Description |
1 online resource (4 volumes) |
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text txt rdacontent |
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computer c rdamedia |
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online resource cr rdacarrier |
Bibliography |
Includes bibliographical references. |
Contents |
E9780128219782v1_WEB -- Cover -- COMPREHENSIVE COMPUTATIONAL CHEMISTRY -- CONTENTS OF VOLUME 1 -- LIST OF CONTRIBUTORS FOR VOLUME 1 -- Editor Biographies -- Preface -- Acknowledgements -- Dedication -- Introduction to "Advanced Electronic Structure Methods in Computational Quantum Chemistry" -- 1 Introduction -- 2 Chapters and Contents -- 3 Summary -- Modern Basis Sets Across the Periodic Table -- Key Points -- 1 Introduction -- 2 Background -- 3 Common Families of Basis Sets -- 3.1 Atomic Natural Orbital Basis Sets -- 3.2 Correlation Consistent Basis Sets -- 3.3 Karlsruhe Basis Sets |
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3.4 Polarization Consistent Basis Sets -- 3.5 nZaP Basis Sets -- 3.6 Sapporo Basis Sets -- 3.7 Dyall Correlation Consistent Basis Sets -- 4 Modern Basis Sets Across the Periodic Table -- 4.1 H, He and the First two Main Group Rows -- 4.2 Alkali and Alkaline Earth Elements -- 4.3 d-Block Elements -- 4.4 Post-d Main Group Elements -- 4.5 f-Block Elements -- 4.6 Superheavy Elements (6d, 7p) -- 5 Summary -- References -- How Coupled-Cluster Theory is Solving the Electron Correlation Problem -- Key Points -- 1 Introduction -- 2 Brief Sketch of CC Theory -- 3 Numerical Applications -- 3.1 Ground States |
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3.1.1 Tailoring T amplitudes -- 3.1.2 Analytic gradients and Hessians -- 3.1.3 Derivative and response theories for properties -- 3.1.4 Molecular dipole static and dynamic polarizabilities and C6 coefficients -- 3.1.5 NMR chemical shifts and indirect spin-spin coupling constants -- 3.1.6 Electron spin (or paramagnetic)-resonance (ESR or EPR) spectra tensors -- 3.1.7 Beyond Born-Oppenheimer approximation (anharmonic frequencies and vibrational effects on ground state properties) -- 3.1.8 Composite Methods -- 3.2 CC Excited States -- 3.2.1 CC excited state methods -- 3.2.2 IP-EOM-CC and EA-EOM-CC |
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3.2.3 Other low scaling EOM-CC methods -- 3.2.4 Analytical gradients of EOM-CC and applications -- 3.2.5 Relativistic effects and Spin-orbit coupling constants -- 4 Concluding Remarks -- Acknowledgment -- References -- Benchmark Accuracy in Thermochemistry, Kinetics, and Noncovalent Interactions -- Key Points -- Glossary -- 1 Introduction -- 2 Accuracy in Quantum Chemical Calculations -- 3 Overview of Composite Ab Initio Methods -- 3.1 Computational Cost of Composite Ab Initio Methods -- 3.2 Accuracy of Composite Ab Initio Methods -- 4 Energy Components in High-Level Composite Ab Initio Methods |
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4.1 Valence CCSD(T) Energy Components -- 4.2 Post-CCSD(T) Energy Components -- 4.3 Secondary Energy Corrections -- 5 Putting it all Together for Thermochemistry, Kinetics, and Noncovalent Interactions -- Acknowledgments -- References -- Modern Density Functionals Derived From First Principles -- Key Points -- 1 Introduction to Kohn-Sham Density Functional Theory -- 2 Exact Constraints for the Exchange-Correlation Hole and Energy Functional -- 3 Jacob's Ladder Hierarchy and Some Non-Empirical Functionals on it -- 3.1 Rung 1: Local Spin Density Approximation |
Subject |
Computational chemistry.
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Computational chemistry
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Added Author |
Yanez, Manuel, editor.
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Boyd, Russell J., editor.
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ISBN |
9780128232569 (electronic bk.) |
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0128232560 (electronic bk.) |
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9780128219782 |
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