Quantum Magnetism studies magnetic phenomena governed by quantum mechanical spin interactions. Unlike classical magnetism, quantum magnetism includes effects such as superposition, entanglement, and quantum fluctuations. It explains the behavior of antiferromagnets, spin liquids, and exotic magnetic phases. Quantum magnetism is crucial for understanding strongly correlated materials. It has applications in quantum computation, spintronics, and magnetic materials design. Experimental techniques such as neutron scattering probe quantum magnetic behavior. Quantum magnetism reveals how collective quantum effects shape macroscopic material properties. It remains a vibrant area of condensed matter and materials physics.
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Yarub Al Douri, European Academy of Sciences, Belgium
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