SCIENTIFIC ABSTRACT NAZAROV, M. V. - NAZAROV, N. M.

OR E (4011 N   IIAZAROV, - 14, S. Odontoma. Stomatologiia 42 no.2:104-106 Mr-Ap'63 17:3) 1. Iz kafedry klilmirgichookoy stomatoloiii ( -aveduyuf3hchiy dotsont 14.14. Sliitskaya) Stavropollskogo meditainskogo invt 'l,ta.  AZ AK'-'Tf rn tka A. I or" ~ ivctr r fA5 (55-3953) F 24' t G 'ovIK -:r; ! , 7. ~ I I y L I c t, T, i ::-, . I  UZAROV, H. V. gTheory of Signal Separation." Cand Tech Scl Faculty of Radio CocL-iual cat long wW Radio Bro&dcastl, No pow Zlectrical Ugimeerjpg Inst of Commaleations, 1953- 1954. (VS, Jan 5ng5i ?Brief abstract availabljL/ Survey of Scientific and Technical Dissertations Defended at USSR Itigh4r 14mcational Institutions (12) SO: MM No. 556, 24 Jun 53  KAZARTAU, Rafael' Avatteovich; EWSHINOV. Boris Ivanovich; IQZAROV. qwtA!4BHIG. A.I.,rodaktor; DZOIGIT. 175~..reblktor; W;?-.k.--,Nasktor; SKIRMOV, A D. radmictor; KUV 1 0 TARASOT, F.I.,rodaktor; TRAM, B.F.,redsirtor; CHICHIK, P.O.,r"ak%ar; SHWHUR. V.I..redaktor; KHARKHVICH. A.A.,redalrtor; K&DYNDIV. L. Ta.. %ekhnichastly redaktor [Ileabuts of the general theory of communications) Xlementy obshchei teorti dviazi. Koskva, Goo. snerg. Izd-vo. 1957. 94 p. (Wasovair. radiobibliotaks. no.263) (K[aA 19:4) (Telecommonication)  PiRoGOV, Andray Andrayevich; NAZAROV M V retseasent; LEV, A.Yu., reteenzent; TRISPIU,-L.A., tekhn. red. (Synthetic telephony) Sintaticheakaia telefontia. MoskVk, SviOrtisdat, 1963. 118 P- (MIRA 16:7) (Telephone) (Speech)  NA7.AROVm,-)f.x-- - Conditimm of the fornation of conoretloa lossfies in a=@ regions in Usbakistan. Vop. geol. Usb. no.31187-194 '62 (KIRA 16t63 (UsbeklDtAn-Loess)  ~~0'946; NNIMMI, I.N.. redaktar; QMVA, V.I., tokhaicheakly ro- W~r-j -dmktor; IRDOTOTA, A.r., tekhnicheekly radaktor. Caeodos:ol Goodeslia. 3-o. &op. I porer. Ind. Nookwa, Ges. Isd-vo aslMws. lit-ry, 1954. 519 P. (MM ?:10) (geodesy)  'i ~7 7  MAZARDV, N.A. Increasing profitableness of Industrial h7drolywis. Gidroliz. I lemok levokhim. prom. 9 no.7,.25-26 '56. (MIRA 12:3) l.Glavnyy inzhener Bir7uninskago gidroliznogo savoda. Mvdrolysls)  MAIN I JOA.; RUMTWA, A.I. ResuIts of the introduction of the flotation method for "pantlag yeast. ftdrolls. I lesoWm. proa6 11 noo'4#15-1? 158. (NUA lls6) 1, Diryuslaskly g1drolimy7 sawod, (Yeast) Orioution)  NAZAROV9 N.A. Lowering the cost of alcohol at the Biriusa Hydrol"is Plant. Gidroliz. i lesokhim.prom. 14 tio.2-18-19 161. (MM;- 14:3) 1. Biryusinskiy gidroliznyy zavod. (Noroy;.- ALUcohol)  Wkj~'IV N~ikol&y~Alekaa"ndrov~viicoh*-,GL&DILINA, To.F., prepodavatell, rets~y IC retsonsan ICH, B.G., dots., spats. red.; KAREWO, Ye.G., red.; SOKOWTA, M.N., takhn. red. (Surveying) Goodesila. 4. izd. perer. i dop. Kooky%, Sell- khosladat, 2. 422 p. (MIRA 160) 1. Bresovskii'.9910skokhosyaystvannyy tokhnikm (for Gladilina). .N (Surveying)  ACCESSION NR: AR4041549 S/0124/64/000/005/VO13/VO13 SOURCE: Ref. zh. Mekhanika, Abs. 5V89 AUTHOR: Nazarov, N. Ae TITLE: Design of shallow shells reinforced by ribs CITED SOURCE: Sb. tr. Leningr. inzh. -stroit. in-t, vy*p. 42. 1963, 51-66 TOPIC TAGS: shallow shell, rib reinforcement, rib TRANSLATION: Considers design of a panel of a shallow shell of rectangular form In a plan. reinforced by a widely-spaced grid or ribs, using properties of delta -functions. About the ribs there are made the following assumptions: action of ribs are concentrated on lines coinciding with coordinate lines of the middle surface; rigidities of bend in the tangential plane and torsion of ribs will be disregarded; joining of the shell with ribs Is carried out so that conditions of compatibility of deformations are satisfied. Differential equations of equilibrit Card 1/ 2  ACCESSION NR: AR4041549 are derived from variational equation delta V = 0, where V Is a force function, consisting of the potential energy of the shell and ribs, and also work of ex- ternal forces. For the case of nontensile ribs there are derived two differential equations for the function of tension and sag. Here it is assumed that external load is distributed normally to tne middle surface. Furthcr there are derived boundary conditions and the obtained differential equations are solved by Bubnovlw method for panel with hinged mobile edges, with pinched edges with different quantities of ribEL There are given numerical values of sags in the middle of the panel and analysis of the influence of ribs on its state of stenin. There is de&'ermined rational location of ribs for panels with different relsitionship of sides. Bibliography: 5 references. SUB CODE: AS ENCL: 00 PLrd 2/2  MAZAROV N A (Nazarov, M. 0. 1 (Ioningnid) - Natural vIbratione of a circular c7lindrical shell and of shallow shells reinforced with a rib net. Prjrkl. mekh. 9 no.3:249-258 163. (KUU 16.' 4) 1. laningradakiy tekhnologicheakiy institut. (Elastic plates and shell&--Vibration)  en I W IM-6 0 V_ ~~O IV V0,1 2 SOMCY- Ref. zh. Mekhanika, Abe. lV81 Nazara'j' N, A. a ill:fY_d~ TI TLZ Th tt a t t 114drica" e 20Z b in 7 TURX14S f t: entia -equa" F11=f0it---t u ON A A fe brium is reducad 10 integro-differettial equation which trji_tsforrws-~ -for a- rigid shape, into Fredholm'6 integral equation of the first order. It is noted that the tatter was solved for a shallow s$-,ell with hinge-imparted MobilLt,/. compresatcl uhi-fortal3t frolk two sidto I Values of critical loada for a plate, a cylindrical dome and a double curvature shall are given in t"ular iorm. The method of solving the problem in question is not illustrated. The author also conoiders the stability of a reatangular, plano, shallow cylindr,ical shell, rain- L~p,d It 2   PjJ~ :~'A ~. .- V , 1; . A . ( I e T ~ -:1 1 . ~ -1 : ~~i ! Vi bra t 1 onf, ; " -3 , j-i - - - : , : , . . I . . !, . I , . I ", . Prl,ki. mokh. i ' - - 1 . Lend nFrad s~ ! y t,(- kt i~ - - - , - . .  NOWHINO M.De; N.D. Use of radiogoodetic WMs stations in the production of topographic maps. GeodA kart. noe6s37-46 Je IQ. (KRA 15:8) (Radar in ww"yIng) (Aerial photogrammetry)  MUROV N,D4 ~ 1-==-~ yAthodology of forming radio geodetic note in compiling topographic maps. Truiy TSfIIIGAIX no.146:65-72 162. (MIRA 15: 11) (Radar in surveying)  ABEEVICH# A.A.; ARTEMIYEV, Yu.N.; VLASOV,, A.P.; GAL'PERI"* A.S.; IE;VSIKGV, A.V.; IVAHGV, G.P.; KOROIZV9 N.A.; WITSM, I.S.; LrVSHnS, L.G.; W=V 9 M. P UZAR0V N I NOVIKOV, M.P.; POPOV, V-1a.; TZFWV. A.Ge; ;A=b7m~w retoonsentl SAVELIYEVO Te.la.# red. iid- va; MOIZL't B.I.# tekbn. red.; ZLIKM, V.D., tekbu, red. [Technological aspects of the repair of crouler vehicles] Teldmolo.- giia remonta gusenicbrqkh mashin. Moskva, Goa. naucbm-tdchn. izd- vo mchinostroit. Lit-rY 1960. 466 p. (14 IRA 14:7) (Crauler vehicle a-Maintousuce and repair)  1117) EO /112-59 -3-4440 Translation from: Referativnyy zhurnal. Elekt_-!-,:tekbn~ka, 1959, r-r 3, p 22 (USSR) AUTHOR: Kharitanov, G. V. , Nazarov, M. 1. , Purik_cva, V. P. , a-.)d Usubakunov, M. TITLE: Chemical -Engincering Lnvestigatior of Coals of the Tuyuk arW Kargash Fields, Uzgen Baain (Kll--'rnik,:)-tekhnrl,.)gicheek-~ye issledo-waniye ugley Tuyukokogo i Kargashinskogo mesto--_)zhderii-~, Uzgen_-~Ogo basseyna) PERIODICAL: Tr. in-ta khimii AN KirgSSR, 1957, pp 109-127 ABSTRACT: The bvilk of ::,al crnpiats -.1 a typic?_* Ixirr, -.s mate: ial. Yu. M. Kuzichkin and A. I. Giz.-~burg have isriated -~a:~ etudied the fcllowing petro- graphic types of theae coals: (1) clarairous homogeneous coal consisting of vitrinite-group substances (89-95.4%, semi%,itr-;:-.,il.e (0.2-5.6%11, fusinite (0. 4-11. 8%), cutinite, reeinite; (2) clarainous complex striated coal w4th stern- clarainous cz durainous iaclusir-no; (3) clazai-n-d,,~rainoug or durainous complex striated coal with clay ainera a i.-iclueions; (4) clxrai-~-darai.