Quantum computing with a twist
Physics World 23:9 (2010) 35-40
Controlled propulsion in viscous fluids of magnetically actuated colloidal doublets.
Phys Rev E Stat Nonlin Soft Matter Phys 81:1 Pt 1 (2010) 011402
Abstract:
We study the propulsion of a micron-size paramagnetic colloidal doublet dispersed in water and driven above a surface by an external precessing magnetic field. The applied field forces the doublet to precess around an axis parallel to the plane of motion and the rotation of the colloidal assembly is rectified into translation due to a periodic asymmetry in dissipation close to the bounding plate. These recent experimental findings [P. Tierno, R. Golestanian, I. Pagonabarraga, and F. Sagués, Phys. Rev. Lett. 101, 218304 (2008)] are complemented here with a theoretical analysis of the system and extended to more complex magnetic modulations such as elliptical driving fields. Experimental results show a good agreement with numerical simulations with the aim to find the best conditions toward the optimization of propulsion speed and swimming efficiency.Nonlinear dynamics of a rack-pinion-rack device powered by the Casimir force.
Phys Rev E Stat Nonlin Soft Matter Phys 81:1 Pt 2 (2010) 016104
Abstract:
Using the lateral Casimir force-a manifestation of the quantum fluctuations of the electromagnetic field between objects with corrugated surfaces-as the main force transduction mechanism, a nanomechanical device with rich dynamical behaviors is proposed. The device is made of two parallel racks that are moving in the same direction and a pinion in the middle that couples with both racks via the noncontact lateral Casimir force. The built-in frustration in the device causes it to be very sensitive and react dramatically to minute changes in the geometrical parameters and initial conditions of the system. The noncontact nature of the proposed device could help with the ubiquitous wear problem in nanoscale mechanical systems.CUDA simulations of active dumbbell suspensions
CHEMICAL PHYSICS 375:2-3 (2010) 557-567
Complex dynamics of knotted filaments in shear flow
EPL 92:3 (2010) ARTN 34003