On this page we collect movies of operators evolving along with the Argonne V18 potential. See nucl-th/0701013 for details of how the evolved operator is constructed using the eigenvectors of the evolved hamiltonian.
Last Updated | Links | Comments |
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27-Dec-2006 |
a^{+}a for q = 1.8fm^{-1}
[10MB]
a^{+}a for q = 2.2fm^{-1} [10MB] a^{+}a for q = 2.7fm^{-1} [10MB] a^{+}a for q = 3.2fm^{-1} [10MB] a^{+}a for q = 3.9fm^{-1} [10MB] a^{+}a for q = 4.4fm^{-1} [10MB] a^{+}a for q = 5.0fm^{-1} [10MB] |
Color contour plots of the integrand of a^{+}a matrix elements in the deuteron for various momenta evolving with lambda according to the SRG, starting from the Argonne V18 potential. Because the evolution is unitary, the "area" under the plot is independent of lambda and equal to the initial momentum distribution in the deuteron; that is, to u(q)^{2} + w(q)^{2}. |
27-Dec-2006 |
a^{+}a for q = 2.2fm^{-1}
[9MB]
a^{+}a for q = 4.4fm^{-1} [9MB] |
Color surface plots of the integrand of a^{+}a matrix elements in the deuteron for various momenta evolving with lambda according to the SRG, starting from the Argonne V18 potential. Because the evolution is unitary, the "area" under the plot is independent of lambda and equal to the initial momentum distribution in the deuteron; that is, to u(q)^{2} + w(q)^{2}. |
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