Abstract
ISIS is the world`s most powerful pulsed spallation source and in the past ten years has demonstrated the scientific potential of accelerator-driven pulsed neutron sources in fields as diverse as physics, earth sciences, chemistry, materials science, engineering and biology. The Japan Hadron Project gives the opportunity to build on this development and to further realize the potential of neutrons as a microscopic probe of the condensed state. (author)
Taylor, A D
[1]
- Rutherford Appleton Lab., Chilton (United Kingdom)
Citation Formats
Taylor, A D.
Future opportunities with pulsed neutron sources.
Japan: N. p.,
1996.
Web.
Taylor, A D.
Future opportunities with pulsed neutron sources.
Japan.
Taylor, A D.
1996.
"Future opportunities with pulsed neutron sources."
Japan.
@misc{etde_473895,
title = {Future opportunities with pulsed neutron sources}
author = {Taylor, A D}
abstractNote = {ISIS is the world`s most powerful pulsed spallation source and in the past ten years has demonstrated the scientific potential of accelerator-driven pulsed neutron sources in fields as diverse as physics, earth sciences, chemistry, materials science, engineering and biology. The Japan Hadron Project gives the opportunity to build on this development and to further realize the potential of neutrons as a microscopic probe of the condensed state. (author)}
place = {Japan}
year = {1996}
month = {May}
}
title = {Future opportunities with pulsed neutron sources}
author = {Taylor, A D}
abstractNote = {ISIS is the world`s most powerful pulsed spallation source and in the past ten years has demonstrated the scientific potential of accelerator-driven pulsed neutron sources in fields as diverse as physics, earth sciences, chemistry, materials science, engineering and biology. The Japan Hadron Project gives the opportunity to build on this development and to further realize the potential of neutrons as a microscopic probe of the condensed state. (author)}
place = {Japan}
year = {1996}
month = {May}
}