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Critical masses of miniexplosion in fission-fusion hybrid systems

Journal Article:

Abstract

The critical mass of the fissionable material subjected to the explosive compression and the action of the neutron stream originating from the process of D-T fusion in the spherical cavity was estimated. High energy recovery from the fissionable material was obtained and the energy of the laser pulse was minimized.
Authors:
Kaliski, S [1] 
  1. Polska Akademia Nauk, Warsaw. Inst. Podstawowych Problemow Techniki
Publication Date:
Jan 01, 1976
Product Type:
Journal Article
Reference Number:
AIX-10-478083; EDB-80-014773
Resource Relation:
Journal Name: J. Tech. Phys. (Warsaw); (Poland); Journal Volume: 17:2
Subject:
70 PLASMA PHYSICS AND FUSION TECHNOLOGY; HYBRID REACTORS; CRITICAL MASS; THERMONUCLEAR REACTIONS; HYBRID SYSTEMS; D-T REACTORS; FISSION; LASER-RADIATION HEATING; NEUTRON FLUX; PLUTONIUM 239; URANIUM 235; ACTINIDE ISOTOPES; ACTINIDE NUCLEI; ALPHA DECAY RADIOISOTOPES; EVEN-ODD NUCLEI; HEATING; HEAVY NUCLEI; ISOMERIC TRANSITION ISOTOPES; ISOTOPES; MINUTES LIVING RADIOISOTOPES; NUCLEAR REACTIONS; NUCLEI; NUCLEOSYNTHESIS; PLASMA HEATING; PLUTONIUM ISOTOPES; RADIATION FLUX; RADIOISOTOPES; THERMONUCLEAR REACTORS; URANIUM ISOTOPES; YEARS LIVING RADIOISOTOPES; 700205* - Fusion Power Plant Technology- Fuel, Heating, & Injection Systems
OSTI ID:
5725072
Country of Origin:
Poland
Language:
English
Other Identifying Numbers:
Journal ID: CODEN: JTPHD
Submitting Site:
INIS
Size:
Pages: 99-108
Announcement Date:
Dec 01, 1979

Journal Article:

Citation Formats

Kaliski, S. Critical masses of miniexplosion in fission-fusion hybrid systems. Poland: N. p., 1976. Web.
Kaliski, S. Critical masses of miniexplosion in fission-fusion hybrid systems. Poland.
Kaliski, S. 1976. "Critical masses of miniexplosion in fission-fusion hybrid systems." Poland.
@misc{etde_5725072,
title = {Critical masses of miniexplosion in fission-fusion hybrid systems}
author = {Kaliski, S}
abstractNote = {The critical mass of the fissionable material subjected to the explosive compression and the action of the neutron stream originating from the process of D-T fusion in the spherical cavity was estimated. High energy recovery from the fissionable material was obtained and the energy of the laser pulse was minimized.}
journal = {J. Tech. Phys. (Warsaw); (Poland)}
volume = {17:2}
journal type = {AC}
place = {Poland}
year = {1976}
month = {Jan}
}