We provide a general expression of the Haar measure—that is, the essentially unique translation-invariant measure—on a p-adic Lie group.We then argue that this measure can be regarded as the measure naturally induced by the invariant volume form on the group, as it happens for a standardLie group over the reals. As an important application, we next consider the problem of determining the Haar measure on the p-adic special orthogonal groups in dimension two, three and four (for every prime number p). In particular, the Haar measure on SO(2,Qp) is obtained by a direct application of our general formula. As for SO(3,Qp) and SO(4,Qp), instead, we show that Haar integrals on these two groups can conveniently be lifted to Haar integrals on certain padic Lie groups from which the special orthogonal groups are obtained as quotients. This construction involves a suitable quaternion algebra over the field Qp and is reminiscent of the quaternionic realization of the real rotation groups. Our results should pave the way to the development of harmonic analysis on the p-adic special orthogonal groups, with potential applications in p-adic quantum mechanics and in the recently proposed p-adic quantum information theory.
Invariant measures on p-adic Lie groups: the p-adic quaternion algebra and the Haar integral on the p-adic rotation groups
L'Innocente, Sonia;Mancini, Stefano;Parisi, Vincenzo;Svampa, Ilaria;
2024-01-01
Abstract
We provide a general expression of the Haar measure—that is, the essentially unique translation-invariant measure—on a p-adic Lie group.We then argue that this measure can be regarded as the measure naturally induced by the invariant volume form on the group, as it happens for a standardLie group over the reals. As an important application, we next consider the problem of determining the Haar measure on the p-adic special orthogonal groups in dimension two, three and four (for every prime number p). In particular, the Haar measure on SO(2,Qp) is obtained by a direct application of our general formula. As for SO(3,Qp) and SO(4,Qp), instead, we show that Haar integrals on these two groups can conveniently be lifted to Haar integrals on certain padic Lie groups from which the special orthogonal groups are obtained as quotients. This construction involves a suitable quaternion algebra over the field Qp and is reminiscent of the quaternionic realization of the real rotation groups. Our results should pave the way to the development of harmonic analysis on the p-adic special orthogonal groups, with potential applications in p-adic quantum mechanics and in the recently proposed p-adic quantum information theory.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.