SCIENTIFIC ABSTRACT PISTUNOVICH, V. I. - PITAK, N. V.

Concise Handbook (Cont.) SOV/5425 PART FOUR. REACTOR CONSTRUCTIOW (11J. I. KORYAKIN) I. Classification of Reactors 131 II. Table of Reactors of Capitalist Countries 132 1. Power reactors 2. Experimental power reactors. 3. Power research reactors. 4. IADv-pover research reactors PART FIVE. PROMCTION FROM REACTOR RADIATION (I. A. TrENwK) 1. Characteristics of radiations 156 II. Attenuation of Y -radiation 174 III. Attenuation of Neutron Radiation 191 M Effect of Source Geometry or. Radiation 195 Bibliography 204 PART SDC. PLASMA PHYSICS AND THERMONUCLEAR REACTIONS (V. I. PISTMOVICH) Introduction 205 Card 6/13  Concise Handbook (Cont.) 1. Nuclear Fusion Reactions II. Cross Sections of Elementary Interactions SO'V/5425 206 209 III. Motion of Charged Particles in Electromagnetic FielAs 209 IV. Kinetic Study of Certain Processes in a Plasma 214 V. Magnetic Hydrodynamics 218 1. Equations 2. Equilibrium configurations. 3. Hydrodynamic analogy for equilibrium configurations. 4. Kagnetohydrodynamic waves VI. Means of Confining and Heating a Plasma 223 1. The self-constricting discharge (the pinch). 2. Heating the plasma at the expense of the Joule heat and striction. 3. Striction 4. Laws of similarity VII. Plawma Radiation 228 1. Magnetic radiation of electrons 2. Energy balance of a transparent Plasma- 3. Absorption of radiation in a plasma Card 7/ 13  Concise Handbook (Cont.) SOV/5425 VT,jj. Methods of Investigating Plazma (Determination of Density and Electron and Ion Temperatures) 232 1. The arectroseopic method. 2. The microwave method. 3. Probe measurements in a plasma in the absence of a magnetic field Bibliography PART SEVEIN. ACCELERATORS OF CHARGED PARTICLES (I. S. DANILMY AND B. N. YABLOKOV) Introduction 1. Classification of Accelerators 235 236 242 II. Stability of ftrticle NDtion in Cyclic Accelerators 243 1. Orbital stability. 2. Phase stability in cyclic resonance accelerators (auto-phasing). III. Characteristics of Certain Types of Accelerators 276 1. Electrostatic accelerators. 2. The betatron-3. The cyclotron. 4. The phasotron (the synchrocyclotron) 5. The synchrotron 6. The gynchrophasotron 7. Linear resonance accelerators Card B/ 13  L 18265-65, Ewr(l)/tWd(k),/~PA(s~)'-2/EPA(it)-VEEC(t)/T/EEC(b)-v /10(m)-2 -P1-P/Po-4/Fab.10/P1-4 IjP(C)/ASD(p)-3/AF*WL/AFETR/~AEM(a)/SSD~~'SSD(b)/AEDC(b)/ JE SD(99) AT ACCERION MB; /0020/~~/159/004/0779/0781 AU=: Pistunovi V feyevt A* va L; Tim TMXi Concerning the beating ofelectrons in an anisotr ic plasma OP AR BSSR. Doklady:0 V. 1593 no.~4- 19641.779-7p1 SOUM WKC 1~i. V.1itsma i nstabilityl ~Iectron beating3 -plasma electron., plasna ion, low pressure Plasma, adiabatic trap t is Bboim that the instabilitY relative to,tbe-buildup of potential -.4 MLIT4 :1 oscillations, observed previouslylin low-pressure plasma.witb anisotropic dis- tribution of' ion velocity, is developed an the.negative-energy oscillation branchp~ and that its devel t should br. accompanied by intense absorption of energy by resonant elec.tronso7alu damping,). 'The analysis is.car'fied out for an aniso- tropic, collisionless, and'spatial-ly bomogeneous pbksma in a magnetic field. The results indicate that tbe anomalous heating of electrons, observed it adiabatic traps by other investigators, nay,be due to'the buildup,of this instability. In the case of a dense plasma, dissi;tative instability can develop as a rezalt of collisional dissipation of energy:and can lead to a simila r instability. "The Ccwd 112   It  9/9  I r, t 'r A f1[. .) 5~i n0.4.,7 Ire ri- ,~7 NT. 'ME-M.  AT r je 3MR er e e eer, I!" et r vi b c C e r,i - r ,at r" 1.1tic C Cu e e P "'enci, X Lo f tre Le tire : p (V r t r pr n Tj% O ale cre t -1 r P IL e R )IJ . b j r e e ~ %b 3L 4 rd  T!, e cy c r e vi;l v e F, 76 1 t e r i r, The con t D r. r r, s t a t K v wx r a 7. 1-1; Z p 1 -ec v r,,,  T r a 71 T ~.ie reT , , . I I the mean ki n e n e r - fl r, jto r. Of the I )n,; De it 1 1 f., invest tz. it t i J J i tr. t t,~~e 2 prjto!~y t r r) r; "-e r e r P I n r- E S sit t isf lei I; L.Y 6 7 n e ? CM Measu remen t ~i rit mij and p. a wi th L~,, current '. no re;i r, rr I.e yorj jna t ri e f f requ ency rhi I ly Increaseit, fnllc)we,l by f f I nf: reu -;(-,j ab,)~,l t s i x f o 11 wl,enr t increaspq from 0.2 t) 0.' ma ?hc existence of Jen3ity Y~aves w, t i~ different veloc i ti es car. ie'A t~ arl r-xveaae of T an-I to tle t,'. r escape from. the traps of. Vuc%er.va.~ev. Pitjpv, in presfl ~eca-u se of :yc r.:, tab , 1 i ty t here can be at roni-er Card %~4  t r j, V all a c % a f! Tiriere e e r are fj' t h e r C-ird  TUL A, ik I n2. 14,  I . , . . I . - . :, f -. ) .  1-~ ; I [ " "?" " " " I - .41) , . . I . . . t . . z -?w . 4, ~ . ( y '. - . , I I I . I . . . I d, . - ks-,',~- . . . .? ~--  I . .  Aff iliaticn: i V I "Las L..e Llc.,.ens.ft VO 96.t'13  CZECI~OSLO%'i~