Eric Lauga [Publications]
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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. BrandtPhys. 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, 2011pdf
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 Matter7, 3060 - 30652011. 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 ResearchJanuary 15 2011 (http://www.vjbio.org).

46 Locomotion by tangential deformation in a polymeric fluid
L. Zhu, M. Do-Quang, E. Lauga and L. BrandtPhys. 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. LaugaExp. 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, 2010pdf

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, 2010pdf

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, 2009pdf
(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




© 2008-2013 Eric Lauga - University of California, San Diego