-,ous complex Card 1/2  11(7) SOV! 112 - 5 ? - 3 -4440 Chemical-Engi-neering Investigat.i.on r_! Coalaj -,' t~,_e a-,,i KargaO, Fields . . . . striated coa-'; (5) durain:,uav c-)a. AL- far as tlie coal :ank is concerned, A. T. Gi--,.zburg bellieves tl%at T12, -,k crialls %vit~.J_- Section I of tile Southern area bellong with C e i-e.-i.rn ric~t 6 rpe. ar-I in Sections 4-6 of the Northern area, with ga P --type ne 3.- the Ote,3.,rn ` t~./I,e. T qe at --)ve coal fields ar e disting-a JAI-ted by of tliygr~i. qt- --.pi c rnaist,ir e (0. 94 -2. 4 3%). of sulfur (0. 29 - 1. 2916 .~f ~b f , c- ~, , -A of a e ~- ee (1. 47 - 12. 0 3%). by a lower content of vc-latille matter area -_,ver cakiag capacitv aet compared to Donbass and Kuzbass coals :;f the eayrie r?nlwi. Heat )-,' comb-astior. is 7,868- 8, 413 kIIoc;aI,/kg cJ ma a3. Kirgas~. cca-*, beds are actually packs cf brKIiant-,-_ster COMPIeX L-Lriated coa'-. TliiA coal, after a concentra- tion with respect to ash corittat, can be used for a sernicoking ,r coking and also for carbide pzcd_~ction. TI e T~,/-,.ik coal be evaluated fcr coke- chemical induqtry pu:-D~jaeA by Ite crA-g nst by 4*9 ability. A. B. t I. Card Z/2  ANKOSOV. I.1.; UZARDY, M.I.; KRARITONOV. G.T.; FURIKOVA. V.P. Chemical composition and propoi-ties of the petrographic micro- components of coals. TrvAy 101 8:51-65 '59. (MIRA 13il) - (C"l)  AUTHOR: None Given TITLE: Questions of Instruction Relating to the Course in "Machine Parts" (Voprosy rrepodBVAniya kurse "Detali mashin" PFRIODICAL: Vestnik vysshey shkoly, lq57, Nr5, p 11~-!4 171-:7F, ABSTRACT: At present the mission of the Higher -,chools consists of rpin- forcing the basis of general instruction taught At the VtUSes This wn. stated by 14.1. Nazarov, Head of the Teaching Methods Adidrds- tration, at a teachers V__,neeiTi_n_W__;~_fthe --'hair of "Vnr!hInP Parts". convpned in April by tl~i Tbaching Methods Administration of the Ministr7 of Education, and by tne editorial office of trie periodical "Ventnik Vy9nhey shkoly". Nazarov pointed out that the necessity had arisen to comploto the course in "Machine Farts" by elements of-general instruction. This relates n1no to tho progrnm, lectures, manuals. 4Aqi,7ning instnIlptiong and laborntory work. The Teaching Methods Administration appreciatesthe concrete proposit- ions made by the tpac~prs in these subjects. professor N.A, Spitayn acquainted the pnrticipnnts of the meeting with the fundamental positions of those who replied to his 4rticle In 4 6, 1956 of the "Ve9tnik Vysshey s-ikoly". qepresentntives of 15 chairs of "Machine Parts" of Moscow, 1,eningrad end other Card 1/4 vtuzeemade interesting propositions As to a more precise  'questions of Instruction ReIn t Ing to the `.ouroe in "MAChi ntf ', Arts establishment of the Instruction Program i,t mac~:ine-b,jilling and polytechnirnl Vll.~eq nn the tas Is )f which every VT'*.1 mAy elaborate itq own working proprnm. A number of Authors pro- posed to exQlude surplus mAterinl from the prnprnm or to Aouble the subjects in contiguous digriplines "T~e 7hpory of Vochaninmn and Machines", ".'trenpt~. of YAtprinlB", etc. A rreAt den] of attention was paid to the question of instrurtive literature. The writing of manuals has to be lone by tear,~Pr and Ruthor collectives. It is Also neressary to supply a collective volume of problems, construction MAPS, posters And complexes of designs, whirh coull serve AS Aide. it was also pointed out that it is necessary to rRine the juslificAtions of teA,~er8. For this purpose periodic seminars will be -rganized, As well as excursions to plants at home an! Abroad. -he study of foreign litprature will ~,e undprtnken Also, Professor ~,N, qeshetov Agher Technical School ireni PA-,.i-nnn)' dealt in his report with tne course in "I'liachine Parts", qtsLinp that the new methodF of computation are not sufficiently reflected, And that the course has to be improved. A serious effort has to ~e Tode to orivAnize Card 214 laboratories for machine pnrts in the V""es. -,otsent :.V.  'k'uestions of Instruction Relating to the -ourse in'Vao7hine carts Podzolov (Technaloo7ical Institute of Food :ndustry , , A.F . Tavetkov (Institute of AutomechAniCS", and N.I. Tneytlin (Institute of VRchine Tools nn,! Instruments expressed their opinion relating to the connection of the course in "Machine Parts" with those of contiguous disciplines. 7svetkov con- siders that lectures on the technology of metals prior to this course, Ic not lnstr-j~t the students sufficiently in the application of materials in con!3trljc+ions, ~.P, PodzOlov ~,e- lieves that lectures on limits and tolerances in machine parts are imperative. ~-otsent '~-itkov (Institute of 'ion-Ferrous Metals' explained the lack of n general line in the instruction of machine parts in V".'.es, by the fFict that there is no q-ien- tifico-methodic seminar where .he te-~hers on msrhinp parU coulJ take part. L.. . '~a s o v n I k,) v ( Higher Technical School imeni Baumann, considers thnt great nttention sto,ill te paid to instructive litprnture, in pArtl-ul,9r, to the aprlihnre relating to designing. Professor Ye.M. Gutlyar Institute of Mechanization and Electrification of Agriculture presumes that the aim of R manual is n1so to teach the designing of Card 3/4 complex machines. :otsent V.N. Pelynyev stnted that the  Muestions of Instruction F~elqting to the -o,irse In"Yachlne i,arts Teachi.ng Methods A dministrat ion is not interested in the efforts -f the teachers to create new instructional appliances. The meeting charged Pro'esqor N.A. "pitsyn, ".N. Peshetov And Ye.M. Gutlyar to prepare An artirle for publ icntl -)n in "Vestnik vysshey shkoly" iescri~.inp t~e results of the lisc-assi~~n Find the propositions made. AVAILAPLF: Library of Congress Card 4/4  3-6-1/29 Teaching A, .:'H0k. Nazaro , ~N. Chief / Mlff~ Adminletration, MaLstry of _'n-gFFe_rEducation, USSR T1 -LE: Open Wide the Door of the VUZ to Industrial Youths (Shiroko ot- kryt' dveri vuzov d1ya proizvodetvennikov)' i~_.MDICAL: Vestnik Vysshey Shkoly, 1957, # 6, p 3-6 (USSR) ;,:'-"RACT. The article deals with the conditions under which industrial youths are to be admitted to higher educnilonal institutions this year, The VUZes are to take all required measures to en- roll 50 % more as freshmen. For this purpose a wide not of pre- paratory courses for the qualification examinations was organized. These are attended by about 200,000 workers, Experience has shown that those graduates who had practical experience and skill before they entered a VUZ become better specialists. At the present time the conditions for enrolling such youths are very favorable. The article points out that the practice of admitting students on high marks resulted in a considerable num- ber of industrial yojth failing to pass the competitive exami- nations. The knowledge of youths coming direct from school Card 112 was fresher and better. In 1955, this led to the following re-  Open Wiie the Door of the VUZ to Industrial Youths 3-6-1/29 sultes Out of 2,125 students of the first course at the Ural Polyteohnical Institute (Ural'skiy politekhnicheakiy institut) only 110 had industrial experience; at the Ural University (Urallskiy universitet) the number was 21 out of 450; at the Moscow Agricultural Academy (Moskovskays sellskokhozynystvenneya akademiya) 97 of 600; the Moscow Institute of Agr,cultural Mechanization and Electrification (Moskovskiy institut mmkha- nizatsil i elektrifikataii sellskogo khozyaystva) - 46 of 5001 at the Sverdlovsk Agricultural Institute (Sverdlovskiy 9*11- skokhozyaystvennyy*inatitut) out of 1800 pe-sons admitted to the first course, 1045 had neither lived in rural surroundings nor had any experience in agriculture. Technical progress de- mands further improvement in training specialists, and the Ministry of Higher Education has, therefore, changed the re- gulations governing the admittance of students in 1957. The article deals further with the prerogetives enjoyed by war ve- terans, those awarded the silver and gold medals, and students who have graduated from a technical school with distinction. The duties of the Admittance and Examination Committees are also discussed. AS';OCIATTON: Wthods AbdulstratlLon USSR ft4stry of 31gber FAucatlon r heakoye upravleniye ihnisterstva vysshego obrazovaniya SSSR) AVAILAT: Library of Congress Card 2 2  AUTHORi 1 TI, E; Nazarov, z -2/x4 A f t e rk r. r r G t c i r it r j t t!. t y z t ry p I Lin a t  r~ 011 a e rd r I fig x r im r r! n J T.o r r) v :3 K !Z ~i " - I I I I ri ti n r. n c 0 a i n  AUTiiuh a 'SUZEL4 ci V , N r .) 