SCIENTIFIC ABSTRACT VOROBYEV, G.A. - VOROBYEV, G.M.

S/139/62/000/003/003/021 The use of liquid immersed E194/9435 15 kV sphere gap the time for oil was 4.2 nsec and for air 7.5 nsec.- It was thought that contamination of the oil in service, by reducing the electric strength, might increase the switching time. However, this was not so and it was found that under impulse conditions both moist oil and distilled,water, being of higher electric strength than of pure oil, gave.shorter switching timeso There are 2 figures and 1 table. 'ASSOCIATION; Tomskiy politekhnicheskiy institut imeni S,M#Kirova (Tomsk Polytechnical Institute-imeni S.M*Kirov) SUBMITTED: March 10, 1961 Card.2/2  AUTHOR'S: TITLE1 39544 S/024/62/000/004/001/007 E194/E455 Voroblyev, A.A., (V~~~~ostrygin, V.A. (T=sk) The mechanism of electric breakdown of thin layers of solid dielectric PERtODICAL: Akademiya nauk SSSR. Izvestiya.. Otdeleniye tekhnicheskikh nauk. Energetika i avtomatika, no.4, 1962, 66-68.. .'TEXT: The breakdown of thin (lo-3 cm and less) specimens of sale 4as been explained by the electron avalanche theory-due to F. Seitz (Phys. Rev.., v.76r, 1949, 1376) and by whati is here termed.the multiple avalanche streamer mechanim. In the ayalanche streamer-Method of discharge with-thicknesses greater than lo-3 cm, the positive space charge re.-mining a'. anodes L.X due to an avalancho is sufficient to form a strcamor. Wlien the thickness is less than 10-3 cm, the space charge of the anode necessary to originate a streamer accumulates.by attraction to the anode area of several electron avalanches. According to the Seitz mechanism, the discharge time should depend on the area of .Card 1/2  S/024/62/000/004/001/007 The mechanism of electric E194/E455 the cathode and according to the proposed-mechanism it should be practically independent. Accordingly, rock malt specimens 10 microns thick were prepared in two forms, having cross sections of 0.45 mm and 1.2 mm. Probability plots of breakdown time show that these are respectively 5.5 and 5 microseconds, the difference being within the limits of experimental error. This result supports the hypothesis of multi-avalanche streamer breakdown mechanism. 'There are 3 figures. SUBMITTED: March 15, 1962 Card 2/2  VMOBIYEV, A,,A,,;_YTCBIIEV, G.A.; MRAS~Op L.T, Breakdown voltage of solid dieleotrics as dependent on thickness in the range of I~v thickness yfilues. Izv. Yp. ucheb. zav.; fiz. no.5:171+ 162. (KM 15:12) 1. Nauchno-ionledovatellskiy institut pri, Tomakom p6litekhnichaskom institute imeni Kirova. (Breakdcw34~Eleotrio) (Dieleotrica)  $11611621004100310381045 -B I 081'B 104 AUTHOM Voroblyev, G. A., and Kostrygin, V. A. TITLEr Effect of irradiation on the electrical stability of rook salt to spark-over in a thin layer PERIODICAM Fizika tverdogo telat v. 41 no. 3, 19629 811-812 TEM In order to establish if the spark-over in thin rock salt layers is due to the accumulation of positive space charge at the anode thts authors made experiments with ultraviolet light. Irradiation should liberate photoelectrons and electrons from microdefoota. The experimenteli-` showed, however, that in uncolored crystals electrons were released mainly by cold emission from the cathode. There are 2 figures and 2 Soviet references. ASSOCIATIONs Tomskiy politekhnicheskiy institut im. Be Mo Kirova (Tomak Polytechnic Institute imeni S. M. Kirov) SUBMITTEDi Docember 1,.1961  37946 00 S/181J62/004/005/044/055 B139/B102 AUTI :!OR:- Voroblyev, 0. A. -TITL:~; 'Physical nature