|
83
|
Hydrodynamic
fluctuations in confined emulsions
N.
Desreumaux, J.-B. Caussin, R. Jeanneret, E. Lauga and
Denis Bartolo, submitted. |
|
82
|
Waving
motion and fluid transport in a generalized Newtonian
fluid
J. R. Velez-Cordero and E.
Lauga,
submitted. |
|
81
|
Superdiffusion
of active particles in shear flows
M.
Sandoval and E. Lauga,
submitted.
|
2013
|
80
|
Spontaneous
autophoretic motion of isotropic particles
S. Michelin, E. Lauga,
and D. Bartolo,
Phys. Fluids
(to appear), 2013. |
|
79
|
Low-Reynolds
number swimming in a capillary tube
L. Zhu, E. Lauga and L. Brandt,
J.
Fluid Mech. (to
appear), 2013. |
|
78
|
An
introduction to the hydrodynamics of locomotion
on small scales
E.
Lauga, Les Houches 2012 Summer School Proceedings,
Oxford University Press, 2013.
pdf
|
|
77
|
Fluid
elasticity increases the locomotion of flexible
swimmers
J.
Espinosa-Garcia, E. Lauga, and R. Zenit,
Phys. Fluids
25, 031701, 2013.
pdf |
|
76
|
Crawling
scallop: Friction-based locomotion with one degree of
freedom
G. Wagner and E. Lauga,
J. Theor. Biol. 324, 42-51,
2013.
pdf |
|
75 |
Hydrodynamics
of confined active fluids
T. Brotto, J.-B. Caussin, E. Lauga,
and D. Bartolo,
Phys.
Rev.
Lett.
110, 038101, 2013.
pdf |
|
74
|
Elastocapillary
self-folding: buckling, wrinkling, and collapse of
floating filaments
A. A. Evans, S. E. Spagnolie, D.
Bartolo, and E. Lauga,
Soft Matter 9, 1711-1720,
2013.
pdf |
|
73
|
Unsteady
feeding and optimal strokes of model ciliates
S. Michelin and E. Lauga,
J.
Fluid Mech.
715, 1-31, 2013. pdf
|
2012
|
72 |
Micropropulsion
and microrheology in complex fluids via symmetry
breaking
O. S. Pak, L. Zhu, L Brandt, and E. Lauga,
Phys. Fluids, 24,
103102, 2012.
pdf |
|
71 |
Dance
of the Microswimmers
E.
Lauga, and R. E. Goldstein,
Phys.
Today, 65
(9), 30, 2012.
pdf |
|
70 |
Active
and driven hydrodynamic crystals
N. Desreumaux, N. Florent, E. Lauga, and D.
Bartolo,
Eur.
Phys. J. E, 35,
68, 2012.
pdf |
|
69 |
Viscous
Marangoni propulsion
E.
Lauga and
A. M. J. Davis, J.
Fluid Mech., 705,
120–133, 2012. pdf |
|
68 |
Kinematics
of the most efficient cilium
C.
Eloy and E.
Lauga, Phys.
Rev.
Lett., 109,
038101, 2012.
pdf
|
|
67 |
Buckling
instability of squeezed droplets
G.
Elfring and E. Lauga, Phys.
Fluids, 24,
072102, 2012.
pdf |
|
66 |
Self-propulsion
in viscoelastic fluids: pushers vs. pullers
L.
Zhu, E. Lauga and L. Brandt, Phys.
Fluids, 24,
051902, 2012. pdf |
|
65 |
Hydrodynamics
of self-propulsion near a boundary: predictions and
accuracy of far-field approximations
S.
