Joint US/Russian plasma formation experiments for magnetic compression/magnetized target fusion (MAGO/MTF)

Lindemuth, I.R.; Reinovsky, R.E.; Chrien, R.E.; Christian, J. M.; Ekdahl, C.A.; Goforth, J.H.; Haight, R.C.; Idzorek, G.; King, N.S.P.; Kirkpatrick, Ronald C.; Larson, R. E.; Morgan, G. L.; Olinger, B. W.; Oona, H.; Sheehey, P.T.; Shlachter, J.S.; Smith, Robert S.; Veeser, L. R.; Warthen, B.J.; Younger, S.M.; Chernyshev, V.K.; Mokhov, V.N.; Demin, A.N.; Dolin, Y.N.; Garanin, S. F.; Иванов, В. А.; Корчагин, В. П.; Mikhailov, O. D.; Морозов, И.В.; Pak, S.V.; Pavlovskii, E. S.; Seleznev, N. Y.; Skobelev, A.N.; Volkov, G. I.; Yakubov, V. A.

doi:10.1109/ppc.1995.596738

Cited by 5 publications

(2 citation statements)

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“…5. The most recent experimental results, and corresponding two-dimensional computations, are reported separately in these proceedings [17,18]. The computations are in reasonable agreement With the expekental observations.…”

Section: Progress Towards Controlled Thermonuclear Fusionsupporting

confidence: 74%

The Los Alamos/Arzamas-16 collaboration on ultrahigh magnetic fields and ultrahigh energy pulsed power

Lindemuth

Ekdahl²,

Fowler³

et al.

Digest of Technical Papers. Tenth IEEE International Pulsed Power Conference

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Section: Progress Towards Controlled Thermonuclear Fusionsupporting

confidence: 74%

The Los Alamos/Arzamas-16 collaboration on ultrahigh magnetic fields and ultrahigh energy pulsed power

Lindemuth

Ekdahl²,

Fowler³

et al.

Digest of Technical Papers. Tenth IEEE International Pulsed Power Conference

Self Cite

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“…HEMGs with diameters of 160, 200, and 400 mm have been developed, producing the output electromagnetic energy of 0.5-20 MJ. Such HEMGs combined with explosion current switch are used in liner experiments R-DAMAGE [18], [19] and for heating thermonuclear plasmas in experiments with the MAGO/MTF chamber [20]- [25] Here MAGO/MTF is for the MAGnitnoe Obzhatie (Russian for "MAGnetic Compression")/Magnetized Target Fusion. Such HEMGs are used for the initial feeding of the disc EMGs, which are the highest power EMGs among the EMGs.…”

Section: Discussionmentioning

confidence: 99%

Fundamentals of Electrodynamic Technique of Numerical Designing of Helical High-Explosive Magnetic Generators

Pak

Babich

Ivanovskii

2015

IEEE Trans. Plasma Sci.

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Presented are the fundamentals of a consistently electrodynamic 2-D technique of designing helical explosive magnetic generators by numerical simulation on the basis of nonuniform equation for the vector potential with a priori set right-side term. The technique is demonstrated by solving a 1-D problem. A model 2-D problem a closed coil over a tube is analyzed. A coil current rupture is simulated. Concepts of vacuum inductance and free magnetic flux are discussed. Magnetic flux losses in the skin layer and free magnetic flux variation are calculated for an instant compression of an electric contour. A 2-D nonstationary problem a closed coil over a tube is solved. A critical mode of the generator operation is analyzed. A technique is described for solving a problem multiturn helix over a tube.Index Terms-Fully electrodynamic method, helical high-explosive magnetic generator (EMG), numerical simulation, vector potential.

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Non-equilibrium ignition criterion for magnetized deuterium–tritium fuel

2019

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Joint US/Russian plasma formation experiments for magnetic compression/magnetized target fusion (MAGO/MTF)

Cited by 5 publications

References 5 publications

The Los Alamos/Arzamas-16 collaboration on ultrahigh magnetic fields and ultrahigh energy pulsed power

The Los Alamos/Arzamas-16 collaboration on ultrahigh magnetic fields and ultrahigh energy pulsed power

Fundamentals of Electrodynamic Technique of Numerical Designing of Helical High-Explosive Magnetic Generators

Non-equilibrium ignition criterion for magnetized deuterium–tritium fuel

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