SCIENTIFIC ABSTRACT ZOLOTARSKAYA, E.E. - ZOLOTAVIN, A.V.

DRffZIN, R.S.9 YAMVICH., O.D.9 ZOLOTARSWAO E.E. "Adanvirua infection.* Report submitted to the Intl. Congress for Microbiology Montreal j, Canada 19-25 Aug 1962  DREIZIN, R. KETIIADZE, 3, S, I ASMEVICH, G. B.; MAMA, L. D.; 7TLIM, N. L.; PAKTDRIS, E. A,; AIN211ELLOV, V. D" Adenovirusea and infactlone cauved by them in the U.M.R. -T. byg. epidem. 6 no.2:165-168 162. 1. Ivanovslq Institute of Virology, kcademy of Medical Sciences of U.S.S.R., Moscow. (ADENOVIRUS I M CTIONS)  DREYZIN, R.S.; ZOLOTARSKAYA, E.Ye.; DATBOIrA, A,A. I==Iogical structure of the polmlation of Mosccw in relation to ademoviruses, Vop,, virua 7 no,,1985 .. 91 tTa---F 162. (MIRA 150) 1, Institut virusologii imeni D.I. Ivanovskago A14M SSSR, Mosk7a. (MOSCOW--ADENOVIRIJS INFECTIONS)  DREYZIN, R.S.; ZOLOTARSKAYA, ~,Je.; YANKEVIGH, O.D.; I-ELLER, L.; !&VZOS, L.M. Various poasibilitieu of using the hemagglutination and hemagglu- tination inhibition reactions with adenoviruses. Val). virus. 10 no.1:111-117 Ja-F 165. (MIRA 18:5) 1. Institut virusologli imeni Ivancivokogo MAN SSSR. Hoolvia.  end WT - T " ,rtant q,je$tj0'1f3 vorirGs-r roslevoe, ilazvi-M i;1 194.5, n,). 7, P- ty. (zhel-dor. opPent of -a,,."- OC UOstvar (Icival tabies) R V brary of ooricreis of 2) C. . ~OVTZT TIA-1- F,eference DeT-;[,xtinent~ W&-  iiiiuano ta:# and the Yearly-_., L1..Repl=em=t of Rails "A~~ j_.,_t6jotars,k!y,-_ Ld~~ inn Technical Scien"Ces, 3 Pp Doroe No 4 mwar da7a tb 6 --,t!tp;zt, rai Iks rea~~h~ - The Five-Year Plan or 19~-__~- !95;,--=1U tMa-Int rail-- Up to the present Milo oh~ ~the natbtr to- be- ly hana not boen worked out uincer thct Tar 'O'Gy atic ecinaitions makes It impousible to eratablia- ogle =Othod of determining the U*ar and rePlacO~ 28T41 9~erii;j -(Ccmtd) *-Apr 1947. af rsilD. Presents some mathomtical formulan tialzat ir, catimating, the wear on ralls  -1 ~"., ~ -? I ,," . eT e.,_ , , ) ` I . I _ ,I ~ I I , ~ ". I I /I - ZOLOTARSKIY,A.P., kandidat tekhnicheakikh nauk Determining the periodic repair of railroads. Tekh.zhel.dor.7 no.10:5-8 0 148. (MLRA 8:11) (Railroads--Maintenance and repair)  ZOLMARSKIr, A. F. Zolotara!dZ, A, F. and Popov,, S.N. - "The imediate tasks of rapilar roadbed Intenance". Teklmika shel. dorog, 19118, No. 12, V. 1-3. Sos U-3042,, 11 March 53, (letopis 12:hurnal lriykh Statey, No- 7,s 1949).  .ZUMARSKIT, A.F., kandidat tekhnichookikh mauk. Proopective method afetrangthening the ballsst tection vith Its rails and ties. Zhel,dor*trans 37 no.lisO-67 y 155. (Railroads--Maintenance and. rapairT, Oan 9 . 2)  ZOIOTARSKIY* A.Y. kandidat takhnicheekM tmk. 1_#V1_0"6,;z;;I:Q Selecting types of railroad tims. Puts I put. khos. ao,,30-15-16 Mr '57. (Railroads-If ion) (XLRA 100)  ZOLOTAMKIY, A.F., 1-,.-,nd.tekhn.aa-ak. 4- -,~. '~ 1 '1~ lat a . -01road tra,~k development cu-f-li)4 Oje, 40 jefirs of Sov pow r Vout.T51111 MPS 16 no.6:15-20 S 157. (MIRA 10:10) (Rai lrondn-.-Track)  Z f.) L'I I P, ~~- "I , 'ti" - %--, ZOLOTARSKIT, A.F., iand.tekhn.nauk. Urgent problems in reinforcing track superetrueture. Zhel.dor. transp. 40 no.'A:39-45 Ja 158. (MIRA na) (Railroads-Track)  VKHRUY, S.G., prof .; ZOUR A.F., k%nd.tekhafinauk Basic methods for the control nf metal corroolca In iiailroad equipment. Vest. TOU HPS 17 t a. 193-io.7:3-7 160. (MIRA 13:11) (Railroads--Equipmeat and supplies) (Corrosion and anticorrosives) Vll 01 ", ~-F  ZOLOTARSKIY, A.F.; VLAsoV, V.I. Nonferrous metals and alloys for railroad equipmdnt, Trudy TSNII MIS no.277t3-4 164. (MIRL 17t6) 1. Zamestitbl' direktora Vaesoyuznogo nauchno-lasladovatel'skogo instituta zholemodorozhnogo tramporta. (for Zolotarmkiy). 2. Rukovoditell otdaleniya ispy-taniya materialov i komstruktaii Vaesoyuznogo nauchno-isoledovatellskogo institmta zb~1emodorozhnogo transporta. (for Vlasov).  a ; lye-tiA; VERSHINSK17, S rgy V s*l YMSHKOV, Oleg Petrovich; IVASHCHUM, Georgly lvanovl2h; SHESTYAKOV, Vladimir Nikolayevich; GIERNFIC-EV, ViklytE. Andreyevich, prof.; PERSHIN, S.P., red. [Railroad tracks and rolling stock for Ugh sptmd trsff,-;, conditions] Z-heleznodorozhnyi lyut' i podvizhnoi soatlav dlia N,ysokikh skorostei dvizheniia. 'Mo-skva, Trans-crt, 1904. .V 271 p. (MIRA 18:10)  ACC- RN, AP6 30076 rip(c) jD/Dj SOuRcE CODE: AUTHOR: Zolotarskiy, A. F. (Doctor of technical sciences) none. TITLE: Increasing rail service life '2 SOURCE: Zheleznodorozhnyy transport, no. 8, 1966j 55-59 TOPIC TAGS: railway transportation, railway engineering, railway, rail structure, rail service fife 14 ABSTRACT: Rail traffic in the Soviet Union is reportedly several times heavier than that in Western Europe or the United States. Further incre"es expected in the next five years have presented a serious problem to rail making plants, since it WW ;re- quire an increase in rail service life to I billion tons on straight track and - 4 500-600 nillion tons on curves. Increasing the veight and improving the quality of ,rails increased fatigue and wear resistance but did not eliminate contact fatigue which was found to be the iwjor cause of rail failure, accounting for 50-60% of all failures in 1964. Extensive research conducted with the participation of scientific research institutes of the railroad transportation and metallurgical industries has. not yet solved the problem. It was found, however, that heat treatment (oil quenchinE immediately after rolling) produces rails with a sorbitic structure with ; hardness of Card  ACC N9, AP 030076 about 390 11B. These rails were found to have a higher contact-fatigue and wear resistance kand better impact strength than the standard rails. ___TWW) SUB CODE: IWV. 13/ SUBM DATE.- none/ ATD PRESS: 5077  SHCHAPOV, Mop d6ktor takhn.nnuk, prof.; k4?YJ.tnkhh.rukj TSUKANOV, P.P., knmi.tekhri.nnuk Serviceability of the rail steel and ways to improve it. Vest. TSNII MPS 22 no.60-7 163. (MIRA 16:10)  ZOloOTARSKIr, A.F., k&nd.tekbn.nauk; CHOWSBY, X.A,,, kand.tekhn.nauk ---------- Improving the interaction Of track and rolling utocks ghel.dor.transp. 42 no.7:49-54 J3, 160. (HIRA 13:7) (Railroads-Itollin& stock) (Philroads-Track)  'ARSKIT, A.?,, kand.tokhn.nauk; PLATOT, V,,I.. inzh. . Yroopects for ovor-alf sechwAsation of major track r"Irs. Zhol.dor.tmnap. 41 n0-3139-0 Mr '59- (MIRA 1296) (Rai Iroads-Track)  ZOW%MKIT, A.F., Imnd.tekhn.n&ukeIWIKIFOROvSKIT, ToDop Anche Lengthening the life of wooden ties. Zhel.dar.tramsp. 42 no.i:46-51 j& 6o. MU 130) (Railroads--Ties)  -221QLAN.KY A.Y. kemd, takhn. nauk =IZ&Z - "" Prospects for the development of railroad tritok Militenance,, Vest. TSNII M 11? no.8:8-12 D 158. (MIRA ~12 C 1) (Railroads--TrabW  44591Z Cox= ftro Igh kand.tekhn.nauk; SEMRMIKOV, Vladimir reOcTOO %M*; BERG, Oleg Tanovich, knnd.tekhm. nauk; SHESTOPMV. Sergey Tladimirovich, prof., dok"'or tekhn.nauk; V3MGO. Mikhail Felikoovich, prof., doktor telchn,niiijk; SORUIN, Y.N., red.; TMNA, G.P., takhn.red. (Reinforced concrete ties) Zholazobstonnys sh1xily. Pod red. N.F.Verigo. Moskva, Goo.transp.thel-dor.izd-va, 19P. 327 P. (Railroads--Ties, Concrete) (MM 12'3)  OXI-7 PHASE, I BOOK EXPLOITATION rOV/5075 International Inntitute of Welding X11 kongress McAidimirodnofro Inatituta synrld, 29 lyimya 5 1~ I yulya 1IMP v g. OpntH (Twelfth Annual Awwmbly of the 1utcvnrkLioji;Q Inatitute or Welding. Opatija, June 29 - July 5, 1959) Moscow, Manligiz, 1961, 359 p. 3000 copies printed, Sponsoring Agency! Natslonallnyy koinitet SSSFt po wrarke. Ed. (Title page): 0. A. Maslov, Docent; TranuInted fvom En~liah, French,: and Serbo-Croatian by N. S. Aborenl-ova, K. N. 130.yayev, E. P. Bogachma, L. A. Borisova, K. V. ZvegintBava, V. S. MInaviclifiv, 'Irv] M. M. Shelovilflik; Managing Ed. Car Literature on the ffot-Wovking o[ tdctalu: 8, Ya. Golovin, Engineer. PURPOSE- This collertion of articles in intended for %volding opeciftlifits and the technical personnel of warinus production ond rqair simpa. Card 1/$  Twelfth Annual Aritiembly (Cont, "0V/5975 COVLIL,kGE- The collection contains abridired reports presented and discussed at the Twelfth Annual Assembly of the Internotional of Welding. Reports deal with problems of welding and reInted processes used in repair in conn",'Cflon with the work, repair techniques, and the problems arlsing nature of the base and filler materials. Exam,)Ies of repairing various parts are given, and the organization of repa[v operations in workshops (And under field conditions Is diacusmed. Economic napoets of milding an(] related processes as used In repair work are analyzed. No personalities are mend tioned. Thare are no reforences. TABLE OF CONTENTS: [Onl.y 6oviet and Soviet-bloc reports are kivoll here Foreword 5 PART I. THE STIJDY OF REPAIR -%VORK'.1'ECHNIQUES (PROCESSES, METHODS. PREPARATION, JIF-ATING,. AND OTHER TYPES OF PROCESSING OONTROI,) Myuntsner, L. (Czechoslovakia). Welding of Br6ken Crankshalts 36' Card 2/9 ........ ..  Twelfth Annual Assembly (Cont.) SOV/5975 Genkin, 1. Z. , and A.. F, Zolotarskly (USSR). Increasiag the Strength and Extending the Service Life of Welded Hails and Frogs 172 Vegrzhin, Zh. (Poland). Alloying Fluxes for Restoring Parts by Submerged Arc Weldhig 182 Chikara, M. (Yugoaltxvin), Thermito Welding in Restoring Rails; Certain Characteristics Obtained in Testing Welded Joints 224 PART III, TYPICAL EXAMPLES OF PARTS R11"CLAMATION (ROLLING STOCK, SHIP STRUCTURES, MINING AND METALLURGICAL EQUjPMENT, AVkC1HNES,.AND'.TO0I..5) Vrana, B. (Czechoslovalda). Practices in the Repair of Cutting Tools With the Use of Welding Processes 291 Card 5/9  -huLOTA-RSKIY A.F. kand.tekhn,nauk Reoearch in the field of railroad tracks. Pat' i put-khaz. 5 no.9-.24-27 S $61s WIRA UtIO) (Railroadi3-Traok) (Railroad rosearch)  TSUKANOVO P.P., kand. tekhn.nauk; kajW.tekbn.nauk Norms of repair periodicity are a moot Importmt fealwe track management. Zhel.dor.tranap. 43 no.6:27-33 Jo t61. (HIM in V~t7) (Railroada-Maintenance and repa3x)  SHAKMNYANTS, Georgiy Mikhaylovich, doktor teklm. nauk; AIMMIN, S.V,~ prof,, retsenzent; XONSTANTINOVy V.N.~ dots., retsenzent; almOVjIk4pffk retsenzent; YAKOVLE7, V.F., mtsenzent; BOCHEITKOV, kandtekhn. nauk 3 IZO p ., retaen6nt; HBERG, Ye.M., re-teenzent, YFRSIIB.GV, O.P.., re- tsenzent; ZVFIRET., retsenzent; retsenzent; IVASHCHENKO, G.I., retsenzent,; LDIEV, S.A., ratsenzont; MARKARIYAN,M.A., retsenzent; POPOV,V,V.,ret_z~er,~,ent; POPOV,SX.,retsenzent; "EY'MIMMIKOVIM. retsenzent; F OVITSKIT, G. I ~ , inzh, , ret Den- zent; VIKTOROV, 1.1,,, kand.tekfm,nauk, rotsenvint; V~SOTSKIY, A.F.0 kand.tekbn.nauk., retsenzent; SAATCHMI, G.G.:, lauid.telthn.nauk.. re- tsenzent; YAKOVIZVA, Ye.A.,, Jcand.tekhn.nauk, rptsen2ent; TITOV,, V.P., kand.tekhn.nauk, retsenzent, GRUSEEVOY, N.G., inzh,,. red.; BMWERGO Te.M.p kand.tekhn.nauk,, red.; KHITROV, P.A.p tokbn. red. [Railroad tracks] ZIv~leznodorozhvyi put'. Moslcva, Vzwn.izdatelIq%0_ poligr.oblledinenie Y-va putei ooobshcheniia, 1961. 615 p. (MVLA 14:12.) 1. Kafedra. "Zhelezno,.JIorozbrqy put' " Loningra&tkogo inatitUta inzhene~- rov zhelomodorozhnogo tran3por-La (for Ameliny Kvnstuntinov, Smirnav, Yakovlev). 2. Vse;5opiznyy nauelmo-issledovatelInkiy imititut zbeleznb- dorozhnogo transporta (for Bochenkov,, Bromberg, Yers)-ZEov, Z ore-? Z 41V . 0- lotarskiy, lvashcherd:o, Linev, Mnxicarlyan, Popovt Y.Y., Fopo7, S.N.p Serebrennikov, Shafrmovskiy, IIovItskiy).3.Vsesoyum-4ry nauahno-isslado- vatellskiy institut transportnogo stroitellstva(for Viktorov,, Vysotrfldy., Saatchyan, Yakovleva, Titov) (Railroads-Track) (Railroad exigineering)  vIVOSYANTS, A.I.; ZOLOTARSKlY, A.Z. Case of Takayasu'S syndrome. Sbor. trud. Kursic. goa. med. inst. no.16:36P,-370 -62. (141RA 17:9) 1. 1z gospitallnoy torapevticheakoy kliniki (zav. - prof. A.I. I vlatasyants) Kurskogo meditsinskogo instituta.  ;'ACC NR$-' AP403571l___________ I.NVFI.TOR: Zolotarqvskiy, Shiartaor, A. Ya. 'ORG. non'a TITLE: Interlayer for joining low-carbon steel to high-manganese steel. Class 21, 90. 186584 SOURCE: 1z'o'breteniya,'promyshlennyye obraztsy, tovarnyye znaL-i, no. 19, 1966, 58 TOPIC TAGS: metal joining, metal welding, high-manganese steql welding, d4smwUzWm=r steel welding, M44-9- 9111~11 ABSTRACT: This Author Certificate introduces an interlayerp containing carbon, manganese, silicon and.phosphorus, for.facilitating the joining of low-carbon steel.to' high-manganese steel. To increase the joint strength of the bond and to prevent a cleavage in deposited metal, the composition of the interlayer is set as follows: 0.75--0.85% molybdenum, 0.45--0.6%tungsten 1 0,5% mlix mangan"e, 0,08; max carbon, 0.1% max silicon and 0.032 max phosphorus, SUB CODE:. 13/1/SUBM DATE: 09Jul65/ Icard 1/1 UDC: 621.791.042  ZOLOTAREVSKIY. 1. Loases on containers can be decreaoed, Sov,torg. 35 no.?.-ID-13 JI 162. (MIRA 15:11) (Paoking for ehipment)  ZOLOTAREVW~1-1.,Xa,; SAPRYKDT, A.V.; CRJBA.IIIOV, V.s.; GAIMETSKOV, V.Z.; ILYUSIEIII, A.F., red.; ELIKINA, E,M.,, re(j. [The container) Tara. 1963. 229 P. Izd.2., perer. moskva~ G:)storgizdat, (RIII'~A 17: 1) (ContainGrs)  S/113/60/000/002/005/009 D207/ r1306 AUTHORS: Zolotarevskiy, V. S., Candidate of Technical Sciences Chernyak, B. Ya., Sharapov, K. A., 5,:olotarevs',dy, L. and Dmitriyev, A. A. TITLE: A new piezoelectric crystal pickup PERIODICAL: Avtomobillnaya promyshlennost', no. 2, 1960, 32-33 TMCT: The Laboratoriya dvigateley AN SSSR (Engines Laboratory, AS USSR) has developed the Ar~~K -03 (LDK-03) piezoelectric crystal pickup for use with a cathode-ray oscillograph in studying the working process of piston engines.(illustrated below). The case I contains.a thin-walled brass. socket 2, inside which are contained the crystal plates 3,.the lcwer spherical support 4, the upper sup- port 5 and the charge tapping.system 6. The crystal plates are centered by rings 7. At the bottom of the pickup is fixed a corru- gated steel membrane 8 fastened to the socket 2 by a screw 9. The membrane is-packed, down by an intermediate pressure bush 10 and a femal-e-screw 11. The latter also serves as a tapping contact and Card l/ 4  S11131601000100210051009 A new piezoelectric.crystal pickup D207/D306 secures the piclmp parts in the case. The nut 12 fixes the upper support 5 in the socket 2 and transmits the pressure of the screw 11 via the thick part.of the socket to the pressure bush 10. The electric charge developed by the crystals is led off.via the tapping system 6, the spring 13 and the contact rod 14. Insula- tion is.effected by three amber collars 15, 16 and 17. The pickup is cooled by running water which enters by the inlet tube 18 and proceeds via channels in the case and pressure bush directly to the membrane and hence to the out- let tube 19. A rubber ring 20 prevents the water from penetrating to the electrical tap- ping system. The pickup is not affected by cyclic temperature changes in the engine cylin- der since the corrugated form of the steel mem- brane canpensates linear changes due to temper- Card 2/4  S/113/60/000/002/005/009 A new piezoelectric crystal pickup D207/D306 ature. The pickup can.pass oscillations up to a limit of 8,000 - 10,000 cycles. No characteristic distortion of. the indicator dia-, gram due to the pickur's ralatively high frequeucy of natural oscil'. lationa-in.a.transverse direction (25,000 - 30,000 cycles) could be observed even at engine revolutions.of 4,500 rpm. To ensure linear indicating-characteristics the-.crystal-eleatents.are-compressed be- forehand. with the help of the brass-'socket. The pickup's high de- gree-..of-sensitivity depends on: I)-the,high coefficient of the mevibrane- which reaches 0.7; 2) the low degree of membrane rigidity due-to its.thinness (0.15-0.20 mm) and corrugation; 3) the low re- lation-between the.longituolinal.rigidity of the.,socket walls and that- of the. central. power line (supports and crystal, elements) due to the thinness.. of the socket walls - (0. 1 m). The pickup I s dimen- sians,. are.: length 70.mm..maximum, _diameter. of the threaded insert end L4 mm, case dianeter 18 ma. The pickup has proved highly relia- ble, stable and accurate. Used in conjunction with the Engines Lab--t__ oratory's indicator calibration method it ensures accurate indica- tion with an error of no more than 2-376. The pickup is presently used in all engine indication work at the Laboratory and can be Card 3/4  S/113/4-)0/000/002/005/009 A new piezoelectric crystal pickup D207/D,306 recomme-nded-for-comercial series production. There. is 1 figure and--I-Somiet-bl-oc reference. ASSOCIATION: Laboratoriya dvigateley, AN SSSR (Engims Laboratory, --- AS USSR) Card 4/4  YEVGRAFOVt K.G.;-ZOLOTAREVSKIYo-L.S. I Uoing Puloating combustion in gas-turblne upits. Trii~r lab.dvi * no.5:13-22 160# (HIRA 14:31 (G&9 turbinee)  KIRPATOVSKTYj I.D.; VAhVVATI, Ye.N.3 ZOLOTAREVSKlyp'jt~. Alloplasty 6f the muscular coat of tho esopbaps with a P917vin I- aloohol sponge. Xhirurgiia 35 no.811,8-54 Ag 059. (MIRA 13:7 (ESOPIIAGUS--SURGERY)  ZOLOTAREVSKIY,, V.B.; LEVENSONO V.I. Histochemical study of the protein metabolism of in various functiobal stat,39, Probl, endkok. i 60 Ja-F 160. (THYROID GLAND) (PROTEIN METABOLISM) thyroid tissue gorm. 6 no. 1:52- (MIRA 14il)  NOVIKOVf I.I.; LYUTTSAUP V-1a.; Inter6rystallite concentration of rderohetorogoneity in alumimub- copper alloys at various speeds of crystalliziu$lon. Fiz. met, .1 motalloved. 