TY - JOUR
T1 - A reconsideration of electrostatically accelerated and confined nuclear fusion for space applications
AU - Macleod, Christopher
AU - Gow, Kenneth S.
PY - 2010/5
Y1 - 2010/5
N2 - Most present-day research into Nuclear Fusion concentrates on high-temperature plasmas combined with Inertial or Magnetic Confinement. However, there exists another body of less well-known work based on Electrostatic Acceleration and Confinement. The most thoroughly researched of these devices is known as the Farnsworth Fusor. This paper reviews the technique and then argues that, with development, similar technologies would be particularly suited to space-borne applications, due to their safety, simplicity and light weight. The paper then goes on to suggest several possible directions for new research into such devices which might result in a working machine.
AB - Most present-day research into Nuclear Fusion concentrates on high-temperature plasmas combined with Inertial or Magnetic Confinement. However, there exists another body of less well-known work based on Electrostatic Acceleration and Confinement. The most thoroughly researched of these devices is known as the Farnsworth Fusor. This paper reviews the technique and then argues that, with development, similar technologies would be particularly suited to space-borne applications, due to their safety, simplicity and light weight. The paper then goes on to suggest several possible directions for new research into such devices which might result in a working machine.
KW - Electromagnetic activation
KW - Electrostatic acceleration
KW - Fuseotron
KW - Fusors
KW - Inertial electrostatic confinement
KW - Nuclear fusion
KW - Power
KW - Propulsion
KW - Scram
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M3 - Article
AN - SCOPUS:84856535601
SN - 0007-084X
VL - 63
SP - 192
EP - 205
JO - JBIS - Journal of the British Interplanetary Society
JF - JBIS - Journal of the British Interplanetary Society
IS - 5-6
ER -