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The anapole form factor of the deuteron

Publication ,  Journal Article
Savage, MJ; Springer, RP
Published in: Nuclear Physics A
April 9, 2001

We find the leading-order result for the anapole form factor of the deuteron using effective field theory. The momentum dependence of the anapole form factor is different from that of the matrix element of the strange currents in the deuteron, which may provide a way for disentangling these two competing effects when analyzing parity-violating electron-deuteron scattering experiments. We give closed form expressions for both the form factor and integrals often encountered in the NN effective field theory. © 2001 Elsevier Science B.V. All rights reserved.

Duke Scholars

Published In

Nuclear Physics A

DOI

ISSN

0375-9474

Publication Date

April 9, 2001

Volume

686

Issue

1-4

Start / End Page

413 / 428

Related Subject Headings

  • Nuclear & Particles Physics
  • 0206 Quantum Physics
  • 0202 Atomic, Molecular, Nuclear, Particle and Plasma Physics
  • 0201 Astronomical and Space Sciences
 

Citation

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Savage, M. J., & Springer, R. P. (2001). The anapole form factor of the deuteron. Nuclear Physics A, 686(1–4), 413–428. https://doi.org/10.1016/S0375-9474(00)00568-6
Savage, M. J., and R. P. Springer. “The anapole form factor of the deuteron.” Nuclear Physics A 686, no. 1–4 (April 9, 2001): 413–28. https://doi.org/10.1016/S0375-9474(00)00568-6.
Savage MJ, Springer RP. The anapole form factor of the deuteron. Nuclear Physics A. 2001 Apr 9;686(1–4):413–28.
Savage, M. J., and R. P. Springer. “The anapole form factor of the deuteron.” Nuclear Physics A, vol. 686, no. 1–4, Apr. 2001, pp. 413–28. Scopus, doi:10.1016/S0375-9474(00)00568-6.
Savage MJ, Springer RP. The anapole form factor of the deuteron. Nuclear Physics A. 2001 Apr 9;686(1–4):413–428.
Journal cover image

Published In

Nuclear Physics A

DOI

ISSN

0375-9474

Publication Date

April 9, 2001

Volume

686

Issue

1-4

Start / End Page

413 / 428

Related Subject Headings

  • Nuclear & Particles Physics
  • 0206 Quantum Physics
  • 0202 Atomic, Molecular, Nuclear, Particle and Plasma Physics
  • 0201 Astronomical and Space Sciences