Iva A -R gg HI Id ;vk E. Z. A -ti I I i In t& 7 1M1 Ila ills   1 !rne-exp 777,77,~'7-  L 52965,mO EWTU- li/,EWA(-)-2 Acqmsiom Us AP5010519 MVOVA1651 AUMIORt B Do abrov, V. D. I Url KiriUoy- a _119 TITM Capture of negative W-as atams in a ebeateal. empsum I toorsticheakor riSildo V- 46P ft- 119 1909 SOURCEI zhurml 1197-1199 TOPIC TAGGs W400P. Mon earture, effeetivo arnAlty, IRISH MOM ABSTIRACTs The authors measured the relative probabilities or,ceptured 16160tivs inuons by atoms in several chemlc4Ll CMPWAW*, vith an &Is at extracting infamt1ft, necessary- ror the interpretation or other experiments vith mono- Ths results dm that for the cQxpwMds Inyestigated (Licl, Cael, ZnO, ZrA, snd Alft) the FWUI- Teller Z-1aw does not describe'the experizent "tIffactorily. An avarals or tb9 avLilable data shows that Coop"" with the PrOUGUOIN Of the Z-lAw, INGS14 StOINS of the elements vblck beve roUtivelr large electron-affinIty sn"a a" prodmood with some Mf*rew,~. 7be results sbas, tbat In =at eases, the te"exaW to prefer- red formation of the "all atom or aw slow" ftfA Was larger slest"M ft"llaw    R 0 f V) V - S 86666 9, to/ '60 P/045/60/019/006/005/012 '2 2 B011/B059 AUTHORS: Yeffseyev, W. S., Komarov, W. J., Kusch, W., Roganov, W.S.9 Tchernogorova, W. A., Szymczak, M. TITLE: Fast-neutron Scintillation Layer Detector for Measurements Against a Gamma Background PERIODICAL: Acts. Physics. Polonica, 1960, Vol; 19, No. 6, pp. 675-682 TEXT: The authors describe a scintillation layer detector with high efficiency for fast neutrons and low efficiency for gamma rays. The layer detector is based upon the difference between the range of protons and electrons of the same energy. The detector is designed for neutron measurements in the energy range betwPen 5 and-20 Mev and consists of 28 layers made of plastic scintillators (on thebasis of polystyrene), and is arranged in two sections, one behind the other, In each section, the light from the even layers is directed into two FEU-29 photom.ultipliers, the light from the odd layers is led.into.two other FEU-29 photomultipliers. Card 1/2  86666 Fast-neutron Scintillation Layer Detector P/045/60/019/006/005/012 for Measurements Against a Gamma Back- BO11/BO59 ground If the electron energy is sufficiently high so that the electron can pass into,the adjacent layer,then both photomultiplier sets (odd and even) will produce pulses simultaneously. The electronic circuit cancels.those coincidences and allows only single pulses (produced in any oi '' the photo- multipliers) to reach the pulse-height analyzer. In order to characterize the decrease in counting efficiency for neutrons and gamma rays when the coincidence circuit (resolution 0.44 see, veto pulse 0.6~L Bee) is turned on, the discrimination coefficient (ratio of pulses with coincidence circuit off to pulses with coincidence circuit on, both at the same level of the integral discriminator) is introduced. For neutrons, this coef- ficient did not exceed 1.5, for gamma quanta, however, it had much higher values. The authors thank N. W. Sizov for help in the work with the Cockroft-Walton-type accelerator, as well as D. K. Akimov and V. A. Zapevailo for their assiatance in the construction of the electronic part. There are 6 figures and 6 references: 2 Soviet and 3 us. ASSOCIATION: Joint Institute of Nuclear Research, Dubna, USSR SUBMITTED: April 6, 1960 Card 2/2  ROGANOVIi"V. S. 8/089J62/013/006/019/027 -2102/3186 AUTHORS i G. T. and-U. R. TITLgo, Nauchnsy konforentelys MookovskoSo Insbonerno-fisichookole., Inotitut: (scientific Conference of the Moscow Saginsering Physics Institate) 1962 PERIODIC&Ls Atoonsys. onergiya, v. 13. no. 6, 1962, 603 6o6 i TSXTj The annual conference took place In Way 1962 with more than 400 delegate* ptrtiolpating. A review is given of these lectures that fire assumed to 9 of Interest for the readers of Atoanaya enorgly&. They are followings A. I. Leypunskly, future of fast reactoral A. A. Tesil'yov, design of accelerators for superbigh emorgies7l 1. T&. Poseranobuk, interact tons at - - - analyticity, unitarity, and asymptotic behavior of strong high onergioal A. S. HiSdal,phonamenological theory-for the many-ba4y *Z*kI -energy antiprotons in deceleration of sodium probl ; YU.'D. Ytv matte;m, I-47V.-Ro-gant r&. A. losil*vskly, theory of the Iftsbauer offset# M. 1;. Ryasenove theory Of looloation losses In Somboacgenoosis modiuml Yu. B. I -suboritioal I&@=; vanovp A.:A.'Rukhad e,.h-f,.pondactIvitj of P Card 1/4.,  ME? MR 9/089J62/013/006/019/027 ~i Nauchnaya konforentmiya... 5102/BI06 Too Ye. Lov*tskiy, A. k. Rukhadze, electromagnetic waves in nonhomogensous A. plasma; Yu. D. Katov., 1. L. Rozentall 9 the origin of fast 'cosmic suone Yu. M. Ivanov, muon depolarixotion In 4olIdv_j__V._q,_jjrlaSov, Tu. M. Grashw! B. A. Dolgashein, V. 0. Kirillov-Ugryumov,ci:~E.~--R~-e-anovj k. V. Somoylov, capture by various nucloil V. So Desidov, To Go K1rfllov-V&ryuaov9 mesons at a A. Ko Ponosov, V. P. Protesov, F. M. Sorgey*v, scittering of X 5 . 