Effective lagrangian analysis of new interactions and flavour conservation
W Buchmüller, D Wyler - Nuclear Physics B, 1986 - Elsevier
New interactions with a scale Λ larger than the Fermi scale GF− 1 2 will manifest themselves
at energies below Λ through small deviations from the standard model, which can be
described by an effective lagrangian containing non-renormalizable SU (3)× SU (2)× U (1)
invariant operators. We construct the first two terms of this lagrangian in an expansion in
powers of 1/Λ and study systematically possible effects of new interactions such as
anomalous magnetic moments, deviations from universality in weak interactions and rare …
at energies below Λ through small deviations from the standard model, which can be
described by an effective lagrangian containing non-renormalizable SU (3)× SU (2)× U (1)
invariant operators. We construct the first two terms of this lagrangian in an expansion in
powers of 1/Λ and study systematically possible effects of new interactions such as
anomalous magnetic moments, deviations from universality in weak interactions and rare …
[BOOK][B] Conservation and evolution
OH Frankel, ME Soulé - 1981 - books.google.com
The process of extinction. Population genetics and conservation. Evolutionary genetics and
conservation. Nature reserves. General principles and the genetics of captive propagation of
animals. The role of botanical gardens in conservation. The genetic diversity of plants used
by man. The conservation of plants used by man. Conservation of livestock genetic
resources.
conservation. Nature reserves. General principles and the genetics of captive propagation of
animals. The role of botanical gardens in conservation. The genetic diversity of plants used
by man. The conservation of plants used by man. Conservation of livestock genetic
resources.