of the delay time of discharge in colid dielectrics PERUODICU: Fizika t1verdogo tela, v. 4# no- 5t 1962, 1363-1364 TEXT: It is usual to subdivide the discharge period for solid dielectrics into the statiotical delay time tst and the discharge shaping time t f* 'he author has shown in a,Drovious paper (Izv. AN SSSR. OVIO Znergetika i avtomatika, 2, 19061) that electric ibreakdovn of solid dielectrics is in--;tiated by impact ionization and that in the case of dielectrics more than io-3cr, thick it agrees with gaseous discharge mechanics. Atte=pts to determine tvz in 'NaCl and KBr crystals have shown that tst does not exceed 1i-10 .~.sec and is shorter than the discharge shaping time t., The wide scattering of tvz in a solid dielectric is explained by the fact that the conditions for discharge shaping, to which any specimen of the Card i/2  3/181/62/004/005/044/055 Physical nature of ... B139/B102 zame dielectric is oubjectp vary by reason of differences in structure, static breakdown voltage, and other fluctuations. Most electrons in a solid dielectric, exposed to a strong electric field, are the result of cold emission from the cathnde. Also microdefects of solid structure may be electron sources. For this reason low values of t &t are also characteristic of other solid dielectrics of high electric strength. nence there are no g-roundc for the a~ove-mentioned formal subdivision of 'U- 4nto its two components. Vz ASSOCIATION: Tomskiy politekhnicheskiy institut im. S. '"'. Kirova (Tomsk Polytechnic Institute imeni S.M. Kirov) SUBLUTTED; January 22, 1962 Card 2/2  B/l8lj62/004/007/032/03T; BI 700104 AUTHORS: Voroblyev, A. A.j Voroblyevl G. A., and Muraahkol.L. T. TITLE: Anisotropy iin the electric strength of rock salt''," PERIODICAL; Fizika tverdogo telay ve 4p not 7P 19629 1967-1968 TEXT: The direction Elio] along the chain of positive ions in the crystal lattice of the NaCl type ~s the favored direction'of electron acceleration. As the interionic distance in the direction [1113 is larger than in the direction [100], prefereno Ie is given to the former. A. Hippol(Physe Revel 57, 1569 19An) got the following ratio for the.eleotrio strength in the directions -ri 00], [110], and [I 11] : E :E :E In the 110 111 1.41;111.23- present investigation, the values obtained for the alectric.strength in the various directions did'not differ within the limits of irror. It is assumed that the anisotropy in electric strength can be proved only If electrodes with a small diameter are used, since otherwise the discharge:': may take placo in another direction with lower strength* Using electrode's with a small diameter one obtains E :E ,.E 100 110 111 0 1-430:1.21. There is- Card 112  S/iSY62/004/007/032/03 7. Anisotropy in the electric B178 31 04 1 figure.. ASSOCIATTION; Tomskiy politekhnicheskiy institut imeni S. U. Kirova (Tomsk Polytechnic Institute imeni*S. 14, Kirov) SUBMITTED: March 22, 1962 Card.2/2,  GOLYNSKIY, Aruttoliy Ivanovich, aspirant; VCROBI)gl, GrIgoriy Abramovich, 1,and.tekhn.nauk, starshiy nauchW sotrudnik; GenrAdiy Andreyevich, kand.te?.hn.pauk., starshiy nauchnyy sotrudnik High-voltage spark discharger vith high-speed co=wtation. Izv. vys. uchob. znr.; olektromekh. 