Competing Orders in Quantum Materials
Organized by Yale University, University of Connecticut, QuantumCT, Nature Physics, Nature Reviews Materials and Nature Materials
Register here- Closes March 7
A major issue in condensed-matter physics is the competition between ordered states with different symmetries and properties. For instance, in oxide superconductors unconventional superconductivity competes with charge orders, while moiré graphene's phase diagram shows various insulating states driven by correlations or topology. Ultrafast perturbations can disrupt the balance between these phases, leading to transient or metastable states. Models such as the Hubbard model simplify experimental complexity to aid theoretical study.
This Nature Conference will:
- Examine the competition between different states from various perspectives.
- Feature sessions on 2D materials and nickelate superconductors.
- Survey recent experiments using ultrafast probes of quantum materials.
- Discuss quantum simulation using 2D materials.
- Explore the synthesis and characterization of samples exhibiting this physic
Join us from March 31 to April 2 for presentations by industry leaders and networking with Nature editors and the scientific community.
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Nature Materials
A monthly multi-disciplinary journal that brings together cutting-edge research across the entire spectrum of materials science and engineering, including applied and fundamental aspects of the synthesis/processing, structure/composition, properties and performance of materials.
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Nature Reviews Materials
This journal aims to cover the making, measuring, modelling and manufacturing of materials - thus, looking at materials science throughout the pipeline of laboratory discovery to functional device.
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Nature Physics
This journal publishes papers of the highest quality and significance in all areas of physics, pure and applied.
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