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Prospects for energy by thermonuclear fusion
2008 National Radio Science Conference, 2008There is an increasing demand for energy worldwide. Conventional sources of energy are exhaustible. As a consequence, research efforts have continued for an alternative inexhaustible source of energy, an endless supply of readily available cheap fuel to secure the continued existence of human civilization.
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Thermonuclear fusion by Z-Θ pinch
AIP Conference Proceedings, 1989A new scheme to achieve controlled thermonuclear fusion, based upon the hybrid concept of the Z‐Θ pinch, is described. In this scheme fusion conditions may be achieved by placing a small diameter fiber or straw coaxial with an annular gas puff Z‐pinch and axial magnetic field.
A. Fisher +4 more
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Counter-beam thermonuclear fusion
Technical Physics, 2013A method of organizing counter beams of deuterium and tritium in a ring with electrified walls is suggested. In such a ring, beams of ions are locked in a potential well the height of which is much larger than the energy of colliding particles. In this instance, the phase volume of the ion beams increases due to multiple scattering.
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Macroparticle accelerators and thermonuclear fusion
Il Nuovo Cimento B Series 10, 1966Accelerating macroparticles to velocities in the range of 106 to 108 cm/s would lead to a large number of applications such as the simulation of meteors, the production of very dense plasmas and possibly the release of controlled thermonuclear energy.
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Thermonuclear fusion in a strong laser field
Physics of Atomic Nuclei, 2014Thermonuclear fusion induced by the irradiation of solid deuterated cluster targets and foils with fields of strong femtosecond and picosecond laser pulses is discussed. The thermonuclear-fusion process D(d, n)3He in a collision of two deuterons at an energy of 50 to 100 keV in a deuterium cluster target irradiated with a strong laser pulse is ...
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Progress and prospect of laser thermonuclear fusion
Quantum Electronics, 1993Report presented at the International Seminar on Present Status and Future Plan of Inertial Confinement Fusion, Tokyo, Japan, 26 November 1992.
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Thermonuclear Fusion Plasma by Lasers
1972As lasers have an ability to deliver a large amount of energy very rapidly to matters, one can produce thermonuclear temperature plasma. We observed the neutron yield from a solid deuterium target irradiated by the beam of glass laser, wave length of 1.06 μ, pulse width of 2 ns and power of about 10 GW.
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Application of Superconductivity in Thermonuclear Fusion Research
1973This paper describes the application of superconductivity to controlled fusion research at Max-Planck-Institute of Plasma Pnysics in Garching, i.e. mainly in the quadrupole (Wendelstein 6) and stellarator (Wendelstein T) experiments, which are respectively under construction and at the advanced planning stage.
A.P. Martinelli, W.D. Gregory
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Thermonuclear Fusion Plasma Heated by Lasers
1974The interaction between laser and plasma has been investigated using the irradiation of YAG-glass and glass-glass laser systems on the solid hydrogen and deuterium target. The broad band laser system, the latter, was much more effective for heating which might be attributed to a double resonance absorption.
Chiyoe Yamanaka +2 more
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Confinement Systems for Controlled Thermonuclear Fusion
2016An increase on energy demands in our today’s life going forward to the future has forced us to look into alternative production of energy in a clean way, along the nuclear fission and fossil fuel way of producing energy. Scientists are suggesting controlled thermonuclear fusion reaction as an alternative way of generating energy, either via magnetic ...
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