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Mathematical methods in classical mechanics, classical and quantum field theory, quantum mechanics, statistical mechanics, condensed matter, nuclear and atomic physics.
23
votes
Accepted
Is there any published physics article where $q$-mathematics is applied?
There has been quite a lot of literature on the applications of $q$-numbers, $q$-derivatives, $q$-deformations, etc, of various algebraic models of physics. Such applications range from $q$-deformatio …
21
votes
Accepted
Why is the standard definition of a $(p, q)$-tensor so bizarre?
I think that the answer lies in the "educational culture" of physicists. Physicists are often used -well at least at the undergraduate level- to learn and perform complicated computations with abstra …
18
votes
Hamiltonian, Lagrangian and Newton formalism of mechanics
The three formalisms of classical mechanics, i.e. the Newtonian, the Lagrangian (analytical mechanics) and the Hamiltonian (canonical formalism) are generally not equivalent to each other -at least no …
13
votes
The Planck constant for mathematicians
About your Q1: I think that the simplest—and most obvious—way to think mathematically about the physical meaning of Planck's constant $h$ is that it is a kind of quantitative measure of the departure …
11
votes
Limiting representation theory of quantum groups at roots of unity and $SL(2,\mathbb{C})$
This is a very interesting question. I have also made some search but i have not found this result explicitly mentioned somewhere in the literature. However, i remember i have heard such a claim in th …
11
votes
Simple Subalgebras of Simple Lie Algebras
I am not sure if this is exactly what you are looking for, but there have been some classic works, developing general methods for such topics:
In Dynkin, Semisimple subalgebras of semisimple Lie al …
9
votes
Supermanifolds — elementary introduction?
Some further references, that might be of interest for your purposes:
You can see at this article and the book Supermanifolds
Theory and Applications by Alice Rogers. The article discusses -among o …
9
votes
1
answer
723
views
When does a Lagrangian dynamical system have an equivalent Hamiltonian description?
Let a Lagrangian dynamical system with $n$ degrees of freedom and configuration space $\mathbb{R}^n$
(i.e. phase space $\mathbb{R}^{2n}$), which is described by $L=L(q_{i},\dot{q}_{i},t)$, $i=1,2,.. …
7
votes
What is the relation between BRST quantization and gauge fixing quantization
I do not think that it makes sense to say that the gauge-fixing is a special case of BRST quantization:
$\rightarrow$ The gauge-fixing procedure is actually a normalization technique and it is utili …
6
votes
Accepted
Representation of Heisenberg-Weyl elements and their exponentials
The Heisenberg-Weyl algebra or the Weyl algebra or the algebra of the Canonical Commutation Relations (CCR) is generated by the $p,q$ generators subject to the relation
$$
[q, p] = i \hbar I \ \ \ \ …
5
votes
Accepted
Serre relations for Lie Superalgebras
The Serre relations (some authors also call them Serre-Chevalley relations) for the finite dimensional, complex, basic, classical, simple Lie superalgebras -in analogy with the Lie algebra case- rea …
5
votes
Accepted
Examples of particle systems with higher-order collisions
I understand that the OP's original focus is classical statistical mechanics. However, i think that the question is of interest from a more general viewpoint including the dynamical systems/integrabil …
5
votes
2
answers
2k
views
On the domains and extensions of unbounded operators
I am not an expert in functional analysis but I was studying some, motivated from some mathematical physics considerations. I am not quite sure whether this is research-level, but let me state some co …
4
votes
Accepted
When does a Lagrangian dynamical system have an equivalent Hamiltonian description?
Here's what I have done:
$\bullet$ Let the Lagrangian $L(q_{i},\dot{q}_{i},t)$, which under the point transformations
$$
\{q_{i}\}\leftrightsquigarrow\{Q_{i}\}
$$
given by the invertible relations $ …
4
votes
Accepted
Is there another quantum deformation of sl(2)?
Regarding your second question, on other possible deformations of $sl(2)$:
There have been various studies on (multi-parametric) deformations of Lie algebras -as has already been mentioned in the co …