Constructing invariants for finite groups.
Plesken, W., Robertz, D. (2005)
Experimental Mathematics
Similarity:
Plesken, W., Robertz, D. (2005)
Experimental Mathematics
Similarity:
Nesterenko, Maryna O. (2006)
International Journal of Mathematics and Mathematical Sciences
Similarity:
Terry Gannon (1996)
Annales de l'I.H.P. Physique théorique
Similarity:
Nathan Geer (2014)
Banach Center Publications
Similarity:
We show that the coefficients of the re-normalized link invariants of [3] are Vassiliev invariants which give rise to a canonical family of weight systems.
John G. Nagel (1970)
Annales de l'I.H.P. Physique théorique
Similarity:
Maryam Khorshidi, Mehdi Nadjafikhah, Hossein Jafari, Maysaa Al Qurashi (2016)
Open Mathematics
Similarity:
In this paper, the classical Lie theory is applied to study the Benjamin-Bona-Mahony (BBM) and modified Benjamin-Bona-Mahony equations (MBBM) to obtain their symmetries, invariant solutions, symmetry reductions and differential invariants. By observation of the the adjoint representation of Mentioned symmetry groups on their Lie algebras, we find the primary classification (optimal system) of their group-invariant solutions which provides new exact solutions to BBM and MBBM equations....
Dhooghe, Paul F. (2003)
International Journal of Mathematics and Mathematical Sciences
Similarity:
Geer, Nathan (2005)
Algebraic & Geometric Topology
Similarity:
Louis Michel, Luigi A. Radicati (1973)
Annales de l'I.H.P. Physique théorique
Similarity:
Vinberg, E.B. (1996)
Journal of Lie Theory
Similarity:
Sam Nelson (2014)
Fundamenta Mathematicae
Similarity:
We define ambient isotopy invariants of oriented knots and links using the counting invariants of framed links defined by finite racks. These invariants reduce to the usual quandle counting invariant when the rack in question is a quandle. We are able to further enhance these counting invariants with 2-cocycles from the coloring rack's second rack cohomology satisfying a new degeneracy condition which reduces to the usual case for quandles.