Physics – Condensed Matter – Other Condensed Matter
Scientific paper
2012-01-06
Physics
Condensed Matter
Other Condensed Matter
14 pages
Scientific paper
We are interested in the energy-momentum relation for a moving composite in relativistic quantum mechanics in many-particle Dirac models. For a manifestly covariant model one can apply the Lorentz transform to go from the rest frame to a moving frame to establish an energy-momentum relation of the form $\sqrt{(M^*c^2)^2+c^2|{\bf P}|^2}$ where $M^*$ is the kinematic mass. However, the many-particle Dirac model is not manifestly covariant, and some other approach is required. We have found a simple approach that allows for a separation of relative and center of mass contributions to the energy. We are able to define the associated kinematic energy and determine the energy-momentum relation. Our result can be expressed as a modified deBroglie relation of the form $$ \hbar \omega ({\bf P}) = <\Phi' | \sum_j {m_j \over M} \beta_j | \Phi' >~ \sqrt{[M^*({\bf P}) c^2]^2 + c^2 |{\bf P}|^2} $$ where the kinematic mass $M^*$ will depend on the total momentum ${\bf P}$ for a general noncovariant potential. The prefactor that occurs we associate with a time dilation effect, the existence of which has been discussed previously in the literature.
Chaudhary Irfan U.
Hagelstein Peter L.
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