Difference between revisions of "Hauptseminar Porous Media SS 2021/atomistic MD force fields"

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== Contents ==
 
== Contents ==
  
In the study of microscopic systems it is justifiable to assume that the particles composing the system behave classical. The complete classical description of such a system requires the definition of a potential energy function and corresponding parameter sets for all interactions. The entirety of these information is referred to as a "force field".
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The study of the thermodynamic and dynamic properties of typical fluids often prohibits a treatment on first principles due to the required time and length scales. Therefore, an often reasonable approximation is to treat the system as classically behaving particles that obey Newton's equations of motion. This requires the definition of a potential energy function and corresponding parameter sets for all interactions. The entity of these information is referred to as a "force field".
  
In this topic, the treatment of the varied potential energy contributions and their underlying theories should be introduced. Furthermore, the approaches to obtain the parameter sets and the limitations of different force fields should be discussed in the context of obtaining physical quantities from computer simulations.
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In this seminar, the treatment of the different potential energy contributions and their underlying theories should be introduced. Furthermore, the approaches to obtain the parameters sets and the limitations of different force fields should be discussed in the context of obtaining physical quantities from computer simulations and comparison with experimental and ab-initio data.
  
 
== Literature ==
 
== Literature ==
  
 
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Revision as of 22:41, 5 February 2021

Date
TBA"TBA" contains an extrinsic dash or other characters that are invalid for a date interpretation.
Time
TBA
Topic
Force fields for atomistic molecular dynamics
Speaker
TBD
Tutor
Henrik Jäger

Contents

The study of the thermodynamic and dynamic properties of typical fluids often prohibits a treatment on first principles due to the required time and length scales. Therefore, an often reasonable approximation is to treat the system as classically behaving particles that obey Newton's equations of motion. This requires the definition of a potential energy function and corresponding parameter sets for all interactions. The entity of these information is referred to as a "force field".

In this seminar, the treatment of the different potential energy contributions and their underlying theories should be introduced. Furthermore, the approaches to obtain the parameters sets and the limitations of different force fields should be discussed in the context of obtaining physical quantities from computer simulations and comparison with experimental and ab-initio data.

Literature

TBA

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