Editing Neutron generator (section)

==High voltage power supplies==
One approach for generating the high voltage fields needed to accelerate ions in a neutron tube is to use a [[pyroelectric crystal]].  In April 2005 researchers at [[UCLA]] demonstrated the use of a thermally cycled [[pyroelectric]] crystal to generate high electric fields in a neutron generator application.  In February 2006 researchers at [[Rensselaer Polytechnic Institute]] demonstrated the use of two oppositely poled crystals for this application.  Using these low-tech power supplies it is possible to generate a sufficiently high [[electric field]] gradient across an accelerating gap to accelerate deuterium ions into a deuterated target to produce the D&nbsp;+&nbsp;D fusion reaction.  These devices are similar in their operating principle to conventional sealed-tube neutron generators which typically use [[Cockcroft–Walton generator|Cockcroft–Walton]] type high voltage power supplies.  The novelty of this approach is in the simplicity of the high voltage source.  Unfortunately, the relatively low accelerating current that pyroelectric crystals can generate, together with the modest pulsing frequencies that can be achieved (a few cycles per minute) limits their near-term application in comparison with today's commercial products (see below).  Also see [[pyroelectric fusion]].<ref>{{cite web |url=http://www.scienceblog.com/cms/ny_team_confirms_ucla_tabletop_fusion_10017.html |title=NY team confirms UCLA tabletop fusion {{!}} Science Blog |website=www.scienceblog.com |url-status=dead |archive-url=https://web.archive.org/web/20060319220707/http://www.scienceblog.com/cms/ny_team_confirms_ucla_tabletop_fusion_10017.html |archive-date=2006-03-19}}</ref>