3'A cOVrq.&& and -,V(f r, a voprosy zao -ra., Development -! razvitiye i !!,h I QD1 GA L: Vestnik 7, ABSITACTt Tri e 1, zi M b e r work, tia c,Lapari. of law, IW,-4 in gures c a i i for t t. of evening Ur'q purpose a nljm~ui 1 wh I c h -V I i I I ~ t Ing e t c, f c or r e s po (i daytime eectiuna or f,i stitutO3 Chrd 1/4 8~' , 1160 u r r e b & I-ejm-x f- 11 a b U b 11 L t' r'j Y V -1 Y"r a 'Umplex i r. G F, 19 ri OY e i ne t 1. t I I I t L fl t tril , tiz~- t r f~ I I L a t I c 1, t r r e !3 j~ ~- n i ~(i L e n ~' e I r: f, t  T r, S o lve r- Evening rl UIT. L Ij I t r arii t It ex a m Card 21 4 a tt t!  T, S01ye More Courageoudly trit. r, ent W; P3; : 1~ne and Evening 8ducation. 1" 0 r d 1: L, M I I ~! X F r tL o u f : n 8 t r i i o n At the Automot.; Trbltied, In- eluding 89 manta! I in,1 I eel gners. In 1957, t h e r e re a :j r I r itI I J1 t D p f, f. author then x-ft ? i ,, ~4 (: t I Un ! 1,Y correspondence ,,; I ii Ij Larried out by the All -Uni-. ~a r r P.~; nd Pn~ e 'Institute, but opposed by !,., o! 0. r, 7 j 1t; p o k I ~r I ns t I t u t (North-West ~oiy-a month -~ds qt' trhining should be elab,r,-; za t . in of the tech- nical means !"Initilry of ftgher i;ducation is al,,~ L x i :, e , ~yeraphic basis of the hi6ber e; t i c arly that of the correeponl,-. I r.e se tegan operatin6 !, . - .,- , , r ~i I r D 1, t e I I nyy i ris t I t u t A - . : : P..* _r.,ence InstltuLe A., 1 :- h , a. pr, r,,, z,,i I. I s ;I t - vennyy ek. Gard3/4 tute  T( 8 : -,f% Nor r- 0 aw c ue f- Evening kducatlun t- r q , t~ rl . :1 : 0 f ~Ommuni ca t J,) cnanlyu I t4,~~Ovl 'volevision/ wi-l cKir, gested to use t~,c jaErit I r. t 1. p'- c t ure aa a meav6 uf t rn ' r,l rig 1, deals with the iuet3 t i,,r. I p n r just graduated f r m t3i.- i without practl~-a~ submit thair gra ; u tir,p~ 1 t.ut- ticai work as an enorir:,-ei ve A VA 1 LA jLZ I brary ~; I , Jfl,~ I e 8 , Card 41/4  NAZAROV N. 1. NAZAROV, N* I.s "The calculation of rectangular Uu-ee-layer sheets with a light filler for transverse bending, taking into account the effect of concentrated loads." Tomsk State U imed V. V. Kuybyshev. Tomsk, 1956. (Dissertation for the degree of Candidate in Sciences). So: Knizhnaya Letopis',, No 36, 1956, Moscow.  SOV 124 - 58 - Il' 1 3 2 ~4 Translation from: Referativnyy zhurnal, Mekhanika, 1958, Nr I I, p 19 1 (USSR) AUTHOR: Nazar( v., N~. f. TITLE- Calculation of the Temperature Fields and Stresses in Standard H beam Elements (Raschet temperaturnykh poley i riapryazheniv v tipovykh dvutavrovykh clementakh) PERIODICAL: Dok). 7-y Nauchn. konferentsii, posvyashch. 40-letiyu Velikuy Oktyabr' sk sots. revolytitsii. Nr 2. Tomsk, Tomskiy un-t, 1957. pp ZB-19 ABSTRACT- An examination of the solution of systems of differential equa tions which determine the nonstationary temperature field in the web and flanges of standard H-beam elements resulting from asymmetric surface heating. Reviewe r' s name not gi % en Card I/ I  4 k_d I/ 10)) 14(10) MIA 1 8006 CKYWITATICIN SCTIWA Toprosy raschats slemontov svietsionnykh aonstruktolyj raschot tmkh* to ykh pameley I obolachok. 3bornik state,,, go, I (FrOblm:"In Calculating &Imraft StrActural glegs"tal Cal- oulatIng of Undvich Panels and Shells. Collection of :rtleles. W 1) Rose" Oboroaglz. 1959. 169 p. arrato Up inwart.4. 2.6W Ocelot printed. 34.1 &.To. Alokemdrov. Doctor of T**hnl44i Sciences. Frofoo~1 Md. of rublishing vo~~.k T.L. valodlookayal Nth. M1.8 T.F. Roxhin. MrWgi This collection of articles IS Intended for qnglntore and set#" tIfI0workers "om~4 with *tree& analrele of r 0 tu *:a tire art true ral .1 Onto. CCM=&Qlt, The artlal*o In thl* collection dlo*uoo problame let thehBt-t-al analy aIs of sandwich panels with llot come. cut as problems at the stability Of -.4 panels design of oars, with conal4orstlon of transversal tension toar-cM and the rtsul~i of panel-strength toots. In addittm . pro- ble'as In the ealculation of tors3o" and banding of a ollindrical Bholl reinforced by bulkheeas art covered g%d the calculation of unsteady t4"oraturov In an 1-bom lement to oonsldereC end 12. 8toAdj Tampers t"rof In an -qcam-j7~wwn% 142 This paper presents two aetho4s Or calculating the temperature fields In an I.b*IW elesent frepr*ow"tigg, in into particular *a.*, a typical part of a amlttlowq~mrma wirld)l 1) the s4thO4 of direct Istogration or tag eqaatlama. and 2) the method of olseentary eVaillbrIum. Cases at tyumetrical and mommosetr1oal asatiod of sugh $168tsts throvo the outer fleaco e%rfeete a" sonstAterad so well to ttat esse of different thiskaosese of f)"400. Wossea of th slow to given %PA#r Uo a4damptloo that p1aralMraharseterlett4o of tM "tortal wd the host-trmerer 40offletente do Oak 4 0 1 an t4r*orstuft Taxlettem. v 3  I 7r - ~ / A 1`i~ P:',; A-' c',.- -q4 And" r - vYa and N;,z r- y, N I . vr, 1 t C T i. -L, E The Stres-~ez in Glued 11 -It 1 1) 1 "AT F,i L, zv P, 7, IL iya Aka dem i i nau 3 SSP r,aux, Ylakhanika- I mash i ,p 1 ~-i-126 (USSR) q - -) nr, L .-ILOwn that unif, 14 !,,, irAe with overlap ( Fi,,y C'r 1 t vory high noa- 'hc ":'ossps in the middlo -)-crt, (.f tllio in, S ir" (Fig 113) 'A011 (Ref 5) , b;i r t, -,j I imited. Consideratle ,,itl'i j%lated Joints if tle rjlat4-a,! has a iii,,[ -,tiffnos3 and relativeJy low 0 1 t! la I s 1, - e In the D-rrsent, p-ipolr, )1 -f), working within tale l!" tt-r,:,jr-.n, are considerrd. Thc I i F c, r j.i.,ation sbown in F4.;, 2 11,111.zontal displacement,; of ~ho /I aril by the thickmo~;~; of tho gluu 1~syo-, displacements dopr~r.(t (.rdy on tl,:j ,L'  and .1"jtributed rh-,c,j,i tI'l i Lr,c- la-it,:' lt~ i.; CY3 T3, X. X dx + I B2 (X) X X art) XYI(-k) (K) X:; UY4 (X') fire t",-E- yz1 Stioar and normal stre3ses of a SeCtlr.,n Wit,i X ( tlie index i=1 COrrt-S PO I! (11!~ Wth tlie laraina .1=2 wfth thc platn, anti 1 *-3 with tho gitm, 1,iyrirj'- Hi , Ii, are the shear modulus, elasl;i(Aty mod-a'-u3 and Pells2onlsv ratio respe,~tively; 0 1 "x) is th.) Oick-ness of tho eloment i; Bi(x) a r-, dDi(X) a;-o the Stiffne3ses 1r. exterision and bending respective.7 un-!t -width, q is the uniform. load per unit wiith ,f lammina.  Vhc- SL-rj--zsr-L; in Gluad JrAnt3 Tho shear StT'O-':3 diSt'rl'rf-ItIO,-l iS theli approximately by Eos (1.1) and (j,"), and t~,r-i strosso3 by Eq5 (1.4) alld .41 '1 , - , r-., " 0 I, -~ P,- i~ S k, 11 tv th 0 A (I f I ~l bel-loviour of the 't~cti,-n 3 't FiC 4--v-Dj! j.,, shoar is described by E(p t L s total .3hear load ;),--)r tt,.e cf tr.e T,e,! tangl k, abcd (Flj~ .31)). rlw k1.,,) 'Irld (1~4) arc, bi ,-J tho pl-,to in I,tio 1*(;ri,.i (I , I I Tf I afj,i r) ) - ( x arid tj W are (1.4'a.-A Bq (I.)) lcia,! I i n VIK I ~,h i 3 g Iven 'j,, Eq,,, ( 1 13 1 5 extensional 3tifFrf-j:3,-'t,-J :sJr,ng rrie laml.riae :;re cons.ant, ~.-hat tr.~, the plato is vory iargp f fiejs E, I ".1M.'Inae (F;f7 x ro mi t , Bq ri i r :i u  V, fhq Streqseq in k';I,in~! Jc a ri t: the st-e~;3 a."