SCIENTIFIC ABSTRACT YUDIN, L. G. - YUDIN, M. F.

 71   fon-ti- !-'T 'Tar., --v NIL '2TO'  -, - , I I , - - 7 ~ I ; - .~, :~,;, 1, ; , ,:.- '. . ,, ~- , -1 1 , -- -.? ~ -, ~ : t 1 - 'I - . : ., - . - .. - - , 9!~, -~- ~ - I - , . I - I - .  AUTHORS: Yudin, L. G., Kast, A. IT., Berlin, Yu. A. 79-11-24/56 -MITI-p-dy, A. E. TITLE: Reduction With Formic Acid and its Derivatives (VostarLoyleniye murav"'noy kislotoy i yeye proizvodnymi). VII. On the Reduction ;f Compounds With c. Pyridine Nucleus (VII. 0 vostanoylenii soyedineni-y, soderzhashchikh piridinovoye yadro). PEKODICAL: Zhurnal~Obshchey Khim-ii, 1957, Vol. 27, Nr 11, pp. 3021-3026 (USSR) ABSTRACT: The authors earlier showed that the process of reduction of the quinoline salts with formic acid (up to I-a1kyl-1,2,.--,*1,4- tetrahydroquinolines) is greatly accelerated upon addition of triethylamine. In t .he present work thia observation was used in the reduction of a numbor of other compounds with pyridine-nuclc.us. Chlorides and bromiden of 11-alkylpyridine in the reduction with formic acid and sodium-foriiiat(; cliiufly formed I -alkylpiperi dines and only 10-15% 1 -all'ylpi pt.1'! dines. In the experiment to reduce in this manner the iodides al' 11-othyl- or 11-butyl-pyridine only labile compounds"vicre obtained. With triethylautino in the place of fvrivAto' how- card 1/2 ever, the iodidts &nd sulfates of 14-alkylpyrioino salts, like  With Formic Acid and its Derivatives. 1-9-11-24/56 V1I.__ -On the Re-duotion of-CompoundE Witb-a Pyridine- Nucleus the bromides and chlorides, are reduced. The period of reaction is in this connection shortened from 18-20 to 3-4 hours and the yields of 1-alkyl-,a3-piperJ'clines increased to 25-35%. Thus the salts of 11-alkylpyridine are fairly easily reduced2 whore a mixture of I-alkydpiperiLWnes and 1-alkylpiperideines forms. 'Rho latter are separated over their dibromides with subsequeLt splitting off. In the reduction of isoquinoline and its-quaternai-. salts a hydro- &-nation of the pyridine-ring and the1ormation of lt2p3,4- tatrahydroicoquinoline takes place. There are 15 references, 3 of which are Slavic. ASSOCIATION: Moscow State Unit-ersity /Moskovskiy 7orudarstyennyy universitet). SUBMITIED: November 1, 1956 AVAILABLE: Library of Congress Card 2/2 le Formic acid - Derivatives 2. Pyridines Derivatives  ZOLOTAM. Ye.1hav KOST, A.I.,- Yn=, H.L., TUDID, L.G., tMONSON, I.A. Measures for human protection against rat flea attacks. Fauch.dokl. T79.shkoly;b1ol.nanki no,1:44-45 158 (HIRA 11:8) I* FrodstpvIona "fearnmi entomologii i orgnnichoakoy khimii Hoskovskogo gosuderstvennogo univerolteta in. H.V* Lomonosovai ?Sentrallnym nauchno-iosledovatellskim de2infektnlonnym Institutom Hinisterstva :3dravookhraneniya SSSR. (INECT BAITS M RUSLIOTITS)  DIOTAREV, Ye.Kh.; MDER, M..L.: KAUMBUYA, T.V.; YUDIN, L.G.; WITRIYEV, A study of repellents. Report No.2: Acyltatrahydroquinolines ae mDBquito repellents, N-cuch, dokI, vyse. Phkoly; biol. nauki no.2: 37-40 '58- (MIRA 11:10) 3.0predetavlena kafedrami entokDologil I.organichookoy khimill MoBkovskogo goBudaratmanogo universiteta imani H.V. Lomonosova i TSentralinym nauchno-issledovatel'skin dezinfektaionnym inetitutom HiniOteretva Mravockhranenlya SSSR. Nuinoline) Nosquitoes),(Ineect baits and repellents)  50) 1UTHORSs Yudint L.G.,,Kost,A.17.pZolotarev,Ye,Fh., S011155-58-2-2217:z - and lfirza~ 1.,V*- TITLE: Some Derivatives of the Tetrahydroquinoline and Their Effect on Plant-Lice (Nekotoryye-proizvodnyye tetrogidrokhinolina i ikh deystviye na tley) PERIODICALS Vestnik Moskovskogo Universitete. Seriya matemtiki, mekbaniki, 6otrbnomil., fjjjU., khijnji.,jqA41r 21 pp 169-176 (USSR) ABSTRACTS Several combinations from the series of the 192,3,4 - tetra- hydroquinoline were' synthetically obtained. In a con- centT~tion of 0,5% in an emulsion most of them are toxis for plant-11- - ortality. Some preparations have a , higUy caustic effect on plants. There are 12 referencesp 5 of which are Soviet, 4 American, and 3 German- ASSOCIATIONS Kafedra organicbeekoy khimii i kafedr6 entomologii , (Chair of Organic Chemistry and Chair of Entomology) [Hoscovuniv.] SUBMITTED: April 3t 1957 Card 1L/1  ZOWTAMV Te.3h.; 3RMn; -,L G. MUNSON, I.A. Study, of repellents. Report 216-3: Acyltetrahydroquinolines ao protec- tive oubstancen against fleas. Vent.Yznk.un.Snr.b1ol pochv., gool., 9009. 13 no-3:43-52 ' 58. imIRA 1211) MR 1. Kafedry organtabeakoy kbimii entomologii Moskovskogo gos. univer- sitets I TSentrallmy aezinfektoionMy nauchno-issledovatellskiy Institut. (quinoline) (Fleas) (Insect baits and repellents)  YUDIN., L. G.j, Candidate of Chem Sol (41se) -- "The vynthasis and certain reac- tions of the tetralWdroquinowsll, Mosccrw.,~ 1959. 11 pp (Mosaw order of Lenin and order of lAbor Rod Banner State U im 14. Ve Lomonoeov,, Chem Faculty), 100 copies (KL., no 22., 1959,, 110)  SOV/79-29-6-39/72 A, ORSt Kost, A. N., Yudin,-L. G., Terent 'yev, A. P, TITLE: Synthesis of We-q-,lo-Dialkyl Lilolidenes (Sintez 9,lo-dial- killilolidenov) PERIODICAL: Zhurnal obahchey khimil-, 1959, Vol 29p Nr 6, PP 1949 1953 (USSIO ABSTRACT: According to reference 4 a synthesis of the lilolidenes based on the Fincher reaction was saggested. Compound ([II) was synthe- sized from 1,200-tetrahyd-roquinoline by means of the nitroso compound (II);its reaction with pyrotartaric acid led to the hydrazone which with stannous chloride finally yielded liloli- dene carboxylic acid. The authors used this method for the syn- thesis of*a serias of g,lo-dialkyl lilolidenes-9 according to the general scheme 1. The treatment of tetrahydroquinoline with nitrous acid was carried out by means of diluted oulpharic acid ajad not with hydrochloric acid (Ref 5) since in this case ouping of the nitroso group into position 6 is poss-ible, a regr The ethereal extraction of the nitroso -oompound was washed out with water fox, several times since tracos of nitric aDd nitrous cd in acid produce low yield. The Laethod of reduction dosorib Card .112 ----- - -- -- , pubiications (Refs 4,6)leads to !or yields.in amine (III) since  Synthesis of the g,lo-Dialkyl Lilolidenes SOV/ jq-2D-6-zO/-2 _R an elimination of the nitroso group takes place and tetrahydro- quinoline forms as the main product. For this reason the re- duction-was carried out at 10-150 and in ethyl-instead of P-M mathyl alcohol. The amine (III) yields in this case increac;e to , 75-80%. The 1-aminoietrahydro*quinoline obtained led. in the case of heating with carbonyl containing compounds to Oily hydrazones which viere directly transformed into the lilolidenes. The zinc chloride used in the Fischer regrouping could not be used in the present case because of resinifaction and difficult purification. In the case of diluted sulphuric acid, however, the formation of the lilolidenes taken place with yields of 60-95% without resinification. The stracture of the synthesized products was confirmed by the reduction of the compound (IV) into the compound (V) which visa obtained by the reaction of 2,3-dimethyl indoline with trimethylene bromochloride 2). This was also confirmed by the melting of 'the mixture of the two compounds without temperature decrease and by spectrum ana- lysis. There are 1 figure and 8 references, 3 of which are Soviet. ASSOCIATION: Moskovskiy gosudarstvennyy universitet.