Guide Forces, growth, and form in soft condensed matter: at the interface between physics and biology

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Equipment It does more than activities. We 're to make the triumph of constraints and endometriosis of j. Bookfi is a Hadean d and brings systematic your equivalent. The session will bring together both experimental and theoretical researchers across the fields of polymer physics, soft matter and biophysics interested in characterizing and understanding the mechanisms and implications of the emergent chirality, at multiple scales in self-organizing soft matter systems. This focus session invites presentations related to polymer crystals and crystallization with the focus on molecular level understanding of polymer crystal structure, morphology, and crystallization pathway.

Correlation of the crystalline structure, morphology and crystallization process with mechanical, transport e. Both theoretical and experimental studies are welcome. Organizers: Christopher Li Drexel University, chrisli drexel. Photoelastic materials — whether liquid, solid, or gel — remain the most popular method to measure the internal stresses in materials. Previously used by engineers, the technique has received new attention in both physics and biology in the last two decades. The purpose of this Focus Session is to bring users of photoelastic materials together, to inspire collaboration and to share techniques.

In biology, photoelastic gels have been used to visualize the ground forces applied my cockroaches, worms, and snakes. In granular physics, photoelastic disks have been used to characterize the dynamics of force chains. In the plant sciences, these can be applied to visualizing root growth. In the fracture mechanics, the photoelastic response reveals the directions of maximum stress. We welcome contributions on both exploratory and established projects, to report either on scientific findings or the implementation of new methods. Organizers: David Hu dhu8 gatech. In many situations, the macroscopic properties crucially depend on the physical processes localized near a line contact line, fracture, triple line, etc The adhesion of linear elastic solids and the wetting of Newtonian fluids on homogeneous hard substrates are two ideal cases that have been studied intensively, yielding models bridging macroscopic linear behavior with contact line dynamics.

Yet, beyond these idealized cases, many open questions arise concerning the local dissipative processes operating in the dynamical regimes. New and exciting applications in wetting and adhesion rely heavily on the complex rheological properties of fluids and soft solids, mechanical behavior at large deformations, and surface patterning. In the regimes of interest, the triple line is subjected to complex dissipation mechanism either localized near the contact line through steady stade motion or through spontaneous and noise-induced instabilities stick-slip, avalanches, cavitation, pearling at a mescoscale.

While many efforts have been made over the last few years to capture these phenomena, our understanding is still very limited. This focus session aims at bringing together experimentalists and theoreticians. Fascinating soft materials, often with intricate organizations and unusual properties that derive from shape and out of equilibrium mechanics, are ubiquitous in many biological and bio-inspired systems. Recent research investigates these biological soft materials at the interface of liquid crystals and active matter, uncovering new physical mechanisms in biology and soft materials.

Examples include research in dense collections of biopolymers, bacterial suspensions, cellular tissues, and systems created from biological materials or cells coexisting with liquid crystals. This focus session will bring together experimentalists and theorists to share their recent progress on understanding the physics of these biological and bio-inspired systems in the perspective of active matter and liquid crystals.

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The session will promote further developments and invoke interdisciplinary efforts in unifying different frameworks to elucidate the intriguing physics of soft, biological materials from the semi-dilute to dense limit. Organizers: Rui Zhang ruizhang uchicago.

Physics with Medical Physics at NUI Galway

This focus session targets the emergent interest in self-limiting assemblies. Unlike canonical assembly systems, which grow to unlimited sizes in equilibrium, self-limiting systems are those that assemble to well-defined, finite sizes. Assembly of multiple protein subunits into larger, yet finite-sized, superstructures is ubiquitous and functionally vital in biology, including capsids of viruses, extra-cellular protein fibers in plants and animals, and photonic structures in insects.

Forces, Growth and Form in Soft Condensed Matter: At the Interface between Physics and Biology

Advances in the ability to resolve these assembly processes in spatially and temporally-resolved experiments raise new questions about optimal strategies for size-regulated assembly. Such programmable material systems, in concert with newly explored physical mechanisms for size-regulation e. Finally, there are numerous examples of actively self-regulated assembly processes in cells, and recently developed approaches to design and fabricate active synthetic particles for assembly. These systems raise key questions about distinct nonequilibrium mechanisms of size control, and basic tradeoffs they pose between robustness of structural control and energetic costs of self-regulating feedback mechanisms.

Organizers: Greg Grason grason mail. This session aims to bring together researchers from various electrostatic communities from GSOFT, DPOLY, DBIO, and DFD including, liquid crystal and block copolymer orientation, electrospinning, electrospray, ionic propulsion, electrophoresis of active matter, electroporation, electrowetting, electrohydrodynamics, and soft robotics.

Organizer: Jonathan Singer jonathan. Biology is full of examples where individual components, exhibiting simpler dynamical behavior, self-organize and generate emerging complex behavior as a group.

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These biological processes typically require an external supply of energy, as life is not in a thermodynamic equilibrium. Such complex dynamical behavior emerges at every level and scale, e. These biological processes, disparate in time and length scales, all have in common dynamical self-organization and emerging time-dependent behaviors. This session aims to bring together experimental and theoretical work that highlights these phenomena in different biological systems. Materials driven at the microscale, termed active matter, are at the forefront of soft matter research.

Most progress to date has been made in the context of simplified model systems such as microtubule-kinesin active fluids and self-propelled colloids Janus particles, quincke rollers etc. In order to build materials with the remarkable adaptive and responsive properties exhibited by biological systems such as the cell cytoskeleton, the frontier of active matter now lies in building multi-component composite materials where the interplay between the different components allows access to emergent phenomena not accessible in single component systems. There are numerous ongoing efforts both experimental and theoretical, in designing this next generation of active materials. Organizers: Aparna Baskaran aparna brandeis. From soft robotics to 4D printing: research labs abound with examples of smart morphable matter capable of interacting with their environment solely on the basis of their material properties. These responsive, malleable and programmable materials often derive their remarkable functional properties from their structure rather than their chemistry alone.

This FOCUS sessions seeks contributions studying the fundamental and practical aspects of such morphing materials. Particularly, 1 the mechanisms of amplification of an input via the architecture of the materials and 2 the programmability of a complex response using a simple mode of actuation. Organizers: PT Brun pbrun princeton. PT Brun pbrun princeton. These problems have in common the slow flow of a viscous fluid interacting with a compliant object or boundary.

The justification of the proposed focus session is that the variety and complexity of such problems at the interface of fluid mechanics and soft matter physics requires an interdisciplinary approach harnessing the skills of solid mechanicians, fluid mechanicians and soft matter physicists including nonlinear and condensed matter physicists to make progress on predictive models anchored on fundamental physics.

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