15 Hey in a propane bubble chamberl S. To. Mikitin, M. So kynutdinov, S Ya. M. Selektor, S. M. Zombkovokly, A. F. Grashin, suon production In I interactions; B. A. Dolgoihein, spark chamberal 1. G. Volkov, V V. K. Lyapidevskiy, I. M. Obodovokiy. study of operation of a convection chamber; K. G. Finogenov, production of square voltage pulses of high amplitudeal G. N. kleksakov, problems of color vislong To K. LyapIdevskiye-1 relation between number of receivers and number of Independent colors; Ye. No Xudryawtsevg No No Sobolevv No I. Tisengausenj L. No Tunitakivo F. So Payiulov, determination of the mozent.of electron transition of aillator forces and the widths of the Schuhman-Runge bands of molecular oxygen; Do Too Gavrilov, A. To Zharikov, To I. Rayko; decosposItIon of the volume charge of Intense ion boamial To. A. Kramer-Ageyevrp,To So Trooblet measurement of neutron spectra 1 9. go Dorosheako, now methods of fast- neutron recordingi To 1. Ivanovi, doolmetry teftimologyl. I o, X. To"mkov I CarA ./4.-. .. . . . , ". . . 2     WN i SOURCE CODE: LR/0056/66/05C)/,)011/0877/08891~',C-. '0 A 17 '(3 ~-i Babayev, A. 1. Balal~s 14. ~Yrt- N~rUsishchqvZ -G. Obi*~bpv~,__Xp, Ov, Roganov, OR~- instil.ute of Theoretical and r;qw.,rimentfll (InrLitut, terr4A;ch-,-fkOy i T IT I,E: E)cItcrimental invest[Gation oi' Hievnica) _muon-IUM ".)URCF: Zhurnal ek-- perimt~ntul'noy i fizi?i, v 50 no. 877-889 TOPIC TA(Wl: mitlonium, positron, aiig-,tLar distrlbuLIon, cLt;". action, atonic Onjonium, positron diz-tribution [J~STMCT : "Lle asymmetry coeffici-!n't,; in the enitted in ji-e-decays were mQas*ur,.,c1 ~,,Pr a nun~wi-r M i ture~ . 'flne rate constant for ititevacrioll bk;!twee" ~,he 'O'c-mic cornpute(; on the bwis'of the rc:,ull-3 obt,air.cd, r"eti!o I o" oc,~rps-,.0 for parallel reactions was caiplo~re6 with Lhe ai'm r,.il'sing tt,~~ r ~s and elucidating the mechanism of the proces:.cs. The depenoei--cen of m ent. asymmetry coefficients on the magnetic field weie mea~;ured foi- 6- compounds. The data were discussed within the f rzLnewor,, of. the cu-,- I with muonium. The authors express their tpf~nks te.i A~a6vi:i cl~ tAns A. 1 Cord 1/2   AT6031145 SOURCE CODE! UR/3138/65/000/388/0003/0028 AUTTIOR- Babavey, A. L; Myasishcheva G. G. Obukhov, Yu. V. -Roganov, V. S. Firsov, V. G. Balats. M. Ya. ORG: none TITIE: Experimental investigation of the chemical reactions otmuonium SOURCE: USSR. Gosudarstvennyy komitet po ispollzovaniyu atoranoy energii. Institut teoreticheskoy i eksperimentallnoy fiziki. Doklady, no. 388, 1965. Eksperimental'noye issledovaniye khimicheskikh reaktaty myuoniya, 3-28 TOPIC TAGS: inuonium, muon chemical interaction, muonium interaction, atomic muonium, assymetry coefficient, angular positron distribution, binary mixture, competing acceptor method ABSTRACT: Measurements were made of assymetry coefficients in the angular R distribution of escaping posi rons for several compounds and their binary mixtures. The results obtained were used to compute the constants of the rate of interaction between atomic muonium, and substance. To augment the accuracy of the results and to clarify the mechanism of the process, a method of competing Card 1 2  L 01240-67 AT6031145 acceptors was used for reactions in parallel. The dependence of the coefficient of assymetry on the intensity of the magnetic field was determined forseveral com- pounds. The data are discussed from the point of view of the chemical interaction of muonium. The authors thank Academician A. 1. Alikhanov and V. A. Lyubimov for their interest in this work, V. 1. Volkov for his assistance in carrying out the measurements, and A. 0. Vaysenberg and L. N. Kondratlyev for their helpful evaluations and discussion of the work. Orig. art. has: 4 tables and.11 figures. [Based on authors' abstract] [SP] SUB CODE: 07, 20/ SUBM DATE: 150et651 ORIG REF: 006/ OTH REF: 012/ awm Card 2/2  86079 11"(0115 55 S/180/60/000/005/030/033 E193/E183 AUTHORS: Agafonov., A.G., Go omolzina Yu-A- Rgellberg. I.L dand Shpich3metskiy, Ye.S., (Mosow TITLE: bCrystallization of GraDhitelbon the Surface of Technicar -Purity Nickel A PERIODICAL: Izvestiya Akademii nauk SSSROtdeleniye tekhnicheskikh nauk, Metallurgiya i toplivo, 1960, No.5, pp. 223-224 TEXT: The object of the investigation described in the present paper was to determine the causes of the formation of black spots on annealed nickel sheet. To this end, specimens of nickel sheet, containing 0.03-0.10016 C, and small quantitieB Of.Si, Mg and Mn, subjected to vacuum annealing for 3 hours at 800 OC followed by cooling at the rates of 2-3, 10-15 and 150-200 6c/Min' were studied. The results of electron diffraction analysis showed that the black surface film (estimated to be 10-6-10-5 cm thick), formed under these conditions9 is pure graphite. Microscopic examination confirmed this finding and revealed that graphite is first precipitated at.the grain boundaries and then spreads