E. Spagnolie and
E. Lauga, J.
Fluid Mech., 700,
105-147, 2012. pdf |
|
64 |
Hydrodynamics
of the double-wave structure of insect spermatozoa
flagella
O. S. Pak, S. E. Spagnolie, and E. Lauga, J.
Roy. Soc. Interface, 9,
1908–1924, 2012. pdf
|
2011 |
63 |
Cargo-towing
fuel-free magnetic nanoswimmers for targeted drug
delivery
W. Gao, D. Kagan, O. S. Pak, C. Clawson, S.
Campuzano, E. Chuluun- Erdene, E. Fullerton, L. Zhang,
E. Lauga and J. Wang, Small,
8, 460–467,
2011. pdf
Highlighted
in Chemistry
Views. |
|
62 |
Energetics
of synchronized states in three-dimensional beating
flagella
C. Mettot and E. Lauga, Phys.
Rev. E, 84, 061905,
2011. pdf
Also
selected
to appear in the Virtual
Journal of Biological Physics Research,
December 15 2011 (http://www.vjbio.org). |
|
61 |
Instabilities
and global order in concentrated suspensions of
spherical microswimmers
A. A. Evans, T. Ishikawa, T. Yamaguchi, and E.
Lauga, Phys.
Fluids, 23,
111702, 2011. pdf
Featured
as
“Research Highlights’’ on the Physics
of Fluids
web site. |
|
60 |
Stability
and non-linear response of one-dimensional
microfluidic-particle streams
N. Champagne, E. Lauga, and D. Bartolo, Soft
Matter, 7,
11082-11085, 2011. pdf |
|
59 |
Optimal
feeding is optimal swimming for all Péclet numbers
S.
Michelin
and E. Lauga, Phys.
Fluids, 23,
101901, 2011. pdf
Also
selected
to appear in the Virtual
Journal of Biological Physics Research, October
15 2011 (http://www.vjbio.org). |
|
58 |
Fluid
transport by active elastic membranes
A. A. Evans and E. Lauga, Phys.
Rev. E, 84,
031924, 2011. pdf
Also
selected
to appear in the Virtual
Journal of Biological Physics Research, October
1 2011 (http://www.vjbio.org). |
|
57 |
Taylor's
swimming sheet: Analysis and improvement of the
perturbation series
M. Sauzade, G. J. Elfring, and
E. Lauga, Physica D.,
240, 1567-1573,
2011. pdf
(Special
issue of the journal in celebration of the career of
Steve Childress) |
|
56 |
High-speed
propulsion of flexible nanowire motors: theory and
experiments
O.
S. Pak, W. Gao, J. Wang, and E. Lauga, Soft
Matter,
7, 8169-8181, 2011.
pdf
Highlighted
in Chemistry
World.
|
|
55 |
Extensibility
enables locomotion under isotropic drag
O.
S. Pak and E. Lauga, Phys.
Fluids, 23,
081702, 2011.
pdf
Also
selected
to appear in the Virtual
Journal of Biological Physics Research,
September 1 2011 (http://www.vjbio.org). |
|
54 |
A
two-dimensional model of low-Reynolds number swimming
beneath a free surface
D. Crowdy, S.
Lee,
O. Samson,
E. Lauga, and
A. E. Hosoi,
J. Fluid Mech,
681, 24-47, 2011. pdf |
|
53 |
Emergency
cell swimming
E.
Lauga, Proc. Natl.
Acad. Sci. USA, 108,
7655-7656, 2011. pdf |
|
52 |
Enhanced
diffusion by reciprocal swimming
E.
Lauga, Phys.
Rev.
Lett., 106,
178101, 2011. pdf
Also
selected
to appear in the Virtual
Journal of Biological Physics Research, May 1
2011 (http://www.vjbio.org).
|
|
51 |
Superhydrophobic
surfaces: A smooth future?
L. Bocquet and E. Lauga, Nature
Mat., 10,
334-337, 2011. pdf |
|
50 |
Synchronization
of flexible sheets
G.
J. Elfring and
E. Lauga, J. Fluid.
Mech., 674, 163–173,
2011. pdf |
|
49 |
Life
around the scallop theorem
E. Lauga,
Soft Matter, 7,
3060 - 3065, 2011.
pdf
|
|
48 |
Comparative
hydrodynamics of bacterial polymorphism
S.
E. Spagnolie and
E. Lauga, Phys.
Rev.