5 no.5:560-562 162. (14IW. 15-5) 3. Tomskiy politakhniches"v institut. (Electric frwitchCear) (Electric discharges) (Electriu* testing)  /,2o/62~000/001/021/061 091 (1 evo Fi4o/E463 AUTHORS: Voroblyev, A.A., Voroblyev, G.A., Mesyatso G.A., Golynskiy, A.I. - TITLE., High-voltage nanosecond pulse generator PERIODICAL: Pribory i tekhnika eksperimenta,,no. 1, 1962, 96-98 TEXT., A generator based on two spark gaps is described, for obtaining isolated 15 RV pulses with rise-times less than I na and durations between 10 and 40 ns. A pulse-shaping cable, ooax:ral multielectrode switching gap, transmission line and coaxial pulse sharpening gap comprise the generator. The generator is triggered by a pushbutton. There are 4 figures. ASSOCIATION: Nauchno-issledovatellskiy-institut yadernoy fiaiki elektroniki i avtomatiki Tomskogo politekhnicheskogo Instituta (Scientific Research Institute of Nuclear Physics, EXectronics and Automation of the Tomsk Polytechnical Institute) SUBMITTED: May 27, 1961 Card 1/1  VOROBIYEV A.A.; VOROBIYEV, G.A. Frob2em concerning the electric breakdown of solid dielectrice, ftdiotekh. i alektron. 7 no.9:1523-1528 S 162. (MIRA 15.9) (Dielectrics)  -N! 14~ f:-. Card 1/2  HMH-VCL=F, MIME VEMRATCR [CC-,-t'dj S/lP-0/63/000/002/023/041 presquirp -and t?~ change r. ,Prd 2/2  VOROBIIXV,#~A.A.; VOROBIiTVV G.A.; KOSTRYGIN, V.A. EativattoA of the impact ionization coefficient In cr7stals. lab.vys. uchob,sarolfiz.no.2tl74-175."-630 (KERA 1615) 1. Tomskiy'~olitekhnichesklt institut imeni Kirova. ,(Ionization) (Breakdowin, Electric)  ACCESSION NR: AP4006824 SIOIZO/63/000/006/0093/0094 AUTHOR: Voroblyov, 0. A.; Mesyats, 0. A..# Rudeako, N. 84 Smirnov, V. A. TITLE:. Pulse generator of steep 150 kv pulses SOURCE: . Priborj* tekhnika eksperlirnanta , nos 61963,'9 3-94 TOPIC TAGS*. pulse generator, hv-pulse generator, steep pulse generator, pulse structure ABSTRACT*., An improvement In the A.rkad'yev-k%rks. surge generator circuit is "described which permits shortening the Impulse front from the ordinary 10-" to -10-0 sec., Parasitic inductance otthe .surge ge,nerator is compensated by a non- inductive (type KOB-3) capacitor In each stage and by a special 150-pf noninduc- tive capacitor co~ne_cted across the test piece. The latter capacitor is briefly described and ite'dasign sketch Is given. The conventional output sphere gap is the most stable switching Is replaced by a needle gap to suppress'os,cillations. Cud 1/2  ACCESSION NR: AP4006824 found to occur when the discharge takes place 6ver a surface of a solid dielectric. Three oscillograx~s illustrate the operation of 'the surge generator. Orig. art. his: 4 figures and a formulas. ASSOCIATION: Tomskiy politekhaichaskiy ins'titut (Tomsk Polytechnic Institute) SUBMITTED: llJan63 DATE ACQ: 243an64 ENCU 00 SUB CODE: SD NO REF SOV: 004 OTHER: 000 4v Card 2/2  Psovy Yu.P.; VOROBIXEV, G.A. Suitable aqtt~rials for vindows in-chambers for studying discbarget'through galwalinder pressure. Prib. i tekh, ekspe 8 noasl?7-YIS ~h-Ap 163. (MM 16:4) 1. Hauchno-iseledovatellskiy, inst#ut yadernykh*isoledavaniy elektroniki i avtozatiki pri TFI. (Electric discharges through gases) (Physical instruments)  ACC NRs AR6010502 SOURCE CODE: AUTHOR: YQrob!.ygv, &. A. i Morch!F~fieA-- UR/0196/65/000/010/JB006/BOOO TITLE: Some quantitative relationships of -electrical breakdown of Elid Welectrics SOURCE: Ref. zh. Elektrotekhnika I energetika, Abs. 10B39 REF SOURCE: 9b.'Proboy dielektrikov I poluprovodnikov. M,-L.0 Enenlyat 1964t 10-21 TOPIC TA GS: dielectric breakdown, solid dielectric, impact loritzation, dielectric strength ABSTRACT: The following problema'are considered: 1) the dependenop of electric strength upon the thickness of the dielectric; 2) discharge propagation; 3) the dependence of the dia- charge time upon