Charged pion form factor between Q2=0.60 and 2.45  GeV 2 . II. Determination of, and results for, the pion form factor

The charged pion form factor, F{sub {Pi}}(Q{sup 2}), is an important quantity that can be used to advance our knowledge of hadronic structure. However, the extraction of F{sub {Pi}} from data requires a model of the {sup 1}H(e,e'{Pi}+)n reaction and thus is inherently model dependent. Therefore...

Full description

Saved in:
Bibliographic Details
Published in:Physical review. C, Nuclear physics Nuclear physics, 2008-10, Vol.78 (4)
Main Authors: Huber, G. M., Blok, H. P., Horn, T., Beise, E. J., Gaskell, D., Mack, D. J., Tadevosyan, V., Volmer, J., Abbott, D., Aniol, K., Anklin, H., Armstrong, C., Arrington, J., Assamagan, K., Avery, S., Baker, O. K., Barrett, B., Bochna, C., Boeglin, W., Brash, E. J., Breuer, H., Chang, C. C., Chant, N., Christy, M. E., Dunne, J., Eden, T., Ent, R., Fenker, H., Gibson, E. F., Gilman, R., Gustafsson, K., Hinton, W., Holt, R. J., Jackson, H., Jin, S., Jones, M. K., Keppel, C. E., Kim, P. H., Kim, W., King, P. M., Klein, A., Koltenuk, D., Kovaltchouk, V., Liang, M., Liu, J., Lolos, G. J., Lung, A., Margaziotis, D. J., Markowitz, P., Matsumura, A., McKee, D., Meekins, D., Mitchell, J., Miyoshi, T., Mkrtchyan, H., Mueller, B., Niculescu, G., Niculescu, I., Okayasu, Y., Pentchev, L., Perdrisat, C., Pitz, D., Potterveld, D., Punjabi, V., Qin, L. M., Reimer, P. E., Reinhold, J., Roche, J., Roos, P. G., Sarty, A., Shin, I. K., Smith, G. R., Stepanyan, S., Tang, L. G., Tvaskis, V., van der Meer, R. L. J., Vansyoc, K., Westrum, D. Van, Vidakovic, S., Vulcan, W., Warren, G., Wood, S. A., Xu, C., Yan, C., Zhao, W. -X., Zheng, X., Zihlmann, B.
Format: Article
Language:English
Subjects:
ELECTROPRODUCTION
FORM FACTORS
MONOPOLES
PHYSICS OF ELEMENTARY PARTICLES AND FIELDS
PIONS
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The charged pion form factor, F{sub {Pi}}(Q{sup 2}), is an important quantity that can be used to advance our knowledge of hadronic structure. However, the extraction of F{sub {Pi}} from data requires a model of the {sup 1}H(e,e'{Pi}+)n reaction and thus is inherently model dependent. Therefore, a detailed description of the extraction of the charged pion form factor from electroproduction data obtained recently at Jefferson Lab is presented, with particular focus given to the dominant uncertainties in this procedure. Results for F{sub {Pi}} are presented for Q{sup 2} = 0.60-2.45 GeV2. Above Q{sup 2}=1.5GeV{sup 2}, the F{sub {Pi}} values are systematically below the monopole parametrization that describes the low Q{sup 2} data used to determine the pion charge radius. The pion form factor can be calculated in a wide variety of theoretical approaches, and the experimental results are compared to a number of calculations. This comparison is helpful in understanding the role of soft versus hard contributions to hadronic structure in the intermediate Q{sup 2} regime.
ISSN:0556-2813
1089-490X
DOI:10.1103/PhysRevC.78.045203