Parametrizing Clifford algebras' matrix generators with Euler angles
From MaRDI portal
Publication:6603958
DOI10.1007/S00006-024-01353-8MaRDI QIDQ6603958
Melvin Arias Polanco, Manuel Beato Vásquez
Publication date: 12 September 2024
Published in: Advances in Applied Clifford Algebras (Search for Journal in Brave)
Cites Work
- Title not available (Why is that?)
- A construction of matrix representation of Clifford algebras
- Extension of Pauli's theorem to Clifford algebras
- Canonical bases for real representations of Clifford algebras
- On families of anticommuting matrices
- The quantum theory of the electron. I.
- Zur Quantenmechanik des magnetischen Elektrons.
- On the problem of choosing subgroups of Clifford algebras for applications in fundamental physics
- A note on the representation of Clifford algebras
- New applications of Clifford's geometric algebra
- Calculation of elements of spin groups using generalized Pauli's theorem
- On matrix representations of geometric (Clifford) algebras
- Matrix representations of the low order real Clifford algebras
- On parametrization of the linear \(\text{GL}(4,\mathbb{C})\) and unitary \(\text{SU}(4)\) groups in terms of Dirac matrices.
- Contributions mathématiques à la théorie des matrices de Dirac.
- Beiträge zur mathematischen Theorie der Diracschen Matrizen.
- On Clifford algebras and their representations
- Clifford algebras in physics
- The algebra of grand unified theories
- A parametrization of bipartite systems based onSU(4) Euler angles
- Note on An Algebraic Theorem of Eddington
- Space-Time Algebra
- Anticommuting Linear Transformations
- The Dirac Electron Theory
- On the representations of Clifford and \(\mathrm{SO}(1, 9)\) algebras for 8-component Dirac equation
- On the Dirac-like equation in 7-component space-time and generalized Clifford-Dirac algebra
This page was built for publication: Parametrizing Clifford algebras' matrix generators with Euler angles
Report a bug (only for logged in users!)Click here to report a bug for this page (MaRDI item Q6603958)