16 no.2:2414Z.O Ag 163. (MMA 16:8) 1. Moakovskiy inatitut atali i splavov, (Aluminum-copper aliqn-Metallography) (Crystallization)  ~Z? LOTARNSKIY9 V.S. .I I -"- --~, Accuracy of determining indicated characteristios of gasoline engines by meana of idling. I!rudy, Lab,dvig, rno.5-613.1-126 W, (Automobiles-Enginefi--Tentinr, -XYPA 14:3)  SHIKUNINA9 N.M.;,,ZOLOTARa7,VSKIYt V.S. Possible causeo for reduction of economic afficisfnoy of a throttled gasoline enr4nn. blidy lab.dvig. no,,~o.1'127-U4 160. (M,TRA 14:3) (Gas cnd oil engines)  w)/T/EWT(t0" _TIU_K---1 ~C_C N -R. AT6024926 SOURCE CODES UR/2961/66JOO0/004/01?0/017Wi AUTHOM Semenovs, A. Ye.; I~IS2y Zolotarevskjyj.j~.~.; Mamint A. S. ORO: none, TITLE1 Effect of manganese and drco)-dum on the hot crac)Lin alloys of the Al- Zn system SOURCEt Alyuminiyevyye splavy,, no* 4v 1966, Zharoproclmyye i vysokoprochnyye splAvy (Heat resistant and high-strength alloys), 170.-174 TOPIC TAGS3 manganese containing alLoy, zirconixua contaiiiing &1loyp aluminum zinc alloy$ magnesium containing a-Uoyp brittleness ABSTRACTI The object of the work was to detormine the erfoct of Mn and Zr on the hot cracking of alloys of the Al-l-;g-Zn system containing various Mg/Zn ratios. The intro- duction of Ym into the alloys was found to cause a substaDtial increase In their hot cracking because of an expansion of t~o temperature range or brIttleneseq a deoroase of the elongation per unit length, and an increase inAinour shrinkage. Addition of 0.12-0.25% Zr to alloys of aluminum v.Lth magnesium, , inc, and manganose increases their resistance to the formation of crystallization(~" bracl(s because of a narrowing of the brittleness range and an increasj-Tn--eYo_ng&E_1on "por unit length in this range. It is recomended that a high Zr content be used in tho filler vire in welding Al-Vg- Zn-type alloysp and that the Mn zontont of these alloys be maintained close to -the 2  ACC NR: lower limit given by the technical aq)ocifications# promrLding that. the corrosion re- sistance of the welded sDocimens is checked. Howoverv the introduction of Zr in amounts of no more than b0l;-0.17% is associated with the separation of intermotal3ic phases durIng the crystallization, and these phases not only decrease the Plasticit '0 of the cast ai4 deformed material, but also raise the thermal stresses of a welded structure. art. hass 2 figures and I table. i SUB CODEi It/ SUBM DATRI none/ ORIG REFI 003/ OM We 001 t2 vmb  V.Ya.,- KUZNETSOVA, A.N. Withod for catheterization of the urinary bladder in ralubito. Lab. delo, [71 no.4s56 Ap 161. (MIPA 1493) 1. 0zhogovyy otdol (zav. M.Shmber) i laboratori7a normalfwy i patologicheakoy fisiologil (z4v. - prof. L.L.Shl1c) Instituta khirurgii imeni A.V.Vishnevakogo XIM SSSR, MosWa. (CATHWER) (MUNE) ~  9 UsSR/Goaoral Iroblas:ia of ratholoMr - Tuvx)rs. Comparative U Oncology. Tumors of Man Abs Jour : Ref Zhur Biol., No 6, 1959, 27502 Author z Zolotarovskiy, V.Ya. Inst : Title On Impnirnent -of Motor Ftniction or the Ototn~h i1i Orig Pub Sov. maditsina, 1958, No 7, 49-54 Abstract 34 patients with carcinoma of the storzqh,ver4-1 =Acr ob-' servatioa; in 6 of then there was carcOona .0f antral region, in 9 -carctaomtous 9tenosis ok Uia pApric part of the st=ich, in ll-car61aoma of the small ~uxT',ature and in 8-carcinoma of the stonAch body. The r~lbtbr fuac- tion of the stoLkich was studied by the rxr~iod Of Bykov- Kurtain (the method of balloon tonometry), 111 3.1 Pa- tients the tonus of the stomach was lowered; in 25 ato- nia of the stomch was observed and in 6 -Uypotonia. Card 1/2 - 30  ------------ V11C.-MIFTA 17DIM S=.9 VVLA2P,, X-~il lro%-o 2230. MOTOR-SECRETORY FUNCTION OF THE STUNNIP OV, TI1Z ST01MACH AFTER RESEC I 1~ ,TION OF ITS PROXIMAL PORTIONS (RuAwian t,!xt) Zolotarevsk'y V. Ya. and Pechatnikova B.A. - KHII',TJRGUA Fifteen patients were examined by Bikov Kuritsin's method at dUrcrent moments after resection of the proximal portion of the stomach. The indication for these operations was cancer or ulcer of the cardia. It was established, that after such operation there is a great deal of mucus present In the gastric Woe. and an al- most complete absence of hydrochloric acid. In time, the (113ttil M011111ch Istump acquires the ability to retain its contents for 45 min. and to contract r1wthmically, which leads to mechanical and thermal treatment of food and promotes its evacua- tion. These factors aid intestinal digestion. It has been proved, that the passaga  22 -~O of food through the duodenum after resection of the proximal portion of the Stom- ach has a physiological advantage. Taking this into consideration, it is suggested that in suitable oncological indications, resection of the proxhTal part of the stom- ach is more rational than total gastrectomy.  ZOLOTAREVSKIY. V.Ya.; PECHATHIKOVA, Ye.A. Motor and secretory function of the gnetric abump Aiftor ranq-adon of proximal portion of tho etomach [with sumbary in 14iglish]. Xhirurgiis 33 no.6:24-28 A 157. (MIRA 10:12) 1. 1z Instituta khirurgii AMN SSSR iment A.Y.TLohnevs1cogo (dir. - days tvitell nyy chlen ANN S Sa prof. A -A.Tishnevskiy) (GASTRECTOMY motor & secretory funct. of stump after resectlon of prorimal portion)  Z01WAJ T.Ts. (Moskva) r V WE& z I- Dracuatory function of the stomach after resection ct its distal egment, Klin,med, 36 no.2:52-56 V 158, (MIRA 1114) : . Is Institute khtrurgit imeni A.V.Viebnevakogo AIIN BUR (dtr. - deyjtvitellnyy chlen A191 SSSR easluzhannyy d6yatell nauki prof, A..Ii.Vishnevskiy) (GASTRECTORY, In various cancor & peptic ulcer, on evacuation functo) (STOMACH NEOPLASMS, isurg, gaBtrectorq of distal (Rua)) die. off. of distal segment gaptrectomy sagmentl effo on evacuation fundt.  t A. V. USSR/Physics Spectrum Analysis Gold Feb 49 IIB -Spectrum of Au'98, 11 B. S. DzheleT)ov, A. A. Bashilov, i. V. Zolotavin, N. M. Antonlyeva, Sci Rea Phys Inst, Lezdngrad Stlate U, 3 Pp "Dok Ak Nauk SSSRII Vol LXIV, No 6 198 Studied the B-spectrum of An , using a new magnetic apectromitter with ismroved focus (0 = 300, P = 8 cm4p/p = 1 %). Results correlated woll With those o~ dix Nond and Watson. Submitted by Acad P. 1. Luktrskiy, 10 Oct 48, PA 29/49T99  ZotOTAInlip. A. V. UM/Ruclear Itysics - aeta-Spsctv~m Jan 50 isotope "Dota-spactrum of HaP6~0 ff. ?6 Antonlyeva. A. it. Owhilov. D. M., DobOUPOVS. A. T. Zolotavinp RW* Inst# Leningrad SWe U imnl Ae A* Mdavows 4 Ipp *Dok Ak Nsuk SSSFLR Vol Ma No 3 Used magmatic spectrowter with inprove.,l focusing to study b-9taospectirum of4 Thin layer of Ho203,p Irradiated L7 neutruns IT-169 3positod oo stA-P of olparatte~;MV1 wa,j electron source. Mactron radiation of Ila consists of rxiv%tintwus Lusta-speetw4Ax with limit of al5out ls,640 kev and intinee 1:,Ir(---up or slow aleetromm leso Uian 101~) kimv* SubMittad 21 Sep 1t9 by Acad P. 1. Luk-iMkiT. 158T80 ,  ZOLOTAVINj A. V. uz,---sjIAuc1e&r Pijysico - Radium 11 11,41b 50 Ja=44 Ray a "Structure of the Gania-Unev of "t" As A. DamhAtovp N. Mq Antohoyvyap A. IV., Zolotevial Pnys Luts Lenj ad State U Lawmi A. A. Zhdawv "Dok Ak Vauk SMRO, Vol LIX, M 5v pp 793-796 Latyahev and, co-wofteralL pi-evious studies of beLarmpootr= *jIF 94 1:144 eatabUohed that gamwa-ray lines ofconv",411on elactrans were considarably mliflar tbum had beea expIcted fro Instrumatal data and that thera ware a nuniber of very ani,row peakv4; im saw Cassal 6 kov apart azA in otbers 2,5 kew apart# on base line, Tkiis was Mri4arpreted as albo structure of Sawmak-lives by Latyabov and his co-w*zkon. Im vlew!or fundumMal import- ame, of this bypothesis,, authors herWa etiAisd structure of 1 hhaim J.1two urdat,Opoditiam which 911*n-ted distortion of limes by wells of gUss aajjou:~d- and with a beWispeatrometer having improved focusing, Yine structure in fam obwwad b1l, JAtyWbov sAd *D-v*fters was not disdovered. Submitted 13 Doe 10 bi Acad S. I. Wavilov. PA 165T47  ZC-TOTIVTI.!. A. V. 1 -:1 T V. DA" ~;S2,R, Vol n -To 5, 7 21- ti ri y:,, t n T~ I ~i t I 110~ At Rcconl I:, vi I f,hr: rern c 1, 2 c~ n f;-At,i~ r,!' i; i If :t n t  US-'R/Nuclear Phy~,,i,,,z Card ~ i i;, -- . - --, - Authoru t Ti. t I e Feriodica.1 t :1 (iciris zLb --trnc~, t IW graphs; ctravingsl iUustrations. Institution : The A. A. Zhdanov Stste Uniwlrsity, F h. r.9 i cs 1histitut:41, tiic! ulectran A, zu., fiffililagreud Submitted : No-,ember 110, 1953  LA F, F193 E MSER/Nuf'tear FIh,,rFj.,rfi B e m-3 1:w c tr f-, 1!, pt,p 1 11 7, Authors I V Title t Calculation of electron-optical paxamieterm A a bieta-clpfictrornefter 'PILth double- foc-,is,r-,g of th,! el.ectrcm pencil. Periodical i I zv. ANN SSSi~.. !3.