Condensed Matter Theory

Trial wavefunctions for the Goldstone mode in \nu=1/2+1/2 quantum Hall bilayers

(2010)

Authors:

Gunnar Moller, Steven H Simon

Spin Hamiltonians with resonating-valence-bond ground states.

Physical review letters 105:6 (2010) 067205

Authors:

Jennifer Cano, Paul Fendley

Abstract:

Quantum dimer models exhibit quantum critical points and liquid states when the ground state is the resonating-valence bond (RVB) state. We construct SU(2)-invariant spin-1/2 Hamiltonians with the same RVB ground state. The main technical obstacle overcome is the fact that different dimer configurations in the spin model are not orthogonal. We show that the physics depends on how dimers are related to the spins, and find a Hamiltonian that is likely to be quantum critical.

Complex dynamics of knotted filaments in shear flow

(2010)

Authors:

R Matthews, AA Louis, JM Yeomans

Nematic valley ordering in quantum Hall systems

Physical Review B American Physical Society (APS) 82:3 (2010) 035428

Authors:

DA Abanin, SA Parameswaran, SA Kivelson, SL Sondhi

Coherent Hydrodynamic Coupling for Stochastic Swimmers

ArXiv 1007.2077 (2010)

Authors:

Ali Najafi, Ramin Golestanian

Abstract:

A recently developed theory of stochastic swimming is used to study the notion of coherence in active systems that couple via hydrodynamic interactions. It is shown that correlations between various modes of deformation in stochastic systems play the same role as the relative internal phase in deterministic systems. An example is presented where a simple swimmer can use these correlations to hunt a non-swimmer by forming a hydrodynamic bound state of tunable velocity and equilibrium separation. These results highlight the significance of coherence in the collective behavior of nano-scale stochastic swimmers.