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xAct: tenzorová analýza na počítači 1

Předmět na Matematicko-fyzikální fakulta |
NTMF075

Sylabus

Lecture

1. General description of xAct and some selected examples. Lecture

2. Introduction to the Wolfram Language. Lecture

3. xTensor and its data types: working with tensors and covariant derivatives. Canonicalization of tensorial expressions. Lecture

4. Working with a single and multiple metric tensors. Canonicalization of expressions with a metric tensor. Lecture

5. Canonicalization of expressions with covariant derivatives. Pattern indices. Lecture

6. Implementation of general tensorial rules. Lecture

7. Constant symbols, inert heads, parameters and scalar functions. Lie brackets and vector contraction of tensor slots. Lecture

8. The variational derivative. Working examples with the Einstein-Hilbert action (Palatini formalism), f(R) theory and Lovelock gravity. Lecture

9. The 1+3 decomposition. ADM formalism. Lecture

10. Main differential identities of a Killing vector. The Mars-Simon tensor in vacuum. Lecture

11. The conformal equations. Lecture

12. Component computations with xCoba. Storage of components: the tensor values framework and the CTensor container. Lecture

13. The containers CTensor and CCovD and their converters. The xCoba cache system. Lecture

14. Curvature computations with xCoba. See http://www.xact.es/xActCourse_Prague/ for additional course details. Some practical details about the course (schedule, etc) will be supplied during the meeting with students (Setkání se studenty) on Tuesday 8th October at 10:40. See http://utf.mff.cuni.cz/seminare/semmf.pl

Anotace

V přednášce bude ukázáno, jak mohou být tenzorové výpočty efektivně prováděny v systému Mathematica s použitím balíku xAct. Aplikace budou zejména z obecné relativity, případně z teorie kontinua.