A question in four parts What are the main problems which supersymmetry purports to solve What would constitute lack of evidence for susy at the proposed lhc energy scales (e.g 4 supergravity by daniel z freedman and antoine van proeyen is quite excellent for illustrating clifford algebra techniques and calculations in the classical susy/sugra in general (in the component formalism) The book has several calculations illustrated and plenty of exercises. In strathdeee's extended poincare supersymmetry, the first entry on page 16 lists the massless multiplets of 6d $\\mathcal{n} = (1,0)$ supersymmetry as $2^2 = (2,1
I don't understand what this means 2 i am currently trying to read into susy and i am running into trouble with the van der waerden spinor notation for weyl spinors I am looking for resources that construct and justify the index notation given to the weyl spinors, especially van der waerden spinor notation. One of the advantages of supersymmetry in phenomenology is that the bosons and fermions cancel their quadratically divergent loop corrections to the higgs mass 1 this question already has answers here Number of supersymmetric charge and the meaning of $\cal n$ (2 answers) what's the $ {\cal n}$ for susy theories
So what is the general mathematical definition of bps states which is independent of the theory in consideration, say a general susy quantum field theories, be it qft, string theory, gravity and in any dimension.
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