over the surface. In analogy to the hyper-eutectoid steels, presence Card 1/3  86079 3/180/60/000/005/030/03~ E193/E183 Crystallization of Graphite on the Surface of Technical Purity Nickel of silicon in nickel intensified the crystallization of graphite. The rate of cooling after annealing had a marked effect on the phenomenon studied. At the cooling rate of 2-3 OC/mi-n. the formation of surface graphite film took place when the carbon content in nickel was -;> 0.04%~ When the cooling rate was increased to 10-15 OC/min, the minimum carbon content leading to the formation of thesurface graphite film was found to be 0.06%. No graphite film was formed on the surface of specimens that, after annealing, had been cooled at the rate of 150-200 OC/min., -Crystallization of graphite on nickel su Aace can take place also when annealing is carried out in a rredue-i-ng atmosphere, In this case, graphite is crystallized also from the ga3aras phase,. It has been shown experimentally that in the absence of carboa in nickel, no formation of the surface graphite film takes place during annealing in a reducing atmosphere, This indicates that when such film is formed under these conditions on nickel Card 2/3  86079 S'/180/60/000/005/030/033 E193/E183 Crystallization of Graphite on the Surface of Technical Purity Nickel containing :?. 0.04% 0, graphite-particles precipitated from the metal act as crystallization nuclei for carbon which condenses from the gaseous phase during cooling. There are 1 plate (opposite page 222) and 8 references: 4 Soviet and 4 non-Soviet. SUBMITTED: May,26, 1960 Card 3/3  KIRILL.OV_UGRYUMOV, V.G.; KROPIN, A.A.; ROGANOV, V.S.; SAMOYLOV, AN. Anfnilar and enerwy dispersion of 1-1-mesons in a scattered magnetic field of a six-meter synchrocyclotron. Atom. energ. 11 no-3: 245-246 S '61. (MIRA 14:9) (Mesons--Scattering) (Synchrotron) (Magnetic Fields)  20685 S/12o/61/000/001/02o/o62 E032/C314 9 9 AUTHORS: ~Yevseyev' V.S.0 Komarov, V.I., Kush, V.Z., Roganov, V.S., Chernogorova, V.A. and Shimchak, TITLE: A Multilayer Scintillation Detector for the Recording of Neutrons in the Presence of y-rays PERIODICAL: Pribory i tekhnika eksperimenta, 1961, No. 1, ~pp. 68 - 72 TEXT: A description is given of a neutron detector having a high sensitivity to neutrons buta low sensitivity to y-rays. The detector is designed for the energy range 5-20 MeV. The detector is similar to that reported by Baker and Rubbia (Ref. 4). The multilayer detector is based on the difference between the ranges,of protons and electrons of the same energy. The detector consists of a number of thin scinttliators, each having a thickness h The scintillators are separated by opaque part.-itions. The device is so arranged that scintillations from layers 1, 3, 5, etc. are re-,orded by one photomultiplier.and scintillations from the remaining layers by another. If the energy of an electron is sufficient Card 1/4  Card 2/4 20685 ~S/12061/000/001/020/o62 A Multilayer E032/E314 for it to penetrate into a neighbouring layer, then coincident pulses will be produced in the two photomultipliers, The electronic circuitry employed is such 'that itrejects coincident pulses. Non-coincident pulses arising in either of the photo- multipliers are analysed by a kicksorter, In this way., one can separate recoil protons,from electrons due to y-rays. The multilayer detector con--dsts of 28 discs (diameter 80 mm,, h = 4 irim). The discs are made from a plastic based on poly- styrene with the addition of 20/0 p-terphenyl + 0.2% aNPO. The neighbouring discs are separated from each other by pieces of black paper, 0-05 mm thick, The detector consists of two identical parts placed in series. in each part,scintillations from "even" discs are collected through perspex light pipes by the corresponding to multipliers, wbilst the scintillations from the "odd" discs are collected by two other photomultipliers. In order to prevent the light from the "even" discs from entering the photomultipliers belonging to the "odd" discs (and conversely), the side surfaces of the discs are separated into four equal parts and two (opposite) of these are covered  S/120/Gi/ooo/ooi/o2o/o62 A Multilayer .... E032/E314 by an aluminium foil. Altogether, the detector incorporates 8 photomultiplers of the type (FEU-29). Each photo- multiplier was placed in a separate magnetic sc~reen made of soft iron. The light guides were not -in optical contact with the scintillators,which.reducedthe amplitude of the pulses but sigplified the operation. Pulses front each photomultiplier group were amplified and equalised in amplitude. The maximum amplitude of Co' 6o y-ray pulses was about 0.01 V. The pulses were then fed into an adding circuit and the pulses from the adding circuit and those from one of the photomultlpl:Ler groups were fed into a coincidence circuit and a discriminator, which -ere so arranged that coincident pulsesviere rejected while tnose whichwere not in coIncidencewere allowed