SCIENTIFIC ABSTRACT FEYNBERG, S.M. - FEYNBERG, YE.L.

7 242!0-6 a 0.5 ACCESSION NR--AP5GG1Z68--- tion for several years, amd la still working without failure. Orig. aft.. has: 6 figu re S ASSOCLATION: No;-.iE! SUBMITTED: 00 ENCL. 00 SUB CODE, N R RLE F S OV: 002 OTHER: 00 1 C.,d 2 / 2  L 2966�=�6 EWT(m)/ETC(f) ACC NR: A 12090 SOME CODE: UP/3136/65/000/p66/pool/0046: AUTHOR: FeVnberg,__4*_MA_,-, ORG: State Committ4be on t~e Use of Atomic Ene r SSO,-Xn-stitute of Atomic E1&g im. 1. V. Xurchatovp Moscow (Gosudarstvenny komitet po ispollzovaniyu atomnor energii SSSR, Institut atomnoy energii).- TITLE: Prospects of Aevelopemnt of research reactors /f SOURCE: Moscow. Institut atomnay energii. Doklady.. no . 986, 1965- PersPektivy rzvitiya issledove6tel'skikh reaktorov, 1-46-. TOPIC TAGS: nuclear reactor) researchireactor t ABSTRACT: This is a review article showing the most recent trend in the develop- i ment of research reactors in the USSR, with special attention to comparison with the counterpart reactors in the US. The loop-type Soviet 50 W SM reactor, re- ported by the author earlier (Atomnaya energiya) v. 8, no. 6. ps 493s 1960 and i elsewhere) is described in some detail und it is pointed out that claims made by American researchers (T. Auerbach et al., Paper 424, Second Geneva Conference, 1958) that reacto:cs of this type offer no advantages aver thermal-neutron reactors have not been borne out, and some American reactors (MR, HFIR, and AARR) were later developed aa a result of the success of the SH-2 reactor. The beam-type Card 1/2  L 29668-66 ACC NR: AT6ol26()o reactor discussed is the MIF-type, developed at the Kurchatav Atomic Energy Insti- tute. This reactor) with maximum thermal-neutron flux 5.5 x 1014 neut/cnFsec is compared with the HFBR reactor with respect to a large niunber of parameters. Al- though the HFBR i:3 rated 40 MW and the NIF only 20 MW, the maximum thermal-neutron fluxes in the reflector are practically the same. The thermal fluxes of the neu- trons at the beam output are five times larger in the NIF than in the HIBR, be- cause of the shorl;er length and the larger beam diameter. The author also de- scribes the design of a projected neut:ino source based on a special reactor and discussed in another paper by the author (Third Geneva Conference, Paper 322, 1964)1- The projected output is 1.5 x 101-9 neutrino/craF in a pulse of 1 sec duration with i a repetition rate of -10 pulses daily. A 10-fold increase in the output is planned for the future. The author thanks Ya. V. Shevelev A. S. Kochenov, V. A. Chebo- tarev, and N. 1. LaletinI who contribix-Ee-d much to'Me progress of-Tbe-Tocussed projects. OFI`g, Urt. has: 1T figures, 2 tackles, and 6 formula&- SUB CODE: 18/ SUBM DATE: 00/ ORIG REF: 0031 OTH REF: 008 Card 2/2  L J-M ACC NKs XT6001616 AUTHOR: reynberg, S. H. VMG. SOURCE CODE: UR/3136/65/000/933/0001/0080 TITLE: Mathematica.1 foundations of mechanics with discontinuous momentum SOURCE: Moscow. Iniotitut atomnoy energii. Doklady, IAE-933, 1965. Matematicheskiye osnovaniya mekhanik:L razryvnogo impul'sa, 1-80 TOPIC TAGS: quanti:ia mechanics, statistic mechanics, particle physics, theoretic physics ABSTRACT: This monograph considers the mathematical foundations of the hypothetical nonclassical mechanics of a point. The underlying assumption of the mechanics is the following property of the momentum of the particle: the momentum is a continuous function of time and has a first derivative but the second derivative does not exist. The first derivativo is everywhere discontinuous and therefore Newtonian forces do not exist. The corinequences are discussed by considering infinitesimal time intervals and in terms of a coordinate variable formed by Lebesque integration of the momentum. The momentum function is constructed by considering N measurable sets of momenta, Ca,d 1/2  ACC NRc AT6001W.6 w6ich are everywhere dense and everywhere discontinuous. Characteristics of theze sets are discussed with emphasis placed on Cantor sets. The study of these sets leads to discontinuous Functions, properties of which are studied in sane detail also. It is shown that derivatives of momentun (proportional to force in other mechanics) are single-valued from the mathematical point of view, but when used to describe..physical phenomena, the momenta are indeterminate for any finite-time measurement. Many other aspects, such as similarity with statistical interpretation and their connection with Wigner's and Planklis approach to quantum mechanics are analyzed. Orig. art. has: 350 formulas, 1 figure. 