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Line 1: {{Short description\|Concept in linear algebra}} A '''quaternionic matrix''' is a [[matrix (mathematics)\|matrix]] whose elements are [[quaternion]]s. Line 36 ⟶ 37: :<math>\operatorname{trace}(AB)\ne\operatorname{trace}(BA).</math> Left scalar multiplication, isand right scalar multiplication are defined by :<math>(cA)_{ij}=cA_{ij}, \qquad (Ac)_{ij}=A_{ij}c.\,</math> Again, since multiplication is not commutative some care must be taken in the order of the factors.<ref>{{cite book \|title=Matrix groups for undergraduates\|first=Kristopher\|last=Tapp \|publisher=AMS Bookstore\|year=2005\|isbn=0-8218-3785-0 \|pages=11 ''ff'' \|url=~~http~~https://books.google.com/books?id=Un_15Im3NhUC&pg=PA11~~#v=onepage&q&f=false~~}}</ref> ==Determinants== There is no natural way to define a [[determinant]] for (square) quaternionic matrices so that the values of the determinant are quaternions.<ref>{{cite journal \|author=Helmer Aslaksen \|title=Quaternionic determinants \|year=~~1966~~1996 \|journal=[[The Mathematical Intelligencer]] \|volume=18 \|number=3 \|pages=57–65 \|doi=10.1007/BF03024312\|s2cid=13958298 }}</ref> Complex valued determinants can be defined however.<ref>{{cite journal \|author=E. Study \|title=Zur Theorie der linearen Gleichungen \|year=1920 \|journal=[[Acta Mathematica]] \|volume=42 \|number=1 \|pages=1–61 \|language=[[German ~~language\|German]]~~ \|doi=10.1007/BF02404401\|doi-access=free }}</ref> The quaternion ''a'' + ''bi'' + ''cj'' + ''dk'' can be represented as the 2×2 complex matrix : <math>\begin{bmatrix}~~a+bi & c+di \\ -c+di & a-bi \end{bmatrix}.</math> This defines a map Ψ<sub>''mn''</sub> from the ''m'' by ''n'' quaternionic matrices to the 2''m'' by 2''n'' complex matrices by replacing each entry in the quaternionic matrix by its 2 by 2 complex representation. The complex valued determinant of a square quaternionic matrix ''A'' is then defined as det(Ψ(''A'')). Many of the usual laws for determinants hold; in particular, an [[square matrix\|''n'' by ''n'' matrix]] is invertible ~~exactly~~if and only ~~when~~if its determinant is nonzero. ==Applications== Quaternionic matrices are used in [[quantum mechanics]]<ref>{{cite journal \|author= N. Rösch \|title=Time-reversal symmetry, Kramers' degeneracy and the algebraic eigenvalue problem \|year=1983 \|journal=[[Chemical Physics]] \|volume=80 \|issue=1–2 \|pages=1–5 \|doi=10.1016/0301-0104(83)85163-5\|bibcode=1983CP.....80....1R }}</ref> and in the treatment of [[multibody problem]]s.<ref>{{cite book \|title=Quaternionic and Clifford calculus for physicists and engineers \|url=https://archive.org/details/quaternionicclif00kgue \|url-access=limited \|author=Klaus Gürlebeck \|author2=Wolfgang Sprössig \|chapter=Quaternionic matrices \|pages=~~32–34~~[https://archive.org/details/quaternionicclif00kgue/page/n43 32]–34 \|publisher=Wiley \|year=1997 \|isbn=978-0-471-96200-7}}</ref> ==References== {{reflist}} {{Matrix classes}} [[Category:Matrices]]▼ ▲[[Category:Matrices (mathematics)]] [[Category:Linear algebra]]