## Abstract

The system of constraints for the IIA supergeometry is found in the general form. For particular choice of arbitrary constants this system gives the well known set of constraints for the canonical formulation of the IIA theory. New set of constraints, which is convenient for the {sigma}-model approach to the Green-Schwarz superstring is investigated in some detailes. By solving of the d=3/2 and d=2 Bianchi identities all equations of motion are elaborated for the new set of constraints. 9 refs.

## Citation Formats

Vashakidze, Sh I.
IIA supergeometry for the Green-Schwarz {sigma}-model; IIA supergeometriya dlya {sigma}-modeli Grina-Shvartsa.
USSR: N. p.,
1990.
Web.

Vashakidze, Sh I.
IIA supergeometry for the Green-Schwarz {sigma}-model; IIA supergeometriya dlya {sigma}-modeli Grina-Shvartsa.
USSR.

Vashakidze, Sh I.
1990.
"IIA supergeometry for the Green-Schwarz {sigma}-model; IIA supergeometriya dlya {sigma}-modeli Grina-Shvartsa."
USSR.

@misc{etde_10104760,

title = {IIA supergeometry for the Green-Schwarz {sigma}-model; IIA supergeometriya dlya {sigma}-modeli Grina-Shvartsa}

author = {Vashakidze, Sh I}

abstractNote = {The system of constraints for the IIA supergeometry is found in the general form. For particular choice of arbitrary constants this system gives the well known set of constraints for the canonical formulation of the IIA theory. New set of constraints, which is convenient for the {sigma}-model approach to the Green-Schwarz superstring is investigated in some detailes. By solving of the d=3/2 and d=2 Bianchi identities all equations of motion are elaborated for the new set of constraints. 9 refs.}

place = {USSR}

year = {1990}

month = {Dec}

}

title = {IIA supergeometry for the Green-Schwarz {sigma}-model; IIA supergeometriya dlya {sigma}-modeli Grina-Shvartsa}

author = {Vashakidze, Sh I}

abstractNote = {The system of constraints for the IIA supergeometry is found in the general form. For particular choice of arbitrary constants this system gives the well known set of constraints for the canonical formulation of the IIA theory. New set of constraints, which is convenient for the {sigma}-model approach to the Green-Schwarz superstring is investigated in some detailes. By solving of the d=3/2 and d=2 Bianchi identities all equations of motion are elaborated for the new set of constraints. 9 refs.}

place = {USSR}

year = {1990}

month = {Dec}

}