- r -i. z 11;1 ',?,, ~ F.; .-22.6, Mia r. t Data itrf, !-,:-,;.reHnq f~ie- jino,dori of eledronsi, source imap, I I , e fo r ra, P t t- 'r- tm.filrf- It."d tlhl~ rol-TI) of ii ft v n i n Submitted Ma r C 11 11 , 1 ~4  V / /Y, 120-6-5/36--- AUTHORS: Zolotavin, A.V., Petrun'kin, A.M., and Khalkopova, N.N. Sources in Beta-spectrometers with Double TITLE: On the Use of U Focussing (0b ispol'zovanii vysokikh istodhaikov v 0-spektrometrakh s dvoynoy fokusirovkoy) PERIODICAL: Pribory i Telchnika Eksperimenta 1957, No.6, pp. 27 - 30 ~tJSSR) .!3STRACT: An increase in the size of the source in magnetic beta- spectrometers with double focussing leads to an increase in the "i34j;mination" L, defined as the product of the mean solid angle J L used in the spectrometer and the area of the source S. The above result was studied by the authors in Ref-3 in the case of a field giving accurate focussing of a "flat" beam. In the case of line source such a field gives first order focussing in the following directions: in the plane of sygimetry and in the direction of the axis of sy=etry of the beam. In order to find the upper limit to the size of the source, the shape of defining slits, and the shape of the receiving slit, it is necessary to find the image of the linear source. Such cal- culations were carried out in Ref-1, using a maximum source half-height of z. P 0.15 po where p 0 is the radius of the Cardl/3 equilibrium orbit. Further calculations are reported in the  120-6-5/36 On the Use of High Sources in Beta-spectrometers with Double Focussing. present paper. The field in the plane of syminetry z = 0 is taken to be of the form: 3 2 H(e) + 2 (P 8 4 + 3 15 + - 1)3 - - 1)4 16 256 3 - 1)5 + 512 where cylindrical polar cc-ordinates are used and p0 is the unit of length. The components of the magnetic vector in space were found by the method described in Ref.4, using divH = curlH = 0. As before, the radius of the equilibrium orbn1t was t-aken to be 10 000. 25 orbits were calculated for different initial conditions. The images of the upper half of a linear source produced under different conditions are Card2/3 shown in Fig.l. It is shown that in beta-spectrometers with  120-6-5/36 On the Use of High Sources in Beta-spectrometers with Double Focussing. magnetic fields giving accurate focussing of a wide beaz lying in the plane of symmetry, it Is possible to use sources 0.3 Q0 high and thus increase the "illumination" considerably. B.8. Dzhelepev collaborated. There are 1 diagram, 2 tables and 13 references, 5 of wb-ich are Slavic. ASSOCIATION: Leningrad State University imeni A,A. Zhdanov. (Leningradskiy Gosudarstvennyy im. A.A. Zhdanova) SUBMITTED: MaY i31 1957- AVA.ILABLE: Library of Congress Card 3/3  7- 0 USSR/FAPiCal Q-WdStry-~BOMM (,"A*St*iOMI COP.M.M1114 8Ub&tCMd.C StzuCture B-2 Of Matter. Aba Jour: Referat. Zhu=al Pladya, Ito 2, 1958, 347T. Author : Ye. P. Grigorlyeev, L.V. Gustova, A-V. Zolotavin, D. KTataik, T.V. Poleshcbikj, O.V. 12'at :Leningrad University. Title :on pp7b Emission. Orig Pub: Vest-11. Leningr. un-ta, 1957) No 10, 37-30, k1betraot: t3 and K --missions of As76 vith Tj a 26 -75 kmvw ara'stu&ed. ne t3-spaeatrm -.ma studiea vith a 13 -spearkroatior wit"a double fc-mizaing. Me d-emdasion of AST6 VUS measured, with a Imp tic spen.trometer for measuring the hazA cession by rocoil clec- 5 (1 -lines and 6 -lines ware revatLUd, their R is L-3 foll-Ows: 350 t 30, WO +1M, 1760 + 4o, 2410 + 30, 296o 1~ kev and 1.21 + 0.09, IS3 + 0-03., 17-77 + 0-04,' 2-10 + 0-03, 0.01, )4ev correspaftdingly. I I HAI * 11M W1111111, -11111,11111! 1111111 111"111 IT IT 1-111, 1~ W~ 411  .'~? ' A), Grigorlyev, Ye.P., Dzhelepov,B. S., Gu ponding ,AUTHORS: *ember of the All SSSR, Zolotavin, A. V., Krataik, B., Preobrazhengkiy, B. K., 1aHchevska_y__a-,'-T. S.,, TITLE: the Conversion Spectrum of H016c, (Konversionnyy spektr 11016o). PERIODICALs Doklady AN SSSR, 1957, Vol. 117, Ur 1, Pp. 53 - 56 (U63H) ABSTRACT. The preaent paper investigates the converaion ape trum occurring in the radioactive transformation Erl6o H016o DyI90. The spectrum wqs investigated by means of a spectrometer with a double focus- in The conversion spectrum is homogeneoun in both fractionaz Erf6lo does not produce any conversion electrons and all the electrons belong to the 11ol6o. The ro2alta of the investigations of the conversion spectrum are given in a table. The intensity of all the lines observed decreased in a period corresponding to the half-value period of the investigated fr%ctions: 29 houru in the case of the erbiun fraction and 5 hours of the holmium fraction. On measuring faults something, ii said,too. The general form of the conversion spectrum agrocii with an earlier di2cov- ered form (reference 2). moreover, oome neir facts could be ex- plained which permit the determination of the decay scheme of ito: The & the Ho lines Lj+LII,LIII,M and N of the transition tak- ing place in the Ho160 were observed witli 6o KeV. The decompovit- ion into the components makes it poauible to determine the re- Card 1/2 lative intensity of the lines. The relationship Lj'.Ljj.-Ljlj -  The Conversion Spectrum of H016o. W-1-13/42 0,20, 1:1,o determined by the authors for the tramition 86,4 keV confirms the multipole property E 2 of which.The line E. - 99,3 keV discussed in a preparatory paper (reference 2) was identified as tile L-line of the transition 107 keV by the authors. Moreover the K-conversion line of thi& tran2it- ion was found.The conversion line of the transition 298 keV on the K-shell is a narrow doublet with AE- 1 keV. Further particulars on these new discovered lines are ven.The data given here and the data on the decay of the Tbq~o (references 7,8,9,1%11,12)can be used ~s fundament for the conGtruction of the decay scheme of TbIbO and HoI60.8uoh a scheme is illuut- rated by a graph. There are 3 fi~,ureii, 2 tables, and 12 refer- ences, 5 of which are Slavio. ASSOCIATION: Physics Institute of the Leningrad State University im. A.A. Zhdanov ."Fizicheskiy inotitut Lfmir,-raa:;iuga gooudarstvenno- go aniversiteta im. A. A. Zlidanova), SUBMITTED: September 13, 1957 AVAILABLE: Library of Congres6 Card 2/2  ilq 21/ AUTHORS: Grigorlyev, Ye, P., Dzhelepov ', B, S_ 48-22 ,'.,.2/,7 Zolotavin, A Kraft, 01 Ye., Kratsik, B,f Peker, L. K. TITLEi The Decay of Tb 1,60 and 11 16o and the Level Schemp of DY 160 (Rasped. Tb 16o i Ho 16o i skhema uTovney Dy! 6o) PERIODICAL: Izvestiya Akademii Naik SSSR,Seriya Fizicheskaya. 1958, Vol. 22, Nr 2, pp., 101-125 (USSR) ABSTRACT: Radioactive Tb 16o was here obtained by irradiation with slow neutrons of cheminally pure (99, 9%v') Tb20;t~ The, position and relative intensity of 19 linee war" carefully mea3ured in the conversion sper,-crjm. The decomposition of the known line 963 + 966 keV into two components �z essentially new. The rolative intensities of the r- -transitions were obtained by roans of a diviCi*n of the line areas through the correspondinC photoelectrir~. absorpti.or. factor. The values xwere becaus,,t~ of the absorption of the t--rays corrected in. the sourc4~ il-self and at the walls of the cylinder, as wfill as because of the absorption of the photoelectrontj in thr- targret. and in Card 1/3 the slits of the counter, The obtained reletlive in'Pn3iti!1!!  