the thickness of the dielectric; 4) the diagram of the development of the dis- charge; 5) estimate of the coefficient of impact Ionization; 6) two breakdown mechanisms; w4 7) the br6jcdown stages. It is demonstrated that many analogies exist In the breakdown meo4n ism of solid dielectrics and the air. It should be considered proven that electrical breakdovm of solid dielectrics Is caused by electron impact Ionization. It is indicated that for a better understanding of the processes occurring in electrical breakdown of solid dielectrics, It to necessary to gain a deeper understanding of the effect of the solid structure on the development of the electron avalanche, and the processes of diffusion and recombination. From this atand;t Card 1/2 XI)Cs 621.315.61.016.51(048)  ACC NR1 AR6010502 point, ascertaining the role of point defects TW dislocations In the process of breakdown Is of Interest, R Is also important, by means of direct measurements, to estimate the autoelectron lo emission from the cathode, multiplication 1W, electrons, velocities of the electron avaladche, and the streamer, (Tra~ilatlon of abstract 11'13 illustrations, 3 tables, aDd biblfogmpby Of 54 titles. [Tomsk Poltechnical Institute Im. S. M, Kirov (Tomakiy poUtekbnich. in-t)) A. Petrashko SUB CODE: 20 kh  'AtC.;'NR -'AP706707 SOURCE CODEs W 46/4K/663/00#606iAbC3 AUTHOR::,! Vorobt v 'G.,A.- Rude~ko F j No So T a _4' Kirov e isdi S TOMS i.(F6Ufikhnicfi4skiY inatitut) TITIE Spar chamber I iurnal'. eksperimentaltnoy i teoreticheskoylfiziki'. Platma, v redaktsiyu,-Y. 3, 29 1966,'~61-43 oil TAGS;- 8 k'chamber,. charged particle,, particle track, particle trajecto rY 1"MTliACT The" a t re propose a spark chamber with;three mutually perpendicular!.pairs 44electr'od la e;s'--in'order,to register in spark form the track of a particle moving -arbitr ir6ctionln space. A pulsed voltage of fixed duration and amplitude". a i r ry JV41~30pli ja to W -to e a- h paii-of plates and a time.interval is established between the. te2 a t: of termi atibn of the voltage pulse on the first pair of plates and the AL.- ~-of spp 4tion'of.th6 pulse to the se6ond (with a similar time lag betwedn- ppli 4 c ird'I~Uees). in this way the electric field in the chamber revdraes: a' oil 's e-. thre6 times. To explain the 'operating principle of the chamberp n -three `poai Lb ble detions of the particle track are distinguishedt 1) The partidle l fr6c -is: in k clinal 0* 456 to the direction of the ele6tric field of the first plated 'Pair&'-:, 3164his aptgIA -ranges' a, pulse appUea to the first pair of plates* produces a spark-that4olloV --. t :-inclijabd particle traJectory. 11m second and third pulses UDCt none '6rd 1b  :ACC OR"AP7007671- wil art I _4xe no influence on the ilready-produc~d high-donsity'plasma, because 4t "of tirilr_ short d ation and the short time delay relative to the first pulse, so, a thzM'- he particl density in the plasma will not drop noticeably during th: time 'Of _.V .~d as# ack is inclined 0* - 45* to the act -6yi ~ of, these 2) The particle tr lectrIe fiftcof the sec plate pair..- Application qf the first pulse produces a colmul 'd, * has in a streather chamber) along the particle track. At the some time#. 1'~ ilanc (a i idt a gi' t~on -pulse .-this duration and amplitude is perfectly adequate for produc "f%-Ispark- if.th particle track-,coincides with the direction of the electric field.