Interactions News Wire
#27-05
21 April 2005
http://www.interactions.org*******************************************************************
Source:
Jefferson Lab
Content: News Release
Date Issued: 20 April
2005
*******************************************************************
Is
It or Isn't It? Pentaquark Debate Heats UpApril 20, 2005
New data
from the Department of Energy's Jefferson Lab shows the pentaquark doesn't
appear in one place it was expected. The result contradicts earlier findings in
this same region and adds to the controversy over whether research groups from
around the world have caught a glimpse of the so-called pentaquark, a particle
built of five quarks.
Researchers in Jefferson Lab's CEBAF Large
Acceptance Spectrometer (CLAS) collaboration took data with a high energy photon
beam on a liquid hydrogen target. In a similar experiment conducted by the
SAPHIR collaboration at the ELectron Stretcher Accelerator (ELSA) in Bonn,
Germany, a signal revealing a pentaquark was observed. However, the Jefferson
Lab team, whose data contained two orders of magnitude better statistics, found
no evidence of the pentaquark. Raffaella De Vita, a staff scientist at Italy's
Istituto Nazionale di Fisica Nucleare in Genova and a Jefferson Lab CLAS
collaboration member, presented the preliminary results in a post-deadline talk
at the American Physical Society's (APS) April Meeting, Session B4 on April
16.
What the Jefferson Lab CLAS collaboration data shows is that in this
particular channel there is no pentaquark at a level of precision at least 50
times higher than the published SAPHIR result. The CLAS researchers in this
analysis will take another round of data in 2006 to look for the pentaquark in a
different channel and at higher energies.
Jefferson Lab researchers are
currently in the midst of several dedicated hunts for the pentaquark, including
an experiment repeating Jefferson Lab's original pentaquark search with much
higher statistics. That data is still being analyzed, and researchers expect to
present the results later this year.
The first pentaquark sighting was
announced by SPring-8 researchers in the spring of 2003, and the same year,
Jefferson Lab, ITEP and ELSA researchers announced that they, too, may have
spotted tantalizing hints of the particle in data previously taken in other
experiments. For instance, the SAPHIR collaboration's evidence of the Theta-plus
pentaquark came from data they took in 1997/98 and indicated a pentaquark mass
of 1540 MeV (million electron volts). Several experiments since then have backed
up these early sightings, while others have failed to confirm the
sightings.
Most ordinary matter is built of quarks. They're usually found
in twos (as particles called mesons) and threes (as particles called baryons,
such as protons and neutrons). While the pentaquark's five-quark configuration
is not forbidden by the theory of the strong interaction, finding one would be
the first sighting of an exotic baryon.
