By considering the sorting categories before you submit your abstract, you can determine which categories best fit your research. Choosing the appropriate sorting categories for your work can help to target your work to the appropriate audiences at March Meeting 2024.
The sorting categories also represent the breadth and depth of the topics and branches of physics discussed at March Meeting.
Review the abstract submission guidelines
1. Polymer Physics 2. Soft Condensed Matter 3. Statistical and Nonlinear Physics 4. Biological Physics 5. Chemical Physics 6. Atomic, Molecular, and Optical Physics 7. Topological Materials 8. Semiconductors, Insulators, and Dielectrics 9. Superconductivity 10. Magnetism 11. Strongly Correlated Systems, Including Quantum Fluids and Solids 12. Complex Structured Materials, Including Graphene 13. Superlattices, and Other Artificially Structured Materials 14. Surfaces, Interfaces, and Thin Films 15. Nonequilibrium Quantum Physics 16. General Theory, Computational Physics 17. Quantum Information, Concepts, and Computation 18. Matter at Extreme Conditions 19. Instrumentation and Measurements 20. Fluids 21. Energy Research and Applications 22. Applications (IT, Medical/Bio, Photonics, etc.) 23. Data Science 24. Laser Science 25. Medical Physics 26. Climate Physics 27. Physics Education 28. Physics Outreach and Engaging the Public 29. History of Physics 30. International Physics 31. Early Career Scientists 32. Public Policy 33. Graduate Student Affairs 34. Undergraduate Research 35. Committee on Minorities 36. Status of Women in Physics 37. Committee on Informing the Public 38. General Physics Polymer Physics Invitation Only DPOLY Symposium Invited Speaker (Invitation Only) Focus Sessions Applied Machine Learning for Polymer Physics Discovery Organic Electronics and Photonics Advances in Macromolecular Simulation and Modeling Current and Future Directions of Polymer Composites and Nanocomposites Physics-Informed Design of Recycled, Upcycled, and Sustainable Polymers Dynamics of Polymers and Polyelectrolytes Programmed Responsive Polymers and Soft Matter Large-Strain Mechanical Properties of Polymer Networks Polymers and Block Copolymers at Interfaces Transport and Separation Phenomena in Polymer Membranes and Molecular Materials Polymer Structure and Dynamics Across Multiple Length and Timescales Advances in Nonlinear and Block Polymers Recent Progress in Polymer Glass Formation in Bulk and Nanostructured Systems Additive Manufacturing of Soft Materials Real-Space Observation for Understanding Chain Structures and Dynamics Fracture, Yielding, and Failure of Soft Materials Self-Assembly of Biomacromolecules: From Simulations to Experiments Polyelectrolyte Phase Transitions, Complexes, and Coacervates Machine Learning Assisted Polymer Design Enabling Early Career Polymer Physics Researchers Advanced Characterization of Polymers: Morphology, Interfaces, and Dynamics Dynamic Covalent Polymer Networks and Gels Physics Concepts in Polymer Engineering Physics of Polymer Coatings and Thin Films Mechanoresponsive Molecules for Stress Sensing in Polymer Systems Statistical Physics in Constitutive Modeling Flow of Complex Fluids: Rheology, Structure and Instabilities Standard Sorting Categories Semi-Crystalline Polymers Liquid Crystalline Polymers Polymer Glasses and Glass Formation Polymeric Networks, Elastomers, and Gels Charged and Ion-Containing Polymers Electrically and Optically Active Polymers Surfaces, Interfaces, Thin Films, and Coatings Biopolymers and Sustainable Polymers Polymer Structure, Morphology, and Self-Assembly