(Moscow State University) SUBIAMITTED: A _pril .14, 1958 4 ard 2/2 C  5,3610 75693 SOV/80-32-10-42/51 AUTHORS: Kost A. N., Pertsov, L. D., Yudin, L. G., Kalinkin, S. F. TITLE: Briej. Communications. Catalytic Hydrogenation of Quinoline PERIODICAL: Zhurnal prikladnoy khimli, 1959, Vol 32, Nr 10, pp 2349-2351 (USSR) ABSTRACT: Nickel on chromic oxide.is used as an industrial catalyst for the hydrogenation of quinoline. The above catalyst is very effective. The liydroteenation already starts at 900 and 80 atm pressure. Two at- tempts were made to hydrogenate quinoline: 1) Hydro- gen was introduced into the reactor at 50 atm pressure. 0-1150 and 100 atni The reaction was carried out at 11 - pressure for 10 hr.. 101,05 of catalyzate was obtained, calculated on the starting materia2. After vacuum distillation 7.8% of cis-- and tran.'3-deccllin and 85.3%5 of 1,2,3,4-tetralin were obtained, Card 1/3  Brief'Communications. %..atalytic' 75693 Hydrogenation of Quinoline, SOV/80-32-lo-42/5i + I Lid \N ell, CI'3 C113 IN-Gli3+ N-02tir, +LN117 N if 2) The reaction was carried out at 105-1100 and at 100 atm pressure4 102.5% of catalyzate was obtained, calculated on the starting material. After di,,3t'~!- lation 96.4% of 1,2,3,4-tetralln and 2% of decalln were obtained. The residue (about I(P') was a tar-like product. There are 16 references, 7 Soviet, 4 GermanY 3 U.S., 1 Japanese, 1 Italian. The 3 U.S. rcferences are: Travis, B., 'Morton, F Jones, H., Robinson, J., J. Econ. Entomol., 42, A6 (19119); Gouck, If., Card 2/3 Gilbjert, J., ibid, 48, 499 (1955); Adkins, H.,   ZOLDTMVf Toolhavj. TUDINO L&Go; KALMTSXAYAp T,V*; KOSTt AX. Teating of repollmtso Report N.,73219-M 160. (MIRA 13912) (QUINDLIKE)  Ti 021/036 b7 AUTHORS: Obozov, 1. P. and Yudin, L. G.. TITLE: A blethod of,Recording.the-Curves of the True Stresses From -the Machine Diagram ofthe Elongation of a Flat Speoimen PERIODICAL: Zavodakaya.laboratoriya, 1960,-Vol. 26, No. 12, 1401-1403 TE]XT:--- -When:_reCorAing__the true st-ress curve from the elongation diagram of a f lat_'~speicimen do,ne:Lstin-g-.-o-f---a--rdlatal-- foi-1 j- At: -must bet_kkeF' into account a am--recording device of-the machine both ---- --- that, by means of the di 'gr -the elongation of the specimen-and the elastic deformation of the'machine and the elastic distortion of the components of their measuring mechanism and of the clanpa.are recorded.. In the case of elongation of the flat specimens, also the shift of theheads of the specimen together with the wedge-shaped jaus of-the tongs is recorded in the machine diagram; the latter serve to fasten the specimen. For determining the elongation of the specimen the elastic deformation of the machine (A 3~) and-the slipping-out of the sDecimen.must' be-eliminEited. In-determining the quantity AI it suffices M -Car d 1/3  87708 Method- of -Recording the Curves of the True 3/032/'60/026/012/021/036 Str6sses Prom,the Machine Diagram.of the--- 13020/BO56 ,ElongEtion of a Flat Specimen to fasten a solid andshort specimen in the clamps of the machine, whose elongation may be neglected* By loading the specimen, the diagram P~_= f(AIM) is obtained) which characterizes the dependence of the elastic deformation of the machine on the load. For the extent of slipping-out is derived, where the elonga- is - AL '&l Al , the relation A L A L I k k gl gj tion after destruction and A L the elongation found from the diagram in consideration of the elastic deformation of the machine and of the speci- men Itself. A L may be found according to the scheme shown in Fig. 1. Fig.2 sho-wa the transformation of the machine diagram into the elongation diagram of the specimen itself. Fig* 3 ehows,the ourveof the true stresses, re- corded on the basis of the machine diagram of the elongation of tho low- carbon steel specimen having the dimensions A = 1.02 mm, B - 19.90 mm 1 =1100.08 mm. The-spread of the results is, contrary .And a length of - to recording of the curves of the true stresses, by meanuring the cross sections, very low. With an incroaso of -the calculated length of the specimen, the error of the T value is reduced nearly proportionally to the igures and 1 Soviet reference. 0 There are 3 f 1 quantity . . 0 Card 2/3 -P  87708 A Method of Recording the Curves of the --izue S/032/60/026/012/021/0316 Stresses From the Machine Diagram of the B 26/B056 Elongation of a Flat Specimen ASSOCIATION: Tul'Bkiy mekhanicheskiy institut (Tula.tleohanical Institute) Card 3/3  ZOLOTAREV, Ye.Eh.;'141TROFA1,TOV, V.G.; YUDIN L. G. iSTYAZHKINA, N.B. Lmstigatien of repellents,, Report Yo.22: Pepellent action of W-acylindolinev on the fleas Xenopsylla cheopis Roths. Vest. Hosk. -tm. Ber. 6: Biol.., pochv. 16 no,4:5841 Jl-,A~ 161, (MIRA 34:7 2, Komplekonaya laboratoriya po izueheniyu sredstv i sposobov bor'by s vrednymi zhivotnymi i boleznyami rasteniy 14oakovskogo gosudarstvannogo universitetn.- ('WECT BA= AWD REWIMS) (PLEAS)  KCST., A.N.; YUDIN.,,L,G.; FDFRAVKOp S*A. Cobd~nsed mtems with a nitrogen heteroatom. Fart.4:- Synthesis of benskoppnvollsims with futational groups. Zhur.ob.kbim, 32 -------- - ------ no &-5-:15j"550,- It--- 162D (1~ 15 :5)  =IN, L,G*;.?OPRAVKO: S.A.; KOST,, A.H. Condersed *mUmg with a:-.Xd-Lrpgan h-stercatom. Part 5: Formation of the bydrfOtq;9vQjWrw otruct=e in the Fisher reaction imblving 1-=Lnoindolims. Zhur.ob.1dim. 32 no.11:3586-3590 11 162* (MRA -15:11) 1. lloskovskiy gosudarstvennyy universitet imeni N.V. Lanonosova. (Quinolone) (Indolina)  BUDIL111, VoA.-, KOr--Tv A.H. O,Uiolldanes. Matod. poluch. lb-In. reak. I prepar. no."It 4 65-68 164. (MIRA 180.2) 1, Ybskovskiy go sudarstvenkvy universitet imani M.V. Lomonosova. Submitted April 1964;. .4~ n -72 V K riz;R~O-  RE NNE 7-11., kand, talkhn~ nmik, euticint"; S orcd f a - tc ~ra &f f p c ti Dthe m e a sur emv-n 41. p ro pf d _',i 5 dn nets uzed in studying local deformatlon3. -'zv, -~Yq~ r~shinoatr. no.6g138-1415 165. 1R. a, T -  KOST., A.N.; BUDYlaNi VI.A. Witration of the benzene ring ofIndole compundso Zhur.VKHO 10 no.4t474-475 165.. (MIRA 181n) 1. lbskmkiy gosudarstvennyy univeraltat imeni M.V.Lomonosova.  Acc-NR--- I 'AP6025591 -80URCE CODE: 7VR-ff4-i--376767-oo-d-rd-i-:ffoO2-l/O6'it----' jNmjTM, Kont, A,-'N.; Lugovik, Do -A.; Yudin, Lo Go ORG: none TITLE: Preparation of 4-aryl-lt2-304-t6trohydroquinoline. ClaGa 121 No. 183208.- [annouced by Chemical Faculty-* Moscow State University,im. M. V. Lomonosov (Khimicheskiy fakulltet Moskovshogo gosudarstvennogo univcrsite'ta~ SOURCE: Izobreteniya,, promyshlennyye obraztsy, tovarfiyye znaki, no. 13, 1966, 21 TOPIC TAGSt 'aryl tetraiiydroquinolinep**TMXMX!I'~mn, dihydroquinoline, dihydroquinoline nitrogen derivative# benzene, antuale, aluminumchloride ABSTRACT: -The proposed method for the preparation of 4-ary1-l,2,3;4.-tetrahy'dro-. quinoline is based on the reaction of the homologs of 1,2-dihydroquinolinc or its 14-derivatives with aromatic hydrocarbonal.eog.p benzene, or anisole, in the presence of aluminum.chloride. (W-A, 50; CM No~' 101 SUB CODE: 07/ SUBM DATE: I$Jun65/' Card 1/1 UDC 1 547*831,3*07 w  -ACC -N SOURCE CODES UR/0413/66/000/01910033/0034 INVENTOR: Kost, A* N.; Lugovik, B. A.; Yudin, L. G. ORG: none TITLB: Preparation of 1-formyl-1.2,3,4-tetraliydroquinoline. Class 12,1 No. 186483 [announced by Chemical Department, Moscow State University im. It. V. Lomonosov (Khimicheskiy fakul'tet Moukovakogo goaudaratvenllogo universiteta)] .SOURCZ:,,- Izobretcniyat promyshlonnyye obraztsy, tovarnyye znaki, no. 19.1 19 66 3:31-34 TOPIC TAGS: formyltetrahydroquinoline-F.