LANSAR^® neutron generators use AccSys' patented linac technology to provide compact systems designed for reliable long-term operation in non-destructive testing applications. These powerful but easy to use units provide neutron outputs from 10⁸ to 10¹³ neutrons/second by bombarding robust beryllium (Be) targets with proton or deuteron beams. The neutron output is pulsed and remains constant over may years of target lifetime. These systems can also be supplied with a variety of other targets, including deuterium. The neutron energy produced by a LANSAR^® system can therefore be tailored to a specific requirement by selection of beam energy and target. The light weight, compact size, and rugged construction make LANSAR^® systems easily transportable. As with all AccSys products, the modular design allows maximum flexibility for installation in an existing facility. These systems are proven to operate reliably under harsh conditions in the field. For all of its advanced features, LANSAR^® is simple to operate and easy to maintain, with low operating costs.

Model DL-1 (foreground) and PL-4 LANSAR® neutron generator systems (rf power & injector electronics not shown).

 

      The LANSAR^® family of linear-accelerator-based neutron generator systems have been developed specifically for reliable long-term operation for non-destructive inspection applications in research and industrial environments. These are compact systems based on AccSys' patented compact ion linac technology and rugged beryllium neutron production targets. A broad range of configurations are available to provide outputs ranging from 10⁸ to 10¹³ neutrons/second at the target for fixed or mobile applications. Key features of LANSAR^® neutron generators include:

•        No radioactive materials

•        Target lifetime of many years at full neutron output

•        Field serviceable with low maintenance and operating costs

•        Rugged units that are transportable in most configurations

•        Reduced shielding and moderator size

•         Easy to operate and maintain

•         Computerized control and monitoring

•         Variable intensity and pulse structure

•         Thermal, epithermal or fast neutron beams configurations