We consider the effect of the transitions $n \to \Delta^{0}$ and $p \to
\Delta^{+}$ in deep inelastic scattering on polarized $^3$He on the extraction
of the neutron spin structure function $g_{1}^{n}(x,Q^2)$. Making the natural
assumption that these transitions are the dominant non-nucleonic contributions
to the renormalization of the axial vector coupling constant in the A=3 system,
we find that the effect of $\Delta$ increases $g_{1}^{n}(x,Q^2)$ by $10 \div
40$% in the range $0.05 \le x \le 0.6$, where our considerations are applicable
and most of the data for $g_{1}^{n}(x,Q^2)$ exist.Comment: 23 pages, 6 figures, revte

A. Airapetian

A. W. Thomas

A.I. Signal

A.W. Schreiber

B. Adeva

B. Blankleider

B. Budick

C. Boros

C. Caso

C. Ciofi degli Atti

D. Adams

D. de Florian

F.E. Close

J. Carlson

J.D. Bjorken

J.L. Friar

K. Abe

K. Ackerstaff

L. Alvarez-Ruso

L. Frankfurt

M. Arneodo

M. Glück

M. Strikman

P.L. Anthony

S.A. Kulagin

T. Kitagaki

T.-Y. Saito

V. De Alfaro

V. Guzey

W. Melnitchouk

English

arXiv

We consider the effect of the transitions n→Δ0 and p→Δ+ in deep inelastic scattering on polarized 3He on the extraction of the neutron spin structure function g1n(x,Q²). Making the natural assumption that these transitions are the dominant non-nucleonic contributions to the renormalization of the axial vector coupling constant in the A=3 system, we find that the effect of Δ increases g1ⁿ(x,Q²) by 15-30% in the range 0.2<~x<~0.6, where our considerations are applicable and the data for g1ⁿ(x,Q²) exist.C. Boros; V. Guzey; M. Strikman; A. W. Thoma

Boros, C.

Guzey, V.

Strikman, M.

Thomas, A.

Adelaide Research & Scholarship

Physical Review D

Role of the Delta (1232) in deep inelastic scattering on polarized (3)He and extraction of the neutron spin structure function g(1n)(x,Q(2))

Crossref

Role of the Delta (1232) in deep inelastic scattering on polarized

https://digital.library.adelaide.edu.au/dspace/bitstream/2440/11174/1/hdl_11174.pdf