# Journal of High Energy Physics

Journal of High Energy Physics > 2016 > 2016 > 2 > 1-34

_{4}factor, non-trivial axion-dilaton, B-field, and three- and five-form Ramond-Ramond fluxes. We obtain these solutions by applying non-Abelian T-dualities with respect to SU (2) or SU (2) /U (1) isometries to reductions to 10d IIA of 11d sugra solutions of the form AdS

_{4}×

*Y*

^{7}...

Journal of High Energy Physics > 2016 > 2016 > 2 > 1-28

Journal of High Energy Physics > 2016 > 2016 > 2 > 1-51

^{−1}of data collected by the ATLAS detector at the Large Hadron Collider in proton-proton collisions at a centre-of-mass energy of 8 TeV. Events are required to contain at least two lepton-jets. This...

Journal of High Energy Physics > 2016 > 2016 > 2 > 1-35

*W*′ and

*Z*′, are introduced as effective degrees of freedom of the dynamical sector. We explore several theoretical constraints by investigating the scalar potential of the model as well...

Journal of High Energy Physics > 2016 > 2016 > 2 > 1-17

Journal of High Energy Physics > 2016 > 2016 > 2 > 1-35

*ν*

_{ e },

*ν*

_{ μ },

*ν*

_{ τ }) proportional to (0, 1, 1), while the subdominant right-handed neutrino, mainly responsible...

Journal of High Energy Physics > 2016 > 2016 > 2 > 1-27

*N*= 1,

*D*= 4 supergravity to a locally supersymmetric generalization of the Volkov-Akulov goldstino action describing the dynamics of a space-filling non-BPS 3-brane in

*N*= 1,

*D*= 4 superspace. To the quadratic order in the goldstino field...

Journal of High Energy Physics > 2016 > 2016 > 2 > 1-28

*Z*production in the search for dark matter in Run-II at the LHC, including next-to-leading order QCD corrections and parton-shower effects. We consider generic simplified models with vector and scalar

*s*-channel mediators. The calculation is performed by implementing the simplified models in the FeynRules/MadGraph5_aMC@NLO framework, which allows...

Journal of High Energy Physics > 2016 > 2016 > 2 > 1-25

Journal of High Energy Physics > 2016 > 2016 > 2 > 1-28

Journal of High Energy Physics > 2016 > 2016 > 2 > 1-31

Journal of High Energy Physics > 2016 > 2016 > 2 > 1-41

_{5}

*×*S

^{5}. Supersymmetric localization provides an exact result that, in the large ’t Hooft coupling limit, should be reproduced by the sigma-model...

Journal of High Energy Physics > 2016 > 2016 > 2 > 1-24

Journal of High Energy Physics > 2016 > 2016 > 2 > 1-20

*N*limit we compute the...

Journal of High Energy Physics > 2016 > 2016 > 2 > 1-28

Journal of High Energy Physics > 2016 > 2016 > 2 > 1-79

*B*

^{0}→

*K*

^{*0}(→

*K*

^{+}

*π*

^{−})

*μ*

^{+}

*μ*

^{−}decay is presented. The dataset corresponds to an integrated luminosity of 3.0 fb

^{−1}of

*pp*collision data collected at the LHCb experiment. The complete angular information from the decay is used to determine

*CP*-averaged observables and

*CP*asymmetries, taking...

Journal of High Energy Physics > 2016 > 2016 > 2 > 1-21

Journal of High Energy Physics > 2016 > 2016 > 2 > 1-18

Journal of High Energy Physics > 2016 > 2016 > 2 > 1-26

*S*theories with certain irregular punctures called type

*I*

_{ k,N }. This class of theories include generalized Argyres-Douglas theories of type (

*A*

_{ k−1}

*, A*

_{ N −1}) and more. We conjecture the superconformal indices in certain...

Journal of High Energy Physics > 2016 > 2016 > 2 > 1-33