Not-so-neutral neutron: clearer view of neutron reveals charged locales.Textbooks say the neutron has no electric charge, but physicists have long suspected that the particle is a more complicated beast. A new accelerator study is helping physicists see clearly an aspect of neutron structure they could only guess at before: Neutrons may be electrically neutral overall but charged at different locations within their tiny volumes. The new data from the Thomas Jefferson National Accelerator Facility Thomas Jefferson National Accelerator Facility (TJNAF), commonly called Jefferson Lab (JLAB), is a U.S. national laboratory operated as of 1 June 2006 by Jefferson Science Associates, LLC, a joint venture between Southeastern Universities Research Association, Inc. in Newport News, Va., reveal a slight positive charge at the neutron's center and a slight negative charge at its surface. Those findings may help scientists better understand matter on scales that are both smaller and larger than neutrons themselves, says theorist Franz Gross of the College of William and Mary Noun 1. William and Mary - joint monarchs of England; William III and Mary II in Williamsburg, Va., and the Jefferson lab. For example, the data may shed light on the locations and interactions of quarks, the smaller, fundamental constituents of neutrons and protons. They also may provide insights into how neutrons and protons, which are collectively known as nucleons, arrange themselves to form atomic nuclei, Gross says. Andrei Yu Semenov of Kent State University in Ohio and a member of the Jefferson experimental team presented the new neutron data last week in Albuquerque at a joint meeting of the American Physical Society The American Physical Society was founded in 1899 and is the world's second largest organization of physicists. The Society publishes more than a dozen science journals, including the world renowned Physical Review and Physical Review Letters, and organizes more than twenty science and the High Energy Astrophysics Division of the American Astronomical Society The American Astronomical Society (AAS, sometimes pronounced "double-A-S") is a US society of professional astronomers and other interested individuals, headquartered in Washington, DC. . For decades, physicists have investigated nucleon nucleon, term applying to both the proton and the neutron, the two constituents of atomic nuclei. The nucleon may be considered a single particle, of which the proton and the neutron are two different states. See atom; elementary particles. structures by firing electrons at them (SN: 8/27/94, p.140). From the way the electrons scatter off the particles, it's been possible to infer the locations and strengths of the electric charges and magnetic fields magnetic fields, n.pl the spaces in which magnetic forces are detectable; created by magnetostrictive ultrasonic scalers to cause the tips of instruments such as ultrasonic scalers to vibrate. of the nucleons. In the past few years, researchers have greatly reduced uncertainties in such measurements by exploiting magnetic field orientations, or polarizations, of both the electron beam and the nucleon targets. The technique is akin to "getting a new pair of glasses" for viewing nucleons, says James J. Kelly of the University of Maryland University of Maryland can refer to:
In previous experiments, scientists at the Jefferson lab have already used that technique to probe the electrical structure of the proton, and last year the researchers found surprising evidence that the distributions of the particle's electric and magnetic fields are different (SN: 5/5/01, p.277). Now, to look at the neutron's electric-charge structure, Semenov, Kelly, and their colleagues have used exquisitely cold deuterium deuterium (d  tēr`ēəm), isotope of hydrogen with mass no. 2. The deuterium nucleus, called a deuteron, contains one proton and one neutron. , an isotope of hydrogen whose nucleus contains a neutron as well as a single proton. They mapped the electric-charge layout with an accuracy of about 4 percent of the nucleon's diameter, Kelly says. That's when the neutron's inner positivity and outer negativity became unmistakable. T. William Donnelly of the Massachusetts Institute of Technology Massachusetts Institute of Technology, at Cambridge; coeducational; chartered 1861, opened 1865 in Boston, moved 1916. It has long been recognized as an outstanding technological institute and its Sloan School of Management has notable programs in business, notes that recent, lower-energy experiments in both the United States and Europe had already revealed an uneven distribution of charge in the neutron. Without the new high-energy data from the Jefferson experiments, however, the picture would have remained fuzzy. Says Donnelly, "These are really quite breakthrough measurements." |
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