Novel Treatments of Strong Correlations 1st Edition

Capture the frontier of electronic-structure research with Novel Treatments of Strong Correlations, 1st Edition by Ramon A. Miranda Quintana and John F. Stanton. This authoritative volume draws attention with clear, contemporary perspectives on one of the most challenging problems in quantum chemistry and condensed-matter physics: treating strong electron correlation accurately and efficiently.

Inside, readers will find accessible yet rigorous expositions of modern theoretical frameworks and computational strategies used worldwide by researchers in academia and industry. The text bridges fundamentals and innovation, covering multireference approaches, advanced coupled-cluster adaptations, tensor-network techniques, embedding methods, and practical algorithms that tackle transition-metal complexes, correlated materials, and catalytic systems. Carefully chosen examples and comparative benchmarks illuminate when and how each method excels.

Ideal for graduate students, postdoctoral researchers, and practicing computational chemists and physicists across North America, Europe, and Asia, this book balances mathematical clarity with real-world applicability. Its professional tone and structured presentation make complex topics approachable without sacrificing depth, helping readers translate theory into reproducible simulation workflows and publishable results.

Whether you’re building expertise in electronic-structure theory, developing new many-body algorithms, or applying strong-correlation methods to materials and molecular problems, this edition is a practical, forward-looking resource. Expand your toolkit with insights from leading authors and join a global community advancing next-generation computational science.

Order your copy today to stay at the cutting edge of strong-correlation research and bring robust, scalable solutions to your most demanding quantum problems.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.