- J~q (1 13 - Eqs (2.1) ar1rd" Ju a 13Y, F. I = 0 '7 2 x !,~j ~m 3 f -m c B-, IBi 2 lo" '-V-r , 0 0 CM -',-I I-V e U U 7 a rid ra a7 15 E,11-101 b'~ ',110 L r :1 Resulu of ~alculkatllcnr-. f:.r a glue c..,(J p 1, a t f 7, n 5 ta. 11', t s:. n s 1 o na.1 i f -w-, J. n F I g fo C) 0 r (11 K 'x ~c v If!m Y I (I n ti-, v If j; i ~j t r t)end' r.,T F L apply, The of t~,n r 5 J S 1 ~cnd4 r.L ri th ~ c i ones the ii i rici 1 e a r p 1 c 13 t)IC S'~jp-.f Ij EGG and English and I ij (~e-rmfjfl. 1, SUBMITTED: May 22, 19/;  QVIO A.1a. (Novosibirsk): RAZAROV. II.I.010vosibirsk) Bending of a slant cantilever plate. Inzh. ebor. 25:37-" 159. (KIU 13c2) (Elastic plates and shells)  9.3150, 211.2120 ISOV//~~7 -3 C, - AUTHOILS: Slnellnlkov, K. D., Tol(4,', V. T., I., ~, I Ya. P. aticayev, 1. 1., Bondur-ev, V. A., Bujay TITLE. Inv et~t I gat 1 oris ct 1(.,r,. ~:y,-- I (An- i, ~Ti f I - IT, a, Derise Plaxr,7i PERIODICAL: Zhurnal f-Itz1vi, I)GO, Vc,l -~C), Nr -1) pp 2853-2~-"c (USS10 ABSTRAM Tl,--,#2 'ic-%t1iii- tip of pliz;rwi ,nd-r iiarict~, where uie of thf-- electrirl. field, 12 --t pro(!,~;L; -,ne i-v)p(- utIlIze f'or attu1r,.,ix1 t emr." Theory r,di -Lt t--ri ' ~~a *, ac pj ai-,d mor(~, Ile c"o'-Ild call(~d loi, cy,.,-lotruri wavt!.,3. Th-2 inw-2tigated the ion Card l/ 11 hydro,,ron phuirrias of' lensity 1(i impulse i,~Irulrl i devIc(, -Jeti-r-'beci u1-. 11~:.L.  Inven t, I Irtt I or i.,,, c)- fR) r in I "I I 11: 1 '17 1n a De.mf.- Plasma NOV -710M C, T- ~n 1120 yl ji L C,.wd 2111  Inves ~ I gat I c, no ~ V iuri Cy c i (-, t rori Re 3onaric e Ir. a D~ense Plasma Caption to Fig. 1. Diagram of the (1) diocharge tube; (2) triggering i-hem- 14) detect,~r; generator 1 raph ENO-1. T-( ~-3 ') SOV/57-30-3-5/iD experimental jetup: device; (3) triggeving of" 1C m-; A 3tl-,~IiFht Jlsr,nar,ge representz the 3'" 11iie pla~3rna tube, 6 cm Ir ilam. The wa,,~ t~y rrearis (A' ~iOG4se, I -P)-1 15 e 3Discharge current could g~, u~ t~, ~Gb a and was regulated 'hy means of ballast reL~Istaft,:~(. R The Jlol,-harife ~ljbe was along the axis ul' a 5r,p-~old, 20 :im In dia.m. ts magnetic Cle!J max!Tum value tip to 10 oersted ir 4~-( 1(~ ~;e Tt.e -:11 was fed by means 011' a battery ~)V a maxim-im s.(.~red energy of 40,000 Joules at pctent.'als ap kv The uniformity of the magnetic fleld over 'i lonFth )r 41-, cm was not worse than F,~,ur secti,~ns C-ar-~, ~,Jj -A three-tijrr) ea,-.h, conriected In antllpha-3~-, servi-d a2  T rL -1 iv e s a r, s 77e-j -'r. -a D-r-Sl~ ~'Ja~~rna the ,,',)r- introducing the high-f'requency power 1--. the plas.T%.a. Axial periodicity of' the electr,-- ma-,r.er1c wave was 11 cm. The Indictivity (!pH) --f tne capacitan--e cDr.stit~jted wPri -ne C ard C res,rian-'e -.1rcult with a Q,-Vactor of 27G, and was Jr,',veri Oy a I kw generator 3upplying a 2,)i,t1nuou3 rarge ,-~C (,-1,2 n,7 ~)sclllatlons. Ion cyclotron resonance was ~:bserveJ through the change In potential across the ~Irculz wk-,.ch was transmitted thrc-Ugh tne C a ,ermanium detectcr, and ther. ts tne arnpi.11.1-1er ~,,' ne vprtl2all deflecticris L.' tre Ell 1 Thp ~ircuill. enabled a bulld,,ip tt,e d1octiarge ,tt all value3 of' tlie magnetice 1'ield. De n s I t.-f -f the p1a3ma waz deduced by L. A. DuBhin and V. 1. Kc)r,e--kr- !'rom the --ondltlon of' trarismIuslon, of" millimeter Wal/eS . Tes's sh,~wed that the reiati~)r, be-weer. tne f-eU-,r4n1 P~--aK ar.d r~,e generator f'requer~cy Cr,,',-oW3 iaw W, eH/me f'or plasma den3ltl2s r, Card  Inveot1trations or iot, cyciot 77d 2 ill a D:nwe Plasma , ., . 7 Fl,-,itres 3 ar,.] for al.6urptioti of th- hign frcquency pow-r hy ~iie plasma are det(-,r-riiIn(.,d by the den,31ty of thr, nw~l v:il alid -11,,'Ll'~red Mr?,wu remert.,3 Of of the resuriant -t L;how -,t vorl" 11"tf-, aIr," be tvt(,e ',i ac-e to ratprl lons and nt-,. Iral 30- 10 T 6 8 10 eo 44, car(I 'Al F i g (caption oi~ C., t r (1 /11  of' loll Cy~.Jotrori 7T- 1? 0 V/f 'Y Fig 3 R~-L~ narit aboorptlori cX pr~W-I. hydvo~--(-,r ut coraiuarit : i--i,( :J . Thc, al,,.3ciosa pressure Ii, fi,r; * :,,. ord I riate nhowi ampli Lude (Di' resotiant ab-~ rj I rf,latlve 130 Plir Re!,orifutt al..-,~.)rptlori p,,-.,i, jb, Tlif, a1,-,c1,s.,3a r, amro Card 6/11  invejtI[,atIoc.s 77 in a De-~Se Plasma (rezults tc, be IiL AtomlkayL'L FTI All USSR (PTI AS Uk"SSR) t',;,-, resonaace ~~ndt- r, (I I t i G "i ~ I L;oijrct. c)f pia,111a, of a grenf~-vat~,;, C) few hund-r~dthu o!' a mill1viatt. That work also that th, Coulomb colll3luw3 haw- littli- lnflue:ict~ on the con.,iumptton of ei,, rgj by rf,~,onar~', ions . Th(- authors Invejt1pated al.3,) ~,rte r,lationzt,,tp betwe,ei. trice power abnorption ar.,I Ci-~qur.,ncy, the peak infl tmii. Int-ILi1ty dj,,plw,,e tit- --lat of tlif- dllscriar~,(, arid botween the re.,~or.,Lrt r,-Iwor ar,'] thc, I-Ime after the d,' wa-:~ (see 1)). Siricc vela,--i density of ~he plasma, th,: ~,rvc- thel-e e/,113t~3 an optim,v~ di-i-Ity of t,-.- Card 7/11  III v (I I) f"ti, I(.) I' ov/, i n a De t i o P lai3 mr, N 6 10 'D 0 300 leflo SEC t ime ,t i, c,i f t In c)f'!* I T'(2 I i A lly J P Put ~l R I it, i or ti,, plaiuna Yi i that viLl i, tiw L I I " I f I ~j I T71; L I I Mr A Card aL;,,f )t* I,il#  Ij Li curd  D(i n:3 e  Investigations of Ion Cyclotron Resonance 77839 in a Dense Plasma SOV/57-30-3-5/1'.-11 ASSCCIATION- SUBMITTED: Proc. Phys. SOC., 70, 446 B, 212, 1957; T. N. Stix, R. W. Palladino, Proc of 1958 Gen. Conf. A (15, P 360); T. N. Stlx, Proc. of 1958 Gen. Conf. A (15, P 361). Physico-Technicai InstituteAS UkrSSR, Khar kov (Fiziko-tekhnicheskiy Institut AN USSR, Khar'kc),j) Ocf-~ber 22, iqDq Card I!/"I  25375 8/089/61/011/001/004/010 44 3 3102/B214 '14 IHI 0 ~RS i Khizhnyak, N. A., Tolok, V. T., Chechkin, V. V., Nazarov, N.I. TITLEi The possibility of acceleration of large pulsed currents in electron linear-accelerators PERIODICALs Atomnaya ensrgiya, v. 1 1 , no. I , 1961, 34 - 40 TEXTs This paper presents an evaluation of the suitability of different electron linear accelerators for accelerating intensive pulsed currents since their region of application is only incompletely known as yet. The theoretical studies published here are based essentially on the work carried out over many years at the Fiziko-tokhnicheakiy institut AN USSR (Institute of Physics and Technology AS UkrSSR), Kharkov. First, the acceleration of pulsed currents in electron traveling-wave linesx-accelera- tors is discussed. The effect of the pulsed beam on a traveling - wave accelerator (Ir/2 wave, ?,= 10 am) and a wbLveguid* type accelerator is studied The most important effects are threet 1) A change of electrodynamic acceleration conditions. For v = a the electron beam affects the electro- dynamic properties very little, 0for v 0< c much more. With a load of a Card 1/4  25375 S/089/61/011/001/004/010 The possibility of ... B102/B214 current of -1a the amount of change in the phase velocity of the wave is Aft. 2.6%- (A -0-5). 1.3% (~ -0-7), ~125% ( ~- 0-9); (A a v/c). 2) Effect of the energy ratios in the accelerating system. There is a displacement of the synchronous phase toward the wave peak, i.e. toward the limit of the region of phase stability. It is possible to improve the energy ratios by increasing the injection energy of the electrons of enlarging the section with an alternating phase velocity of the wave. In sections with constant phase velocity (-c)othe loading of the accelerator by the electron beam leads to a decrease of the electron energy at the output of the accelerator. For example, 12 Mw are required to obtain a pulsed current with la and 5 Mev having a width of the energy spectrum of 1* 3) Effect of the dynamic conditions in traveling - wave accelerators. There is an upper limit of the currenti for example, at an accelerating field of Ez= 100 kv/cm this limit lies at 10 a. In the following the acceleration of pulsed currents in linear accelerators with standing waves is discussed in an analogous manner. An acceleration system is considered which con- siets of one or more connected endovibrators in standing - wave operation ( Tr wave a, h t-- 2m) .In the decelerating phase, the beam is screened off from Card 2/4  2~375 The possibility of 3 /089 i 6 1 / 000 1, 004 013 B1021B214 the field by drift tubes For the acceleration of higher currents, this system has a number of advantages over the traveling-wave ~tystem, as there are: 1) Change of the electrodynamic conditions. When the condition 14.4-10- 6()L/ R)4j ~1/qo + JN1"j0D0 is satisfied, the change of the electro- dynamic properties causel by the electron beam does not limit the accelera- ted current. No is the quality factor -)f the unloaded resonator, JIM the h. f. power loss to the acceleration of the current of J ampereB, D 0 the h.f. power losses to the walls of the system, ani R the radius of the endovibrator.) 