Certain Expansions in the Algebra of Quantum Mechanics1

Neal H. McCoy

doi:10.1017/S0013091500013870

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§ 1. Introduction. The algebra of quantum mechanics is characterized by the fact that the variables p, q obey all the laws of ordinary algebra except that multiplication is non-commutative and instead there exists a relation of the form

where c is a real or complex scalar constant and is thus commutative with both p and q.

References

^{page 118 note 1} Some of the results presented here were obtained while the author was a National Research Fellow at Princeton University.

^{page 118 note 2} For references to this algebra see a previous paper. Transactions of the American Mathematical Society, 31 (1929), 793–806;CrossRef Google Scholar also Kermack, and McCrea, , Proc. Edinburgh Math. Soc. (2), 2 (1931), 220–239.CrossRef Google ScholarKermack, and McCrea, used the relation obtained from (1) by placing c= - 1 .Google Scholar

^{page 119 note 1} Born, Heisenberg and Jordan, , ZS. f. Physik, 35 (1926), 563.CrossRef Google Scholar

^{page 120 note 1} Loe. cit., 224.Google Scholar

^{page 121 note 1} This result was obtained independently by the present author by this method prior to the publication of their paper.

^{page 125 note 1} Schwatt, I. J., Operations with Series (Univ. of Pennsylvania Press) (1924), chap. V.Google Scholar

^{page 125 note 2} Loc. cit., 227.Google Scholar

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