Add to ORKGWe demonstrate that the mechanically defined “isothermal” compressibility behaves as a thermodynamic-like response function for suspensions of active Brownian particles. The compressibility computed from the active pressure—a combination of the collision and unique swim pressures—is capable of predicting the critical point for motility induced phase separation, as expected from the mechanical stability criterion. We relate this mechanical definition to the static structure factor via an active form of the thermodynamic compressibility equation and find the two to be equivalent, as would be the case for equilibrium systems. This equivalence indicates that compressibility behaves like a thermodynamic response function, even when activity is l...
We discover a new contribution to the pressure (or stress) exerted by a suspension of self-propelled...
We derive a microscopic expression for a quantity μ that plays the role of chemical potential of Act...
We derive a microscopic expression for a quantity μ that plays the role of chemical potential of Act...
We demonstrate that the mechanically defined “isothermal” compressibility behaves as a thermodynamic...
We demonstrate that the mechanically defined “isothermal” compressibility behaves as a thermodynamic...
We derive a microscopic expression for the mechanical pressure P in a system of spherical active Bro...
Self-propulsion allows living systems to display self-organization and unusual phase behavior. Unlik...
Systems at equilibrium like molecular or colloidal suspensions have a well-defined thermal energy k_...
Systems at equilibrium like molecular or colloidal suspensions have a well-defined thermal energy k_...
Self-propelled colloids are microscopic entities of typical size between a few nanometers to a few m...
Chemically active particles may swim by self-diffusiophoresis in a concentration gradient of chemica...
A core feature of many living systems is their ability to move, self-propel, and be active. From bi...
The dynamic behavior of flocks, swarms, and schools is an extraordinary and striking phenomena in th...
An important question in the field of active matter is whether or not it is possible to predict the ...
An important question in the field of active matter is whether or not it is possible to predict the ...
We discover a new contribution to the pressure (or stress) exerted by a suspension of self-propelled...
We derive a microscopic expression for a quantity μ that plays the role of chemical potential of Act...
We derive a microscopic expression for a quantity μ that plays the role of chemical potential of Act...
We demonstrate that the mechanically defined “isothermal” compressibility behaves as a thermodynamic...
We demonstrate that the mechanically defined “isothermal” compressibility behaves as a thermodynamic...
We derive a microscopic expression for the mechanical pressure P in a system of spherical active Bro...
Self-propulsion allows living systems to display self-organization and unusual phase behavior. Unlik...
Systems at equilibrium like molecular or colloidal suspensions have a well-defined thermal energy k_...
Systems at equilibrium like molecular or colloidal suspensions have a well-defined thermal energy k_...
Self-propelled colloids are microscopic entities of typical size between a few nanometers to a few m...
Chemically active particles may swim by self-diffusiophoresis in a concentration gradient of chemica...
A core feature of many living systems is their ability to move, self-propel, and be active. From bi...
The dynamic behavior of flocks, swarms, and schools is an extraordinary and striking phenomena in th...
An important question in the field of active matter is whether or not it is possible to predict the ...
An important question in the field of active matter is whether or not it is possible to predict the ...
We discover a new contribution to the pressure (or stress) exerted by a suspension of self-propelled...
We derive a microscopic expression for a quantity μ that plays the role of chemical potential of Act...
We derive a microscopic expression for a quantity μ that plays the role of chemical potential of Act...