2) Change of the electrical conditions of acceleration. There is a lowering of the pulse duration, and there is an optimal energy given by 'N opt . 1.44-10 -5q0D, The maximum charge that can be accelprated to Wopt is it- 2'10- 4)E/E cuu-umb. This type of accelerator can accelerate much higher currents than the one mentioned before. Finally, the problem of particle dy-namics in a standing wave accelerator is discussed. The longitudinal (phase) and transverse (radial) motions are separately dis- cussed. The authors thank K D Sinel'nikov, and Ya B Faynberg for Card 3/4  V/v Paso o,,6t lot Cjnr t (jad,,l Iwafis - saaaTj Z aiv 8.Z814'L pauoijuam ajTj AouvATIaS d -N puv jazeXiqxy -1 -y -auoToenzaTp VLZVZO~q ... jo 91TITqTesod eqj OLo/VO0/LGC/iLo/tq/690/S 5L~52  S/089ffl~* 1/001/005/010 04yja B102/B214 AUTHOR3j Tolok, V. T. , Dolotin, L. 1. , Chechkin, V. V. , Nazarov, N. 1. , Khizhn,yak, N. A. TITLEs A high-ourrent electron accelerator PERIODICALi Atomnaya energiya, v. 'I, no 1, 1961, 41 - 45 TEXTs This pcper presents a deacription of the 5-Mev electron linear- accelerator dppianad , built, and studied in 1955 at the Piz iko- tekhnichesk~y instutd AN USSR (Institute of Physics and Technology AS UkrSSR). The acceleration system consists of two coupled eadovibratore excited to standingir waves with f - 137.4-10-6 cps, The accelerator is fed by 12 autogeneratore each of which delivers to the endovibrators up to 100 kw with a pulse duration of 400 "ec. Each resonator is a 16-faced prism, 1100 mm long, the diameter of the inscribed circle of the prisms being 1500 mm. The prisms are made of 1 mm thick copper strips secured to a solid body. The drift tubes (100 mm diameter) form accelerating gaps, iach 600 mm long. The h.f. generators work in two cycles with self excitation. The 12 modulators deliver at the anodes of the generator-tubes voltage Card 1/4  A high-current electron 25376 3/089J61/011/001/005/01,Gj, B102/B214 pulses of up to 25 kv, The resonators are kept in a vacuum chamber maintained at a pressure of 11-2).4.0 -6 mm Hg by two diffusion pumps. The electron gun (with tungsten cathode in the form of a flat spiral) is placed inside the drift tube. A special modulator supplies the gun_ athode with negative voltage pulses of up to 70 kv and durations of 0.2-10 9 and 2-10-6 sec. In normal operation the iniection current is 6 al on pulsed U over-heating of the spiral it amounts to 40 a. The construction of the injector provides for the possibility of using an L - cathode. The phase difference of the I vibrations in the resonators is chocked by an electron- beam phase meter, and the pulse height by a two-beam oscilloscope. The radial focusing of the beam at the output of the injector is accomplished 'by the radial component of the h.f, field. The elctron velocity at the output of the first acceleration gap is almost equal to the velocity of light and is not further affected by the radial component of the field. In the first gap there appears also a bunching effect which narrows the phase width of the beam from 2.2 to 1.6 radians, which value remains practica"Lly constant in the following gaps. At the exit of the accelerator the beam cross section is -10 mm with an aureole of about 60 mm. It is focused on Card 2/4  25376 3/00 61/011/001/005/010 A high-current electron ... B1 02Y3214 the target by means of two magnetic lensesi its diameter then becomes 3 mm. To study the possibility of obtaining the maximum current, the particle energy spectra were recorded at the output of the a~celerntor for different currents. The follo-,,,ine results were obtainedi A current of 6.5 a with a pulse duration of C,.2 usec is obtained for An electron enetgy of 4.5 Mev. A current of 15 a with a pulse duration of C.2 ~tae- and an elec7tron energy of 3-8 Mev is yielded from the maximumof t~e charge thtit can be accelerated 6 (3-10- coulomb). At this pulse duration a current of up to 25 a may be obtained, but the maximum electron energy ia only 3 Mev and the energy spectrum is broader. To reduce this fall of energy and the consequent braxlening of the spectrum it is necessary to increase theenergy fed to the resonators. A furth9r decrease of the electron energy for obtaining in- creased current is not convenient because for radial Tocusing the electron must have relativistic velocity in the first gap. The value of the time average of "he current for this accelerator is up to 50 Ats, for 15 Pulses/sec, which must be increased to "10-150 Pul!~es/sec for increasing the average current. The authors thank K. D. Sinellnikov, P. M. Zeydlits, and Ya. B. Fa,ynberS -for discussions. V. 1. Veksler end V. V. Vladimirskiy are mentioned. Card 3/4  A high-current electroh 25376 S10891611011100110051010 B102tB214 There are 5 figures and 4 references, 3 Soviet-bloc and 1 non-Soviet-bloc. The reference to the English-language publication reads as followas M. Kell1her, J. Nugard, A. Gale. IRE Trans. Nucl. Sci., %I "o. 3, 1 (1956). SU314ITTED: July 26, 1960 Legend to Fig.1: 1) generator, 2) resonator, electron gun, 4) connecting opening. rig nff riff Card 4/4 4  .26, ?J B 1 24Y3202 AUTHORS: Nazarov, N. I., Yermakov, A. I., Tolok, V. T., and S i ne 1 ' n i k-o-v _,-K-.-V - TITLE: Propagation of ion cyclotron waves in a plasma PERIODICAL: Zhurnal tekhnicheskoy fiziki, v. 31, no. 2, 1961, 254-255 TEXTs The experiments were made by means of a device similar to that des- cribed in Ref. 1. Gas discharge took place in a 1.6 m long glass tube with a diameter of 60 mm, in an axially magnetic field with a field intensity of up to 15 kilooersteds. The magnetic field attained its maximum value within 10-2 sec, it dropped by 2.7 times within 8-10-2 sec. Hydrogen in the pressure range from 10-4 to '10- 2 mm Hg served as working gas. The high-frequency energy was fed into the plasma by means of an induction coil usually used in cyclotron heating. It consisted of six parts connected in phase opposition. The axial periodicity of the h.f. magnetic field in the coil was 16 cm. The load current circuit consisting of this coil and vacuum condensers had the quality factor 310. The current circuit Card 1,/ S/05 61/031/002/014/015  89168 S/057 61/031/002/014/015 Propagation of ion cyclotron ... B124 B202 was fed by an h.f. generator with quartz stabilization and a power of 50 kw. The duration of pulses varied between 1o-5 and 10-2 sec, the working frequency of the generator varied from 3 to 1/0 Mcps. The absorption of the h.f. power by the plasma in the region of ion-cyclotron resonance was determined by measuring the voltage in the cu.-rent circuit as well as from the change of the electron density during discharge, and from the intensity of the hydrogen spectral line Hp. With given parameters of the h.f. current circuit about 5 kw were introduced into the plasma in the region of ion-cyclotron resonance. Owing to the resulting high degree of ioniza- tion of the gas no plasma formation by direct electrode discharge was necessary. In this case, experiments could be made also at low hydrogen pressures (up to 2.10-4 mm Hg). The upper curve in Fig. 1 shows the change of load of the h.f. current circuit in the region of ion-cyclotron resonance, the lower curve shows the intensity of the H line. The dura- tion of pulses of the h.f. generator is about 3 msec. after :.