We show that incompressible polar active fluids can exhibit an ordered, coherently moving phase even in the presence of quenched disorder in two dimensions. Unlike such active fluids with annealed (i.e., time-dependent) disorder only, which behave like equilibrium ferromagnets with long-range interactions, this robustness against quenched disorder is a fundamentally non-equilibrium phenomenon. The ordered state belongs to a new universality class, whose scaling laws we calculate using three different renormalization group schemes, which all give scaling exponents within 0.02 of each other, indicating that our results are quite accurate. Our predictions can be quantitatively tested in readily available artificial active systems, and imply th...
We present a hydrodynamic theory of incompressible polar active fluids with quenched random field di...
The Vicsek model encompasses the paradigm of active dry matter. Motivated by collective behavior of ...
Disordered many-particle systems have remarkable mechanical and transport properties, whose theoreti...
We show that incompressible polar active fluids can exhibit an ordered, coherently moving phase even...
We show that incompressible polar active fluids can exhibit an ordered, coherently moving phase even...
We present a hydrodynamic theory of incompressible polar active fluids with quenched disorder. This ...
The collective phenomenon of swarming behavior can, in the hydrodynamic limit, be described as a pol...
Active fluids and growing interfaces are two well-studied but very different non-equilibrium systems...
With quenched disorder, we introduce two-dimensional active nematics suspended in an incompressible ...
We show that arbitrarily large polar flocks are susceptible to the presence of a single small obstac...
We study universal behavior in the moving (polar ordered) phase of a generic system of motile partic...
We elucidate that the nearly phase-ordered active XY spins in contact with a conserved, diffusing sp...
We study the order-disorder transition in two-dimensional incompressible systems of motile particles...
A drop bouncing on a vertically-vibrated surface may self-propel forward by Faraday waves and travel...
Many-body systems driven out of equilibrium can exhibit scaling flows of the quantum state. For a su...
We present a hydrodynamic theory of incompressible polar active fluids with quenched random field di...
The Vicsek model encompasses the paradigm of active dry matter. Motivated by collective behavior of ...
Disordered many-particle systems have remarkable mechanical and transport properties, whose theoreti...
We show that incompressible polar active fluids can exhibit an ordered, coherently moving phase even...
We show that incompressible polar active fluids can exhibit an ordered, coherently moving phase even...
We present a hydrodynamic theory of incompressible polar active fluids with quenched disorder. This ...
The collective phenomenon of swarming behavior can, in the hydrodynamic limit, be described as a pol...
Active fluids and growing interfaces are two well-studied but very different non-equilibrium systems...
With quenched disorder, we introduce two-dimensional active nematics suspended in an incompressible ...
We show that arbitrarily large polar flocks are susceptible to the presence of a single small obstac...
We study universal behavior in the moving (polar ordered) phase of a generic system of motile partic...
We elucidate that the nearly phase-ordered active XY spins in contact with a conserved, diffusing sp...
We study the order-disorder transition in two-dimensional incompressible systems of motile particles...
A drop bouncing on a vertically-vibrated surface may self-propel forward by Faraday waves and travel...
Many-body systems driven out of equilibrium can exhibit scaling flows of the quantum state. For a su...
We present a hydrodynamic theory of incompressible polar active fluids with quenched random field di...
The Vicsek model encompasses the paradigm of active dry matter. Motivated by collective behavior of ...
Disordered many-particle systems have remarkable mechanical and transport properties, whose theoreti...