16o 16o ; 6o The Decay of Tb and H and the Level Scheme )-f Dy! 48,22-2-2/! of the r-lines in the aroctrum of jihot-,)ele~,tronq fire -ir the range of +201,~ in ai3reement vrith those of rf~ferenoes 5 and 6. The 7easuroments of the conversion spectriLln show that the soft component is twice as weak as the liard orie. The multipli(,,ity of those trancitians apparently i- (sql-~al and between the intensities of the PLlAnes the .9wu xrelation must exist. -, Radioactive Ho 160 visas obtained by irradiation of a tantalum target with protons with ar, energy of -%p -~r) 660 MeV. The erbium and holmium fxr--,tions were chromato- (;raphically separated from the tlarq~. In the conversion spectrum all conversion lines of Ho 0 that had been obtained in reference 8 were also confirmed here and mary new ones discovered. It is 3hown that the tranoitioqu to the upper levels are permitted or-es. Tho small number of positroni (one positron) per decay is ejplained by the fact that at the low decay-eriergy the K-captiire is dca-ina'Ang. I'llien the decay to two uplj,-,r levels -is conaidered porinittod Klii3+can be determined according to the tables by Zweifel (ref. 10). The values 5400 and jJ00 thus obtained are very high, consequently a considerable part of all. conversions Card 2/3 of Ho 160 must take place by way of K-,,,apture. in th-~-  16o 16o I 1~b The Decay of Tb and H and the Level Scheme of Dy .1 40-22-2-2/17 second short chapter the determination of. the mult.4- plicity of transitions is sliown and its raz-,ults are e;iver. in tile forin of a table. - In the third chapter th(~ sc.heme 110 of the Dy U -levels is treated. A level scheme of Dy '60 was here compiled v.,ith the use of all a-xperimental data, theoretical cortaiderationc twd the artalo,(,y with the neighborinC nuclei. This E;chcme in I;he best manner corresponds to all dat-1. All argwnents confirnin(; this scheme are [-;iven here and all facts contradicting this scheme or fact.- which cannot be explained ftre enuLic-rared. There are 8 figures, 12 tables, and 19 referen,~ieo,, 8 of which are Soviet. ASSOCIATIONs Fizicheskiy inotitut Leningradnikoao jto8u3arotvorwoj-,,) univeroituta im. A. A. Zhilanova (Inatitui;,~ fur 11 11Y o1ca in the Leningrad State Univeroity iaeni A, A. Midatio-'r) AVAILABLE: Library of CorLC:re3s 1. Te rb tun-De cBy Card -3/3 2. Terbium isotopes (Radioictivu) lilt; Wil"Atill  ,2, 4,3-22-2-12/17 AUTHORSi GriCorlyev, Ye. P.,,Zolotavin, A. V., Ku0min, I. I., Pavlitskaya, Ye. D. 106 106 TITLEs On the Decay of Rh (0 raspade Rh PERIODICALt Izvestiya Akademii Nauk SSSB,Seriya Fizicheskaya, 1955, Vol. 22, Nr 2, pp. 194 -- 197 (USSR) ABSTRACT: This is a lecture held at the VII All Union Consultative Con- ference on Nuclear Spectroscopy, which was devoted to the investigation of the radiation accompanying the radioactive tranamutation of Riz 106 ), Rh 106_-> Pd 106 with the help of a r--spectrometer xvith double focusing. (Ref 1). In this ap*pa- ratus the diaphragms near to the source were removed and the thickness of the othero increased to from 8 - 9 mm. The in- side of the aparatusq at the rim of the diaphragms nearest to the source, was coated with beryllium plates. The con- version lines, the complete r---spectritAm and the spectrum of photo electrons were inve3tiCated. 10.- 0 In 'the investigation of the contini~ous i'-spectrum of 11h Card 113 results viere obtained, which do not correspond to the data  10, On the Decay of Rh 0 48- by Alburrer (Ref 2) with respect to the composition of this spectrum (intensity components). Therefore control egeriments were performed with the P-srectrki of P32, As76 and K 2, which lead to the conclusion that the spectrometer accurately re- produces the form of tile g-spectra up to 3 MeV, above this value, however, a distortion of the shape in possible. 2)'2be observation of internal conversion proved t(; be difficult, and it was only possible to measure the K and L conversich lines of the transition aith an energy of 513 and 623 -,eV. In this case the data by Alburger correspond to the 14cre obtained re- sults, with the exception of the line L-625, Whi 386 alone vias treated in this paper. 3) The /)0--spactrum of Rh was in this inveoti6ation examined accordinS to the photo electron spectrum with a cylindrically symnetric source. Thin investi- gation -.,ins pushed in two directions. a) The photo electrons of the P-transition-e with 513, 623 and 1052 keV were measured-y and their respective intensity was dete=iined. Pb, Bi and Th served as tar!-et here. b) 'The ranr,e from 100 - 400 kev was investigated under the assumption that accordine to the decay scheme, the transition with the energies 150, 220, 240, 345 and 390 keV sh,.-ald be determined. The experiment proved to Card 2/3 be difficult. No photo peaks could be found in this range  -30' F/48-22-7-12/24; S ."UTHORS: Grigorlyev, Ye. P., Dzhele.pov, B. S., Zolotavin, k, V. 16o TITT.E: Relative Inten-gities of y-Transitions (if ~,-10 (Otnositellnyye intensivnosti y-perekhodov ~o 16o) F"'RIODICAL: Izvestiya Alcademli natil: SSSIR, 30.'r1,y1h fftil~'hC'131MVa, 1959 Vol, 22, TTr 7, pp. 821-82~, (USSR) ABSTRACT: Reference is made to previous 'vapers (Rofs 1, 2). .1 ~noviled,-,.e of the accurate thickness of the biomuth targ#,~t pormitted to determine the ratio between the intenzities of the lines hV = 196 keV and of harder lines. In these measurements one and the same source was u-9ed. The onergion and the intf?nsitien of the 6 strongest y-transitions wnre determined. On the basin of the relative intensities of the y-radiation and the re- 16o sults from the examination of the ~onvernion spectrum of Ho it is possible to determine the factiorts of transition-convor- sion and their multipole order. Thin can be don-3 if Jt in taken in-~o consideration that the 196 keV transition take 16o P~ace be, ~ween the levels of the first rotation-band of Dy Card 1/3 4 and 2 . It la aijaunied that Lhp nonvi~riiLon factor of' this  ReIative Intensities of V-1ransitiona of 110 16o 110'1/48-22-7- 1 P/26 transition is equal to the theoretical one for the electric quadrupole radiation. In this manner the conversion factors for the other transitions are obtained. The results comolete., 1y substantiate the assqmption made by the authors conci~rning the level ocheme of DY161 from reference P. The pooitivi? parity of the 1695 keV level is now proved and a spfn-vulue of 4 is very probable. The 729 keV TransJtfon in thJs cave is V.2, whereas the 646- and 538 keV tran!;itions are a. Mixtuve of E2 and Ill or of E2 . The hard conponent of the doublet 963 966 keV is a. pure E2 transition. Henee the multipol,~ oz-df'r of the 963 keV transition is Ml or Z2 f- L'l. The 873- and 879 keV transitions most probably have t multi-Dole o-rder of E2 + MI. Accorcling to meamirements of the spectrum of the photoelectrons the correctness of the computed inTansitieo of the transitions of 538, 646, (175 + 879 ,;nd 965 keV is proved. Fluctuations witbin the li"its of 5o-40 '5' -rere found in the intensity of the 73okeViraruttion. Vne staff of the OIYaI and of the Radium Institute atisiated in the irradiation of the tantalum target and in the preparation of pure erbiun-. and holinium -preparations, There are 2 figures, 2 tables, and Card 2/3 4 references, 4 of which are Soviet.  I a ive 7 1, tc-~ it i t TAT ON f3k(),7,o lo~ L Card 3/3  30V//48-22-'j-15/26 AUT1103: Grigor 'yev, Ye. P., Dzhelepov, B. 64 1 ~,q,~otavin, A. V. T!i,jhin, V. Ya., Pxikhodtseva, V. P., Xhollnov, Shchukin, 0. Ye. TITLE: Radiation From As74 (Wuchenlye AV74) PERIODICAL: izvestiya Akademii nauk SSSR, Seriya fizicheskaya, 1958, Vol.. 22, TTr 7, pp- 831-638 (USSR) ABSTRACT: In December 195,7 thq authors obtviined R radiochemically pure preparation of Ae14 ("4 MCU) with a good specific activity. The characteristic features of th4s dee-ay were examinod. and preoisel;f determLnod '7 first the production of the preparation lo 4Psc,2,!bed. Thin An was proditood by it bombardment of (.;or- nanium with deuterona with an enerlty of 10,8 MeV. The ronult~: of the invekitij3ation of 6 anti P -spectra are e. d. It is Proved that the prouno .9tate Of .4874 is of an 2 -type. After thi,~ "bypaso" , tj%-,:~ *,'I ~ ITIeetra Mid been subtracted the Curi e &.agrams for the oot I com:)onents of both qr-aotra nr(;Nrt-J, to be ri?ctilinear. In the back-ground of the P -Spectrum the K- and (L+11) conversion-lines of the tran--itions of 596 and Card 1/4 635 keV are clearly marked. The K-635 line is, without cloubt,  RRdiation From*As74 1~!DV/48-22-7-15/26 With"the hi - 06 kFjV a transitir~n of the type 2 + 0*~# transitior, which i.1 nonriect,)d with the positron brnnch-, con- ditione are more coniplicated, as the proportion of the K-cap-- ture muit le known in ui.,dcr to be able -to determine, a., Two mothods oC the dr-ermination of T, are given. The spectrum .0 11 of .4974 of the y-rr.diati was inhatigated by means of the recoil electrons. Thr) relative intensity of three y-lines was invait.:.gatod with an oquipment of a better reqoliAtion:, The artnihiA Lion line,' at h-0 - 586- and the 635.koV line. 1'.