20/ SUBM DATE: 00/ ORIG REF: 001/ OTH REF: 000  FEYNBERG, S. M. Hypothesis on the trajectory of a quantum particle. Dokl. AN SSSR 153 no. 5;1058-1061 D 163, (MIRA 17:1) 1. Predstavleno akademikom M. A. Leontovichem.  ar"BRat N.V. ~~. PhotG-e.'llergy; a case of local facial photo-allerg7, followihg photodermatitis. Vest. vener. No.3:36-37 Hay-June 50. (CLI-CL 19:10 1. Of the Department of Skin and Venereal Dineases, leningrad State Sy-philclogical Insitute.  FEINEERG, TS. M. , MUM, USSIVIlb'dicina - Encapba]AU3 Druirt Diseanes JfjyV-Fe*t) 49 "The Qluwtion of F)ronzie Psychintrie Evaluation in Cnscs of Tick-Borne Encephalitiopw 0, 'to* Frorrovp Sr Sol Collaborntor, Con ~Ici Res Inzt of forensic roychintry imeni Prof ,~,arbakiy, 3 ~i pp "Revropatol. I PoiklAW Vol XVIII# So I Was two examples of colutions of the problon of pe"ow 1 !n eflace of tiek-borne emaelibzlitio bV Inst of Forewic Ppycblatry, IT.9y are in wIU2 Art 11 of Penitt C-ode M-MoR estnblishing. critc-ria banad on dl,f I%pas 1 ~3 of destructive tervImalas of the d1wmoG, or mantal d1sturbanco, precenco of psi-01,01%,10 syniptc-m-'j, 10"s of will pv.,ors ote. Dir, Cen Sci Res I-,mt of Forensic Psychiatry: Downt To. M. Foynberp,; Set. Dirt Prof 1-1. 0. Gurevitz, Active Yom, Acad Red Sci. PA149T57  LISKOVETS) V.A.; FEYNBFRG, V.Z. Penmta"Ality of mppings. Dokl. Ul BSSR 7 no.6.-366-369 le 163. (NIRA 16tlO) 1. Belorusskiy gosudarstvennyy universitet imeni Lenina. Predstairleno akademikom AN BSSSR V.I. Krylovym.  Zhur. Eksp. i Teore. Fiz. Vol- 5, lb. 10 pp ~,19-n25, 1935, "On, the Possibility of Applyini~, the Thocos-Permi IL-thod ib the Problem of 11-',Aullic Cbbie:;ion" Jjtatc- Uni-,,eraity, D-,pDrtnv-:A of Physics). "The present work shows in a purely analytical way toe ercr~;y of the crystal calculated on the ba:sis of the Thomas-Fermi method, when C~-.Pressed as a function of the interatomic dist)nce, has no minima. This confirms the results of the numerical calculation of the eaergy curve, c3rried out inderendently of "his work, by Slater and Krutter, who, in spite of careful plottin.- of 'he cu---;e, failed to reveal any Minima. It means that the Thomas-Fermi method cannot explain the stability of the crystal lattices."  Zhur. Ekspii i Teoret. Fiz. vol. 5, 110. 10 pp ~26-~31, 1935,"Oonle 11elations Con- cerning Atomic Crysstal Lattices" (Mloscow State Univer3ity, Department of Physics) 11A conceptfon of t1he metallic crystal as a space lattice formed by the ions with the interionic slince filled with free electron gas, and division of the crystall into the Wigner and Seitz sphericalllysymmtrical cells, permits a determination of the value of the irteratomic space correspondinC, to tht-, sto.)el state of Uo cryzlkvl, and affords v means of expressing it as a function of the vglcnc,, of the elerAnt. In this way determinations are mode of the dependence on the valency of (a) atomic volume and Lother 1.~!yerls atorale volume curve, onLI (b) Vie energy of ionization required to deprive the atom of all its va3mny electrons. The results are in good aGreewint with experimental data."  .0000 00009110000 03 11 u 11 m A ."_f_ 00 lit 00 0411 t4 00 if 008 00 a r, lf-." 0 a 414C :0 fir imn 4111111 I 410 z I ~F 00 j 600 vt4. 0 whk r * thita ;1104 lack 00 008 AIN-ILA 1414LI11960CAL LIMA? . ................ u IN AT 00 Ill,' 0, to 1, to a I a 10i 0 0 0 0 * 0 0 go 0 0 0 0 6000000000*000 A: UO 0 0 0 0 0 000000060000 16 ty of to a a is v a jo if 12 a it Augloavil a 4, dC -MUZ * 0 L!F-04 tol,_- li-7 -5 _1~ cs~U.l 1,20