to pass on into a kicksorter. Detailed tests carried out on this detector have shown that its sensitivity to y-rays is lower by a factor of 2 and it sensitivity to neutrons is higher by a factor of 2, as compared with the detector reported by Baker and Rubbia in Ref. 4. It is said that this is due io the fact that the thickness of each scintillator in the present-instrument is Card 3/4  20685 s/12o/61/000/001/02o/o62 A Dfultilayer .... E032/E314 lower by a factor of 1.2 while the total thickness of the device is smaller by a factor of 2.7, as compared with Ref. 4. There are 6 figures and 6 references; 2 Soviet and non-Soviet, ASSOCIATION: Oblyedinennyy institut yadernykh issledovaniy (Institute for Nuclear Researcli) .SUBMITTED3 February 5, 1960 Card 4/4         C' AUTHORS: Baranov, P. S., Golldanskiy, V, I., Roganov, V. S. 56-5-7/46 TITLE: The Yk-ld and Angular Distribution of Fast Photoneutrons From Deuterium and Carbon (Vykhod i uglovoye raspredeleniye bystrykh fotoneytronov iz deyteriya i ugleroda) PERIODICAL: Zhurnal Eksperimentallnoy i Teotaticheskoy Fiziki, 1957, Vol. 33, Nr 5, pp. 1123-113o (USSR) ABSTRAM The yield of photoneutrons from deuterium and carbon was measu- red as follows. Total yield from D Total.yilld.from C dGI dD~ (IleV) in c1D 1028cm2/Q in CC 10 6cm2 /Q 170 0?84 1 0,07 7,2o + o,25 8,58 * oV66 2,o6 + o,o6 .18,90 + 1,35 9918 + 1944 The yields were meisured by means of an effective scintillation detector for fast neutrons, based upon the reaction G12-(n,2n)C11 (fast value 2o,6 mev) in the volum.of the liquid scintillazor. In the case of at -energy of 225 MeV the angular distribution of the fast neutr ns from D changes very intensively since al- 0 Card 1/2 ready a considerable yield of photoneutrons from the photo pro-    0 W )d J$ it if is J4 Ia It L; u Al ]a 1. v a III all 4161 ...0 OL-1 L.AA_J, LAN I AA 10 IX I it b it 1 -1 1 1 1, 0 1 &--L-,Juoo A 9 it 1 1, V t.~D (."-s '.rt. lit I I filtris of the slowl c '"' I 00 2 as %,Mpar"i "a '.I linss.'l oil. it g-lova And K, N 'TMVA-NyWj, Malwr I 1,kh. 1930. No. _S! ;1.-=7); 1; it". Kf!tr,;I. /hur. 1939. N.I. 1.0, 110 4~ L A Divillgoll wa% livmi.140,11.4 Willi 111, kit LMI' Willi 111111111AM MIS IkAytill Fil.611-111. I IVIWt in 00 tht- lirrwmr of At,(,), a, a cansly,t or withotit AIjIv,t. 00 1 he the I'tlstt% of till' 6040 _'d it), fleby4ratrif caimir nal. cwtorix-cil ,if and NmliNtUd =00 00 Plar/40100104 CAI (I?Irlhf. fly diStIl. With 4UI)eP%mSId. NtrAill 06 ow rue") were inve,tiguird. Item r"a,lt* to 490 th, velocity of dryingot n" wictu" 1% Were I see "I'ttlitted flown lill'.Mf oil, follolived"'y ca~tmlvll And See 8.i,Jg-re;1,j weldite-ttieta oil., Old v thk~ linwed And the 111111. llar,lvtwtl tititfoctuly without inttr- 00 .it and camor ,if. coton,lvd oil wi, rQual I'l 91A)MUCICII 11111IM-rd oil in Illil I n veloti-I IV IA drying a m I bw tim- of Inixed Z114-0 at). I 1:e;(). Or ImInts vollonev-1 oil wz4 rqual to lin,ulrd mi. The (III JIFE"luct-A WC11-ilrying and milN,ientlv hard film,. 'File Water re,manct- #4 the pig- A owillud f11III* of cuttlinwell fill w;'- oklut thAll that 01 twillf.61 filp.1-11. -tif. W. R. Ifirlill so If a I L A ITALLURGICAL LITI[O.U'llf CL.SSIF-C-C. I[.Z- so's 40.1n. a o a Am u it "01,1910dola stit its At fftl It spun IIM d"I 0 0 0!0 0 0 0 0 0 0 0 0 * 0 0 0 0 0 Co 0 0 0 o 0 0 4p 0 0 0 o is 0 0000 0 06 00000 4TO141 00000.000000000*00*00eogelso  - " , " 1 , 0, fit AND IND cavins )-D &4O AIN 9*0141- ANO F40pf#f.ts 04to '37 sea 404 : all oil see A 5 01 L A SITALLO"Al. LITIRAYWC CLASWICATM .60., *"Any sm,aqw.kv ON. On ILI r it i Is Ap A s a 111110a 0 IF So 9 do a 3 a 00 0,0,0 0 41 0 e 0 e 0 O.S.'s 0 0 We 0 49 4910 0 0.0 0 so 0 040**000064 Goo 6:00 40** **~Wee W6:94.09-- ~.419LO-09 000000 0 00 0000.0 a  7 7 7 7 7 7 7 7 7 7 7 ' 0 0 0 ! ! ! ~ 0 *--Vs!# !fG4 4 0000~0*0- 4.3 tj 11 1. to 4 1? 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And OthcV existing 000 Im-V,lums faileti to give 1wri. rrsulm The ructhotts tif to r0illilig by x4finlentation at W anif %-15* are equAllY 00 a '060,0 CthVIiVV And VAII be UM11 WhVlI A CM1111VICK-il". 94 SAN1. dci4k k wit Irijuirrd, C. d., av All Atidn. to tung or linwvil ods tw fur further imillruirrizaticm tw oiddaliou. Freezing t a mill W und -I.Y* i-6 of no practical advantsa, be- a coo 90 vaii- -4 the insignificant aildni. rutfuction of contents -if goo -W~. kelgartum 'if the refining Itirth.h1s, IN- it'istillix W1114 64 "Miparril With linscrif ,it show Inant. t" insufficktit futidur-. Alw;IIyillx' I%uw IC-istaller 800 W and 10111' 11flIWIM' JklWA! Me oil lefitted by proc"s It. tic superior in 41114111V. Chas. Iffame goo I L 14LLU*"&& I &I L 19 a a 50 00 00 0410000 0 0 0 0 0 409060 0 0 0 0 0 00 000 0 0 0 i0000006*00,06 I 0000000000000C 0      ROGANOVA K I  w w Ap %I QP w v - 9 - . . . . . . TV) 13 315 is v m 0 40 it A K L L-j--r- a a I I ; -. I .,2 , I , - , ~ J-A-t-j- ANO !