Add to ORKGWe consider the effect of new physics on the branching ratio of B_s --> l+ l- gamma where l = e, mu. If the new physics is of the form scalar/pseudoscalar, then it makes no contribution to B_s --> l+ l- gamma, unlike in the case of B_s --> l+ l-, where it can potentially make a very large contribution. New Physics in the form of vector/axial-vector operators cannot lead to large enhancement of B_s --> l+ l- gamma much beyond the Standard Model expectation. But new physics in the form of tensor/pseudo-tensor operators can
Based on the low-energy effective Hamiltonian, we calculate new physics corrections to the branching...
We have recently seen new upper bounds for B-s(0) -> mu(+) mu(-), a key decay to search for physi...
We study the constraints on the contribution of new physics in the form of scalar/pseudoscalar opera...
We consider the effect of new physics on the branching ratio of B-s -> l(+)l(-)gamma where l = e, mu...
We consider new physics interactions for b --> s l+ l- of the form vector/axial-vector. We derive th...
We consider the most general new physics effective Lagrangian for b→sl+l−. We derive the upper limit...
New physics in the form of scalar/pseudoscalar operators cannot lower the semileptonic branching rat...
New physics in the form of scalar/pseudoscalar operators cannot lower the semileptonic branching rat...
We consider the most general new physics effective Lagrangian for b→sl+l−. We derive the upper limit...
We have recently seen new upper bounds for B-s(0) -> mu(+) mu(-), a key decay to search for physics ...
We give a summary about the various contributions which have to be calculated in order to obtain the...
Taking into account the constraints on non-standard interactions (NSIs) of neutrinos and light gauge...
Using results on soft-collinear factorization for inclusive B-meson decay distributions, a systemati...
We study the constraints on possible new physics contributions to the forward-backward asymmetry of ...
In a recently proposed extension of the Standard Model with a compact extra dimension of size R we c...
Based on the low-energy effective Hamiltonian, we calculate new physics corrections to the branching...
We have recently seen new upper bounds for B-s(0) -> mu(+) mu(-), a key decay to search for physi...
We study the constraints on the contribution of new physics in the form of scalar/pseudoscalar opera...
We consider the effect of new physics on the branching ratio of B-s -> l(+)l(-)gamma where l = e, mu...
We consider new physics interactions for b --> s l+ l- of the form vector/axial-vector. We derive th...
We consider the most general new physics effective Lagrangian for b→sl+l−. We derive the upper limit...
New physics in the form of scalar/pseudoscalar operators cannot lower the semileptonic branching rat...
New physics in the form of scalar/pseudoscalar operators cannot lower the semileptonic branching rat...
We consider the most general new physics effective Lagrangian for b→sl+l−. We derive the upper limit...
We have recently seen new upper bounds for B-s(0) -> mu(+) mu(-), a key decay to search for physics ...
We give a summary about the various contributions which have to be calculated in order to obtain the...
Taking into account the constraints on non-standard interactions (NSIs) of neutrinos and light gauge...
Using results on soft-collinear factorization for inclusive B-meson decay distributions, a systemati...
We study the constraints on possible new physics contributions to the forward-backward asymmetry of ...
In a recently proposed extension of the Standard Model with a compact extra dimension of size R we c...
Based on the low-energy effective Hamiltonian, we calculate new physics corrections to the branching...
We have recently seen new upper bounds for B-s(0) -> mu(+) mu(-), a key decay to search for physi...
We study the constraints on the contribution of new physics in the form of scalar/pseudoscalar opera...