Lett.,
106, 058103,
2011.
pdf
Also
selected
to appear in the Virtual
Journal of Biological Physics Research,
February 15 2011 (http://www.vjbio.org). |
|
47 |
Passive
hydrodynamic synchronization of two-dimensional
swimming cells
G.
J. Elfring and
E. Lauga, Phys.
Fluids,
23, 011902,
2011. pdf
Also
selected
to appear in the Virtual
Journal of Biological Physics Research, January
15 2011 (http://www.vjbio.org).
|
|
46 |
Locomotion
by tangential deformation in a polymeric fluid
L. Zhu, M. Do-Quang, E. Lauga and L. Brandt, Phys.
Rev. E,
83, 011901,
2011. pdf
Also
selected
to appear in the Virtual
Journal of Biological Physics Research, January
15 2011 (http://www.vjbio.org).
|
2010 |
45 |
Mechanical
aspects of biological locomotion
A. E. Hosoi
and E. Lauga, Exp.
Mech., 50,
1259-1261, 2010. pdf
Guest
editorial,
special issue of Experimental
Mechanics on locomotion. |
|
44 |
Efficiency
optimization and symmetry-breaking in a model of
ciliary locomotion
S. Michelin
and E. Lauga, Phys.
Fluids, 22,
111901, 2010. pdf
Featured
as
“Research Highlights’’ on the
Physics
of Fluids
web site.
Also
selected
to appear in the Virtual
Journal of Biological Physics Research,
November 15 2010 (http://www.vjbio.org).
|
|
43 |
Propulsion
by passive filaments and active flagella near
boundaries
A. A. Evans and E. Lauga, Phys.
Rev. E,
82, 041915, 2010.
pdf
Also
selected
to appear in the Virtual
Journal of Biological Physics Research,
November 1 2010 (http://www.vjbio.org).
|
|
42 |
Hydrodynamic
friction of fakir-like super-hydrophobic surfaces
A.
M. J. Davis and E. Lauga, J.
Fluid
Mech., 661, 402-411,
2010.
pdf
|
|
41 |
Jet
propulsion without inertia
S. E. Spagnolie and E. Lauga, Phys.
Fluids, 22,
081902,
2010. pdf
Featured
as
“Research Highlights’’ on the Physics
of Fluids web site.
|
|
40 |
Stokesian
jellyfish: Viscous locomotion of bilayer vesicles
A. A. Evans, S. E. Spagnolie and E. Lauga, Soft
Matter,
6, 1737–1747,
2010. pdf
Also
selected
to appear in the Virtual
Journal of Biological Physics Research, April
15 2010 (http://www.vjbio.org).
|
|
39 |
The
long-time dynamics of two hydrodynamically-coupled
swimming cells
S. Michelin
and E. Lauga, Bull.
Math. Biol., 72,
973-1005, 2010. pdf
|
|
38 |
Pumping
by flapping in a viscoelastic fluid
O. S. Pak,
T. Normand and E. Lauga, Phys.
Rev. E,
81, 036312, 2010.
pdf
|
|
37 |
Two-dimensional
flagellar synchronization in viscoelastic fluids
G.
J. Elfring,
O. S. Pak,
and E. Lauga, J.
Fluid
Mech., 646,
505-515, 2010. pdf
|
|
36 |
The
optimal elastic flagellum
S.
E. Spagnolie and E. Lauga, Phys.
Fluids,
22, 031901, 2010.
pdf
Also
selected
to appear in the Virtual
Journal of Biological Physics Research, March
15 2010 (http://www.vjbio.org). |
|
35 |
Shaking-induced
motility in suspensions of soft active particles
D.
Bartolo and E.
Lauga, Phys.
Rev. E,
81, 026312, 2010. pdf
|
|
34 |
The
transient swimming of a waving sheet
O.
S. Pak
and E. Lauga, Proc.
Roy. Soc. A, 466,
107–126, 2010. pdf
|
2009 |
33 |
The
friction of a mesh-like super-hydrophobic surface
A.
M. J. Davis and E. Lauga, Phys.
Fluids, 21,
113101, 2009. pdf |
|
32 |
The
hydrodynamics of swimming microorganisms
E.
