Analytic Free-Energy Expression for the 2D-Ising Model and Perspectives for Battery Modeling

Although originally developed to describe the magnetic behavior of matter, the Ising model represents one of the most widely used physical models, with applications in almost all scientific areas. Even after 100 years, the model still poses challenges and is the subject of active research. In this w...

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Published inBatteries (Basel) Vol. 9; no. 10; p. 489
Main Authors Markthaler, Daniel, Birke, Kai Peter
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.10.2023
Subjects
Batteries
battery modeling
Boundary conditions
Energy
Ferromagnetism
Free energy
Ising model
Lithium ions
Magnetic properties
Mathematical analysis
Modelling
Phase transitions
Rechargeable batteries
Series (mathematics)
statistical thermodynamics
Thermodynamics
Three dimensional models
Two dimensional analysis
Two dimensional models
Germany
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Abstract Although originally developed to describe the magnetic behavior of matter, the Ising model represents one of the most widely used physical models, with applications in almost all scientific areas. Even after 100 years, the model still poses challenges and is the subject of active research. In this work, we address the question of whether it is possible to describe the free energy A of a finite-size 2D-Ising model of arbitrary size, based on a couple of analytically solvable 1D-Ising chains. The presented novel approach is based on rigorous statistical-thermodynamic principles and involves modeling the free energy contribution of an added inter-chain bond ΔAbond(β,N) as function of inverse temperature β and lattice size N. The identified simple analytic expression for ΔAbond is fitted to exact results of a series of finite-size quadratic N×N-systems and enables straightforward and instantaneous calculation of thermodynamic quantities of interest, such as free energy and heat capacity for systems of an arbitrary size. This approach is not only interesting from a fundamental perspective with respect to the possible transfer to a 3D-Ising model, but also from an application-driven viewpoint in the context of (Li-ion) batteries where it could be applied to describe intercalation mechanisms.
AbstractList Although originally developed to describe the magnetic behavior of matter, the Ising model represents one of the most widely used physical models, with applications in almost all scientific areas. Even after 100 years, the model still poses challenges and is the subject of active research. In this work, we address the question of whether it is possible to describe the free energy A of a finite-size 2D-Ising model of arbitrary size, based on a couple of analytically solvable 1D-Ising chains. The presented novel approach is based on rigorous statistical-thermodynamic principles and involves modeling the free energy contribution of an added inter-chain bond ΔAbond(β,N) as function of inverse temperature β and lattice size N. The identified simple analytic expression for ΔAbond is fitted to exact results of a series of finite-size quadratic N×N-systems and enables straightforward and instantaneous calculation of thermodynamic quantities of interest, such as free energy and heat capacity for systems of an arbitrary size. This approach is not only interesting from a fundamental perspective with respect to the possible transfer to a 3D-Ising model, but also from an application-driven viewpoint in the context of (Li-ion) batteries where it could be applied to describe intercalation mechanisms.
Although originally developed to describe the magnetic behavior of matter, the Ising model represents one of the most widely used physical models, with applications in almost all scientific areas. Even after 100 years, the model still poses challenges and is the subject of active research. In this work, we address the question of whether it is possible to describe the free energy A of a finite-size 2D-Ising model of arbitrary size, based on a couple of analytically solvable 1D-Ising chains. The presented novel approach is based on rigorous statistical-thermodynamic principles and involves modeling the free energy contribution of an added inter-chain bond ΔA[sub.bond](β,N) as function of inverse temperature β and lattice size N. The identified simple analytic expression for ΔA[sub.bond] is fitted to exact results of a series of finite-size quadratic N×N-systems and enables straightforward and instantaneous calculation of thermodynamic quantities of interest, such as free energy and heat capacity for systems of an arbitrary size. This approach is not only interesting from a fundamental perspective with respect to the possible transfer to a 3D-Ising model, but also from an application-driven viewpoint in the context of (Li-ion) batteries where it could be applied to describe intercalation mechanisms.
Audience Academic
Author Birke, Kai Peter
Markthaler, Daniel
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SubjectTerms Batteries
battery modeling
Boundary conditions
Energy
Ferromagnetism
Free energy
Ising model
Lithium ions
Magnetic properties
Mathematical analysis
Modelling
Phase transitions
Rechargeable batteries
Series (mathematics)
statistical thermodynamics
Thermodynamics
Three dimensional models
Two dimensional analysis
Two dimensional models
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Title Analytic Free-Energy Expression for the 2D-Ising Model and Perspectives for Battery Modeling
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