Pure spinor formalism for Osp(N 4)backgrounds

Pietro Fré; Pietro Antonio Grassi

doi:10.1142/S0217751X12501850

Pure spinor formalism for Osp(N 4)backgrounds

Pietro Fré
, Pietro Antonio Grassi

Department of Science and Technological Innovation

Research output: Contribution to journal › Article › peer-review

Abstract

We start from the Maurer-Cartan (MC) equations of the Osp(N4) superalgebras satisfied by the left-invariant superforms realized on supercoset manifolds of the corresponding supergroups and we derive some new pure spinor constraints. They are obtained by ghostifying the MC forms and extending the differential d to a BRST differential. From the superalgebras G = Osp(N4) we single out different subalgebras H \subset G associated with the different cosets G/H: each choice of leads to a different weakening of the pure spinor constraints. In each case, the number of parameter is counted and we show that in the cases of Osp(6|4)/U(3)×SO(1, 3), Osp(4|4)/SO(3) ×SO(1, 3) and finally Osp(4|4)/U(2) ×SO(1, 3) the bosonic and fermionic degrees of freedom match in order to provide a c = 0 superconformal field theory. We construct both the Green-Schwarz and the pure spinor sigma model for the case Osp(6|4)/U(3) ×SO(1, 3) corresponding to AdS₄ ×³. The pure spinor sigma model can be consistently quantized.

Original language	English
Journal	International Journal of Modern Physics A
Volume	27
Issue number	32
DOIs	https://doi.org/10.1142/S0217751X12501850
Publication status	Published - 30 Dec 2012

Keywords

String perturbation theory
string on nontrivial backgrounds
supersymmetric string theory

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title = "Pure spinor formalism for Osp(N 4)backgrounds",

abstract = "We start from the Maurer-Cartan (MC) equations of the Osp(N4) superalgebras satisfied by the left-invariant superforms realized on supercoset manifolds of the corresponding supergroups and we derive some new pure spinor constraints. They are obtained by ghostifying the MC forms and extending the differential d to a BRST differential. From the superalgebras G = Osp(N4) we single out different subalgebras H \textbackslash{}subset G associated with the different cosets G/H: each choice of leads to a different weakening of the pure spinor constraints. In each case, the number of parameter is counted and we show that in the cases of Osp(6|4)/U(3)×SO(1, 3), Osp(4|4)/SO(3) ×SO(1, 3) and finally Osp(4|4)/U(2) ×SO(1, 3) the bosonic and fermionic degrees of freedom match in order to provide a c = 0 superconformal field theory. We construct both the Green-Schwarz and the pure spinor sigma model for the case Osp(6|4)/U(3) ×SO(1, 3) corresponding to AdS4 ×3. The pure spinor sigma model can be consistently quantized.",

keywords = "String perturbation theory, string on nontrivial backgrounds, supersymmetric string theory",

author = "Pietro Fr{\'e} and Grassi, \{Pietro Antonio\}",

year = "2012",

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doi = "10.1142/S0217751X12501850",

language = "English",

volume = "27",

journal = "International Journal of Modern Physics A",

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TY - JOUR

T1 - Pure spinor formalism for Osp(N 4)backgrounds

AU - Fré, Pietro

AU - Grassi, Pietro Antonio

PY - 2012/12/30

Y1 - 2012/12/30

N2 - We start from the Maurer-Cartan (MC) equations of the Osp(N4) superalgebras satisfied by the left-invariant superforms realized on supercoset manifolds of the corresponding supergroups and we derive some new pure spinor constraints. They are obtained by ghostifying the MC forms and extending the differential d to a BRST differential. From the superalgebras G = Osp(N4) we single out different subalgebras H \subset G associated with the different cosets G/H: each choice of leads to a different weakening of the pure spinor constraints. In each case, the number of parameter is counted and we show that in the cases of Osp(6|4)/U(3)×SO(1, 3), Osp(4|4)/SO(3) ×SO(1, 3) and finally Osp(4|4)/U(2) ×SO(1, 3) the bosonic and fermionic degrees of freedom match in order to provide a c = 0 superconformal field theory. We construct both the Green-Schwarz and the pure spinor sigma model for the case Osp(6|4)/U(3) ×SO(1, 3) corresponding to AdS4 ×3. The pure spinor sigma model can be consistently quantized.

AB - We start from the Maurer-Cartan (MC) equations of the Osp(N4) superalgebras satisfied by the left-invariant superforms realized on supercoset manifolds of the corresponding supergroups and we derive some new pure spinor constraints. They are obtained by ghostifying the MC forms and extending the differential d to a BRST differential. From the superalgebras G = Osp(N4) we single out different subalgebras H \subset G associated with the different cosets G/H: each choice of leads to a different weakening of the pure spinor constraints. In each case, the number of parameter is counted and we show that in the cases of Osp(6|4)/U(3)×SO(1, 3), Osp(4|4)/SO(3) ×SO(1, 3) and finally Osp(4|4)/U(2) ×SO(1, 3) the bosonic and fermionic degrees of freedom match in order to provide a c = 0 superconformal field theory. We construct both the Green-Schwarz and the pure spinor sigma model for the case Osp(6|4)/U(3) ×SO(1, 3) corresponding to AdS4 ×3. The pure spinor sigma model can be consistently quantized.

KW - String perturbation theory

KW - string on nontrivial backgrounds

KW - supersymmetric string theory

UR - https://www.scopus.com/pages/publications/84871919480

U2 - 10.1142/S0217751X12501850

DO - 10.1142/S0217751X12501850

M3 - Article

SN - 0217-751X

VL - 27

JO - International Journal of Modern Physics A

JF - International Journal of Modern Physics A

IS - 32

ER -

Pure spinor formalism for Osp(N 4)backgrounds

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Keywords

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