Lauga and T. R. Powers, Rep.
Prog. Phys. 72,
096601, 2009.
pdf |
|
31 |
Hydrodynamic
phase locking of swimming microorganisms
G. J. Elfring
and E. Lauga, Phys.
Rev.
Lett., 103,
088101, 2009. pdf (Editors'
suggestion)
Also selected to appear in the Virtual
Journal of Biological Physics Research, August
15 2009 (http://www.vjbio.org).
|
|
30
|
Influence
of slip on the dynamics of two-dimensional wakes
D.
Legendre, E. Lauga and J. Magnaudet, J.
Fluid
Mech.,
633, 437-447,
2009. pdf
|
|
29 |
Capillary
instability on a hydrophilic stripe
R.
L. Speth and E. Lauga, New
J. Phys, 11,
075024, 2009. pdf
(Special
issue of the journal on "Nano- and Microfluidics")
|
|
28 |
Life
at high Deborah number
E.
Lauga, Europhys.
Lett. 86,
64001, 2009.
pdf
|
|
27 |
Adhesion
transition of flexible sheets
A.
A. Evans and E. Lauga, Phys.
Rev. E, 79, 066116,
2009.
pdf
|
|
26 |
Reciprocal
locomotion of dense swimmers in Stokes flow
D.
Gonzalez-Rodriguez and E. Lauga, J.
Phys.: Condens. Matter,
21,
204103,
2009. pdf
(Special
issue of the journal on "Swimming at Low Reynolds
Numbers") |
|
25 |
Geometric
transition in friction for flow over a bubble mattress
A.
M. J. Davis and E. Lauga, Phys.
Fluids, 21,
011701, 2009.
pdf
|
2008 |
24 |
Flapping
motion and force generation in a viscoelastic fluid
T.
Normand and E. Lauga, Phys.
Rev
E, 78,
061907, 2008.
pdf
Also
selected
to appear in the Virtual
Journal
of Biological Physics Research, December 15
2008 (http://www.vjbio.org). |
|
23 |
No
many-scallop theorem: Collective locomotion of
reciprocal swimmers
E.
Lauga and D. Bartolo, Phys.
Rev.
E, 78,
030901,
2008.
pdf
Also
selected to appear in the Virtual
Journal of Biological Physics Research, October
1 2008 (http://www.vjbio.org).
|
|
22
|
Crawling
beneath the free surface: Water snail locomotion
S. Lee, J.
W. M. Bush, A.
E. Hosoi and E. Lauga, Phys.
Fluids, 20,
082106, 2008. pdf
|
|
21 |
Soft
swimming: Exploiting deformable interfaces for
low-Reynolds number locomotion
R. Trouilloud, T.
S. Yu, A.
E. Hosoi and E. Lauga, Phys.
Rev.
Lett. 101,
048102, 2008. pdf
Also
selected to appear in the Virtual
Journal of Nanoscale Science and Technology,
August 4 2008 (http://www.vjnano.org).
|
|
20 |
Hydrodynamic
attraction of swimming microorganisms by surfaces
A. P. Berke, L. Turner, H. C. Berg and E. Lauga,
Phys. Rev. Lett., 101,
038102, 2008. pdf
Also
selected to appear in the Virtual
Journal of Biological Physics Research, August
1 2008 (http://www.vjbio.org).
|
2007 |
19 |
Microfluidics:
The
no-slip
boundary
condition
E.
Lauga,
M. P. Brenner and H. A. Stone, in Handbook
of Experimental Fluid Dynamics (Chapter
19)
C. Tropea, A. Yarin, J. F. Foss (Eds.), Springer, 2007.
ISBN:
978-3-540-25141-5
pdf
of chapter book
website |
|
18 |
Propulsion
in a viscoelastic fluid
E. Lauga, Phys.
Fluids,
19,
083104, 2007. pdf
Also
selected to appear in the Virtual
Journal of Biological Physics Research,
September 1 2007 (http://www.vjbio.org). |
|
17 |
Continuous
breakdown of Purcell's scallop theorem with inertia
E. Lauga, Phys.
Fluids,
19,
061703,
2007.
pdf
Also
selected to appear in the Virtual
Journal of Biological Physics Research, July 1
2007 (http://www.vjbio.org). |
|
16 |
Floppy
swimming: Viscous locomotion of actuated elastica
E.