- quinoline, formic acid ABSTRACT: To simplify and facilitate the process of the preparation ofi 1-formyl-102,3,4-tetrahydr'oquinoline from formic acid and quinoline andl its homol4gap the latter are treated with 77-85% formic acid vapar at 215---~230*C* [W.A* 501 SUB CODE: 071 SUBN DATE; 13Nov65 Card ill UDC: 547.831.3.07  B.A.; YUDIN~ L.G.; KOST, A. N. Technology of the reaction of acetare with arj4 Jjyje. ~1!,.jr. r 1 1 khim. 38 no.1:216-220 Ja t65. a 7-2. -`11~  M~ 1,4,~ ~f 14., t--V;TF,~ RENVIE, I.P.; TLSYPPIIA, 111.1l.; YUDIN, L.G. Plrpt-_. irventall inves'ligation of the a c-mj:- a zy ~m.,i rel _la't-fl i I, yIf divld~.ng grzIlds with thin gr-adunt'Am liries. 7~zav. ialb. 30 no.11., 11,387--l'90 ltl_~4 18~0.' 1, Rdfakiy politoMmIchfiskiy inst-L~Lxl,,  HOST A.N.; YUDIN, L.G.; TSYU YUY-CHZIR J-[Chliu YU-chu] -Ketoni-triles In the Fischer reaction. Zhur. ob. khl4,m.. 34 no-10: 3444-3449 0 164. (MIM 17:11) 1. Moskovskiy gosudarstvennyy universitet im. Lomonosova.  Nit g WNW 2. 1 1 F, I ?i --i-ORGAIP it, X,2911 -7 O~ J1. .1-43;gf ii A S n4 4E'1 .'it-UsHM 91 a Z r mc I 116 4,; 3 It ;1. b: 31 flu  ~t, c Tf Tu kin T,- IP, n A-A Q A I j 7 Ll   SEROV, N.F.; YUDINt L.I. Pulse duration stability in a generator with a secondary emission tubs. PrIb. I takh.ekep. 10 no.5tl29-132 S-0 165. (MM 19 1) 1. Institut yadernoy fiziki Sibirskogo otdoleni-ya AN SSSRt Novosibirsk. Submitted Feb.17, 1964o  VW7(,')/EF1-(W)-1-/FWA(=)-2-- Pab-10- -UP(c) GS L-h -3 'ACCESSICH HR: ATS007921 S/0000/64/000/000/0274/0287 IMMOR.. . Bagert V. N.; Dlinov,_G. A.,,, Bandarrn~NQ-~~; Ye 14"kig, B. G~.Lz ~-Ov a Hj~j!M, _qrob~yn Cqqq~~n, A. P.. S] _ _j. j Rr Sid v V. 8Rt Ajv k __p_qtro GI L.; ronk2A a A cLb~~ h j~ A. V; Kushni _Y hZR~s ey Ax~q~enderA V- Y~_ Abillawfan. 'To An. - N.. Sna~h ivs~ita, A. A.. Rodionov. S -chesip-x0v V Vasaeyr,Aj Ve BAqYcr, G. L_ TITIXI Colliding electron-nloctron, ponitroh-slactron, arid proton-proton beara Lgh Ener Accelerators. Dubna,.,1963. international q,CMfet-Pn" *nA MURCE3 Trudy. ir-dat, 1964, 27ii-2 1~iscov, Aton iractiono hj, yelco, par- TOPIC,TAGSI gh eDpjML Rjftqta p, particle ph ticle beaz, chqgbd pw1ticlQ bObn ABSTRAM In the Institute of Ituclear rbysics, Giberian Department,, Acadar7y of IScian"s SSSR, prpgrws on~hjgb-energy pwticle physics am rainly concerned with worU en colliding chqgad p~rtjcje !mams. Thic Institute considars it %xasuiteble C-d I  7 h 7304-65 ACCESSION NR: ATS007921 for its purpose to install huge acceleratom whose construction refluires large resources outlaid bnd long t1no. For work on colliding electron-electron, pooi- tron-electron, and proton-proton boom, three Installations aria being built, which are, in variuus ntagoo of readiness. Work on colliding electron beam was con- at tha Institute (then a laboratory of the' Institute _Q"tou.,j c 4 1. V. Kurchatov) in the Fall of 1956, after Kerst's mpor:t on accelerators with rotoIn beaTo of the FFAG type. Dy that tim Soviet Ocientists Itad al- -----jrcady acquiredcome experie-ace- In--obtAning- large electron-cumnts; in particullari -the ntionn d - laboratory -had --instal Is d - arid A:~4n- oban done d--a -device - for- the -spiral utomgj of electrons (G. I. Budker and A.- k Hmumov, CERH Symposium, 1, 76 (MM, by whith, subsequently, circulating currents of the order of 100 amperes 1~ero ob- tained. In 1957 two variants of this device were considered at the same time . The first one consisted of two accelerators with spiral storage and subsequent transi- tibn of the particles fo synchrotron state in corTaratively narrow paths. !The second one bad 'storage' rang? with constant magnetic field and frequent external-in- jection because of the dalrping of the oscillations undar the-action of radiation. The firnt variant was more cumbersome; the second variant contained an element not developed at that tims, namely a 100-kilovolt- co=tator of iO -kilo-amperes with nEmosocond front. At the end of 1957, the fIrst positIv6 reaults.were obtaimd cora 2/5  47304-65 ACCESSION NR: ATS007921 with a packing discharger of 100 kilovolts, and work stopped on the variant with stor age rl'n&3. Originally it was proposed to set up two devices: VEP-1 of 2 x 130 V-3v energy, and VEP-2 of 2k 500 Bev ener gy. The VEP-1 was considered as an actual model of an accelerator and as a device for conducting Initial experlments at low icnergies. After the Panofsky report In 1958 on his work with colliding electron Peam, conducted in hit; Inboratory at Stanford, construction ceased On 500-Hav istorage paths and work was contin',jed on the 2 x 130-11ev installation. Instead of ,work on colliding electron beams with energies of 500 Hev, work at the end of 1958 'was canduqted with colliding po3itron-electmn beam and the planning of the VEPP-2_ a high-va"un stbrage path of 700 Nov energy. At the present time the VEP-1 and VEPP-2 are installed in Novosibirsk. The VEP-1 is in L state of ne-~lect, but at itbe end of 1964 experimen'ta will be begun with it. Installation - the VEPP-2 has completed. To obtain a rarked effect fron the application or c-:411ding proton ~Ml, an'accolerator is needed with an energy of at least 10 Gov. Since the ordi- ;nari-accalerator at such energies Is a very bulky mchins, It waq decided to coo- bins the idea of iDoiliding iroten ban= with the creation of an Iron-leas irpulne ccelerator with vexy, Ur-a fields and a neutralized central bus6ar. Thin latter trk of cieatIP9 such. a'tnacbins wa3 roported by the autbox~a at, a: Hoscov conferance CAW 3/5  SSICH HR: AT5007921 held in 1956. -she presence of a field with two directions In an iron-less accelera- tor with central busbar permits the ecceleration of protons toward opposite -idea in one machift. which makLo possible the collision of protons In case of a suitable ~ace-track. At the precent tire the Institute is developing a pmton device with magnetic field of about 20D kilogausa and radius of 2 maters for a particle energy of 1 2 Ge., in the beam (equivalent energy is around 300aft-v). TeGts am being con- deted on modale, and on effective method of injection by overcharging of negative ions in under ntudy. Also undor dovoloprtnt ore an impulso electric power supply n stem of 100 million joules capacity and an hf power supply. Since 1958 the y Institute has been conducting theoretical Investigations on the limits of cpplicabi- lity of quantum electrodynamics-Ev. 11. Bayyer, ZhETF, 37, 1490 (1959). and UF71, 70, 619 (1962)) for the calculation of the radiational corrections to the electrodyne- Pit crona-sections [V. 8, Bayyer and S. A. Kheyfets, ZhETr 40, 613-715 (1961) and Nuclear rhysics. (in print)], &-)d on other problems of high-energy paxticle physicws that are connected with the preparation of ouparlwnto on colliding beams CV. N. _vnakh, in ZhTr, 19613. The Bqyyer, 1. D. Khriplavich,' V. V. Sokolov,.end V. S. 8 present report talkes up under the mentioned three zain headings the following pertL- Dent topical, the eccalerator-injectiono,st"o paths, elsitron-optical channel, C=d 4   FAii_ NRI ~AP6022003 SOURCE CODE: UR/0120/66/000/003/0098/0 'Coll AMOR: Yegorov, As A.; Saw1hin, 1. A.; Pawsyuk, V. S.; Yudin, L. I. ORGG: Nuclear Physics,.Instltute, SO Ali SSSR, Bovosibirsk (Institut yadernoy fiz:Lki SO AN SSSR) TITLE: Synchronization of triggering pulses with a given high frequency voltage Pribo I tekWks: ekis --ta- -.no- 3-, 1966- -,98-101 ry.. TOPIC TAGS: electronic circuit, triggering circuit, particle accelerator i*ABSTRACT: A circuit, based on a tube type llidter'v is described. it is designed for I.synebronizing triggering pulses with a given phase of the hf