Add to ORKGAn important question in the field of active matter is whether or not it is possible to predict the phase behavior of these systems. Here, we study the phase coexistence of binary mixtures of torque-free active Brownian particles for both systems with purely repulsive interactions and systems with attractions. Using Brownian dynamics simulations, we show that phase coexistences can be predicted quantitatively for these systems by measuring the pressure and "reservoir densities." Specifically, in agreement with the previous literature, we find that the coexisting phases are in mechanical equilibrium, i.e., the two phases have the same pressure. Importantly, we also demonstrate that the coexisting phases are in chemical equilibrium by bringin...
We simulate clustering, phase separation and hexatic ordering in a monolayered suspension of active ...
To study the role of torque in motility-induced phase separation (MIPS), we simulate a system of sel...
To study the role of torque in motility-induced phase separation (MIPS), we simulate a system of sel...
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 derive a microscopic expression for the mechanical pressure P in a system of spherical active Bro...
Self-propelled colloids are microscopic entities of typical size between a few nanometers to a few m...
Active colloids exhibit persistent motion, which can lead to motility-induced phase separation (MIPS...
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_...
In this thesis we study emergent statistical properties of many-particle systems of self-propelled p...
In this thesis we study emergent statistical properties of many-particle systems of self-propelled p...
In this thesis we study emergent statistical properties of many-particle systems of self-propelled p...
The dynamic behavior of flocks, swarms, and schools is an extraordinary and striking phenomena in th...
Murmurations of birds, schools of fish, and herds of migrating animals are macroscale examples of se...
We simulate clustering, phase separation and hexatic ordering in a monolayered suspension of active ...
To study the role of torque in motility-induced phase separation (MIPS), we simulate a system of sel...
To study the role of torque in motility-induced phase separation (MIPS), we simulate a system of sel...
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 derive a microscopic expression for the mechanical pressure P in a system of spherical active Bro...
Self-propelled colloids are microscopic entities of typical size between a few nanometers to a few m...
Active colloids exhibit persistent motion, which can lead to motility-induced phase separation (MIPS...
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_...
In this thesis we study emergent statistical properties of many-particle systems of self-propelled p...
In this thesis we study emergent statistical properties of many-particle systems of self-propelled p...
In this thesis we study emergent statistical properties of many-particle systems of self-propelled p...
The dynamic behavior of flocks, swarms, and schools is an extraordinary and striking phenomena in th...
Murmurations of birds, schools of fish, and herds of migrating animals are macroscale examples of se...
We simulate clustering, phase separation and hexatic ordering in a monolayered suspension of active ...
To study the role of torque in motility-induced phase separation (MIPS), we simulate a system of sel...
To study the role of torque in motility-induced phase separation (MIPS), we simulate a system of sel...
