About: Energy minimization

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In the field of computational chemistry, energy minimization (also called energy optimization, geometry minimization, or geometry optimization) is the process of finding an arrangement in space of a collection of atoms where, according to some computational model of chemical bonding, the net inter-atomic force on each atom is acceptably close to zero and the position on the potential energy surface (PES) is a stationary point (described later). The collection of atoms might be a single molecule, an ion, a condensed phase, a transition state or even a collection of any of these. The computational model of chemical bonding might, for example, be quantum mechanics.

Attributes	Values
type	societal event Election event Process
label	Energy minimization Оптимізація геометрії
comment	Оптимізація геометрії (англ. geometry optimization, рос. оптимизация геометрии) — розрахунки з використанням методів обчислювальної хімії (молекулярної механіки, квантової хімії (напівемпіричних, ab initio) тощо) для знаходження конфігурації з найменшою енергією або такої, що відповідає сідловій точці на поверхні потенційної енергії. При розрахункові координати атомів підбираються так, щоб сили, які діють на атом, стали рівними нулю. Це означає локальний мінімум на поверхні потенціальної енергії, але не обов’язково глобальний мінімум для цієї системи. Часом такі розрахунки проводяться, щоби знайти перехідний стан. In the field of computational chemistry, energy minimization (also called energy optimization, geometry minimization, or geometry optimization) is the process of finding an arrangement in space of a collection of atoms where, according to some computational model of chemical bonding, the net inter-atomic force on each atom is acceptably close to zero and the position on the potential energy surface (PES) is a stationary point (described later). The collection of atoms might be a single molecule, an ion, a condensed phase, a transition state or even a collection of any of these. The computational model of chemical bonding might, for example, be quantum mechanics.
sameAs	Energy minimization Energy minimization Energy minimization Energy minimization Energy minimization
topic	Protein structure prediction dbr:Energy_minimization_(energy_optimization) dbr:FoldX Potential energy surface Nucleic acid design Activation energy dbr:Conjugate_gradient_method dbr:CP2K dbr:MBN_Explorer dbr:Constraint_composite_graph dbr:Polarization_constants dbr:Avoided_crossing dbr:Geometry_optimization dbr:Graph_cuts_in_computer_vision dbr:NEB dbr:Resonant_ultrasound_spectroscopy dbr:List_of_numerical_analysis_topics dbr:Semidefinite_embedding dbr:Spring_system dbr:Wulff_construction wikipedia-en:Energy_minimization dbr:Energy_minimization#this dbr:Chemical_graph_generator
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subject	Computational chemistry Operations research Mathematical optimization
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Link from a Wikipage to another Wikipage	dbr:Positive-definite_matrix dbr:Force_field_(chemistry) Chemical kinetics Molecule Spectroscopy Transition state Hessian matrix dbr:Eigenvalues dbr:Energy_principles_in_structural_mechanics chemical structure ion Mathematical optimization Molecular dynamics Quantum chemistry Vector projection Potential energy surface Ansatz Brownian motion Computer vision Newton's laws of motion Computational chemistry Computational chemistry Thermodynamics Density functional theory dbr:Optimization_(mathematics) dbr:Degrees_of_freedom_(physics_and_chemistry) dbr:Lanczos_algorithm dbr:QM/MM Mathematical optimization dbr:Condensed_phase dbr:Constraint_composite_graph dbr:Gaussian_process_regression dbr:Graph_cuts_in_computer_vision dbr:Local_minimum dbr:Quasi-Newton_method Saddle points dbr:Semi-empirical_quantum_chemistry_method dbr:Water_(molecule)
Link from a Wikipage to an external page	https://dx.doi.org/10.1103/RevModPhys.64.1045 http://www.nrbook.com/a/bookfpdf.php https://journals.aps.org/prb/abstract/10.1103/PhysRevB.39.4997 https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.41.1062
is primary topic of	wikipedia-en:Energy_minimization
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http://purl.org/li...ics/gold/hypernym	Process
dbo:abstract	Оптимізація геометрії (англ. geometry optimization, рос. оптимизация геометрии) — розрахунки з використанням методів обчислювальної хімії (молекулярної механіки, квантової хімії (напівемпіричних, ab initio) тощо) для знаходження конфігурації з найменшою енергією або такої, що відповідає сідловій точці на поверхні потенційної енергії. При розрахункові координати атомів підбираються так, щоб сили, які діють на атом, стали рівними нулю. Це означає локальний мінімум на поверхні потенціальної енергії, але не обов’язково глобальний мінімум для цієї системи. Часом такі розрахунки проводяться, щоби знайти перехідний стан. In the field of computational chemistry, energy minimization (also called energy optimization, geometry minimization, or geometry optimization) is the process of finding an arrangement in space of a collection of atoms where, according to some computational model of chemical bonding, the net inter-atomic force on each atom is acceptably close to zero and the position on the potential energy surface (PES) is a stationary point (described later). The collection of atoms might be a single molecule, an ion, a condensed phase, a transition state or even a collection of any of these. The computational model of chemical bonding might, for example, be quantum mechanics. As an example, when optimizing the geometry of a water molecule, one aims to obtain the hydrogen-oxygen bond lengths and the hydrogen-oxygen-hydrogen bond angle which minimize the forces that would otherwise be pulling atoms together or pushing them apart. The motivation for performing a geometry optimization is the physical significance of the obtained structure: optimized structures often correspond to a substance as it is found in nature and the geometry of such a structure can be used in a variety of experimental and theoretical investigations in the fields of chemical structure, thermodynamics, chemical kinetics, spectroscopy and others. Typically, but not always, the process seeks to find the geometry of a particular arrangement of the atoms that represents a local or global energy minimum. Instead of searching for global energy minimum, it might be desirable to optimize to a transition state, that is, a saddle point on the potential energy surface. Additionally, certain coordinates (such as a chemical bond length) might be fixed during the optimization.
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