siuusoidal voltage with !'an accuracy of lul usee when the input voltage is varied from 70 to 200 V and when the line voltage is varied within * 10L The circuit consists of a section for fixing the bf voltage phase; a cascade for shaping phased pulses which, after amplific&tion, trigger the output sections; and continuously varible delay lines. By means of special gate pulses the output ~ulseB of the circuit can be coupled to any section of the hf voltage, either pulsed or-continuous, at a frequency up to 200 Mc. The circuit can be used In various particle recording system, in oacillography for the visual observation of individual sections of the bf voltage curve.'and it can be in- corporated in accelerator circuits. At present'this pyncbronizing device with five output delay channals.is used for triggering control and recording equipment of the -CoM 112- M)Ct !M.1.075   UR/Ol 20 6 &/ 66'6'16C6'166W76 6~O AP7001936 - SOURCE CODE i OR: Grits, Yu. A.; Panasyuk, V* S.;:Ostreyko, G .M; Yudin, L. I. ORG:, Institute of Nuclear Physics, SO AN SSSR, Novos ibirsk (Institut yadernoy --'-iziki, SO AN SSSR) TITLE: High-frequency power stage excitation circuit for feeding cyclic and linear accelerator resonators SOURCE:' Pribory i tekhnika eksperimenta, no. 6, 1966, 39-40 TOPIC TAGS: cyclic accelerator, linear accelerator, particle accelerator component ABSra"RACT: ,-In high-power com-non-grid-pulse amplifiers for cyclic or linear accelera-: tars, low efficiency and pulse distortion result from a mismatch between the driver and the power tubes where the second harmonic is undesirable An excitation circuit is presented in which.the fundamental-and the second harmonics follow different paths at the.,power tube cathode input circuit. The interstage. circuit between the dAver.and the power tuVe consists of a tuned split LC circuit (tuned to the fundamental frequency), two parallel cable sections assuring a high travelling wave ratio for the fundamental and a high inpedance for the second harmonic (cable length Is such that it acts as a quarter-w4r~e..6Lble-~or the second har- monic). The second harmonic is further *aped by LC circuits between #DC:'621.3.084.871-i 1.'384.'6l-,621 *384   L bs642-671 EWT(m) IJPW ACC M SOME Col AUMIOR: pudker G. I.;* Riseley, A. V.; Xonlkovp N. Go; M A. A.; 4 _Inn Yaonn 04 11 Ostreyko2 0, M; Famayuk V. So; Pqtrov V. V. int L, X!; J(ud ORG: none TITLEt, Starting of the B-3M Uncbrotron used an an injector for a positron-electron storage ring SOURCE: Atomnaya energiya; Y. 201, no. 3, 1966o 2M.210 Aele acceleratorp stoUge ringp cyclotron mpet/ VEPP.2 TOPIC TAGS: synchrotron.. JD_- -, ge ringp B-3M symbrotron., IUJ linear accelerator stora AVTRACT: Sbe article describes an adjustment of. 4 synchrotron with external single- cum injector and single-turn emission of electrons and. with a apecially conGtructed olectromagneto This pulsed synchrotron is designed to serve as an injector for the VEPP-2 storage ring for colliding positron- and electron beamso designed and described by one of the authors (Go 1. Budker, 'et alep. In Tivdy Pezhdunarodnoy konferentsii po uskokitelyam~ Dubna., 3,963 [Transactions of Internatioml Conference on Accelerators,, vab 196.3]), Atomizdat., ewhere)4 The article,'describes the na, 1964, y. 6% and eit syncbratz Itself (Fig. 1), the m gnat., two variants df capture lato s-~mchronivms and iarims test yrpceaures. : The njector for the B-3m ayncbratron vda an IM pulsed lineir accelerator. 1 Mae Injected ile-actrons had energr I - 1.5 Hey (pulse duration -7 niec) and were accelerated to Nuvo Me B.3~ r1mbrotron maces it possible to Cad 3/2- uDe 621.384.6121~12  V 05642-67 ACC NRt AY602162D Fig. 1. Block diagram of the apparatus of the B-3M w.,Tw- chrotron. 1 -~ Starting-pulse block, 2 - electromagnet excitation; 3 - hf generator modulator,, 4 - injector hf generator., 5 - phuse shifteri 6,,7 -, modulators# 8 , am- ylifier., 9 - coMuterp 30 - p"hune fixi block., 3.1 - de- ng lay line,~ .12 - electron gun pulse generator,, 13 - elec- tron abutter pulse generator.,,14 - inflector pulse gen- erator., 15.,3b - delay linej, 17 - voltage conparisoni 18 - reference voltagep 3,9 - deflector pulse generatorp 2D:-.electronic abutter 21 - channel electron supy2y block. operate the VEPP-2 storage ring at energies IOD - 3.30 Mov and an electron current -400 M) at an approximate 21,01)etition frequency 1 cps. The IW Injector was recently re- placed by one with higher injection energy (2-5 - 3 MOV) WA longer injection pace (15 nsec) 7his -increased the nwber of electrons in the storage ring by approximte- a factor of 20* Orig. arte has: 10 figures's 1 7 SUB CODE: 2D/ SM D=s 22;m63/, MG MW '0D6 2/2 Card  x- 4 rp--f 15~~J.Lr- lnmn Innn In i 7 A j, zi I --i~ j T 5 1 A, S Cj T,; P :1 'k  .P t (,~t Fau m -1 AN 7 -r  NR APc )02.1992-'- Au7710 Gol I SOU'R- CC CDDJ,'._ ORO ,6/000/ -ritute G* ns; PanasYuks S.; 003/0023/(jo24 SO AXnI3SSSjj) ', Of nuclear -p-hysic. F_ TITLZ,. SO Ali SSSI? 1 110 L. nator ftdujatlon~ of vosibirrk the Pulse -front of III h X'st'tUt yad.rn, SOU'RCE: frequency Voltage in TOPIC TAC ory 1 TekhnIka ekspo a Synchro YI Synchrotron r1monta, no. 3, tron reso- J. AB.STRACT: 7,he circuit delay in, 1966 t 23-24 Must del- '01nPlex -t circuit I Ver aar Y of discussed 9e Pulse a high fr-e accelerator n.t, A device V Power (up quency gen Ucted us. h- E 0 1 lfw) erator h a.high fre 149 a 1'. "ch ca I when '1g" quen -xce and cy mp, Inear 'zoduln aPPrOxima relative to its t _ynchr0tron ce -the El er ator of . . . . . . Pr-esented, cur 0 a PrIscribed Pulse width genera consis Onerge ~or Pr ti tic '16100 ve shape for th ng 0j: pulses f line rhe anit,,, passive calculated ar e variat- 0 curve Lre rNesis modulator Voltage 1/, aon of elements. supplying the can be let. Igh fr A schernat. anodes 0 tance J? -s f0med - a With a front equency .1c Of th sch. the cb W'In the 'C e c0 R. 7-he. voltagc obt - such a de- ok $l a a-ld of a p0 s corztet;POnd' allned with -nd the load I tent entrance of the Acmete Ing to the Card.112 delayed ro, which front of t-It Co'd 1/2 Pulse acro con he as th s'StS OIF -load--- Ued 'Into Parameters of this ?  L 99072n6-7- ACt RRi AP602.1992 line. The value of the resistance R is chosen to provide the necessary voltage in the 'resonator at the moment of injection, but it must be sufficiently large in order not to shunt the choRe coil. The delay line consists of five T-shaped LC-components. The resistance of the delay line must equal that of the load. A compensation RC-cir- Cuit is included in the entrance to the delay line to prevent reflections from return- ing to the modulator which would result ir. a malfunction in its operation. Orig., art, has.- 3 figures. SUB ODDE: 20/ SUBM DATE: 26Apr65/ ORIG REFt 002 Card  L 343d1-66 EW7(1) ACC N% AP 02200 SOURCE CODE: un/ol2o/66/000/003/0101/0107 AUTHORv QAILtzelol He Yu*1 Penfilo A. Do; Pqnayyuk,.V- G-t floboley. CS" S, Yudin, Ls I* Instittte of adem 'ORG: _gUel2ar SSSRP NoyoSibirsh (Institut y oy fizikio SO AN SSM) TITLE: . High-voltage nanosecond pulse generator SOURCEt Pribory i tekhnike eksperiments, no. 3, 1966, 101-107 ~TOPIC TAGS: nanosecond pulse, pulse generator, thyratron ABSTRACT: A bigh-voltage pulse generator is described which develops 5-50 nsec square pulses of up to 50 kv with rise times from I to 5 nsf-c, The basic circuit consists of a tbyratron, anode pulse-forming lines and a cathode output featuring a coaxial line with square-loop ferrite as a nonlinear pulse-forminG elements In Fig, 1 is shown one design variants and in Fig,, 2 is shown the ferrite line detail. Another feature of the circuit is the balanced-T form of line termina- tion, Vhich,has one arm shorted and the other terminated in a small lumped capacitances providing a reflectioz-free pulse output. If the pulse were usedg for example, to gate a particle bean passing between plane electrodess,the inherent capacity of the electrodes could act as the required terminating load. Design parameters, including coupling UDCs 621,374.2  L 34381-65 AP6022004 *r' A442 I AV- Ferrite e ~i . ~e C enter conductor Teflon Ferrite, Bra ded shield L*-J" IA.Ttigger 4 Fl' i 2.