~ msec hydrogen is intensively ionized. The upper curve of Fl,~. 2 shows a curve analogous to that in Table 1, the 1)wer one shows the curve of ,he ampli.tude change of the h.f. (wave) signal at the electrode. The aignal occurred only wher, the K.f. current circuit was loaded in the region of Card 2/4  77 5/057J61/031/002/014/015 Propsiiitio-, t a 0 on-.oyoa rone 9 B1 24/B202 io4;;byoldtron W,avei o-:4-7A16Wth-f$gures~ shod "Ahat-the amplitude of the wave it degree of plasma ionization. The resultsobtain6d provi.'.1he p'engtraitionof.h.fo energy into the plasma in the; form of ion-cyolotron`wavesi,','The mentioned data also prove the resulto of I the'experimenta bf T 'Stika oi &I in the atellarators 3-65 (V-65) and 3-66-(V-66)~(Refs. 2, 3)-~ Besides, also waves shorter-than the cyclotron waves were- obseried in the magnstliu fields. The working pressure in thib case was 1o-3 ms Hg` of the authors Under the experimental conditions such waves were observed only at pressures exceeding 8.10-3 mm Hg- Their occurrence has hitherto not been explained. There are 2 figures and Soviet-bloc references. ASSOCIATIONt Fizik9-t9khniohsskiy inatitut AN USSR, Khar'kov (Institute .-.of.Phyaies. and Technology of the AS UkrSSR, Khar"kov) SUBMITTED September.,10', 1960  9/791/62/000/000/001/036 AUTHOR: SinelInIkov, K. D., Tolok, Ve T., Nazarov, N. LL, Bandarev, V. A.o _tBukayev, 1. Hugay, Yu. P., Loginov, A. S., nonenko, V. L I~Yes#gftqon of too cyclatroti resonance (d a dense plasma PERIODr,,AL: FUM.-plazmy i problemy upravIyay4mogo termoyadernogo stnteza; doklady L konferentell pa fizlke plazmy I probleme upravlyayemykh termoyadernykh idaktaly. FIz.-tekh. inst. AN Ukr. MR. Kiev, lzd-vo AN Ukr. SSR, 1962, 3-8 TEXT.- Ion cyclotron resonance heating of plasma,,whereby fl~ld energy Is transferred to the fous directly, is it promising method of rapidly attaining high [on temperatures. The article describes Investigations of [on cyclotron. resonance In a plasma produced by direct discharge in, a. glass tube 60 em long and 6 cm, in diameter, The discharge was produced by &'rectangular voltage pulse of duration up to 800 microseconds and current up, tot 500 amp. The discharge tube was placed In a magnetic field produced by a solenoid fed from a capaci- tor bank with maximum stored energy 40,000 J, charged to 5 M The time required for the Card 1/2  9/791/62/000/000/001/036 Investfgation of ton cyclotron resoranc4i In . . . -re x magnetla.fteld. to. mah maximum wait 4.7 10-3 sea. The experiments have shown that there exist optimum values of hydrogen pressure and discharge current for the absorption of high frequency power by the plasma. Tha half-width of the resonant curves increases monotonically with Increasing gas pressure, Indicating that the accelerating Lon. Int eracto strongly with the netktral atoms.. An increase in the discharge current and consequently In the ton density in the discharge. also shifts the resonant peak toward magnetic field values below the resonant field. Density measurements in the hydrogen d plasma have shown that at 309 amp a plasma of G x 1012cm --nsity has a lifetime of 150 microseconds after the termination of the discharge. ft to also noted that the resonant peak becomes asymmetrical with increasing plasma density, this being possibly due to the diver- slon of par(of the high frequency power to the generation of Ion cyclotron waves. It is also likely. that at densities above optimal the screening of the plasma against the high frequency field comes into play. Thare are eight figures and five references. The English language references are: K. S. W. Champion, Proa. Phyff. Boa. 70, 446, B, 212 (195T), and translated articles by T. K. Stix and R. W.'Madiw.  1,-7 AUTHORS: TITLE: PERIODICAL: 3 "~~ 56) S/05 62/37.2/OC5/cr,3/022 B102Y3104 ~Iazarov, IN.-" Yermakov, A. I., Lobko, A. S., Bondarev, V. A., Tolok, V. T., and Sinel'nikov, K. D. Examination of ionic cyclotron waves Zhurnal tekhnicheBkoy fiziki, v. 32, no. 1, 1962, TEM; The authors continued previous experiments (Zh-,--, ')1, "54' 1961) on the excitation and propagation of ionic cyclotron waves. :.I an apparatus schematically shown in Fig. 1, a powerful h-f discharEe in hydroGen and deuterium was studied in a range near ionic cyclotron resonance, and the conditions of forced resonance excitation of 4oric cyclotron waves and of their propagation along the magnetic field were determined. Polarization and attenuation of these waves was also measured. The dischar e took place in a tube of molyldenum glass (2 m long, 60 mm thickI arranged in a solenoid which created a quasi- constant magnetic field. The arrangement was such that two field regions were presents one for resonance excitation and another fur the damping of the ionic cyclotron waves. The overall length of the co"I was Card 1/* 3  S/~57/62/01Q/305/'~_-,z/322 Examination of Ionic cyclotron waven piv-2/31c,/ 1.5 m. The field was created by diacharging a capac i to r bank iii tt, L *.o ta capacity of 2.25-10- 2 f, which could be cnarged up to 5 kv. Tf.e field reaQhod 20-25 kilogauso within 5 maec. The exciting electromat~,retic field had a wavelength of 16 cm. The resonance circuit And it quality factor of 400 with an 80-kw eenorator (3-30 Nlc/soc , isrid the maxlmum voltage in the circuit was 30 kv. Hydrogen of 10-~_10-4 mm Bg was blown through the evacuated (1.10- 6 mm Hg) discharge tube, ana after a !Gng- time aging of the system with h-f discharges, voltage and prote-signit! oscillograms were recorded. At the moment of resonance load, thc- generated wave starts traveling along the constant magnetic field. -,,s magnetic-field distribution and phase variation along tne field xere measured (Figs. 5, 6). The wave was found to be circularly polariz-7,J; *the polarization vector rotated In the same sense as ~id the free ion in the magnetic field. The damping process was studied wite waves in a region of magnetic fields equal to that oL the cyclotron -~Livr_8. Damping was found to set in only at a certain disttince with various field geometrieu, which cannot be attributed to oollisiun damping only. At H= Hcyclotron' cyclotron damping becomes more effective. There are Card 2/5  S/057/62/C "2/Orr,/'C)C, 31:;22 Examination of ionic cyclotron w1ves B102/B164 6 fiplires. AS 3,00 IAT I ON: Fiziko-tekhnic~.eqkiy instit,.it AN USSR (Pnysicotecnnlca~' Institute AS UkrSSR) Khar1kov SUPYITTED: June 3, 1961 Card 3/5  ACCESSION NR* *AT4036054 8/2781/63/000/003/0164/0168 AUTHORSs Nazarov, N. 1.1 Yermakov, A. 1.1 Tolok, V. T.; Sinellnikov, K. D. TITL~s Investigation of instability in the cyclotron method of plasma heating SOURCE3 Konferentsiya po fizike plasmy* i problemam upravlyayemogo temoyadernogo sinteza. 