-ith thn hf-1p of an equipment of a lower resolution, btit of a lul_-,inous Intensi ty amplif ic-6 by the hundxedf 61'. , it attempted to find harder y-linen in the rad.aW)n of A:074. The doray ener-.( In the transmutation from As. - Ge-14 gives risl.~ to the assumption that the levols of 04114 are Ctx- cited up to those of 2500 kell. Actually In the speotral range of 120C keV a pronounced superelevation of the counting rate above the ouiet background connected with the softer lines was observeti. The intensity of this line is smaller by a factor of 220 than that of the ann1hi.la1;iqn__.1jx-e---It is shc.,,-:n that in Ge74 the second level of excitation probably has an energy of 1200 keV. If this is true, I*. should 'be expacte,t Card 2/4 that a transition from the second level. to the fir-t one -~f'  Rzt,-UL,tion From MJ74 S10,1148 - 22 - 7 - 15126 about 600 koV exists and that this level fi-frme a doublot with tho ~'96 kaV Itaq. Tho rnmtftontloni Va tho dootty richomej elf As74 are investigated. In the last chi.1pte,r- some remarks con- cerning the individual levpls are given. As regarli the con- version of the transition at dE - 596,3 JcoV of Ge it 1.8 sho,m that in this transition the rat$o it) 4L - 6 + 2tl. In the investigation of the ratio X/P in the AsqA d-ecay to ~he level at 596,3 keV of Ge74 it is shown that the ratio KIP for this transition is normal. The level at 1200 keV of Ge74 is probably a second vibration level Tith the char- acteristio 2 . The second excited Hovel of Se is probably near 1300 keV and is of the type 2 . B. M. Isayev, 1. P. Selinov, Ye. Ye. Baroni, Ye. N. Khoprov and their team nollaborated in the work. There are 5 figures, 3 tables, and 15 references, 8 of which are Soviet. Card 3/4  ZOI.-O T-14 V V - AUTH;RS: Grigorlyev, Ye. P., Dzhelepov~ B. S., SOT/q8 - 22-8-4/2o Zolotavin, A. V., 1,11ohin, V. Ya. I--- __ 73 Conversi-_ __~on (Spektr konversionnlrkh TITLE: on Electr Spectrum of As elektronov As73) PERIOD_~CAL; Izvestiya, Akademii nauk SS$R, Seriya Vol. 22, Nr 8, pp. 927 - 930 (USSR) "3 ABSTRACT: The basic features of the decay scheme of Ast are already known. The scheme su.-Gested in referc-nce 1 and preci3ed in the rnfer- ences 2-4 is given in figure 1. The authors used a P-spectra- meter with a resolving power of (Rftf 5), The AS73 source was obtained by a bombardment of natural jermanium with deuterons with an energy of 10,8 MeV. The source contained As73 and residual quantities of AS74. The production method is described in reference a'. The informi%tion obtained permits to precise the transition type hv -~ 52,a keV. At present no accurate conversion coefficients on the L-shell are available for low energies and for different valuen of Z. The ratio K 2/L2was compared with -the coefficients computed by L.A.Sliv and I.M.Band which were obtained by mn extrapolation Card 1/3 of the coefficients (Table 2). It can be sean that a combined  Conversion Electron Spectrum of An73 S01146-22-8-412o utilisation of the quantities K/L and ci, permit,3 to exclude all types except U2. The authors investfgated the possibilities offered in the selection of the characteristico of the second leve of Ge73. The initial da"a are ob'uined from the decay of As~3. The ground state of this nucleus is probably P3/2 . This value is predicted in thQ s~.heme by Mayer which is substantiated with a number of nucleL with add A and 31 or 33 protons tr neutrons. A comparison of the decay energy and of the !~fe of A373 permits to datermine 10,Cf for an electron capture: igrf - 5,5. Thin value ii- typical for allowed transitions. Herce it follows that tll~e level at 66 keV Ge73 is of the type p, /V P3/2 or f312* In table 3 the upper limit of the ratios of the K-conversion lines of ;iven, Thiq ratio wan the transitions 66,3 and 52,8 keY Is ~ computed according to Weisskopf (Yayokapf) -,inder the ac:-,u.mption, that the multipole order of the transition 66,3 keV i:: zE3 and 1,11. This is given as a comparison. The ratios + 11) for the transition 52,8 IceV are of interests The existence of 2 isotopes As73 and As74 J.n thi. preparation Card 2/3 investigated by the authors permitted 1;(-) cojipare their relative  Conversion Electron Spectrum of Aa73 SOV/48-22-8-4/2o amounts during measurement nrid to cornpate tfie ratio of their yields in the nuclear reaction. The authors expressed their gratitude to B.M.1sayev, I.P.Selinov, Ye.Ye,. Baroni and Ye.N.Khaprov. There are 3 figures, 3 tables, and 6 references, 3 of which are Soviet. ASSOCIATION: 11auchno-isaledovatel'okiy fizicheskiy inztitut Leningradskogo gos.universiteta im.A.A.Zhdanova (Scientific, Research In- stitute of Physics at the Leningrad $tute Lniversity imeni A.A.Zhdanov) Card 3/3  AUTMRSs Avotina? No P., Grigorlyev, Yeo Pop 20-119-6-20/56 Zolotavin. A. V.. Kxatsik, 11. TITLE-. The Radiation From Tb 160 (Izlaoheniye Th160) PERIODICAL: Doklady Akademii nauk SSSRI 1958t Tol- 119, Ut 6, pp. 1127-1130 (19S'~'R') ABSTRACT: The continuous spectrum, the spectrum of conversion eleotrons and tge spectrum of photooleatrona from radioactive TbI 0 was measurad by tho authors by means,of a spectrometer with double focussing. The Baiiiple was produced by irradiation of chemically pure Tb2o 3 with slow noutrone. The continuous spectrujil was %xamined by means of a source with a thickness of which was produced*by coating Tb 203 on a mica base with a thickness 2 of ,,l P5 MOM . The result;3 of the measurements are oompiled in a table. The co-.11version-.spectrm was measured2 by means of sources with a thickneso of from 4 to 5 Mg/cUL 19 lines were found, pertaining to 11 transitions to Card 1/3 DY16o. These results are also compilod in a table. %--  The Radiation From Th 16o 20-119-6-20/56 The general form of the P-speotrum is illustrated by a figure. The lines pertaining to the transitions to DY 16o with the energies 878 and 965 keV'are double. These two transitions were also Investigated inthe decay of 16o 7b . The line corresponding to the transibion with the energy 07 keV is either a single line or its weak component is so soft, that it cannot be separated from the harder line. The relative intensities of the 3w-transitions were determined by division of the areas covered by the respective lines by tho corresponding coefficient of photoelectronic absorption. The authors compared the relative intensities of aome radioactive isotopes (e. g. TI31 , Sb124) known-from publications with the intensities obtained on the basis of the measurements of the photo lines. For the discussed measurements the intarnal diameter of the i3ource amounts to 0,3 mm. Therefore it should be possible to determine correctly the relative intensities In a vi4e energy range. Card 2/3 The authors attempted the separation of the line 967 keV  The Radiation Prom Th 16o 20-t19-6-20/56 into its two components. The results of the measuremonts prove the existence of two components, the ratio of their intensities, however, could only be roughly estimated: 0. There are 3 figures, 4 tables, and 96111964 + : -0 5 2 referencesp 2 of which are Soviet. ASSOCIATIONs Fizicheskiy irititut Leningradskogo gosudarstvennogo vniversiteta im, A. A. Zhdanova (Physibs Institute of Leningrad State University Imeni A* A4 Zhdanov) PRESENTEDs September 13, 1957, by A. A. Lebedev,.Member,. Aeademy of Sciences, USSR SUBMITTOt September 10$ 1957 Card 3/3  ,r)T,rMAV-.rl!,-I,. V. j q3 4114 jig lam I gj-. k 1 JA .A lid! I j ii, I rV lit j A 1111 R  8) OV /120- 5,)-4-22/50 AUTHORS: Grigor I yev, Ye, F,,,, Z'olotay,44A-w,J6u#,q4V TITLE: Determination of tild' orm, of the Pole Piece of a Magnet, Taking into Account the Edge Effect PERIODICAL: Pribory i tekhnika eksperimenta, 1959, Nr 4, pp 97-99 (USSR) ABSTRACT: The problem which the authors had to solve was that of finding the pole pieae profile for a P-spei,.trometer.with double focussing an~ ensurinS that the electron beam 1 5 focussed even in the regions close to the edges of the magnet. Since the edge effect probleta has not as yet been solved, the authors use a semi-empirioal scheme whiah en- sures that the required field. distribittion is realized to about J_5%. If the method izi used to reshape tfie pole gieces again,, the required field may be obtained with an accuracy of 0.3%. Fi~r 3 shouls the final profile of~the spectrometer Dole piece, ensuring dotble focussing over an angle of VY7 Lor the field sugL~;ested by Pavinskiy 1a Ref 6, The equilibrium or-bit radius is 125 mm. The profile was cal- oulated assuraing IL :;, const along r . The experimental field coincides with the theoretical over ?;'0' of the gap Card 1/2  11;Q7/12:0-59-4-22/,-~0 Determination of the Fol-,a of the Folle -Piece of a 1,1al!,net, Takiagr into Account the Edge Effect peat i's made to B, D-zhele radius. AcknowledF pov f or valuable discussioias,, There exe -,") Fi,-ureo a;.,id ~1 of which 3 are Soviet, I Swed.i.sYi arid the, rost are Etill-lish. ASSOCIATION. Lenin!Lradski.y uri~,-eriibet (Leiaingrad State Universi by) SUBMITTED: June 28, 1958, Card 2/2  21(3) SOV/46-23-2-2/20 AUTHORS: Grigo:-Iyev, Ye. P., Zolotairin, A. V., Klamentlyev, V. Xa.