- an the" second pult qe1d,applied# a spark is produced along the particle track. In case: the - co9ditions - for spark production are better than ir the first , since. the interaction betweeil neighboring avalanches is made much stronger by the larger A~er of-chaigeOparticles in.each avalanche'than in the fire t case; 3) The particl no 45* track is,incli -to-the*electrie.field of the third set of plates. The first voltage pulfie.acts as inAhe second cases The~ second pul-se develops the already-*,oduced kvalances in a direction perpendicular to the first. The third' volt rimental set' age. pulse produces the spark along the particle tracki The expe 14P' is, sh(mn. in'Pigo lo ~ A voltage prulse with'rise time 2. x 16-9 aec# obtained with the cial..gen' I '~_4; aid of aL SO orator, to applied to each pair of electrode-paira by a sepaiate cable.. The, cable'langthe were chosen -such. that the delay between pulses was 50 ~sec. The: dura4lon of . a ch~ pulse, was regulated independently by meanal W three discharge gaps~(nitrogin, 1 atm pressure) placed at the ends of the lines" ahead of the elActroda.,,;7~ plates. ~, The elec rode plates,w4re inaUated.from each I=nrsion tranekorckii,': oil-in a Plixi a Ofi"er with doublevallso I An external air-filled chamber a" 11. , d 2 A . Z Car  SUB CCDEt 20J SU DATj&: 15oct,65 atio. mw t oo2 orH Has 001 Cwd 3/3  NANIYp V.P.; GEGESHIDZE., G.A.; LIPETS p A.U.; LOKSHIN.. V.A.; ANTONOV, A.Ya.; GELITHAN, A.E.; WINA, L.V.; RVBINj V.B. Inventions. Energ. i elektrotekh. prom. no. -50 O-D f65- (MIRA 19:1)   VOWB'Yq.,,_.qt:~~j,,,GOLYNSKIYp A.I.; MESYATSt G.A. Effoct of pressure on the 7ormation of conductivity in a spark in various gases. Zhur.tekh.fiz. 34 no*12:2153-2155 D '64- (MIRA 18t2)  V 0 0 _tT -4 _U,_G.A*; LISEMKAYA, M Development of a discharge in rook salt in a homogeneous field. Piz. tIver. tela 6'no.1213493-3499 D 164 Zl~iRA 1W) 1. Tomaki-y politekhnicheskiy institut imeni Kirova.  VOROBIW, G.A.; LISETSKAU, M.N. Apparatus for studying the development of an electric discharge. Prib. i tekh, skap, . 9 no.3 #175--177 My-Je 164 (MIRA Isa) 1. Tanskiy politeklm.'Icheskiy Ins tituto  VOROBIYEV, G.A.; GOLYNSKIY, A.I.; ROINKO, U.S. . OW Performance of a small-size pulse generator for power supply to a neutron accelerating tube. Izv. TPI Mt 140-141 162. (MMA l7t9)  VOROBfYEV, A.A.; VOROB'YEV G.A.; KOCIUMAYI-Sp T.K. , KOSTIMIN, V.A.; IIEKRASOVAp - L - L.G. Effect of electrodes and the atructura of a dielectric crystal on its electric strength. Fiz. tvar. tela 6 no.5:1560-1562 I~y 164, (MI RA 17: 9) 1. Tomskiy politekhnicheskly institut Imeni Kirova.  a i a 1 -114 .. . ., I. . - . - - I . . i  VOROBIYEV, A. A., doktor fizikc-miatematichesklkh nauk., prof i TOROB'Ex, ITRYGIN, V. A., kand. tekhno nauk' G P kand. takhn. nauk; KO. Dependence of the electr1cal strength of solid dielectrics on the thickness of the breakdown layer. izv. vys. uchob. zav.; energ. ? no.5s!08-110 My 164. (MIRA 17:7) 1. Tomskiy ordena Trudovogo Kraimogo Zrmmeni politekhnichaskiy institut imeni Kirova. Predstavlona kafedroy tekhniki vysokikh napry,azhani.y.  VOROBIYEV, G. A,, kand tekhn nauk Evaltation of theconditions of the distribution of a discharge dielectric in a wedge-plane field with positive polarity of the wedge. Izv vys ucheb zav; energ 7 no. 1:98-101 Ja 164. (MIRA 2735) 1. Tomskiy ordena Trudovogo Krasnogo Znameni politekhnichookiy Inatitut imeni S. M. Kirova,  VPROBIYEVp G.A.' KOCHERBAYEVt T.K. . . ,;Z, Effect of the cathode material on the electrical strength of a solid dielectric. Radiotekh. i elektron. 9 no-3057-559 Mr ,64. (?URA 17:4)  VOROBIYET, G.A. ., - I--- I..