Locally supersymmetric D= 3 non-linear sigma models
B De Wit, AK Tollsten, H Nicolai�- Nuclear Physics B, 1993 - Elsevier
B De Wit, AK Tollsten, H Nicolai
Nuclear Physics B, 1993•ElsevierWe study non-linear sigma models with N local supersymmetries in three space-time
dimensions. For N= 1 and 2 the target space of these models is riemannian or K�hler,
respectively. All N> 2 theories are associated with Einstein spaces. For N= 3 the target
space is quaternionic, while for N= 4 it generally decomposes into two separate quaternionic
spaces, associated with inequivalent supermultiplets. For N= 5, 6, 8 there is a unique
(symmetric) space for any given number of supermultiplets. Beyond that there are only�…
dimensions. For N= 1 and 2 the target space of these models is riemannian or K�hler,
respectively. All N> 2 theories are associated with Einstein spaces. For N= 3 the target
space is quaternionic, while for N= 4 it generally decomposes into two separate quaternionic
spaces, associated with inequivalent supermultiplets. For N= 5, 6, 8 there is a unique
(symmetric) space for any given number of supermultiplets. Beyond that there are only�…
Abstract
We study non-linear sigma models with N local supersymmetries in three space-time dimensions. For N = 1 and 2 the target space of these models is riemannian or K�hler, respectively. All N > 2 theories are associated with Einstein spaces. For N = 3 the target space is quaternionic, while for N = 4 it generally decomposes into two separate quaternionic spaces, associated with inequivalent supermultiplets. For N = 5, 6, 8 there is a unique (symmetric) space for any given number of supermultiplets. Beyond that there are only theories based on a single supermultiplet for N = 9, 10, 12 and 16, associated with coset spaces with the exceptional isometry groups F4(−20), E6(−14), E7(−5) and E8(+8), respectively. For N = 3 and N ⩾ 5 the D = 2 theories obtained by dimensional reduction are two-loop finite.
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