Add to ORKGA compact neutron generator based on D-D or D-T fusion reactions is being developed at the Lawrence Berkeley National Laboratory. The deuterium or tritium ions are produced in a radio-frequency (RF) driven multicusp plasma source. Seven beamlets are extracted and are accelerated to energy of 100 keV by means of a three-electrode electrostatic accelerator column. The ion beam then impinges on a titanium coated copper target where either the 2.4 MeV D-D or 14 MeV D-T neutrons are generated by fusion reaction. The development of the neutron tube is divided into three phases. First, the accelerator column is operated at hydrogen beam intensity of 15 mA. Second phase consists of deuterium beam runs at pulsed, low duty cycle 150 mA operation. The...
The Applied Nuclear Physics Group at Lund University is constructing a prototype CANS (Compact Accel...
Lawrence Berkeley National Laboratory is currently developing a compact, sealed-accelerator-tube neu...
Neutrons were discovered for the first time by Chadwick in 1932 [1]. Since that time, neutrons have ...
A wide variety of applications ranging from medical (BNCT, Boron Neutron Capture Therapy) and basic...
The Plasma and Ion Source Technology Group at the Lawrence Berkeley National Laboratory has been eng...
Compact high flux neutron generators are developed at the Lawrence Berkeley National Laboratory. The...
The Plasma and Ion Source Technology Group at Lawrence Berkeley National Laboratory has developed va...
We present recent work in the development of two new types of compact portable neutron generators, a...
A novel neutron source comprising of a deuterium beam (energy of about 100 KeV) injected into a tube...
Various types of neutron generator systems have been designed and tested at the Plasma and Ion Sourc...
Radio-frequency (RF) driven ion sources are being developed in Lawrence Berkeley National Laboratory...
Radio-frequency (RF) driven ion sources are being developed in Lawrence Berkeley National Laboratory...
This report summarizes the work completed during the first year of a two-year grant by NCI/HEW to in...
We are developing the first of its kind portable and an ultra-compact neutron source based on the in...
The development of compact electronic gamma and neutron sources utilizing several deuteron-induced n...
The Applied Nuclear Physics Group at Lund University is constructing a prototype CANS (Compact Accel...
Lawrence Berkeley National Laboratory is currently developing a compact, sealed-accelerator-tube neu...
Neutrons were discovered for the first time by Chadwick in 1932 [1]. Since that time, neutrons have ...
A wide variety of applications ranging from medical (BNCT, Boron Neutron Capture Therapy) and basic...
The Plasma and Ion Source Technology Group at the Lawrence Berkeley National Laboratory has been eng...
Compact high flux neutron generators are developed at the Lawrence Berkeley National Laboratory. The...
The Plasma and Ion Source Technology Group at Lawrence Berkeley National Laboratory has developed va...
We present recent work in the development of two new types of compact portable neutron generators, a...
A novel neutron source comprising of a deuterium beam (energy of about 100 KeV) injected into a tube...
Various types of neutron generator systems have been designed and tested at the Plasma and Ion Sourc...
Radio-frequency (RF) driven ion sources are being developed in Lawrence Berkeley National Laboratory...
Radio-frequency (RF) driven ion sources are being developed in Lawrence Berkeley National Laboratory...
This report summarizes the work completed during the first year of a two-year grant by NCI/HEW to in...
We are developing the first of its kind portable and an ultra-compact neutron source based on the in...
The development of compact electronic gamma and neutron sources utilizing several deuteron-induced n...
The Applied Nuclear Physics Group at Lund University is constructing a prototype CANS (Compact Accel...
Lawrence Berkeley National Laboratory is currently developing a compact, sealed-accelerator-tube neu...
Neutrons were discovered for the first time by Chadwick in 1932 [1]. Since that time, neutrons have ...