Virial pressure in systems of spherical active Brownian particles.
about
Phase separation and coexistence of hydrodynamically interacting microswimmers.A theory for the phase behavior of mixtures of active particles.Statistical mechanics of transport processes in active fluids: Equations of hydrodynamics.Active Brownian equation of state: metastability and phase coexistence.Non-equilibrium surface tension of the vapour-liquid interface of active Lennard-Jones particles.Microscopic derivation of the hydrodynamics of active-Brownian-particle suspensions.Pressure in an exactly solvable model of active fluid.Forces in inhomogeneous open active-particle systems.Generalized Archimedes' principle in active fluids.Activity-assisted self-assembly of colloidal particles.Van't Hoff's law for active suspensions: the role of the solvent chemical potential.Mode-coupling theory for active Brownian particles.Memory effects in active particles with exponentially correlated propulsion.Pressure and surface tension of an active simple liquid: a comparison between kinetic, mechanical and free-energy based approaches.Towards a statistical mechanical theory of active fluids.Vapour-liquid coexistence of an active Lennard-Jones fluid.Active Particles with Soft and Curved Walls: Equation of State, Ratchets, and Instabilities.Kinetics of motility-induced phase separation and swim pressure.Effects of hydrodynamic interactions on rectified transport of self-propelled particles.Superfluid Behavior of Active Suspensions from Diffusive Stretching.Applicability of effective pair potentials for active Brownian particles.Active versus Passive Hard Disks against a Membrane: Mechanical Pressure and Instability.Morphology of clusters of attractive dry and wet self-propelled spherical particle suspensions.Ideal bulk pressure of active Brownian particles.Pressure of a gas of underdamped active dumbbells.Dynamical phase transitions in one-dimensional hard-particle systems.
P2860
Q44838588-B19BAC78-1BF2-44E0-AF46-C6BE5FE414C7Q45994708-82F00C79-24ED-40A6-933E-5E01B422E73AQ46049502-E9EE9B54-004E-4B1B-99C3-F71067C09EB0Q47618794-3BBC93EE-5D62-419A-A7A1-0F70B9C131D8Q47704401-FC818B87-5678-4E66-BDEA-4C21E7084597Q47800240-FA03D8CE-3597-4686-A108-1C0474D4D5DFQ48120634-79D38945-5A34-4480-99F3-B80F6A2F2997Q48503231-5A01C3A9-FBCB-4DFA-A540-2E3DBBA538A4Q48503247-FE4F49DF-3BA6-464C-9443-5D3F67447716Q49047514-F09CACA6-46A7-485A-BFFC-F4DCAA377547Q49922488-99AB637B-D993-49B8-A925-C3B6ACD1FCB4Q49959741-84B12A26-89E6-417A-99BA-C2A2B68FA289Q49966140-027BFF40-DC95-43CB-A2A0-EFF1C7190F11Q50225901-8871E66B-1FE8-4993-B8DE-97E2A4622A81Q50244923-62444F69-E02F-445C-B9DB-D7B76DC7BDBFQ50560124-E1AB1E7F-28F6-437B-A490-6726267E7FC5Q50585435-51DF95AD-553A-4CD5-96D6-EFCAA01D16B6Q50888761-1FC0712D-ACE5-4946-953D-511BC1600E13Q51001288-58C6845B-32B0-477A-BD26-0BE23B597751Q51036363-2FDEBA67-D9A3-4622-A2E9-81A6B4820794Q51810117-4960F56B-01F7-48BE-8DE8-41EDB2518DB9Q52384108-3C45268D-B8C1-44E5-A295-93F7371E136DQ52760823-1D88334F-495A-4961-B1DA-69AF5CEBD03FQ52991668-6EB2E0AE-4C7F-4D0A-A8EE-383716A72F6CQ53141599-5E347C1D-668B-424C-AD8E-0ADFF5F883C7Q53190952-5D4F9247-F06D-4C2F-AFB8-A849D6E2359B
P2860
Virial pressure in systems of spherical active Brownian particles.
description
2015 nî lūn-bûn
@nan
2015年の論文
@ja
2015年学术文章
@wuu
2015年学术文章
@zh
2015年学术文章
@zh-cn
2015年学术文章
@zh-hans
2015年学术文章
@zh-my
2015年学术文章
@zh-sg
2015年學術文章
@yue
2015年學術文章
@zh-hant
name
Virial pressure in systems of spherical active Brownian particles.
@en
Virial pressure in systems of spherical active Brownian particles.
@nl
type
label
Virial pressure in systems of spherical active Brownian particles.
@en
Virial pressure in systems of spherical active Brownian particles.
@nl
prefLabel
Virial pressure in systems of spherical active Brownian particles.
@en
Virial pressure in systems of spherical active Brownian particles.
@nl
P2860
P356
P1433
P1476
Virial pressure in systems of spherical active Brownian particles.
@en
P2093
Adam Wysocki
Gerhard Gompper
P2860
P304
P356
10.1039/C5SM01412C
P577
2015-07-29T00:00:00Z