-".,-. Operation of the Arkadley - Marks circuit vith a high off- duty factor. Atom. energ. 16 no.21139-Ul F 164, (NIRA 17:3)  AC=ICtT NR: AP4015563 s/oo8q/6k/o16/oo9/o13q/oW AUMCR-. V TnIE-. Operation of the ArksAlyev4farks circuit vith a high duty factor SOUFM Atomiaya energiya,, v* 16,, no* 2,, 1964,0 139L-141 TOPM TAGS: - pulse voltage generator, Arka4lyev-Marks airmdt,, ciretdt duty vator., duty- factor., pulse generator ABS W.=: HEh LVoltage pulses vhich 3;roceed vith. a certedn duty factor determined by the number of pulses originating per second., are very often necessary for obtaining accelerate& beams of charged particlese Pulses vith an, amplitude of hundreds and thousands of Idlovolts are generally obtained frCM a pulse generator as'sembled on the k-rWtyev4Iarks circuit* In comparison vith pulse transformers,, the3e Arkadlyev-1,7pe generators emit pulses with a steeper front., vhich is of great, Importance in many cases, The voltage difference at the pulse Is end AA, should be smaU Iz comparison vith the Vulse emplitutLe In order to ochromatic beans. =a diffevence can be represented by tho valm: k IVQO 3h the case tjolp a= be of capacitance discharge through a lwA,, fte valm of UJ Card  AMMSICH Ms AP4015563 reaftly determined bY C. ti - pWs e duraticn; i-current; and load resistance* When euploying the ArkoA'yev-Maxks*clxcult the capwitance is discharged not m4 througt the load but easo, through the charging elments placed betam the generator stages. A pulDe voltage cenerator vith chorging throu& a resistazm and me vith charging through inductance we evaluated@ Orige arte beat 2 flgmes and U equatIGnso ASSOOMMI: nome Swcam: 2)VUU63 DPM ACQ: 324mr1% EML: 00 Stm CCDB: zoo, PH NO Faw S(Arl 000 1 0()0 Card 2/2..  VOROBIYBVS G.A. Intercollegiate Conference on the breakdown of dielectrico and seruconductors. Izv.vys.ucheb.zav.; fiz,, no,3:191-192 163,(141PA 16:12) 1. Toraskiy politekhnicheakiy institut imeni S.M.Kirova.  VORWYEVI G.A.; GOLIWKIYp A.I.) KORSHWOV, G.S. Oscillographic recording of the frcat of a high-voltage nano- second pulse, Prib, i tekh. eksp. 8 no.3j216-217 S-0 163. (MIRA 16:12) 1. Tomskiy politekhnicheskiy institut,  YWjjIMLj,-W, gq:riy_A)ra;~ ~Lhp doktor fiz.-matem. nauk prof.; HEVATS, Gennafty Andreyevicb. Prinimali uchastiyei USOV, YuiP.; KREISEEV, V.V.; MELF,=Oi MAZEL'i Yeil.., tekhn, red. (Technique for generating high-voltage pulses] Tekbnika formirovaniia vysokovol'trWkh impullsov. ,mosimaj GOB- atomizdat, 1963. 166 p. (MIRA 17s 1) (Pulse techniques (Electronics))  LIPKINJ* S.I.; VQR_OBIYZV G.G. j~ Ke.aping a record of documentar7 materl-alA with the aid of microcards in.pockets on puncb,ed cards, RTI noolls26-27 164, (min :L8 I I)  7 L 19667 5 EWT(I)IJ~WP(q)IEW~(O)IEWP(B)IBP~,hA($)-~ ..t~%~.IFFTCIASDIESD-31 :I,YP(C)/SSD. Pt-4, GO/JD ACCESSION-M.- ~.R3006987 S/0058/63/000/008/E049/EO49 SOURCE. RZh. Fizika, Abs.,SE347 AUTHOR: Noroblyev, A. A. yoroblyev, 0. A. -rin, thd electric br,eakdown-of-a .',TITLE:. Ionization processes ;halide salt ';CITED SOURFE:- -Sb. Fiz. shchelothnogaloidn-kristil 1962, a lov. Riga, 361-364, TOPIC TAGS: electric breakdown, alkali-halide.crystal ionization,- lownsend.mechanism, streamer mechanism.- ~TRANSLATION: Exp6timental results and the main laws oil-the electric lbreakdown,of NaCl,~KCL YBr, and KI,.-obtained at the liiboratories~ of the Toms%iy politekhnicheskiy.instiiut (Toms% Polytechnic Insti- tute), are briefly reported. Discharges ff-om the po-90;1-ve Maly Card 1/3  ION- Is A" .,,Point extend in the directions [111)Land (1101, an'd from a negative along"?