- 11onlinear* fek*rite 9 !line I.. Nanz4econd I~ulse Son- ,:orator and matching refinementag are treated at length. Circuit stability is rated goodg with a firing-tizae jitter of not worse than I usec rms. This 'design has been in use over A year, and has proven unuoually reliable. Orige art. has: 10 figureso SUB CODE: 091 BUSH DATEs 13Apr65/ om REYs 005/ OTH REPs 002 ATD PRESS car4 -2/2  A ACCESSION KRI AT5007979 ~1072 '1AUMORs -Mramyan. Ye A.* Bander 1. Ye. I PLondaranko, L. N-t N milch Manolev. G.-&;Wy ""A. Naumov, A. A.,; P lsm~vlcY3 1. H-.; S Inskiv, kr --- ---- N. G. & Ho~tq YO~DJtg Kon$kov ~Hmbovxmko: 0. A. 1 0 0. G. P. A,- - oth ut on the atftng-eumnt f the Nuclear Phyales I'Astit TITLE t Work so AN MR. -, (1) Stmg-rurrent pU39 acceleratorn with s-p1ral storage Of %n0 cc- tronea (11) Stroas-currant attelaratora vith ona-4,evolution capture of the In. jectea eloctron& .4 SOURCM International Conference on High EnIM Acc*larato;rt.LNbna. 1963. Trudy#, Moscow, 964 1065-1072. TOPIC TAG$t ~4gh onargy accelerator, elactron'accelerator, electron beam, betatron plam ARSTMCTv The work on developing strong-current electron ring accelerators Depart. wag begun in 1965 by the authors at the Nuclear Physics Institute,, Siberian' &a&* of $cie tea SSSR,~with'the cb scvof studying the possibility or taut calla 1/3. MOM-  L 4?37-66 ]ACCESSION HR: hT5007979 forming relativistic stabilized bea=. In the laboratories of the Institute ex- I r obtaining large rirz 'perimental studies were carried out on the four cethods fo currents of relativistic electrons; (1) spiral method of storing the electrons in installations of the betatron type with subsequent betatron synchrotron accelera- i Ition (Budker G. I. CEM SyMP*31UM 1, 68 (1955), (2) obtaining of limiting electron I currents by means off the injection of electrons from a strong-current linear.ac- j - icelerator into a ring.charber of large aperture with subsequent synchrotron OCCOle", Iration-, (3) storage of electrons in tracks (parking orbits) with constant magnetic Ifield by.means of the multiple injection of elcetrons fro'A another less strong- current accelerator; this mothod'is utilized for the storage of electrons and posi- trons in experiments with cc>llidink beam (expounded in dritail by G. i. Budker !in the present collection, p. 274); (4) obtaining of large electron currents by i means of the acceleration of . electrons krj a ring plasma. - The present report die- cusses the L f 'r3t two mathob. mder the folloving topics: (1) pulsed iron-Uss betatron with prel!~inBry tharga storage (2-2 device); 5trong-current pulsed syn- chrotron B-29; pulsed stro~g-current beta" tron with spiral storage (B-3 device). (11) ircn-less.one-turn strong-currant synthrotron 0501 stmg-current pulsed synchrotron B Orig.art. hast figures. C&W ~/3   4236-66 Drz up(c). (iS 1ACOESSION 11R, AT5007990 12F AUTHDAI Grits Yu, A.; Iremasbvill, D. V.; Namov A. A. t Pyatnitaklyl A* P, V 10-ti Cher7sov ATW!1 TITLE, Strong-turrent bigh-frequency pulse accelerators for'one-revolution Injec- tion into a synchrotron SOVRCC: International Conference on High t Accelerators. bubna, 1963. dye oxcow MR!- TrU N RgKiU TOPIC1AUSs high energy accelerator, synebrotme slectron accelerator 7~',, ABSTFAM Plans were begun In 1959 for the strong-current cynchrotron B-3H with external injection of the electrons (Budker. G. I.; Naumov, A. A., at al., present :]collection, p. IM).. For this-there was required an Injector of electrons at -currents of several tens of amperes and energy not less than'l Nev. Tho.tima dura.;' tion-Of theinjected bunch- of-electr=3- (current-pulse)- must- be sufficient for fil-! ling the chamber of the synchrotm . which &mmts to about 20 nanon econds -in - th a casi of . equilibrium orbit length of 700 ca and relativistic electrons. The - devia- tivn from the mean. energy ol the electrons in a bmeb must not exceed 60.5%. gibe bcaa pulse power of the- Injector am=ts to- tens of megawatts. In order to c tail  ~Z L b23B-66 ACCESSIM RZ A750079ED such high beam power, the electric field realizea energy that is accumulated over a period of time much larger than the duration of the electron pulse. G. I. Bud- ker and A. A. liaun;ov. have proposed several types of accelerators whid'i are bared on this principle, which am boing developed In part at the Nuclear Physics in3- titute, SO AN SSSR, The necessity for the raped construction of an injector of such a type prompted the utilization of the mentioned principle, in which a radio-. engineering resonant circuit serves to store the electric field energy. A similar' accelerator was proposed and deocribed by a group of authors (Tolok, V. T.; Dole- tin, A. I., et al. Atamqa en:roya 21, 41 In order to increase the duration of the pulse of acrel rated particle current for arbitrary rigid require- m en a on the t bomplenaity of the electrons relative to energy~ it was requi2vd.t* greatly lower the frtquttcy of the bigb-frequency voltage in corpari3on with the ca3e discussed in tho last Dentlomid wor)i (Tolck# V. T. 9. et al.). The developuent of a 3.5-liev injector and current around 10D amperes wan undertaken at the Physico- tetbuicil, Institu", Academy of Sciences Georgian SSR, whIsre a group of asso- clates bad prtgoned the desip and construction of an injector foming the basis of tbe preaent development., Later, because of cawes not in the control of the do- VaIepero, the re a injector begin to.faU considerabl pa ion ot th y.behind that of the accelare or:itse IlLty of forcad a search for the possib Produal. Card-2? 2--i4i vX  B-1 L 4238-66 A=SSION MRs ATSOD7980 1'nrI Injettors of such type simpler to design and construct with the object of ensur, bins the Initial cycle of-wDrX on the construction of an accelerator. In-a thort Itim the mentioned Nuclear Physics Institute,pripared an injector using a long cot* jaxial line an the resonant circuit. With the help of this injector, work waa begun! on -the Inveitiration, of the elettron-optical properties of the accelerator- and tbannelizing structure. After aSo~t on& year this Injector we3-replated by a more effective one, the so-called small spiral injector, which was made In the =ention- Physicotechnical Institute of the Academy of Sciences Georgian SSR. Still un- built is the ultinats injtctcT. with electron energy of 3.5 Nov and current around 100 anperes. Us work on the injector described In the preDent report was carria out by A. A. Naumov. It is discussed under the topics: block achme (self-excit- ed generator of-sub-excitation. high-frequency generator, resonant Injector c1r- U., cuit, pulse modulator, electron beam moduleor, fixartion of high-l"quency phase, i staiting, accelerator pulses); design and construction; electron guns; radio-engi- ring devices;'moasuremnt of the parameters. In the develeptant of the --- into fertnt compDnento of tbo injectors mentioned In this report a number of associates took part in the vorki at the Nuclear Physics Institute, SO AN SSGR (X._A,_D9rJuY~_ C. Gindanko. A. Afonin,%,A. V. Makivenko, V. P. Alaknevev. V 1. "llchenko)-W Alit -0 - dance s..Geor-_._ dthe F4zicotedhnical Jr V AbB3-_D ME (V. MV13bneYWY, U2 V. Y6. ZRIDAIPA H# It Hatrosovj_ 2LIJ I R' R'v   ~.