Attempts to use accelerator mass spectrometry to detect fractionally charged particles in Nature
- Creators
- McKeown, R. D.
- Kutschera, W.
- Ledingham, K.
Abstract
The search for fractionally charged particles (FCP) in Nature is ultimately motivated by the belief that the fundamental constituents of the atomic nucleus are quarks, which have charge in integral units of k of the electronic charge. The reported observation of fractional charge in niobium by a group at Stanford University in 1981 has motivated many new efforts to detect FCP in the past few years. The techniques of accelerator mass spectrometry (AMSh) ave been successfully applied to this problem at several laboratories. The method generally involves the use of electrostatic analysis systems to separate the FCP from integrally charged ions, since the mass of the FCP is not known a priori. A variety of materials have been searched in these experiments and the most sensitive limits are at concentration levels of less than 10^(-18) FCP per atom of host material.
Additional Information
© 1987 The Royal Society. I acknowledge my co-workers on the Caltech experiment, particularly Richard Milner, Kai Chang and Barbara Cooper, for a fruitful and enjoyable collaboration. Their advice and criticism have been very valuable to me in pursuing this subject, and their persistent efforts resulted in the very sensitive limits ultimately obtained in that experiment. I also mention George Zweig for his encouragement and for useful conversations in the early stages of this work. The support of the National Science Foundation (grant PHY82-15500) and Caltech Sloan Fund is gratefully acknowledged.Additional details
- Eprint ID
- 51716
- DOI
- 10.1098/rsta.1987.0078
- Resolver ID
- CaltechAUTHORS:20141113-131435593
- PHY82-15500
- NSF
- Caltech Sloan Fund
- Created
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2014-11-14Created from EPrint's datestamp field
- Updated
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2021-11-10Created from EPrint's last_modified field