# Sinitsyn, R. V. TITLE; Determination of the Relative Intensities aAa Conversion Go- efficients of Tranaitiona PToduced During theoocay of SO (Opredeleniye otnositelInykh intensivnostey i koeff1tiirntov konveraii perekhodbv, voznikay-ushchikh pri raspade Be 5 PERIODICAL: Izvestiya Akade-mii nauk SSSR; Seriya fizic.heskaya, 1959, Vol 23, Nr 20 pp 159-184 NO A) ABSTRACT: At the beginning, the authorsropqEt on data obtained up to now on the Ge7 0 A-075 .6' Se"'decay, and the spectrometers, sources and conditions of measurement of We investigations explained in this paper are described as ~ollows-.'thi mag'netio spectrometer used for measurement had a double focusing, and the half width of electron lines in the speotrometer conditioned by the apparatus amountied to'0.4!A. The conversion spectrum was measured in the presence of raPation sourcas of different thickness: 0.05, 0.25, 5 mg/cm . For the purpose of dete,rmining the spectral lines of photoeleatrons thin'targets of silver, lead, bismuth and other elements were used. The dejerminatione Card 1/5 covered 1) the relative intensities ~ of the spectral lines  307/46-23.-2-2/20 Determination of the Relative Intensities ang OOnVe;rOiOn Coefficients of Transitions Produced During the Decay of Se7 of photoelectrons of Se75; the authors recorded the whole spectrum with Bi-target 6 - 0.1 mg/OM2, the energy range up to , 100 kev with Ag-targots a - 0.25-0-03 mg/cm2' tile 2 rauge UP to 401 kev inclusive with As-target, d - 0 .25 mg/cm the line_572 kev with particularly thick Ts., Pb, and Bi-targets up to d 60 mg/cM2 (Figs 2-6). The energies obtained and the corresponding I, are listed in table 1. The intensity of the transition h~ . 265 kev was assumed as a reference quantity equal to 100. For comparison , tables 'I and 2 contain also data obtained by other authors. For the purpose of chocking tile spectral sensitivity of the apparatu,,j tho relative intensi- ties of y-lines of Sb124 were compared with the values men- tioned in paper (Ref 47),in which investigations were carried out by means of the calibrated standard y-3pectrometer "Elotron" (Tables 41 5 and table 6 give a oomparison. with Tbl6o). A po5sible error in the determination of 17 1< 151d, results from the comparisona. 2) The authors measured the electron spins of internal conversiorn of se75. They ?btained Card 2/5 26 conversion lines produced by 12 transitlone in As7 (Figs 7-12),  SOV/48-23-2-2/20 Determination of the Relative Intencitiea and Converolon ("Oefficienta of Transitions Produced During the Decay of Se'(5 Card 3/5 among which there are also the lines of Auger electrons K-LL, K-LMI K424. Their energies, intensities 1y and origin are listed in table 7. According -to a comparison with data obtained by other authors the beat accordance was found with Schardt and Welker (Ref 10). For the purpose of determining the con- version coefficients from IV and IK two methods were applied; a) from a comparison of the experimental valuos I./I with , I the conversion coefficients of transitions 265, 280, 305, 401 kev according to Bashilov and Illin (net 45)(Table 8); the mean value-a,/(I./I ) was used for determining the con- . Y version coefficients of the other trantnitions; b) from the' El transition of the transitions 121, 235, 401 kev the con- version coefficients of the other tranijitiona were determined in the above-mentioned way. The values obtained in both ways agree well with one another. On the basis or a comparison between the theoretical and experimental values aK the authors determined the multipole order of all transitions obtained (Table 9). According to the analysis of the vcheme of As75 de- cay by means of Coulomb excitation and inelautic neutron  SO'7/40-23-2-2/20 Determination of the Relative Intensities apq Conversion Coefficients of Transitions Produced During the Decay of Sefv) scattering the authors determined the existence of the excita- tion states - 200'7061 1 574, 7801 814t 1020, 1250, 1633 kev. The spectrum of Ge 5 was studied by the method of P--y-' coincidence and the levels ~199, 2651 477, 620 kov ware obtained Table 10). The y-spectrum and y-y-coincidence from papers ~Refs 10 and 25) are given in table 11 , Furthe orep ~he 75 quantum characterietics of the ground state Aol~; S07 , 'Go were determined to be 3/2-, 5/2, 1/2% The quantum. character- istics of the levels 265, 280 and 401 kev ere determined as well. The intensity equilibrium in the we I decay is men tioned in tables 13, 14. The quantities Ig Tf are in accordance with selec ion rule Accord g to these results the scheme of the G~5 ) Asl~ +- V8 decay is established (Fig 13)- Similarities of parity with neighboring nuclei are contained in table 15. On the basis of the one-particle mod,31 the authors give two posj~bl e explanations of the gro~and state of th nuclei Se and As75 as well as of the levels of As15 34 41 33 42 at 199, 256, 260, 305 and 401 Irev in tablo 17. There are 13 Card 4/5 figures, 17 tables, and 55 references, 19 of which are Soviet,  SO7145-23-2-2120 Determination'of the Relative Intensities n~ Conversion Coefficients of Transitions Produced During the Decay of So. ASSOCIATION: Nauchno-issleiovateltskiy fizicheskiy Institilt Leningradskogo gos. universiteta im. A. A. Zhdanova (Scientific Research Institute of Phypics of Leningrad State University imeni. A. A. Zhdanov) Card 5/5  21(7) SOV/48-23-2-4/20 AUTHORS: Grigorlyev, Ye. P., Dzhelepovy B. S., TITLE: Decay of Yb 166 ]. Tu 16 6 -->Er 166 (Rasped Yb 166 --> TU166 --),-Er166 PERIODICAL: Izvestiya Akademii nauk SSSR. Seriya fizicheskayal 1.9591 Vol 23, Nr 2, pp 188-190 (7JSSR) ABSTRACT: An error occurred in the spectral analysis of this reaction since the energies of the moot intense tranaitions in Tu166 produced by decay of Yb 166 and in Er 166 produced by Tu166 were near 80 kev in both cases. For the purpose of explaining and determining the levels the authors studied the conversion spectra by means of the P-spectrometer with double focusing and a half width of lilies of O-M(?. The resolving power per- mitted the separation of L I + LIII Liii and 14 and K lines. Table 1 shows the corresponding linea of transitions $1.0 kev 166 166 166 in Tu and 79-4 kev in Er . Trunsition 79-4 in Er agrees well with the theoretical transition type,99. 91 represents the transition type at 81.0 kev in Tu . A distinct- ly marked difference results from a c arison o the relative Card 1/2 intensities of conversion linen of TuU19 allu X.41- 96 in  Decay of Yb 166 -> Tu 166 Er 166 SOVI,;F~-213-2-4120 equilibrium state with values obtained by othq authors (Ref 3) (Table 2). The conversion coefficient for BrI69 with CLY - 1.8 166 for E2 transition and Tu for transilion 141 amounts to 3�1 and 4, respectively. The atio .of ensitiee of the individual transitions in Tu, and Er.. - 0-75 � 0.3. Tha authors thank the reseamhare of the Mal and HIM for radioactive souro~as) 0. V. Larionov, 1,1. K. Nilcitin,, researtbers of the LGU for separation of the Yt- and Tu Traction, as w411 as L. K. Peker for discussions. There are 3 figuree, 4 tables and 5 Soviet references. ASSOCIATION: Nauchno-issledovatellskiy fizicheskiy institut Leningradnkogo gos. universitets. im. A. At Zhdanova (scientific Research Institute of Physics of Leningrad State University imeni A. A. Zhdanov) Card 2/2  21~7L SOV/48-23-2-5/20 S: AU H Grigorlyev, Ye. P., Zolotavin, A. V.y Xratalko B. TITLE: Radiation of Tb 16o (Izlucheniyo Tb 160 PERIODICAL: Izvestiya Akademii nauk SSSR. Seriya fisichoskaya, 1959, Vol 23, Nr 2, pp 191-203 (USSR) ABSTRACT: In the present paper the authors inveatigatod the P-speatrum and-the spectra of internal a 19 external conversions of P-transitions aooompanying Tb 0 decay. In addition to experimental data known about Tb 16o (Refo 1, 2), this paper contains further data*on the P-spectrum with thin radiation