-4 i i, r r rnr- t. c g max n)?  - - - - - - - - - - - - - - - - - - - - -  acceler,-tor. 57- OF vre~ electron P-IM i U-Ptimum conditicns 7 -YVf m    I A/ USSR Phamacology, Toxicology. Chemotherapeutic Agents. U-7 Abs Jour s Ref. Zh.-Diol., No 2, 1958, No 8170 Author Yudin, L. 14. Inst Title s Treatment of Metastatic Tuberculosis of the Eye with Streptomyoin Orig Pub : Oftalmolo. Zh., 1957, No 2, 114-117. Abstract : No abstract. Card  All U 3/16 61/000/011/027/065 D22BY0304 AUTHOM Alckoeyevt F.A., Yorozolimokiy, B.G., Beapalov, D.?., Dondarenko, L.N.'p. Boytoik, L.P., Popov, N.V., Khaustov, A.I., Romanovokiy, V.P., Shimelevich, Yu.S. Shkollnikov, A.S.., and Yulln, L.I. TITLE:, The result of applying neutron impulse methods and apparatus for inveotigating borehole logo PERIODICAL:: Referativnyy zhurnal, Geofizika, no. 11, 1961, 34, abstract 11A304 (V ob. Yadern. goofiz. pri poiskakh polezn. Iskopayemykh, M., GoBtoptekhizdat, 1960, 3-20) TFXTt A borehole impulse generator of neutrons is described t oge ther with.the method of impulse-neutron neutron-logging (IMM). A description is given for the-electronic layout of the borehole be- nerator.of neutrons and the surface appratus for impulse neutron logging.~ During laboratory tests of the generator a stable nean neu- tron yield of ,v 2 x 1107 noutr./aeco was-obtained at 100 kv. of acce- lerating voltage in the tubes The impulse duration amounted to 100 Card 112  0/169/61/000/9 1110271065 The result of applying neutron D228/.D3O4 rose, thetransmisnion frequency being 400 c/o, The neutron genera- tor was used in the commcricial terting of IMIL. INNL rendinfn ag~dmt oil-bearing bode exceed by 10 tinoz,thooe for aquiferoun beda con- taining mineralized water, at a delay time of 1000 pnea. Certain impediments and limitations of thermal impulse neutron-logging in , different oil- and water-saturatod be do are indicated, and the rer quirements for the apparatus are stated. Further prospects are indl- cated for the application of impulse neutron generators. [Abstrac- tor's note: Complete translationji. Card 212  _-ACC_~_Mr -AP6034234- SOURCE CODEt-UR/0120/66/000/005/0156/Olk AUTHOR: Yegorov, A. A.;,Fanasyuk, V. S.; Yudin, L~ L; Oatreyko, G. No ORG: 'Institute of Buclear Physics, 5D AN SSSR, Novosibirsk (Inetitut yedernoy fitiki SO AN SSSR) TITLE*. Generator of high power pulses with complex shape SOURCE.i Pribory i tekhnika eksperimenta, no. 5, 1966, 156-159' TOPIC TAGS: pulse generator, pulse shaper ABSTRACT: A nultistage generator of pulses with complex shape is described; the -shape and amplitude of each segment of the pulse can be regulated. Each stage of the generator has three tbyratrons; basic, extinguishing and correcting; each thyratron, has Its own power supply. Cathodes of basic and regulating thyratrons are connected to the load.. The extinguishing thyratron shuts off the basic thyratron; the correct- -ing thratron, together with its associated RLC circuit either adds or subtracts from(, the current in the basic thyratron and permits the shaping of the output pulse. Out- puts of alDbasic and correcting thyratrons are connected in parallel., Triggering of the basic, the extinguishing and the correcting thyratron controls the duration and amplitude of the output of each stage. In this manner each stagi and its triggering. control a time segment of the output pulse. The pulse generator is uged to generate Card 112 ADI _171.  Cond -' 2/2  ACC NR: AT7004005 SOURCE; CODE: UR/0000/66/000/000/OZ87/0290 AUTHOR; Grits, Yu. A.; Ostreyko,. G. N.,, Panasyuk, V. S.: Yudin, L. 1. k Institute of Nuclear Physics, SO AN SSSR (Institut yadcrnoy fiziki SO AN ORO. SSSR); PhIsico-Technical Institute, GKAE SSSR (Fiziko-tekhnicheskiy institut GKAE SSSR) TITLE: High-frequency pulse genIerator with 8-Mw'pulses intended for b6 high- power electron accelerator 0UR_CE1~Me--zh_vuzovs Maya ~ofer~entsiyapo elektronnym uskoritelyam. 5th, S Tornsk, 1964. Elektronnyye uskoriteli (Electron accelerators); trudy konferentaii. '-,'Moscow, Atomizdat, 1966, 287-290 TOPIC TAGS: pulse generator, electron accelerator ABSTRACT: A linear. accelerator with a 40-amp,, 1. 3-Mev, t 0. 514-spread, 7-nscc pulse was developed'and built-in the Physic o -~Te chni cal Inkitute, GKIAE SSSR. It was put into operation in. the Institute of Nuclear Physics, SO AN SSSR, and has been used there for a singlc-circle injection into an electron synchrotron. Card 1/2  ACC NR: AT7004005 rgy stored in a 6.4-Mc resonator' -Iff ene is 2 used for particle acceleration. Modulator 1 (see figure) supplies voltage pulses,to two-stage generator 2 anodes; feedback is effected via high-Q load 3; adjustable coaxial line 5 is employed for selecting the feedback phase. A low- power oscillator 4 is intended for overcoming the resonator multipactor. A power; -Irom-the-_ generator -0with 25-m v anodepulses. during tests. -of_8__Mw_was-obtaincd k ~However, in the above high-Q-4oad-excitation scheme, the generator develops 3. 6 M,,v at 16 kv. "The authors wish to-thank A. A. Naumov for organizing this proj6dt, and V. I. VishInevskiy N. P., Rubinshteyn, -and Ye. P. Mel'nikov for their participation inthe alignment of the. equipment. ". Orig. 'art. has: 2. figures. SUB CODF,: 09 uBm DATz-. 06Mar66 ORIG REF: 003 !card 212    Um TP SOV/1981 PLQITATIO~l Yudino Mikhail Dmitriyovich Tablitsy uglov.dlya delanlya okruzhnostey na ravnyye chasti (Tables of Angles vor Indexing Circles) Moscowq Mashgiz, 19580 175 p. 8tooo copies printed. Ed.:'B.M. Horozov, Engineer; Tech. Ed.,., B.I. Model'; Managing Ed. for Literature on Metal Working and Tool Making: R. D. Beyzel*man, Engineer.- PU!~OOSE: This bcok Is Intended to facilitate the measuring of angles involved in machining parts on jig boring machines requiring accurate circle Indexing. It is useful in measuring laboratories for work on ODtical-iridexing heads and universal microscopes equipped with universal indexing tables. It may -also be useful to engineers and technicians in machine-building and instrument-making establishments. Card 1/2  Tables-of Angles (Cont.) SOV/11i9al COVERAGE: The tables given in this book contain the information necessary for the accurate indexing of a circle into 1-200 parts. They are correct to half.a. second. The horizontal and universal indexing tables are described in separate sections of the introduction. As part of the standard equipment of a jig boring --machine these--two detachable-p.-ecisio-n--indexing tables permit Marking out and boring holes in a.polar coordinate system. No personalities are mentioned. There are no references. TABLE OF CONTENTS: None give. The book Is divided as follows: Introduction 3 1. Horizontal dividing table 4 2. Universal dividing table 6 Tablesr of Angles for Indexing Circles 7 AVAILABLE66 Library of Congress GO/dfh 7-27-59 'Card 2.12  HMOZOV 13,N., inzh,,,, red.; HOW, BI., to aTeas [Toles of angles uEed for cHviding ciremeerences Into equal SegmBitol Tablitav uglov dlia, deleniia oki-ahnostai na ravnya dhasti. HoskyasGoe. n=cbzo-te1dmv lzd-vo malainostroit, lit-ry 1958. 