-T. CoNas 0 PROCESSES Ake VIOPIRTICS ell 00 . L4 43 C Rc 6-8 N 0 VA ) 00 *0 00 00 ii n. 11jurimw l 0. -00 Tbt' 00. j! f j =00 00-3 see see we* 'Z '00 -0* goo :1 woo &$*.ILA 01TALLURGICAL LITFRAIM CLASUPKI I Z goo no, 0 U U A. 00 AS Ipt got Ita n I 0'a 0 a 0 0 0 0 0 0 0 a 0 0 0 0 0 Ah 0 0 1 0 0 0 0 0 0  .3c..i 1 tracy; ~~, ern t; tre r 3kc,' ie nd 9 n C e .0 0 0 71 Ir -3;cs, n -,-'d kn Cotton zrow 1rvir-  Re-lonal plni!: the division of our country in rei-,~ions the ic cor-di- Lion for the imm-oliment in yiel d of craps. p(,,I,jr p~, -opr!Nrrcd,-,in -nzenjer-- i lehnicara Srbije) a . '! ~ (Drug'vo rolj Beograd, Yut7,c,s,lavi,-. Vol. 6, no. 6, Au;~. 1 5 8 list of Lastern E-oropean Accession Index LC vol. b", ~40. 11 Uncl.  USSR/Cultivated Plants - Technical. Oleaginous, Sugar-Bearing. Abs Jour Ref Mar - Biologiya, J.1o 16, 25 Aug 1957, 69297 Author Rogash, A.R. Inst Title Vegetative Hybridization in Selection of Long-Fiber Flax. Orig Pub Agrobiologiya, 1956.1 No 3, 89-94 Abst A method of vegetative hybridization of flax and follow- up treatment and choice was established by the flax ins- tit-ate. Geographically distant forms and wild species of flax served as stock, and as the scion-- the best dis- trict varieties of long-fiber flax. The best method of grafting for flax is joining organically by direct appli- cation. The grafting is made during the period of rapid stock growth and in the phase of cotyledonous leaves of. the scion. Repeated grafts were applied with consequent proper treatment of the seed offspring of vegetative hy- brids. In testing this method the increase in height Card 1/2  in  USSR Cultivated Plants. Commercial. Oil Bearing., M-5 Sugar Bearing. Abs Jour: Ref Zhur-bioi.!, No 6., 1958, 25142 Author Rogash.,_~~ -Tr I - oT--k ven Inst 9 Title The Development of Selection Work*on Flax in the USSR Orig Pub: Len i konoplya, 1957-, No 10, B-14 Abstract: No abstract. Card 1/1  USSR/Cultivated Plants -- Commercial. Oil-Bearing. Sugar-BearinG. M Abs Jour Ref Zhur Biol., No 12, 1958, 53709 Author ;togash, A.R. Inst Title Selection and Seed Growing of Long Fibered Flax in Belgium and Holland OriG Pub Len i konoplyn, 1957, 110 1, 45-118 Abstract This article describes the conditions of ilax growing, the organization of the selection and seed-Growing esta- blishments,and the metbods of selection work with re- gard to long-fibered flax. The article gives the cha- racteristics of the flax varieties suitable for diffe- rent districts of thesecountries. Varieties promising as foundation material for selection in USM are noted in particul-ar. D.B. Vakhmistrov Card 1/1 90 -- ----------- 71r_fjl:~~ V9 -r'I-eMVt"' j Ap,S. JOUR, MhBicl., NO, 23 190. 110- 1047-16 AUNIOR Rogesh, - NST, ific ;Iesearch Institute of Flax. IOL Scanft 1 i TITLE Development of Soviit Science in the ,rea of Flax Growing. I ORTO. PUB. BYul, 118uchno-tekhno inforrii. Vivs. n.-i. in-ta I'na, 3-6 ABSTjACT N3 abstrnct. CArLD - 1/ 1 104 "iA ArA77'  KLOCHKOVY V.N., kand. sellkhoz. nauk, MALYKH, P.V., kand. sellkboss. nauk; ROGASH, A.R., kand. biol. nauk; MaNOVA, Ye.S., red.; BELOIr, lrrl~171tftft. red. [Breeding and seed production of fiber flax) Selektsiia i semenovodstvo llna-dolgantsa. Moskva, Sellkhozizdat, 1963. 189 p. (MIRA 16:9) (Flax breeding) (Seed production)  -- - - - - -, - --- - - --- - - - - ~   Excerpta Med:ica 3/4 300 16 Apr 55 Cancer 1404. ROCATCHIKOVA T. A. Carcinoma of the ventricular bands of the larynx and its treaFn-rMffTffWf.VW%IF#P,, . to-ri /*'V%ft 0 no-laryng. 1954,2 (29-31) Of 246 cases operated on for laryngeal carcinoma the ventricular bands have been found affected in 138 cases. Of these the carcinoma was limited to the ventricular bands only in 3 cases. In all other cases other parts of the larynx were involved. Localization of the tumour in the ventricular bands, ventricle and epiglottis is considered more dangerous than in the vocal cords area owing to the abundance of phatic vessels and loose connective tissue. Combined treatment with X-rays anIrsurgery is re- commended. Prujansky - Tel-Aviv   SOIT/68-59-7-27/39' kUTHOR: 110 gate 1 TITL-': -Lethods of Increasing Labo-Lr Productivity at the Zhdanovskiy Coking Ylork-s P-1~-RIODLiAL: Koks i 1chimiya, 1959, Nr ?, pp G7 - 68 (USSR) ABSTRACT: The problem of increasing Labour productivity at the, works is discussed in general terms. ASSOCIATIOINT:Zhdanovskiy koksckhimicheskiy zavod (Zhdanovs~iy Colcing Works) %Cj'a:r-d 1/1 tool fto   --  NOVOZHILOV, Mikhail Galaktionovich, prof., doktor iekhn. nauk; SELYANIN, Vitally, Gedrglyevich, kand. tekhn. nauk; THOP, Abram Yefisovich, prof., doktor tekbn. nauk; Prinimal uchastiye G14HUN, O.S., kand. tekhn. nauk; RZHEVSKIY, V.V., prof., doktor tekhn. nauk, retsenzent;_HDGATIN,.-1j.P., Insh., retsenzent; GEYMAN, L.N., red. izd-va; ISSHCHOKINA, I. S.., tekbn. red. (Deep open pits]Glubokle karlery. 14oskva, Gongo'rtekhi.dat P 1962. 