Lauga, Phys.
Rev.
E,
75,
041916, 2007.
pdf
Also
selected to appear in the Virtual
Journal of Biological Physics Research, May 1
2007 (http://www.vjbio.org).
|
2006 |
15 |
Tuning
gastropod locomotion: Modeling the influence
of mucus rheology on the cost of crawling
E.
Lauga and A. E. Hosoi, Phys.
Fluids, 18,
113102, 2006. pdf
Also
selected to appear in the Virtual Journal of Biological
Physics Research, Dec 1 2006 (http://www.vjbio.org). |
|
14 |
Experimental
investigations of elastic tail propulsion at low
Reynolds number
T. S. Yu, E. Lauga and A. E. Hosoi, Phys.
Fluids, 18,
091701, 2006.
pdf
|
|
13
|
Self-assembly
of spherical particles on an evaporating sessile
droplet
M. Schnall-Levin, E. Lauga and M. P. Brenner, Langmuir
22,
4547-4551, 2006.
pdf |
|
12
|
Swimming
in
circles: Motion of bacteria near solid boundaries
E.
Lauga,
W. R. DiLuzio, G. M. Whitesides and H. A. Stone, Biophys.
J. 90,
400-412, 2006.
pdf
|
2005 |
11
|
Brownian
motion
near a partial slip boundary: A local probe of the
no-slip condition
E.
Lauga
and
T. M. Squires,
Phys.
Fluids 17,
103102, 2005.
pdf |
|
10
|
A
note on the stability of slip channel flows
E.
Lauga
and C. Cossu,
Phys.
Fluids
17,
088106, 2005.
pdf
|
2004 |
9
|
Evaporation-driven
assembly
of colloidal particles
E. Lauga and M. P. Brenner, Phys. Rev. Lett. 93,
238301, 2004. pdf
Also
selected to appear in the Virtual
Journal of Nanoscale Science and Technology,
December 13 2004 (http://www.vjnano.org). |
|
8
|
Apparent
slip
due to the motion of suspended particles in flows
of electrolyte solutions
E.
Lauga,
Langmuir
20,
8924-8930, 2004. pdf
|
|
7
|
Dynamic
mechanisms
for
shear-dependent apparent slip on hydrophobic surfaces
E.
Lauga
& M. P. Brenner, Phys. Rev E.
70,
026311, 2004. pdf |
|
6
|
Performance
of a linear robust control strategy on a nonlinear
model of spatially-developing flows
E.
Lauga
& T.
R. Bewley, J.
Fluid
Mech.
512,
343-374, 2004. pdf |
|
5
|
Three-dimensional
flows
in slowly-varying planar geometries
E.
Lauga,
A. D. Stroock and
H.
A. Stone,
Phys. Fluids
16,
3051-3062, 2004. pdf
|
2003 |
4
|
Effective
slip
in pressure-driven Stokes flow
E.
Lauga
and
H. A. Stone,
J. Fluid Mech.
489,
55-77, 2003. pdf |
|
3
|
The
decay of stabilizability with Reynolds number in a
linear model of spatially developing flows
E.
Lauga
and T. R. Bewley, Proc.
Roy.
Soc. A
459,
2077-2095, 2003. pdf
|
2002 |
2
|
Modern control of linear global instability in a
cylinder wake model
E.
Lauga
and T.
R. Bewley,
Int. J. Heat and Fluid Flow
23,
671-677, 2002. pdf
|
1999 |
1
|
Vortices
in
rotating systems: centrifugal, elliptic and hyperbolic
type instabilities
D.
Sipp,
E.
Lauga
and L. Jacquin, Phys.
Fluids
11,
3716-3728, 1999. pdf |
|