sources as well as on some transitions between the levels of the Dy 16o nucleus. Tb with a purity of 99.99,14 was 0 2 3 irradiated in the reactor. Within the.5-ndividual ranges of energy /, 250 kev, 200 - 600 kov, > 600 kev sources with different surface density were used. Ditta and comparison with results obtained by other authars-'are contained in table 2. The analysis of the spectrum obtained vas performed on the assumption of a Fermi shape and a uniq:ue shape of the spectrum Card 1/ 3 according to the method devised by Curio -Ril"hards onrPakst one. The  Radiation of Tb 16o SOV/48-2~-2-5/20 authors obtained excitation levels from which P-transitiond occurred at 1565, 1358o 12649 966, 865 1W. The level 1156 kev resulted from the de,3ay of Ho 0. Limit energies and relative intensities of the softer components coincide inboth analyses. The spectrum of conversion'electrons was recorded with the sources applied in re,cordi'lig, the P-speatrume Besides the transitions already obtained an additional one was found at 289 kev. The other reaulting nergies and,in- tensities are in accordance with those of the P-spectruit. (Table 3). The conversion lines of the transition at 1273 kev were studied and it was found that theX are composed of the lines K-1273, L-1273 and X-1314. The spectrum of y-rays was measured by means of Ag, Au, Bi and Th targets. The conversion coefficients were compared to the theoretical values contained in paper (Refs 14, 19), in which the 1973 kev tranvition was vegarded as an E2 -transition. The multipole orders of the individual transitions were determined Card 2/3 according to -the theoretical and experimental values of a.,.  Radiatiah.,of Tb 16o SOV/4-8-23-2-5/20 The theoretical values were adopted from tables publisba.d by Sliv and Band (Relb 14, 19). On the basin of the results obtained the decay soheme was established, which was di,joussed in detail. For the purpose of detexmtning the intensities and intensity equilibria the inteneiti2p of transitions into the ground state with 1 786 + I y966 ' Iy1201 ' 100 were us4d. -There are 5 figures, 9 tablesq and 20 refemnaea, 11 of which are Soviet. ASSOCIATION: Nauchno-isoledovatellskiv fizicheskiy in&tvt Leningradukogo goe. universiteta im. A. A. Zhdan~ova (Scientific Research Institute of PliValos of Leningrad State University imeni A. A. Zhdanoy) Card 3/3  21(7) SOV/if8-23-T-17/31 AUTHORS: Grigorlyev# Ye.P., Dzhelepovv B.S,t Zolotavin, AjV* TITLE: On the Transitions Er 160 _10.R0160 and-YU 166 --1b Tu 166 (0 perakhodakh Sr 160 _.+ E0160 i Yb 166--)-Tu 166) PERIODICALt Izvestiya Akademii nauk SSSR, Beriya fitichookaya, 1955, Vol 23, Nr 79 pp 864-867 (USSR) ABSTRACTs In the introduction, it is ascertained that in a number of 160 _.,,HO160 _0,.DY160 papers the decays Er anil Yb 166___0.Tu166. 0, F'r 166 have been inreutigated, and that the authors in the present paper are concerned with some peculiari- ties of the first transitions of these chairjo. It is poiuted ont that tyro isomeric states of the isotopo B0160 are knownt wbich have different half-lives and the quantum characteristic of which is not known. By theoretical inv(istigations, it'was found out that the lower excited states of the odd-odd nuclei must necessarily haTe two levels which have the same parity* The types of the states of the'isotope Er 160 are investigated. Card 1/3 Allowed and first forbidden decays takqj place in the isotope  On the-Transitions Er 160 0 and Yb 16 6---P- Tu 166 SOV/,18-23-7-17/31 Er 160, and it is concluded that the energies of the transitions Er 160 __* H0160 ,d not exoeed I Mer. The authors further absert that the Er 16o- lecays passing the so-called five'-hour inorier d6 n6t take place on the levels ~+,2_ and. 2+ but on any other higher level . In the inveDtigation of the docay Yb 166_4, 1,11 166 it Is first ascertained that the odd-odd nuclei of the Isotope Tu 166 have an excited level with the enorgy of 81 kev, and they are assigned to the type Mi. ?urther it is stated that other 166 levels of the isotope Tu are not known, and that a positton spectrum corresponding to the transition Yb 166 0 Tu 166 was not found. The mast; defect of the Yb 166- and Tu 166-nualei is indicated with 117 kev (according to Cameron) and with 436 kev (according to Riddel), and the decay energy of Yb 166 is evaluated with not over 1,000 kev. The authorn thank Card 2/3  160 16 on the Transitions Er and Yb 6---iTul66 SOV/48-23-7-17/31 L. N. Zyryanov;a for contributing her knowledge on the P -systematics, and L. K. Peker for tho discussion of the results. There are 3 figures and 19 references$ 8 of which are Soviet. ASSOCIATION: Nauchno-issledovateliskiy fiiicheekiy institnt Leningradakogo gos. universiteta im. A. A. Zhdanova (Scientific Research Institute of Physics of the Leningrad State University imeni A. A. Zhdanov) Card 3/3  21M SDV140-23-7-181311 AUTHORBs Grigorlyevt Ye. Pop Dahelepov, Flo Soo %olotavin, A. V'01 Krataikt B., Bitterlikh, 6. TITLEt The Decay of Eo 160 and the Level Schem6. of DIy16o (Raspad Ho 160 1 ekhema urovney Dy 16D) PERIODICAL: Izvestiya Akademii nauk BOSH. Beriya fizichoalcayat 1959, Vol 23, Nr 7, pp 668-874 (USSR) ABSTRAM In a previous paper (Ref 1), the authors ha& already determined the level scheme of Dy 160 0 but in cons.-Wering all factors they come to the result that the upper level doen not amqunt to 1715 kev , but that in the decay of the isotope H0100 excited states with cnergies up to 2900 kov occur. In the present paper, results of an investigation of the transitions with high levels of the isotope Dy 16o are put forward. The syeetra of the positrons and of the electrons of the internal conversien were recorded by a P -spectrometer. The obtaining of the radioactive sources is dealt with, and the investigation of the -spectrum Card 1/3 in the range of weak energies is deacribed, In the range under  The Decay of Ho 160 and the Level Scheme of Dy 16o SOY/48-23-7-18/31 160 kev, a positron excess is observed which is connected with a soft componant. The components of the spee'trum are shown in a diagram (Fig 1), The balan'c'e of the Intensities for the transitions 1r, the isotope Ho160 shows that the transition with 60 kev amounts to 60% of the decay. It is further coacluded that the number of positrons in the decay is equal to 0-36%. The authors found 55 new conversion lines which are compiled in table 2 together with the knnvn linen. The experimental results were compared with the theoretical reaults, and it became olear that some L-lines 4tre amporimposed by K-lines of other transitionso Figures 2 and 3 show two ranges of the spectrum of the conversion electrons, the half-width of these lines is indicated, and it is ascertained that in figure 2 there is a group of lines the identification of which is very difficult. From the results obtained hitherto in this Card 2/3  The Decay of HO 160 and the Level Scheme of Dy 160 SUVI46-23-7-16131 paper,. and-in other papers, the extensive level scheme of the isot9pe Dy 16o is set upq and the balance of the intensities in Ho 16o is ovaluated. There are 4',fivres, 3 tables,. an& 4 Soviet references, ABSOCIATIOM Hauchno-isoledovatellskiy lizicheokiy institut Leningradekogo goo. u-,~Aversfteta iin. A. A. Zhdanova (Scientific Research Institute of Physics of the Leningrad State University imeni A. A. Zhdatov) Card 3/3  24(5) AUTHORS: Grigorlyev, Ya. F., Zolotavin A V SOY/56-36-2-7/63 TITLE: On the Relative Probabilities of the Photoeffect in Shells and Subehells of the Atom (Ob otnositaltriyk1i veroyatnostyakh fotoeffekta na obolochkakh i podobolochkakh atoma) PERIODICAL- Zhurnal eksperimentaltnoy i teoreticheakoy fiziki, 1959, Vol 36, Nr 2, PP 393-400 (USSR) ABSTRACT: In their introduction the authors first discuss several theoretical works concerning investigations of the photoeffect in the K-shell; Heitler (Gaytler)(ftof 1) in,restisated the relativistic case and supplied a formula of the photoeffect cross section in Born's approxiiyiation, Stobbe (Shtobbe)(Ref 2) andRall (Khcll)(Rof 3) published more accurate results. Sauter (Zauter)(Ref 4) and Hulme (Khulm)(,Rof 5) calculated the probability for the photoef1fee.,t in Born's approximation by using a relativistic wave function, and Hall (Ref 6) derived a simple .formula for Jr4ma P. lfulmw, et al. (Rof 7) calculated t still more accurately for 3 elements and 2 different r-energies. Card,1/5 Experimental workas a) Marty (Marti)(Rof 8), measurements of