275 P. NIZ 16-.1) (Strip mining)  32192 S/196/61/000/010/011/037 IBIL94/EI55 -a 76. /OSS~ IS AUTHORSs Marshak, I.S., Vasillyev, V.I.9 Tokhadze, I.L., and, .Rogatin', N.V. TITLEs Powerful xenon-tube 'sun' lamps operating without ,ballast PERIODICAL3 Referativnyy zhurnal, Elektrotekhnika i energetika, ,_no.lov 1961, ILI,, abstract IOV 89. (Svetotekhnika, no.4, 1961, 8-17) TEXTz It follows from considerations of the physical mechanism of impulse discharges in tubular impulse lamps that this discharge is quasi-stationaryv i.e. it can continue indefinitely provided that the current supply is not exhausted and the discharge tube is not thermally overloaded. The discharge channel- is of considerable ohmic resistance (some hundreds'of ohms), which depends on its geometry and which alters little with the electric stress or specitic resistance of the plasma. Because of this resistance the lamps need no ballast, and the potential difference across their electrodes is equal to the supply voltage. Experimental data about the specific resistance of plasma and Card 1/4  32192 Powerful xenon-tube 'sun' lamps s/196/61/000/010/011/037 E19VE155 permissible mean power-loading on the quartz tube walls permit of approximate calculation of the length and diameter of discharge tubes in which discharge, like quasi-stationary discharge in impulse lamps, could continue indefinitely (i.e. be quite steady) provided that it,receives.supply from a steady electrical system without any series ballast resistance. The comparatively high discharge-extinction voltage in narrow-tube impulse lamps governs the minimum internal diameter of the tube and, consequently, the power per unit length in the case of supply from an a.c. system. From data on impulse tubes fed directly from an &.c. system (without storage capacitor) with a current impulse for one quarter of a-,ycle, it is found that the minimum internal diameter and power mentioned above are respectively 16-20 mm and 95 W/cm- With supply voltages of 380, 220 and 127 V the minimum power of ballastless a.c. lamps and their lengths should be respectively 15, 8.5 and 5 kW and 156, 90 and 52 cm. D.c. impulse lamps should be smaller in diameter and consequently of lower power. These statements were sonfirmed by an investigation of prototype discharge lamps of various diameters (16-48 mm), lengths Card 2/4  32192 Powerful xenon-tube 'sun' lamps S/196/61/000/010/011/037 E194/EI5.5 Ooo-34oo mm) and xenon pressures (15-200 mm HS) made with various kinds of supply (d.c. and a.c. at various voltages) and cooling conditions (natural and forced wa*ter cooling). The investigation also gave a more accurate idea of the value of the power load on the tube walls (for an impulse tube operating for 500-1000 hours) and the specific resistance of plasma (when used under steady conditions of low electrical gradient). On comparing these values of ignition voltage and light output of impulse lamps with those obtained in the work for tubes of various parameterag a technical basis was provided for optimum design of ballastless xenon lamps of 20 kW power for a.c. 380 V supply. The principal characteristics of discharge lamps (compared with 20 kW 0sram tubular xenon lamps supplied through a ballast reactor, indicated in brackets) arej current 57 A (75 A); light output 29 lumens per watt (25 lumens per watt); circuit power factor 1 (0.73); 'overall length 1980 mm (1900 mm); tube diameter 27 nun ~'30 mm); life over 500 hours (over 500 hours). A small starting device such as a Tesla transformer with appropriate switching suffices to start the lamp instead of the large and heavy starting equipment with reactor (approximate weighti copper 50 kg; steel 150 kg) used for German Card 3/4  32192 Powerful xenon-tube 4sun? lamps s/l96/6i/ooo/oio/oll/037 E19VE155 lamps. The Soviet lamps have metal terminals in quartz (comparatively thin molybdenum foil woufid in cylinders) which are easier to make and are more reliable. The prInc-Lpal data for designing similarimpulse lamps for other workinC voltages and powers were determined at the same time. It was X;,,-,%nd that by increasing the tube diameter and reducing the supply voltage it is possible to increase the light output for a given power (an impulse lamp for 220 V, 16.4 kW has.a light Output Of 33 lumens per watt). By use of water cooling the electrical gradient can be increased, still further increasing the light output (with a gradient of 4 V/cm and internal diameter of 16 mm the light output of the impulse lamp is 38 lumens per watt). Xcnon ballastless 9sun' lamps have a mainly continuous almost equal-energy visible spectrum with a weakly expressed maximum at 480 nm (nanometres) which corresponds to a light temperature of 6000 OK. 9 illustrations. 