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200 10$aFirst-Principles and Machine Learning Study of Anharmonic Vibration and Dielectric Properties of Materials /$fby Tomohito Amano
205   $a1st ed. 2025.
210  1$aSingapore :$cSpringer Nature Singapore :$cImprint: Springer,$d2025.
215   $a1 online resource (XVIII, 219 p. 52 illus., 45 illus. in color.)
225 1 $aSpringer Theses, Recognizing Outstanding Ph.D. Research,$x2190-5061
311 08$a981-9640-23-7 
327   $aChapter 1 Introduction -- Chapter 2 Density Functional Theory -- Chapter 3 Anharmonic Phonon Theory -- Chapter 4 Modern Theory and Machine Learning of Polarization -- Chapter 5 Dielectric Properties of Strongly Anharmonic TiO2 -- Chapter 6 Dielectric Properties of Liquid Alcohols and Its Polymers -- Chapter 7 Conclusion.
330   $aThe book presents the author's development of two first-principles methods to calculate dielectric properties of materials based on anharmonic phonon and machine learning, and demonstrates an in-depth analysis of anharmonic crystals and molecular liquids. The anharmonic phonon method, combined with Born effective charges, is useful to study dielectric properties of crystals. The recently developed self-consistent phonon theory (SCPH) enables accurate simulations in strongly anharmonic materials. The author reveals that the combination of SCPH with the four-phonon scattering term accurately reproduces experimental spectra, and discusses how anharmonic phonon self-energies affect the dielectric properties. The second method is molecular dynamics with Wannier centers?the mass centers of Wannier functions. The author constructs a machine learning model that learns Wannier centers for each chemical bond from atomic coordinates to accurately predict the dipole moments. The developed method is, in principle, applicable to molecules of arbitrary size. Its effectiveness is demonstrated and the dielectric properties of several alcohols, including dipole moments, dielectric constants, and absorption spectra, are analyzed. This book benefits students and researchers interested in anharmonic phonons, machine learning, and dielectric properties.
410  0$aSpringer Theses, Recognizing Outstanding Ph.D. Research,$x2190-5061
606   $aMathematical physics
606   $aComputer simulation
606   $aMachine learning
606   $aSemiconductors
606   $aCondensed matter
606   $aMaterials science$xData processing
606   $aElectronic structure
606   $aQuantum chemistry$xComputer programs
606   $aComputational Physics and Simulations
606   $aMachine Learning
606   $aSemiconductors
606   $aCondensed Matter Physics
606   $aCondensed Matter
606   $aElectronic Structure Calculations
615  0$aMathematical physics.
615  0$aComputer simulation.
615  0$aMachine learning.
615  0$aSemiconductors.
615  0$aCondensed matter.
615  0$aMaterials science$xData processing.
615  0$aElectronic structure.
615  0$aQuantum chemistry$xComputer programs.
615 14$aComputational Physics and Simulations.
615 24$aMachine Learning.
615 24$aSemiconductors.
615 24$aCondensed Matter Physics.
615 24$aCondensed Matter.
615 24$aElectronic Structure Calculations.
676   $a530.10285
700   $aAmano$b Tomohito$4aut$4http://id.loc.gov/vocabulary/relators/aut$01821887
801  0$bMiAaPQ
801  1$bMiAaPQ
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906   $aBOOK
912   $a9911007485503321
996   $aFirst-Principles and Machine Learning Study of Anharmonic Vibration and Dielectric Properties of Materials$94387820
997   $aUNINA