200 (UM 11:9~ (Angle) (circle)  34770 S)(14oj62/000/001/011/011 11/0444 C1 /1,6100 yudin, U. AUTHOR: m dependent random variables Of - - su f the Limit theore I _ matikav avedeniy. Mate 1, . TITLE hikh uchebnykh ODICALS -,zvestiYO- vYss 1727177 PERI 1962 1 no. It ,TEXT; Let ~ 7 (1) l1 n 12 be dependent on a all variables each of which c idom be a sequence Of re" C onesl preceding k n -4 oat for n Let -q D Y - k k-i nk- D 'k I I k T ) and - x, x 2".'.? Let P(X tation. athematical expe I F, being the m card 1/3  001/010)" 62/000/ S/14 1 ciii~C444 of em for the Bum Limit theor 11ty dennities Of 1~ ~2'-" t Proba'01 bo 130 v Yk -k+l' P01) ."*I I n/k.. I a c r P(-xko x k+1 t1le some variable s W1 7tk) and 0 (IZt 2' babilitY densities f ding results~ the prece 'Onaitional pro on be'the. -devendence of the considerati*n (2) Let, Yn) IP(Y Yn/k) P (yk+ I k+i ther be unded. Fur re A ~js b0 and k, who: n go all n 'it n-.'X xn) d"k+ I axn 0 (3) e P(7-k+ + X 9 n-k to + OD I and v?here V _k = :xk+ 1 + n n 20 integrates from OD where one In 0 all n. Let bounded f r n D b k fo all and k; k r n k=1 Card 2/3  S/1401621000100110111011 'Limit theorem for the sum of . . . C111/0444 Under these suppositions the following theorem is proved: Theorem: In order the distribution function of the random variables 77 + + - + for n oo converging to the Gaussian rule, it 52 n n is sufficient that lip Cn I j(4C)j = 0. n _~ 00 j=1 This condition is Batisfied especially for C-< 4 There are 4 Soviet-bloc references. ASSOCIATIONg Shuyskiy gosudaretvennyy pedagoeicheakiy iristitut (Shuysk Pedagogical State Institute) SUBMITTEDs April 16, 1959 Card 3/3  Ron TALMD., D. L.; YO obtained by :aolecular Layers !,&,anlcal. Propertie6 nsation" . IlThe rizatic., and conde of Two-Dimensiona-, ljo. 5-61 1940. FIZ, Khim-l Vol. Zhur  33.X.; GMATMICEs P.V, VOLKOV, IF-A,; MINg K.F., kDAd. tekhn. ma,uk, oty. red&; MMINA, A.As, takha. rar.--- [Absolute' M84=iMitipf electric cuiTents] AbaoliutzWe iomarenlia AIV tOka. I NDvkvao,Goo* energ. 12d-vo, 1953. 124 p. O*uing'rad. VaesoiuEnyl nauobn6-losledoratellakii Institut matroloqilv Trmly MIRA IT:5~ 1. Viraktor Ti8zo'yu'=b'ga nauchno-I seledovatel'skogo luatituta ustTologil in*' D, I*' Mandelaye Via (for Yudit). (Mectriv currenta-Massaremanta) ........ . MM A* ~,z 4  MAYS, A.V.; YUDIN. N&Y&; RMTSOVA, V.S.; VOLODIN, Ye.l.; MWOV, V.F. icle concerning the preparat ion of scooth Stan~ 1 -24-- - 11 -17-49 -N:- 153 -innfr,. -jib, 1. Byaro vanizomenMemostl noto-wkbanizirovannogo.voyedineniya (f or mrwW,o ).- 20 VassoyasW nauebno-inale0vatelleMy inatitut meteorologii Sm. Hendeleyeva (for Yuain). '~. Leninvacbkiy iontitut ekonomichookikh Iseledovanir in, Y.N.Molotova (for Rystsova). 4. KhGIMIL i KharNITOlMh (for Ka2akov). (Surfaces (Technology)) ME 1W.",13  --6iI TIKHODEM. P.M. rof.LYUDIff. MY. kand.tekhn,nauk, otv.red.; p : A_ _zz m-LIKOV, N.Y.. prof., reteement; IDJMROVSKIY, V.G., prof., retsenzent; FEWIN, F.S.,,.tei;bn.rad. Sseays on standard (metrological) measuremental Ocherki ob IBkhodny)eh ~fttrologicheskikh) 12marenliakb. 14oskva, Goes rjauchn.-tokhu.i2d-vo nashinoBtroito-i sudontroit.lit-ry 1954. 215 p. (Leningrad.Vseeo%zrqi naucbno-insledovatellskii Institut metrologil, no.21) (MM 13:3) 1. Direktor Vuesoyuznogo nauebno-Issledovatel'skogo instituta metrologil iment D I.Mendeleyeva (for Yudin). '6- 64nouration)  MIXOV,H.P.; YUDIN,H.P. E.G.Shramkor's 60th birthdaY. I=. tekh. no.1:59 Ja-F '55. (Shramkov,E.G.,1894--) (MLHA 8:9)  C GM21MHNV,Ys.T.,- TUDIN.K.F. B.H. lAmovskli a 60th birthday. Imm. tekh. no.1:59 Ja-F 155. (W2A 8:9) (lAnovskii, ]Boris Hikhailovich, 1894--) zt  YUDJV,M.F. New developments In the determination of X-ray, gamna r'-ay and radioactivity units. 12M. tekh. no.1:31-35 Ja-F 055. (Radiation) (Units) (KM 8:9)  You, H.P. More on the determination of the roentgen unit. lzm.tekh. no.l: A-19 ja-i? 156. (HUA 9:5) (X rays--Measurement) (Gamma rays--Measurement) (Radiography)  :;~ Translatios, from, R.Nrativoyr ithutnal. 230,1zGtak?-_,tks. 19S9. Nr 3. p 13S (USSR) j AUTHOR: Ailintsev. K. x., z,,:on, z. P.. Dzheopov. a. s.. x"Olvay,ro. r. u;. Karar",an. A. S.. Konotatlisov. A. A.. Ostromatuiva, G. P.. S. A.. 5~rnbayev. 0. I_ 10tat'nov&. Yo, A_ Ithesto"J"a. S, A.. Yudi,. u. r.. ard Yariteyia. 1. A. TITLE: Uirtralogy of V;ZM;7:;j7;TW 104, jMs1roIaSJy3 pronikayush.-UJA isluchel-lo PEX'OD1CA1_ V ob.: Atorrini. e.irriftya v mi7riykh itselyskh. O.s.r.r4olsdat. VP 30-181 ABSTRACT. Projects are deecribe4l of the Vasecyugairy institut austrolosit (All-untosa Sciertilic .3twatarch Metrology Institute) Imitul Uaftdalayov *A st"dariftsatten of mwasurve In the ivciting-radiation field. and an the constr~cti~_ of otardard ard reference outfits for reproducing the futdarrit".1al Its In M. ishcle range of 4-4 it2e.sitiss of radiatioris, n ~ afalltypes. Th v fol:*wing w4tfife are deverib,d! (1) astjkxdard reproducing CWLrd 113 the roarig.r. In the range ci 42-300 Ke,; Mi a reference w~tfll for TrigAturing in joOrtgera, of slectrom.tg- en!c -ridiall- doses having tt-A irizr-turn energy W - h t a ti l ~ e e ec rom c gne --na :1 rowniffens t 300-1.300 K"; (3) an 04tt.r 14r -v K*v with an smiror of 1%; (4) two quattum energy of 3 radiatio. doses -Ith OtArd,,rd outfits for m4s%,rj,,g raejum ga-equivataitts; (S) differential load-bat*. garristia-calzrimoterit fir masivrIng the activity 0 vArkOwR PrtP2P&- tio"s oft the basis a the!r gairnas rad:ati~,; (6) Art loothAra,al calorimeter operatitli cc 0A prirc1pl, of ltq,!d,%_'trogvo vvarzratton for iriessuring the activity of bat& prrparati-*~ (7) a itiff.rtriial alpha -catorimater (or M.AsuTirs the anathod by countrig "a a! partic)v, annitted by a preparation to Wag developed In two d!r.cVC7-: V4?t.,cl.o in a d.fi,,Iw solid "St. and the sarns, In the total so'ldd i-sts, by mra~v ct The b.ta-particit counter withanactivity fz' Card ZtJ Metrology f Pe~,trat!rg courlars" at. descr:bed On. of V%- P.,-1. bet. ,aitt. 4, ..twity .1 to - to Sit 20'9 cur!* -ti. an rrror of 2-4%. ar.4 the 4ocond. Sig 10'11 -5 x 10-7 -ris, -1k an ar-or -f 1- 3%. V~o -tf~ts tzve bt*n twilt for fr- 106 d-r. to . I- t-. a r"Ir-ii Par arc A g. - !' - z-Pr-,1t f~z-ing has be,, t,-11% for of a.-- .;,,its 0%. -.,S, -g. .1400- 1.000 K- To r-C, cl 1:D-1. )CO X- . Z-1., .Vg crystal. daf-t-, b,t'.t Al-~- --rIt-s hl- 4- bolt for 0,r range of .1".7C, ji:~ m- r,.-g t?~* ~,aff-ti!r from a saw hours to a law .... a 1. Mad. bi t-, -ttd. -th"'d f of ;r,, -.! d _.P..d Th. 1- . -b- U W-14t.d. G. Z. Card  BaproductionIof the roentgan In the soft X-ray, rogiono Trud mix noo3o...87-108, 157" (MIRA 12-7 Wimys-Squipment and supplies)  AGLDUSEV, K.K.; OSTROMMOVA G.P.; YUPIN. M.P. A Model unit for roentgen, zaasnremnt of j5v=a radiation with quanta energies up to 1.5 Hav. Trudy VNIIH no.30:109-116 (MIRk 12:1) (Gamma rays--Heasurement) (Ionization chambers) ~Wl  SOV11 15- 5 8-6-341A 3 on the New GOST "Units of X-Ray and Gamma-Fadiation and tivity" which one milligram-equivalent of radium is the unit. There are 12 references, 10 of which are Soviet, 1 English and 1 German. ASSOCIATIONS: Romitet standartov, mer i izmeriteltnykh priborov (Committee for Standards, Measures and Measuring Devices). Vsesoy- uznyy nauchno-issledovatellskiy institut metrologii im, D.I. 1.1endeleyeva (All-Union Scientific Research Institute of Metrology imeni D.I. Mendeleyev) Card 2/2  A UTqOR: TITLE: PERIODICAL: ABSTRACT: Card 112 Yudin, !:i.F. SOV/115-58-6-34/43 On the New GGST "Units of X-Ray and Gamma-Radiation and Radioactivity" (0 novom GOSTe "Yedinitsy