20 literature refeiences, [Abstractor's notes Complete translation.] Card 4/4  ROGATINA, Nina Prokof Iyevna; POPOVA, Zinaida Fedorovna; ARTMANIS, Stella '-AffdMyOvyItq-MELINrKOVA, Nina Ivanovna; AVDEYEVA Yekaterina Semenovna; KUZNETSOVA, Irina Pavlovna; ZHEREBIDIA, Anna SemenovI19; VffEVOD]21A, Aleksandra Dmitriyevna; KOLPAKOVA, Ninell Yevgrafovna; KHAYEVA, Aleksandra Afanastyevna; DUNDUKCVA, Valentina Petrovna;LAUSTEN, A.G., nauch. red.; GABOVA, D.M.9 red.; VINOGRADOVA, G.A.2 takhn. red. [Women's and children's light dress] Zhenskoe i detskoe legkoe platle. Moskvap Gostekhizdat, 1962 493 (MIRA 15:7) (Dress'makinjel  SHANIMP G.G.; F.:A.; SLI11KINA, 11. V. Blood serum n -act ons in rhoumatic central nervous systerra dificason in en. Dokl. M BSSR 8 no.7:481-483 164. (MIRA 17:10) 1. Belorus5k-iy udarvtvonnTj Institat, u9ovurBhenstvovaniya vrachey. Predstavleno 4"t mikom AN MSR D.A. Markovym.  BOLDINA9 N.A.; ROGATIUSKAYAq F.A. Changes in the copper level of the blood following treatment of radiculitis with bee venom. Zdrav. Belor. 6 no. 7:28 Je 160. (MIRA 13:8) 1. Iz nevrologicheskogo otdeleniya Minskoy oblast-noy klinicheskoy bollnitsy (glavnyy vrach G.A. TSoyev) i Nauchno-issledovatellskogo instituta nevrologiip neyrokhirurgii i fizioterapii (nauchnyy- rukovoditell - akad. ANBSSR D.A. Markov). (NERVES, SPINAL-DISEASES) (VENOM) (COPPER IN THE BODY)  A IXONOVICH, A.L.; ROGATINSXAYA, F.A. Study of globulin fractions in the blood serum of multiple sclerosis patients by means of electrophoresis. Zdrav. Belor. 5 no.4:36-38 AP '59. (NIRA 12:7) 1. 1z Belorusskogo Tiauchno-issledovatellskogo institute. nevr6logii, neyrokhirurgit i fizioterapil (direktor Ye. F. Kalitovskly, nauchMy rukovoditell - prof. D. A. Markov). (BIOOD PROT3115) (MULTIPLE SGWOSIS) (ELBOROPHOFMZ)  ZATARMKAYA, T.A.- Prix-:'-ma' -ac-~hastlyoQ D-1, R( Li O-LA ATA.' V.; TSEMOVSKAYA, D.; ZEVAKDI) 1,1~ RISIOEVA, Ye.~ Inve.stigations in the field of titanium tetrachloride purification. Titan Jl ego .5plalry no,.-,,'L95-200 '61. KIRA 15:2) (Titanium chluride) (DIALAllation) i"Vapcr-liquii equilibrium)  ACC NRs Ap6ol7957 SOURCE CODE; uR/o413/66/m/010/0025/0025- INVENTOR: Lebedev, G. N.; Serebryakova, A. V.; Starshenko, V. A. A.; Pundrovskiy, V. P.; Kh1opkovj L. P. ORG: None TITLE: A method for removing phosgene from gases. Class 12, No. 181621 SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 10, 1966, 25 TOPIC TAGS: phosgene, gas, filtration ABSTRACT: This Authorts Certificate introduces a method for removing phosgene from gases, particularly from waste gases in the production of titanium tetrachloride. The degree of purification is increased by adding hydrogen to the vapor-gas phase at a temperature below 50O*C- SU CODE: 07/ SUBM DATE: igmar64 C rd uDe; 66.o74.66  ACC NRs 10150009948 (A) Monograph UR/ Vartanesyan, Vartges Agaronovichl Gqykhman, Emmanull Shlewvlchj.,~~Yqpj, MLkhaU Ivanavich Iiadio &L'rection finding (Radiopelengatsiya), Moscow, VoGrenizdat M-Ya cbor, WSR, i966j 24*17 p. illus., biblio. 11,000 copies printed. TOPIC TAGS. guidance systern, radio guidance, radio antenna, radio wre, direction finder receiver sensitivity PURPOSE AM COVERAGE. This book presents theoretical principles of radio direction finditLg, principles of operating various types of radio'direction finders$ as vell as problems of practical application of ground devices. Special attention is given to the precision of radio direction finding and sensitivity of the devices depending on the conditions of radio vave propagation and on the scheme determinations of antennae and receiver-indicator systems. The various uses of radio direction finders are shmm. Shia book is recommended as a textbook for preparing for the cadre of raoiio direction finding in secondary technical education. TABIZ CIF CaMNS (abridged) t Card 1/2,; UDct621-396.663.0013(07)  '-'ACC-'~R1"-- -- AMSOM9948 a... 1. Basic concepts and directions in radio direction finding - 5 Ch. II. propagation of radio wwes - 11 Ch. III, Antezuia-feeder systems and elements of Input of radio direction finders -- 40 Ch. IV. Raddo direction finders vith a smnll base and their recelver-indicator devices -- 85 Ch. V. Radio direction finders with a large base .- 127 Ch. VI. Sensitivity of radio direction finders and precision of radio direction finding -- 151 Ch. VII. Several mDdern radio direction fInders and automtic systems for detera mining the position of directed objects m. 183 ~Ch. VIII.. Prdbleme with the use or ground radio directIon finders 2W suB cam SWK DATE: Ogrews MIG MW: 046 OM MWs 032 Card IT 14  BCRIBOV,A.I., inzhener; MUMOVA.K.F., inzhener; ROGATKIN.N.S kandidat telchnicheekM nauk; SEMSKIY,Ye.P., tekhnicheskikh nauk MechRnizing the selection and preparation of cut peat samples on a TP type peat loader. Torf.prom.32 no.5:20-21 '55. (mm 8:10) 1. Moskovskiy torfyanoy institut (Peat machinery)    (Corrosion and anticorrovives) (Ketal cladding)  41"u once olAmmonlum ffAlts an the Col -Copper,. A. _V, PoxfiDsovi, M N. R6zaMin, Cf. L and P., ibid., 1949, M SN; M~44, 99-92% Cu powder were pb4coed in a beAv also held-in'mpamto beakers---an N14sa weight of salt taken was.that7contg., I -g rosion of the Cu was detertnined by,meam vicight-after 12 hr. at W. 0-5! 0.: Mo of:tbo 0 g.jgjday) ohlorlde 42,66, bmmid6 - 34-03j, l6dlilo'~ 34 acetato "1.