Pin group
Encyclopedia : P : PI : PIN : Pin group
In the same way as the special orthogonal group SO(n) has a double cover — the spinor group, denoted Spin(n); the orthogonal group O(n) has two nonisomorphic covering groups, denoted Pin+(n) and Pin−(n). These are called the pin groups. This strange state of affairs is possible because O(n), (unlike SO(n)) is not connected (its two connected components are sets of matrices with determinant +1 and −1 respectively).
While for O(n) and SO(n), a rotation by 2π is equal to the identity, for the pin groups, as well as for Spin(n), a rotation by 2π is not equal to the identity, even though a rotation by 4π is.
For Pin+(n), if one repeats the same reflection twice, one gets the identity.
For Pin−(n), if one repeats the same reflection twice, one gets a rotation by 2π.
There are as many as eight different double covers of Spin(p,q), for [p,q\neq 0]. Only two of them are taken to be pin groups, namely, those which admit the Clifford algebra as a representation. They are called Pin(p,q) and Pin(q,p) respectively.
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