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In particle physics, supersymmetry (often abbreviated susy) is a symmetry that relates elementary particles of one spin to other particles that differ by half a unit of spin and are What would constitute lack of evidence for susy at the proposed lhc energy scales (e.g Certain predicted superpartners are not in fact observed) I am learning supersymmetry right now I am mostly following bailin and love I try to connect all the steps from the book and complete the derivations in order to get comfortable with the calculat. In modern supersymmetry by john terning, page 13, the states of the massless supermultiplets of $n=4$ susy are labelled by the helicity and representation of r. In 3d $ {\cal n}=2$ susy, the linear multiplet contains a global current How is this related to the gauge field Ask question asked 7 years, 2 months ago modified 7 years, 2 months ago 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 To gain full voting privileges, 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. I think i figured out the meaning of this after some research so, i am posting an answer to my own question The answer is there is nothing called $\mathcal {n}= (1,1)$ superalgebra The superalgebra is always named by $\mathcal {n}$ with integers The $\mathcal {n}= (1,1)$ actually means a supergravity multiplet so my original question was wrong We get this multiplet as the massless level of.