1988
DOI: 10.1143/ptp.80.162
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Coupling Constant Relations and Effective Lagrangian in the Type I Superstring

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Cited by 12 publications
(25 citation statements)
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“…The structure of this paper is as follows: in section 2 we will review the one-loop calculation of the gauge action for toroidal compactifications of the SO(32) type-I superstring. In section 3 we will analyze ultraviolet divergences, and rederive in particular the relation between the gauge and gravitational couplings and the string scale, obtained previously by Abe and Sakai [16,17]. The results of these two sections are standard [18,19], but we include them as a warm up for the orbifold calculation which follows in section 4.…”
Section: Introductionmentioning
confidence: 93%
“…The structure of this paper is as follows: in section 2 we will review the one-loop calculation of the gauge action for toroidal compactifications of the SO(32) type-I superstring. In section 3 we will analyze ultraviolet divergences, and rederive in particular the relation between the gauge and gravitational couplings and the string scale, obtained previously by Abe and Sakai [16,17]. The results of these two sections are standard [18,19], but we include them as a warm up for the orbifold calculation which follows in section 4.…”
Section: Introductionmentioning
confidence: 93%
“…The one compact dimension of the D4-brane we live on has volume 2πR 6 . The factor of (2π) 6 π in the above comes from G 10 in type I string theory [17],…”
Section: The String Scalementioning
confidence: 99%
“…Notice that whichever of the two ⋆ In our notations, λ 2 I corresponds to g 4 open = (2π) 7 g 2 closed of ref. [9]. Also, we normalize the gauge group generators T a to tr(Q a Q b ) = δ ab rather than 2δ ab .…”
Section: Compactifications Of the So(32) Theorymentioning
confidence: 99%