3d, Kharkov, 1962. Fizika plazmy* i prob- lemy* upravlyaye"o termoyadernogo sinteza (Plasma physics and problems of controlled thermonuclear synthesis); doklady* konferen- t9ii, no. 3, Kieve ]Ezd-vo AN UkrSSR, 1963, 164-168 TOPIC TAGSs cyclotron resonance phenomena, plasma instability, plasma heating, plasma ion oscillation, plasma decay, microwave plasma, gyromagnetic resonance ABSTRACTs To clarify the question of the effectiveness of plasma heating by ion cyclotron waves and to study the influence of the 1/5  ACCESSION NRs AT4036054 level of the high-frequency power on the plasma heating in the ion gyroresonance region, an experiment was performed with a setup de- scribed in detail elsewhere (ZhTF v. 32, No. 5, 1962). The results of the tests indicate that there exist two distinctly different modes of plasma behavior, one in which the plasma exists for a rela- tively long time, and one in which the plasma begins to decay even before the termination of the high-frequency power pulse. A radical decrease in the lifetime of the plasma occurs at a definite critical power level supplied to the plasma, and the smaller the pressure the smaller the critical power. The critical power depends on the cleanliness of the system and increases for a poorly preconditioned system. This dependence on the pressure and on the purity of the system suggests that the observed instability in due to the appear- ance of ion currents with large directional velocities* At the present time the nature of the observed instabLlity cannot be recon- ciled with the existinj theory. 02n conclusion the authors thank Ya. B. Faynberg and V. 1. Murilko for interest in the work and for a card 2/5  ACCESSION MRs AT4036054 discussion of the results, and also A. L. Lobko, V. A. Bondarev, and Ye. S. Khokhlov for help with thd experi~nts Orig. art. hast 5 figures. ASSOCIATrONs None SUBMTTEDs 00 SUB CODES mg Cer4 3/S DATE ACW 21Xay64 ENCLs 02 MR REP GOVe 003 OTHERs 002  A=MIQM ft i AT4q36o54 is Powe r, kW 01 Dependence or the 11fetim T of a plasma with n 1.2 x 1012 am-.3 after termination of the high-frequenoy pulee, on the power, for two prOssurest o O.gff &nd A - 0-589 n/uM A:FFfl 4- C&rd 4/5 Now W -  I I S A=ZSSION Kai AT4036054 0 Sma 102 .0 Duration of hf pulse, 1knec Dependence of v an the duration-of the high-frequency pulse CAC4 5/5  DOLGOPOLOV, V.V.; YEWWOV, A.I.; ILAZARUV, IJ.I.; STEPAMOV, K.N.; TOLOKI V.T, 1!~cperimental observation of Landau dumping in a plasma. Zhur. eksp. i teor. fiz. 45 nu.4:1260-1261, 0 '63. OMIIA 16:11) 1. Fiziko-tekludcheskiy irlititut AN UkrSSII..  -2/E5( )-2 AF -T-TC/ASD/ESD -3/'OWL/ EWTM/EWG(k)ADS/EEC(b SSD FP-4/FqnV~074/_F~-4 AT/rip(c) 1C==Qf M AP300396T 8/60"/63/615/601/0005/0006 AMORU hkwera -It Eat talessMZj, Tu. 6,,t !4jtM, jrw X,.t rgr-daeldr, A. x0t, t1frAt Ion 4416trowt mams"* in, a Nowily P r 15, It-. 1965, ~_6 ITOPTO TAGSs Lou eyalatron resonsnoot morwing. VIA 0.PLAcht PlasmIftwitre'Dopp- iler, effect AMRLCEt: U., the heating of a stationary plasm by neanx of an ton cyclotron. 'resonances thj# tiow required, for & considerable acceleration of plasm Lane Is not onom than 10-2 nee : Therefore for the pinchea moving with a velocity of 16T on/teat! ;the leveh of the ;eatinc section Is not unreasonable (about lmie),* ra, the, present ark, -che generation an& absorption of ion cyclotron womea in a soving plant pinch i thas been observed* The absorption of high frequency, enerar occure& at tvo fre- Auenciet shifted to both'sidee, frOIL a Certain &Yera& trequencyr because of Dappler Met. RKipetic; shor*O'aro important for the* damping of. ion cyclotron waves. By measar4mg the Dappler effect FA the risonance, ft4qU4noi*wt1 the axe y 2761 It of the pinch vas fowA (6oT X 1V on/goo) r and th* plasm density (T X 10   L 29 M1 490-6-6 EPF60 A= NFJ AP6013113 SOURCS COM UR/0057/66/036/004/0612/0619 U~mmkov,A&1,; Tololl. VA, oaas now Tl=t -High Ex"non6y: heating of a high density plasm T: SOWNS Zhurmal toMmicheakoy flaikit v, 36 0 no, 40 19660 612-619 TOPIC TAGSt plasma heating, hydrogen plasma, Ion temperature, electron temperature# plasma magnetic fieldo plasma oecIllatione plasm resonance# cyclotron resonance, acoustic resonancee ABSIMAM The authors have Investigated beating of hydrogen plasmas at pressures between 0#001 and 0.004 ma Mg by Ionic cyclotron and fast magnetic sound waves. The plasmas were -produced In the fideg machine$ which has been described elsewhere by the authors and collaborators (ZbTlr, 32, No*5, 536, 1962). Heating was accomplished by up to 100 W pulses of rf power at 10 MHz; resonance with the ionic cyclotron or feet wagnetic sound1wayes was achieved by adjusting the strength of the external (pulsed) magnetic flolde Doubl* pulses of rf power wero employed; thq first pulse of a ;,:tlr served to produce the plasm* and the second$ to beat It, The longitudinal ..onergive of the plasma particles were determined with a nultlgrid probe and with the electrostatic analyzer described by A.A.Kolsykov and collaborator* (FM, S. 142,1963). Ion *mesa@ wore determined by measuring flight time* In a 38 cot long drift tube. The Card 1/2 VWs 633o9  L ACC NRs AP6013115 ts~61que employed by W,9offooke, UA,Rothman, and J, Adam (Bull* Phys,Soos,ser 2, 8, 174, 1963) was used to determine the transverse energies of the plasm particles f rem measuremornts of the diamagnetic properties of the plasma. 'Electron temperatures were also.measured spectroscopically. Plasma densities were measured with a microwave Interfere"ter operating at wavelengths of 8,2 and 4 am, Mean longitudinal Ion energies up.to 2000 9Y were observed In plasmas heated at the ionic cyclotron reson- once. The transverse Ion energies wore slightly lower; this difference Is ascribed to systematic error In the measurement of the transverse energies. The mean Ion energy w8: proportional to the square of the rf potential applied to the exciting coil. R+; V2 V &nd.113+ tons were present; these ions all had the some energy. The Dean Ion energy r3mained constant throughout practically the full 300 psoc duration of the heatingi,pulse, indicating that the losses were high. The electron temperatures In these*plasmas was only 20-30 eV. The ions cooled very rapidly after cessation of the pulse, with a time constant of some 10 jAsec.- This rapid cooling Is ascribed to charge exchange collIsIons with the cool neutral gas surrounding the hot plasma column. In the plasmas heated at the fast Ionic sound resonance, the ion and eloctron tomperaturel were approximately th fisam% and equal to about 150 eV. Thot densities of the placmas were not less-tb&n 10 - - to In both cases. The authors thank A,AsKalsykov for lending.tbe electrostatic-onslyzero-,and Academician K SIUe11B=kgv for his support and Interostlin the works.. Orig, irt'.hasf :2 formulas and 16 :!Sure*, 221* IM OW91t 20, OW DATZ: P MS.- ORIO. RRIPI 004 01H REP: 001' ,71 v. IN' 2  1: 62 AUrHOR: Nazarov, N. I. ; Yermakov, A. ORG: none SOURCE CODE: LIR/0000/65/000/00WO010/00144 Tolok, V. T. TITLE: Measurement of the perpendicular component of energy anc, the tinie of plasma breakVp in high frequency heating SOURCE: AN tkrWlt. Vysokocha3totnyye evoystva pla=y (High frequency properties of plamr*). JUmv, Naukovo dumka, 1965, 10-14 TOPIC TAGGs plAsmi 4scay, plasma heating, diamagnetism, plasma magnetic field, extemL al magnetio field, electron density, plasma charged particle, pulsed magnetic field tl- V ABSTRACT: The 'heating by high frequency generators and tho breakup of pl~asma is stud- ied by making use of i7he dependence of the plasma di ignetism an the perpendicular component of particle energy. The method of measuring the diamagnetism consists of de- termining the magnetic field in the plasma and comparing it with the external field. The measurements were made on an experimental apparatus which used eit'her a strr'ng ion cyclotron wave or fast nignetosonic wave for plasma heating. -,h(! re,_al-s srowir.9 ion temperature as a function of a ratio of the external magnetic ficid to t--e pl-S--d field (at which the gyrofrequency is 1.0 :-'Hz) indicate the maxinui terpuralur-2 Of ~3 kev during the resonant excitation o' the io~. cyclot-or, wave. The density wa-_ 'LG13 Card 1/2  ACC NR, AT6020562 electrons/cm3 . 7he expected couling tire of the -ors was observ(." ~C, Le -e-,,ced `7 a factor of ten down to 10 usec owing to energy traT,srer to colder a-ectrons a.