-0, nitrate' 8-68, c~honato 239 and secondary ~hoxphmte: 11-68, -The cox Welmem of -the 114. th; surface of thr, metal and thii amount 01 dLwlvod in It; it should therofore b e I lower-themal stability. The'volalility 0 the anl6a of thasalt Is therefore the-main Its corrosiveness (this Is oonfirmed ~y. cm and the mrW bp.'.of acid for e. of sefda). - The of the X14 salt  Ae - A_ - , I I e1 I l i ectro n. el s a cooling or Va aipadtion of xWc -A T Leyin A Potposav, and T~ N RZr-W~- .. 24, ~ 124.5-51(l P1 m Zh a. at Al 'coonrig'coUs ww Investigated under . T, e.co I art- eral eondW6 , follud in celb for the electrod&.. nswhkh ~<fon; of Zn.' At 320 with- a standard Zn el"tro(yte i ret~ence,of 10 mg./I.,of N, fooza + 100HAOS) the ' ++ ++ I+, z2+ + a+ * Increased I Co* Pb * and Cu % ye Bi ' ' of A wire from 039 to 0.94 g.1sq.m-1 ~fhc ~orroslon rate ' NO;, Cl-, and, F- iacreased it from and the anions i 0.22,- thro - 1.55, to 2.65 g./sqm./hr. At 45" th ugh e cor 'Viosion~rate in HgSO~i from 100 io'140 g./L~ remaine&,const*,--, 'd did .at about 0.30 g-Aq.m.1hr., The prest:d6a of silicic am 'isbt affect the corrosion rate Wit did retard the 6fraision ef.;!' tfect'of F-: - with -10 (in -100 x-A H,60 ) the" tZ - ~ ili i d of id d 0 t e corros C-n c c ac ecrease ~resenee 1 . mg. A. s rate from 2.72 to 0.52 with 100 mg./I. F7 the m* 4 20 - i 50 t b t d d f t 0 th f Y. ro . o a ou . n . ra e ecrease e presence o .10-50 mg./I. siticic acid and to 0.88 with,100 Mg-A. - Thz, A. potential of Al In H%SO4 and [a the standard i etectrod7 . etectrol~te In the presence of 10-4000 Mg-A, F7 attained a; Const. -valve after 60 min. at -0.6w and ~0.765 v., resp; in The protective fibn obtained by theu~ means -vVently bannful-protecti CaSO4) wa3 found hi ve films; ob 'tamed byanodleoxidation with a cd c12A mp-/S Am."O . . i!6 207 HSO, and for 5 min. W= effective. , Increasing he h SO d 0 ff e H d iK ec~ Z e e t e C an e temp. or a 1 t 2 j 70 ' tiveness. - The effectiveness was further increased by treat w t-tritnt of the film in asoln. of KjCrO~. Itisc=8uded that;.. 'A] Cooling C0113 am suitable for Zn eleefrodeMsition Cells! gruviding Cl-afid F-areellmlaated and the 46o lsprotected,,' - b~ l l l tn o Y~auodfc &Idation. The corros Ate w th a fi on i lned und the best Lvaditions was 0.001 0. O.OOT' er s 003 and g./sqm;. In 30; 120. and 240 min 1. Briltowitz  POMOSOV, A. V.; PWATKINA, T. N.; T~EVIM, A. I.  137-58-4-6818 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 4. p 73 USSR) AUTHORS: Levin, A. I., Rogatkina, T.N. TITLE: The Effects of Surface-tension Reducing Substanceis_in~the Electro- deposition of Copper (0 deystvii poverkhnostnoaktivnykh vesh- chetsv pri' elektr005azhdenii medi) PERIODICAL: Tr. Ural'skogo politekhn. in-ta, 1957, Nr 69, pp 34-49 ABSTRACT: The speed with which equilibrium is attained in pure and ad- ditive -containing systems consisting of Cu and Cu ions is stud- ied. The presence of surface-tension reducing substances has a pronounced effect on the kinetics of the establishment of equill- brium. The dep ndence of the potential of the Cu electrode on e the time elapsed from the moment it is lowered into the solution is expressed by the equation q = :k 0.013 log tanh A-P/2b,' +const. Surface-tension reducing substances exercise a significant in- fluence upon the wettabitity of cathodic Cu. When combinations of additives are employed, the polarizing effect is promoted. Combinations of molecular organic substances and technical or- ganic substances and technical organic high-motecular intermed- Ca rd 1/2 iates in conjunction with anion-active additives yield the best   R601ATMAY T. NO A 187T12      TN ,kJTHOR VORONIN E.3 ROGATNEV I.I. PA - 2570 TITLE The unstable p~-o-ce-s-s -in-a-ul-ogenerator with direct excitation by radio impulses. (Nestatsionarnyye protsessy v avtogeneratore, zhestko vozbuzhdayemom rAdioimpullsami.- Russian)- PERIODICAL Radiotekhnika 1957, Vol 2, Nr 2, pp 144 _ 149 (U.S.S.R.) Recei-Ted: 4/1957 Reviewed: ~/1957 ABSTRACT For the purpose of investigation a device was constructed which facilitated studying the adjustmant of the amplitude and the phase of self-oscillations for the domain of synchronization as well as for that of pulsation for different working methods of the generator at different amplitudes and with a different duration of the influencing radio impulses. There follows the description of the device. Experiment showed that on the occasion of the synchronization of the autogenerator which by the influence exercised by large signals, is in a rigid state of.excitation, an optimum state for adjustment of synchronic self-oscillations exists, which ,cannot be explained without taking the line currents of the lamp into account. Diagrams and a qualitative analysis for finding optimal conditions for the synchronization of the autogenerator by radioimpulses are given on the occasion of the dependence of the latter upon the order of back coupling CARD 1/2    . . . . . . . . . .   Gr ~. -1 -1 (.,. i n,E - r.,a r, h -I r a i, I MINI