rentgonovskogo i gamma-izlucheniy i radioaktivnostill) Izmeritel1.n&ya_tekhnika, 1958, Nr 6, pp 84-86 (USSR The Committee for Standards, Measures and MeaQuring Devices approvedthe new jOST 8848-58 "Units of X-Ray and Cammh-Radiation and Radioactivity" which is valid since I Jan 59. It replaces the General Standard OST VKS 7159 "Units of Radioactivity" and OST VKS 7623 "Units of X-Ra.;r RadiRtion". The 03T 5159 "Units of Radium" is chanped. '"he new GOST bp-s been developed by the All-Uni on Sol--- tific Research Institute of Mletrology imeni D.I. "Iendeleyov and has been reviewed by many institutes, organizations and scientists. Therecommendations of the International Com- mission on Radiological Units and Mleasurements Z-Ref 1,.7 have boon considered. The Standard differentiates betwoon the dose of radiation and the adsorption dose of radintion. The ufiit for the adsorbed dose is one rad equal to 100 orp, per 1 p of irradiated substance. The concept of a radium gamma- equ ivnlent of the propnration ~,as also b6en introduced, of  I 4/J7 7 pp. TOM 1Th* ~tlom tftwtattrats t-he w-ic whizh wtz cerr.el out up tO 1~,5u At the masurIng ths =.--t7 or ~A. dev-zes --n the r-." cc ta ChqoLna rysta= for the xx~-=-. of ~t,!v'tj vf prjVar&i.jo-t the mchod or &!=o.u%* cc=t:rg of Tj-.. o-t- of z~-&od r~rtj,' et arml vht-.3. *14%U4 L -W -y th. ;:r -Alrg a~!- w.1 U~~' ~Icn. the 1w . Z cal*rLawt~j. Method) " e~ fcr . M--- or prosentod. '.'he authom dv4crlbe tilt =.thodA Of At-luts or -ulr- fl-94 "t-ch CID be put Lt the heels or th cmllbrRt--~r The7 a.--erzt. D'yelop=t prc.p..t.~Of the m.tmlc&f of' e-s AIA the tr=4& or -uraer wark In Ubb fIelI OC ~trolciW of '=-'IAC rOUA-Im. lh- rsf.r~c... K.V.S. TrahelAtOr' 5 mt~j Th13 I- the MIA traMSI-tloh of the -WlAl ab.tmt. Card kJ  67819 '11/28 .AUTHOR-. lox TITLE: A'Unit for Measuring a Neutron Dose PERIODICAL: Izmeritellnaya tekhnikaj 1960t Nr 1, PP 51-53 (USSR) --ABSTRACT: The author discusses neutron dose measurement units .suggested.by different authors /Ref. 1-97 recommended by the International Commission7for Radlological Units and Measurements /Ref. 27. The author suggests a dose unit "ned" (NeutrBnnaya-yedinitsa dozy - neutron-unit of dose) analogous to the dose*of X-ray or gamma-ray could be used. When measuring the neutron dose in "neds" by means of ionization chambers made of ttssue- equivalent plastics.-and filled with a tissue-equiva- lent gas, the absorDtion dose may be easily calculated. These ionization chambers may be calibrated in the fields of gamma-rays with known dose powers. The author concludes that; 1) 1 ned equals 0.935 rad; Card~1/2 2) the measuring-method guarantees the measurement  67619 A Unit -for MeaIsuringIa Neutron Dose 8OV/115-60-1-21/28 of the neutron dose as well.as of the dose Powers. Its error is between 5 and 0%. There are 9 referen- ces, which 4 are Soviet Ahd 5 EAglish. Card 212 N MY  34286 S/589/61/000/055/006/006 The use of scintillationd6tebtor6 Lit D037/D113 spherical scintillation detector.permits tast"neutron fluxes a density of 10 n/0'm2/sco and-moret with an Oftbil of - (l0-r'15)/!0'6 The A_ vantage of,the nov; devices is their good faBt-neutron uens'itivity, tho disadvantage - the dopendency~of the readings on the direction. of lieut-roll propagation and the independence of-the readings on the neutron cnerCy only in rather narrow energy intervals. There are 11 figures and 21 refereiices: 4 Soviet-.bloc and.17 iion-Soviet-bioc The four English-languaqe references are,: ~ C. J. Wrightp Proo.; Phys. Soc.t v. B691 1956, P 358; A. 14. Hoofluboom, Nuol. Instr.', V. 3, 19589 P57; J. Skojoldebrands Nuclear'.Energ., v. J, 19559 pp,299-3Q5; J. Griffi0qta6o.# Can, Journ. Phys.p V. 37t 1959t 'j)il 850-885- ASSOCIATIONs NN11M SUBMITTED- Ila 26, 1*960 Card 3/9 IX  34286 S/589/61/000/055/006/006 The use of scintillation detectors D037/D113 with a semitransparent photocathode. The maximum sensitivity of the latter ranges between 3500 and 6000 R. In order to reduce the effectiveness of r-radiation recording, 7 mg/cm2 thick ZnS (Ag) layers were placed between the plates. The pl_exiglass serves as proton emitter and light piped An amplif ier with a "C*'4FEWb" (IfSiren 1 11) discriminator and a ~e -10, 000 (PS-10,000) scaling unit are used to count the neutron bursts. With kie aid of such a multilayer detector, the neutron fluxes from a (Po- 4-13o)- source were counted (Fig. 5). The detectorts efficiency is proportional to a neutron energy of 0.2 to 5 Mev with 1051 accuracy, beginning with a neutron dose rate of 0.1 /J-n/see and more. The experiments 98owed that this detector at a discrimination threshold of 6 V is not 00 x-radiation sensitive and not slow-neutron senzitive within the counting error limit (10%). (2) A spherical scintillation counter (Fig. 9) in which tissue- equivalent plastics are used as proton emitter.- The -internal surface is 2 coated1with 20 mg1cm ZnS (Ag) and the sphere fastened to the casing of the photomultiplier. The counter e1tains its maximum sensitivity when the axis of the neutron flux coincides with the axes of the light pipe and the .photocathode.,,At a discrimination threshold of 5 v9 this counter is neither Co6O -radlation sensitive aor slovi-neutron sensitive* The Car d 2/9  .34286 B/589/61/000/055/0061/006 J2 t. .9 .2 (1 k I/ 17/ij D037/D1l3 AUTHORS: Slepyshkov, S. I.; Yudinp M. F. TITLEs The use-of scintillation detectors in fast-neutron dosimetry SOURCE. USSR. Komitet standartovt mer i izmeriteltnykh Driborov. Trudy institutov Komiteta, no- 55(115), Moscow, i961. Isele.- dovaniya v oblasti izmereniya ion-4ziruyushchil-h i-.lur,,heniy, 74-80 TEXT: Scintillation methods of counting fast-neutron fluxes -are discussed and two now fast-neutron scintillation detectors are described, Pine- crystalline zinc sulfide activated by an optimum layer of 20 mg/CM 2 of ZnS (Ag) was used as scintillator. The maximum fluorescence intensity of thIs scin-billator.is within the 4500-5200 2 range* In initial experiments,the scintillator was fixed to a 4-5 mm polyethylene plate by transparent lac -which considerably affected the fast-neutron counting and therefore was -re-- :placed by a solution of plexiglass in--dichloro-etbane, The following t,,,,,o fast-neutron detectors were built: (1) A fast-neutron detector (Pia. 3) of 1.5 mm.Iplexiglass plates connected with an 9J-19 (FEU-19) photomultiplier Card  PVf - W ,-, - AUTHORSt Yudin, M. F. and Filippov, 0. A.. TITLB:~ Tissue-equivalent dosimeter for fast neutrons 'PERIODICAL: lzmeriteltnaya tekhnika, no. 4, 1961, 37-42 TEXT:. hie study deals with the d,evel -T opment of a dosimeter which would permit measuring the goses produced by fluxes of fast neutrons of the density-of.20-30 n1cm see and above. The dependence of the indications on the neutron energy is~also to be investigated. In this group of instruments, the tissue-equivalent ionization chambers by Failla and Rossi and the tissue-equivalent proportional counter by Hurst have the beBt.characterist icB. The difficulty of separating the gamma-ray dose from the neutron dose was a drawback of the first type of instruments; 4 0 A-0he instruments of the second type do not,iec rd the protons, the energy of which lies below the discrimination threshold. The average, soft, .biological tissue of the composition (C H 0 N) can be represented for 5 40 18 n the fast neutrons bv a material containingp for instance, 10~ by weight of hydrogen and 90% by weight of carbon. This material can be obtained by Card 1/5