-.c to charge-transfer collisions in the region of the cold plasma bouncary found near the plasma vessel walls. It is suggested that removal of the walls would pernit consider- ably higher heating of the plasma. Orig. art. has: 5 figures. SUB CODE; 20/ SUBM DATE: l9Nov65/ ORIG REr: 003/ OTH REF: 001  L 46296-66 EWr (1) AT/GD ACC NRI AT6020561 (N) SOURCE CODE: UR/0000/65/000/000/0005/0009 AL17HOR: Nazarov, N. I.; Yerinakov, A. I.; Tolok, V. T. ORG: none TITLE: Investigation of the energy of charged particles leaving magnetic traps after high frequency heating SOURCE: AN UkrSSR. Vysokochastotnyye svoyrtva plazmy (High frequency properties of plasma). Kiev, Naukovo dumka, 1965, 5-9 TOPIC TAGS: plasma eating, iir plasma magnetic field, plasma tempera- ture ABSTRACT: This work describes the results of measurements of the enuu-Lof ions and electronrwhich are moving along the trkignetic field. The heating 6eic ~an s~msds_e~in the experiments were collective excitation5 by ion cyclotron and fast Mignetosonic waves. The characteristic waves in the plasma were !xcited by the. spatially periooic, electromagnetic fields with 10 Miz freq;.i-~,ncy. 7he generator -)nw(,r used was, at tho 300 'Kw level. -he particle energy and composition wag measured by the electrostatic analyzer and mu~tigrid probes. The pl;i.,;~-.l temperature was deterrined by spectrocropic methods. Plasma density was determined by a microwave Interforometer. It was found that tharee types of ions flowed out, nameiy, H1 , H3, all of which had the same Card _ 11?  L I.6n-6-66 ACC NR, AT6020561 energy even though the resonant acceleration condition is satisfied for H+only. The ion temperature of 2 kev was reached, while the electron energy was only 30 ev. This also indicates the presence of three types of Ions. In magnetosonic wave heating, both ions and electrons were found to reach a temperature of 150 ev. The various mea- suring methods gave consistent results. Orig. art. has: 5 figures. SUB CODE. 20/ SUBM DATE: 19Nov65/ ORIG REF: 004 C.,d 2/2 afs  BM AUTHOR; Nazarov 1 TITLE: The Gpera~ion of' Sinusoidal V~,.Ltage PERIODICAL: Izvestiya vysshikh uc~,.ebnykn zavt!Jei,,iy: - 1960 Nr I, pp , ABSTRACT: The article, s e i u -, u f 1. operation of oil-,aper , mo i i I a t i o n I nii , fr -with non-s~nusoida' %,~ 1,fqPe :md .,iillhout ~~,;rlstarlt com;)onent. A rel%tive- spectral ~oef: icien~ is n- troduced and a rneth6d of determning e !v f~, r, ae value of' t~,.t- non-!;Anusoidal f-inction for period is ,,,.ven TIf.- p,,ir,'imeters of an e:1,-i;va.er-,,~ sinusoid are determined and the lnfli;ence of tne relutions`ii;, cf aper thickneLz t,~~ tn.at of tne 1, -y f;ic,-r Dr foil and ~n-? comres.~,i`-;I-t ope-, f~c losses in the cfj,,,,ict,-,r ire ta-~er. ;~ntc a cun A m e t i; o d o f ,j!~ y i nc, V A. F,,) k % Card 1/4 '1 -1 * s t,! r ted radia ~ c vol t aCe of he ~: t b reri ~ t i vo ~ ,, ~ . , ,  The Operation of oil-paper Ca; acitors w' th lion-Snasollo 7 11 t~lFe is found. If the capacitor voltage is given in the form of a certain function u~t) t b expressed as an series: U~'t) = UMi sin.,wt+?,) + U 1.12 sine 20t 12) + U sin"p(P)t+(V )+. M p 1 2 where U LIP is the amplit de of the narmonic T e, :;,L;t f-,)rinul~i -eves ',h.-- vr_.LaCe 2" -,,itn 6 non-oinu_;oi-d -C v-.t'ip-e ,I(, fiF,ure is exLre~;sed throueh the effect:ve v:.,.ue Card 214 of the e,4uivaier~.t sinusc-d  The Operation of 0ii-Paper 7 :'1 a,,m.,, c GsT 2ml Upr '~CIG coscel 21-1'1 C 0 5 V-fE -- -0 - - 7-(t f 0 t C6,c . C'k S where Upr i %he breakthro,gh voltaCe, jvA- C '011- ficient of li~!at conductivity of the d~eectr,.c. cal/sec ci,-, deg; f - frecitiency, C; E-CI tg4'O - dielectric penetrance and tangent Pf the anCle of losses before the application of voltage;of- amounr characterizing t~ie rate o.' increase -r, losse5 Card 3/4 during temperature rise;(ZP c) - non-dimensional  0,011 C_ i T. 3 Operation of 011-Paper Criacators w-ith 'I0__ta!Fe function, characterizing neat take-off from the dielectric through the electrodes into the s-.irround- ing medium. There are 6 references, of -.,ihich are Soviet and 1 American. ASSOCIATION: Zavod "Kondensator" ""K-)ndensator" i~Iant.' SUBMITTED: AuCust 51, l-)1-9, by the Ka.'edra elektroizolyatsi-Dn- noy i kabellnoy tekiin-ki ~Cha~.r of Elec*rica.' In- sulation and C!jbie Technr-,"o~:y) Card 4/4  NAZAROV, N.I., inzh.; PFUSELENTSEV, I.F., inzh. Effect of pressing on the electric ctaracteristics of a paper and oil capacitor . Vest.elektroprom. 31 no.6:55-60 Je 160. (MIRA 1317) (Electric capacitors)  UZAROV, N.I., innh. ThermMa conductivity factors cf a section of oil-saturated paper o4pacitor. Izv. vys. ucheb. zav.; energ. 5 n0-10:46-51 0 162. (MIRA 15:11) 1. Voesoyuznyy zaochnyy energeticheakly InstitLt. Prodatavlena kafedroy elek*-oizolyatsionnoy I kabel'noy tekhniki. (Condensers (Electricity))  KAUROVP N.I.1 inzh. Compression factor mid the reduction of losses in oil filled paper capacitors. Vest.elektroprom. 33 no.1:14-16 Ja 162. 1 (MIRA 14:1.2) (Electric capacitors)  GULEVICII, Anton Ivanovich; KIITYEV, Aleksey Petrovich; NAURU, 11-I., nauchn. red.; SY"All-OVA, Ye.)A-, red. [Manufacture of power condenaers) Proizvodstvu nilovykh kondensatorov. Moskva, Vyashaia shkoia, 1965. 355 p. (1,11RA !81l0)  s I, : !-Y".*, V .! . ; F. : . , , , '. .". ; NA ,-- 1, f; , , nc,.~ :1~4- I ? , . . . I :,I, t , : JI: .,"I I  Kv I' Ylif,.,~'I , V. !.I.; P 1;,Ji~ K( VA , M. "I'.; ~ V , !,. H. , h r, , :- .-. E! 1, . r % *I F,f ri r: t (i r j I j!i t and oyygi- ri on ~.n,i i,b,, tr,.g -, '-': -"I v aquat I , p ants . F I z I ci 11 . i - F-L 3 t .- I ra, . 6: W, ', !i- 11 i.. . , j J~A I P : , , I . Ve rnadsky I no t i ti. te of' ,eacI& in 1 .1 try arid Ana ! :7' 1 r-a ! ,.emi s 1, ry , Moscow.  ACCESSION M AP4042026 9/0020/64/157/001/0223/0226 AUTHOR: Kutyurin, V. M.: ULubakova, H. V.; Mazarov, N. M. TITLE: Influence of oxygen concentration on the rate of photo- synthesis and respir4tion.of. algae SOURCE: AN SSSR. Boklady*, v. 157, no. 1, 1964. 223-226 TnpIC TAGSt photosypthests, lite support. oxygon concentrWtion, respiration. plant physiology. light intensity, Chlorella. Scenedesmus, Elodea, algae ABSTRACT: The authors previously established (DAN. 154, no. 3. 1964) that the rate of photosynthesis in Scenedesmus obliquus decreases as oxygen con- centration increases. The present Investigation was desiRned t6 uh,ow what influence oxygen had upon algal photosynthesis and whether the photosynthetic rate was dependent upon the physiological state of algae and the intensity of light. Experiments were conducted on Scenedesmus obliquus at 22C, on Chlorel a pyrenoidosa at 39C, and .on Elodea canadensis at 22C. All algae ware cultivated in phosphate Cacd 2  LCESSION NR: AP4042026 11~buffer solutions (pit 5.6). Kinetic determination of the isolatton band absorption of oxygen was Accomplished amperometrically. The results of the tests indicated that the influence of oxygen on the observed rate of photosynthesis depends upon the nhysiologicAl qtAtc of the plant and the intensity of light. Algal respiration does not intensify as a result of preliminary Ll Umination, The respiration ,of Algae in darknean is directly proportional to oxy.gen concentrntlon ;and differs from respiration in liRlit. It is doubtful whet;,cr the ~"true" rate of algal photosyntl)csis can be determined by nddltlon of ;the observed rates of photasynthestri And respiration in darVneas. The authors express thanks to 1,. S. Snektrov for contributing the Chlorella pyrenoidood culture. Orig. art. hast 2 figures and I t a b I e . ASSOCIATION: Institut Rookhimii I analiticheakoy khimii im, V. 1. Vernadakogo Akadamii nauk SSSR (Inaticute of Geochemietry And Analytical Chamintry. Academy of "ciencea SSSR) SUBMITTEI)i 15Aug63 ATD PRESSt 3059 ENCL. iDO SUR cones LS N r, HE F " 0 V t005 OT 11 FP 10 2/2  "'NT KUTY*j:. l.',* V. :-AZA ff,' by plaw-3. IC! 15V n a. -y i,.:. A.; SL;S...