A steering mechanism for phototaxis in Chlamydomonas.Intermediate scattering function of an anisotropic active Brownian particle.Passive swimming in viscous oscillatory flows.Dynamics and stability of a class of low Reynolds number swimmers near a wall.No many-scallop theorem: collective locomotion of reciprocal swimmers.Nano-swimmers in biological membranes and propulsion hydrodynamics in two dimensions.Swarming in viscous fluids: Three-dimensional patterns in swimmer- and force-induced flows.Geometric integrator for Langevin systems with quaternion-based rotational degrees of freedom and hydrodynamic interactions.Swinging motion of active deformable particles in Poiseuille flow.Biomechanics of swimming in developing larval fish.Efficient shapes for microswimming: From three-body swimmers to helical flagella.Effective interactions between inclusions in an active bath.Two-sphere low-Reynolds-number propeller.Non reciprocal skewed rolling of a colloidal wheel due to induced chirality.Buckling Instability Causes Inertial Thrust for Spherical Swimmers at All Scales.Hydrodynamic Choreographies of Microswimmers.Hydrodynamic interactions between a sphere and a number of small particles.Emergent run-and-tumble behavior in a simple model of Chlamydomonas with intrinsic noise.Flagellar synchronization independent of hydrodynamic interactions.Active Brownian motion of emulsion droplets: Coarsening dynamics at the interface and rotational diffusion.Rotation of slender swimmers in isotropic-drag media.Effect of body deformability on microswimming.Microscale swimming: the molecular dynamics approach.Traction reveals mechanisms of wall effects for microswimmers near boundaries.Swimming with stiff legs at low Reynolds number.Three-sphere low-Reynolds-number swimmer with a passive elastic arm.Optimal design of Purcell's three-link swimmer.Stability and dynamics of magnetocapillary interactions.
P2860
Q26783064-3C033602-5E6A-405B-AC6C-1100C3193249Q27307716-BA715F8A-07D7-4BBE-B29A-D5E80D875DC6Q27322731-C94AC3BB-FAD4-4E46-91F6-9CB5207D8E68Q28820753-21E87CEC-C525-45BB-BCC0-D6E4D8834A31Q30490341-FE9A6CE9-4062-47EE-9CF4-43A53F58BBA4Q30528338-4A2B89A4-8428-465A-BBD5-EABBDE6BB859Q30841222-4F66548E-E39E-4754-A4D2-72E92225258BQ33568325-7EFC2BE0-8D14-41E1-AE78-F19A7DC68E26Q35229315-34B08880-974E-46BD-A0E1-5381A8A6A67CQ38055671-61C170F2-A35C-43FB-81A4-8D19CAF2D49EQ39224199-57FC7013-A6F0-4B68-8E55-2E7EEBA15F19Q39457676-C41A4277-0371-40EE-9B2E-983A8DA6A92CQ42277879-E1245637-F7CD-42E6-A6A3-9BC550468E19Q42292938-DB53A5AE-B6F5-4851-A6E8-405F032815AAQ43914352-E080754B-466E-4C77-8E5C-16BFC71D50CBQ45135178-9E066A17-9AB6-4CDC-810D-0FB2000E1DF1Q46085306-6AD8AAFC-A6CF-4ACB-897D-EA856DFC1A56Q46208176-6D78696A-353C-4E54-99E8-03CC0ADD3E36Q46412248-ED619FCB-5336-4758-B81B-9524ECD83BD3Q47575151-EA882205-5295-4B1B-90BA-47AD70EF21A8Q47671850-433D503B-F208-4AFA-9F56-62D64AB21AFCQ47737052-5F50FFAF-561F-4553-BA3D-2C41484F6A4DQ47954968-CEFD4232-8B82-4C77-A59A-B107D1987966Q48048276-E11FB030-81B1-4627-94BA-2A62A99F356AQ48181996-E0C7F7A0-CC3C-4A2D-AAB2-92834982E1BBQ48238173-E968F579-4400-49AB-9CBC-B2A3D66BDD3BQ49495192-2B96E225-96A3-472B-9168-090539E79EF2Q50333525-7AE3B0E7-D1AA-46D6-AE75-2CAE594C4EA1Q50441719-829BDDB2-9763-47EB-8232-75981BB1E669Q50482201-13CFB074-7A33-4CD1-B00D-A3236D128A8EQ50489792-0B5F0CA0-AF9E-4D23-9592-2B6F58331B2BQ50591302-9C348507-1EB6-495B-BB00-C3FBD8D38CBAQ50646654-A33E64D6-114E-432C-8B81-BC8D72700F1FQ50647757-39803D97-9DCB-4B2A-AEAB-3FC036E68A32Q50656815-279F587A-8427-4AA1-8614-3CFCAE4B4CA7Q50723238-99510C32-02DD-49B2-8602-E4082AA8D0CEQ50852635-7BD739B0-7A2C-4670-BED2-A4315317F9C3Q50911661-0A46F559-6B56-4524-A289-8A7CF2B2160BQ50948672-37FA0F85-E7C4-4A9E-A752-79F658C55E82Q50972302-F04F09A5-8F69-44EB-BB0D-740D161DEA83
P2860
Simple swimmer at low Reynolds number: three linked spheres.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh-hant
name
Simple swimmer at low Reynolds number: three linked spheres.
@en
Simple swimmer at low Reynolds number: three linked spheres.
@nl
type
label
Simple swimmer at low Reynolds number: three linked spheres.
@en
Simple swimmer at low Reynolds number: three linked spheres.
@nl
prefLabel
Simple swimmer at low Reynolds number: three linked spheres.
@en
Simple swimmer at low Reynolds number: three linked spheres.
@nl
P2860
P1433
P1476
Simple swimmer at low Reynolds number: three linked spheres.
@en
P2093
Ali Najafi
P2860
P304
P356
10.1103/PHYSREVE.69.062901
P407
P433
P577
2004-06-16T00:00:00Z
P5875
P698
P818
cond-mat/0402070