Nonequilibrium "active agents" establish bonds with each other and create a quickly evolving condensed state known as active matter. Recently, active matter composed of motile self-organizing biopolymers demonstrated a biotic-like motion similar to cytoplasmic streaming. It was suggested that the active matter could produce cells. However, active matter physics cannot yet define an " organism " and thus make a satisfactory connection to biology. This paper describes an organism made of active agents and explains how the active condensed matter could produce animate beings. It argues that life is a specific condensed matter phenomenon and describes this phenomenon. From this perspective, it formulates a hypothesis regarding the origin of bio...
This book describes how biologically available free energy sources (ATP, chemical potential, and mem...
Life, as the most mysterious and unique phenomenon on the Earth, has confused humans since time bega...
Specialists in several branches of life sciences are trying to solve, piece by piece, the immensely ...
Nonequilibrium "active agents" establish and break bonds with each other and create an evolving cond...
Historically, living was divided from dead, inert matter by its autonomous activity. Today, a number...
All living organisms rely upon networks of molecular interactions to carry out their vital processes...
Active particles contain internal degrees of freedom with the ability to take in and dissipate energ...
The spring school “Physics of Life” provides an introduction to and an overview of current research ...
Active particles contain internal degrees of freedom with the ability to take in and dissipate energ...
These lecture notes are designed to provide a brief introduction into the phenomenology of active ma...
One of the problems of biology is to understand the difference between animate and inanimate matter....
Presented on April 6, 2015 at 2:00 p.m. in the Howey Physics Building, room L2.Zvonimir Dogic is an ...
ABSTRACT: Ongoing theoretical explorations of and experimental research on the origins of life focus...
The materials cells are made of are strikingly different from man-made materials. Metabolism keeps c...
Physics and the life sciences have established new connections within the past few decades, resultin...
This book describes how biologically available free energy sources (ATP, chemical potential, and mem...
Life, as the most mysterious and unique phenomenon on the Earth, has confused humans since time bega...
Specialists in several branches of life sciences are trying to solve, piece by piece, the immensely ...
Nonequilibrium "active agents" establish and break bonds with each other and create an evolving cond...
Historically, living was divided from dead, inert matter by its autonomous activity. Today, a number...
All living organisms rely upon networks of molecular interactions to carry out their vital processes...
Active particles contain internal degrees of freedom with the ability to take in and dissipate energ...
The spring school “Physics of Life” provides an introduction to and an overview of current research ...
Active particles contain internal degrees of freedom with the ability to take in and dissipate energ...
These lecture notes are designed to provide a brief introduction into the phenomenology of active ma...
One of the problems of biology is to understand the difference between animate and inanimate matter....
Presented on April 6, 2015 at 2:00 p.m. in the Howey Physics Building, room L2.Zvonimir Dogic is an ...
ABSTRACT: Ongoing theoretical explorations of and experimental research on the origins of life focus...
The materials cells are made of are strikingly different from man-made materials. Metabolism keeps c...
Physics and the life sciences have established new connections within the past few decades, resultin...
This book describes how biologically available free energy sources (ATP, chemical potential, and mem...
Life, as the most mysterious and unique phenomenon on the Earth, has confused humans since time bega...
Specialists in several branches of life sciences are trying to solve, piece by piece, the immensely ...