APS -Annual Meeting of the APS Four Corners Section- Event - Fusion neutron generation in deuterated nanowire arrays irradiated by femtosecond pulses of relativistic intensity

摘要

We have demonstrated a new dense fusion environment created by irradiating arrays of deuterated nanostructures with Joule--level pulses from a compact ultrafast Ti:Saphire laser. The irradiation of ordered deuterated polyethylene nanowires arrays with femtosecond pulses of relativistic intensity is shown to create ultra-high energy density plasmas in which deuterons (D) are accelerated to MeV energies, efficiently driving D-D fusion reactions and ultrafast neutron pulses. We have measured up to 2 x 10$^{mathrm{6}}$ fusion neutrons/Joule, a 500 times increase respect to flat solid targets, a record yield for Joule-level lasers, and have also observed a rapid increase in neutron yield with laser pulse energy. We present results of a first experiments conducted at intensities extgreater 1 x 10 $^{mathrm{21}}$ W cm$^{mathrm{-2}}$ that has generated extgreater 1 x 10 $^{mathrm{7}}$ fusion neutrons per shot. This material is based on work supported by the Air Force Office of Scientific Research under award number FA9560-14-10232, and by NSTec.