[100].;'The average rat6-of dischexge Iin the-case when the point has a positive polarity is larger than Lin the case-of a .negative~oint. Measurement of the currents flowing during forma- ..tion of the discharge shows that the formation of-incomplete-break- down channels in dielectrics is due.to the melting ofthd dielectric', -by the current of the produced dischargei -it is proposed that if :the dielectric has a small thickness (d) from several to several Aozen microns),the discharge has a multiple-avalanche character. -nUllimeter to several microns, bne. .When d decreas6s from tcnths of a -3 observes at a certain value d (on the order of 10. -cm) a,dhange cr in the discharge time t thus indicatin4 a change in the dis- discb" O'charge mechanism in the solid dieliBctrics from the avalanche- streamer type d > d to the mu,lti-avalanche-streamer type d < d. 'cr cr' in the same'manner as in gases on going over from.,th.e Townsend 2/3   VOROBIYEVJ, G.G.; SHKROV, G. [Skrov, G.] Recent data charae'Lerizing the fall of tektites (vItavines) :Ln Czechoslovakia. Dokl. Ali SSSR 161 no.1;63-65 Mx t65. (MIRA 18:3) 1. Komitet po meteoritam AN SSSR i Gheake-Budeyovitskaya astro- nomicheskaya observatoriya~ Chekhoslovatskaya Sotsialisticheskaya Respublika. Submitted October 9, 1964.  Au llfl-;rs Title por I M I r t I A  YCR(IB I YIff , a. G. Behavior of minerals in an electric are flame. UpJaes.min. ob-T& 64 ne.4:466-468 155. (MA 9:2) (Mineralogy, DaterminAUTS)  v0 he 4g" as L'I Z~Al 1"a a 0.'1 'd - - 8 -jig] 8;!J 31. M '!I ffi],11111 I who JIM; Mots Hf- 100W.-M.- 1.4 :SH 40 A 1 . I - - . f ., 1 I I Ib z 3 Ko 0', M . . vi J: -a AN j 3 a . . 10, 0:0 J ~ 16 " a tv  G.G. Gallium in minerals and rocks of Mongolia [with stomary in Briglish]. Gookhimlia noo8:713-722 157. (KM 11:2) (Mongolia-Gallium)  VOROBIYNV# G*Gol NAMNANMRZHO 0. Mongolian meteorites# Mateoritilm no.16:134-136 138- (Ian 11:8) (96WIla-Yetevrites)  b- vo Kt; Ir J C, 41,  vo 'lot U.4 A, ra  YO Investigating the composition of tektites, Part 1, Meteoritika no,17:64-72 159# (MIRA 13:6) (Meteorites)  ,- V()R(MlylCv, ROTKO, II.A. Hongollan riebokite. Zap.Tqes.mjn.ob-v& 88 no.2:198-199 159. (M IM 12 -- 8) (Khangay, Mountains-Riebekite)  3' (1 -AUTHOR: Voroblyev, G. G. 507/20-128-1, 4/58 -TITLE: New Data on Tectites PERIODICAL: Doklady Akadem:U nauk SSSRO 1959, Vol 128, lir 1, pp 61 62 ABSTRACT:' In investigating a large collection of tectites in the Komitet po meteoritam AN SSSR (Committee for Meteorites of the AS USSR) the author detected magnetite globules on some riualite Bpeci-- mens (tectites from Finland), which wore concentrated on thq surfaces. Such formations have not yet been described in pub- lications.-The risalites of this collection are black, round, slightly compressed, and have a characteristic shell-like crack. The surface structure (sculpture) is termed "labyrinth". In the presence of" the above globules also a superimposed marking of micro-slag-shaped structure appears which consists of numerous globular caverns 1-2 mm thick.,biameters of tenths of a milli- meter are less frequent.,These caverns are no more than 3 or -5 mm far from thv surface and include hollow magnetite globules of equal or somewhat. smaller size.,The half-open caverns are hemisphe=ical.Howbver, they are 2evelled by the natural surface of the tectite. New formations of fused quartz were found on Card 113 this plane or slightly curved surface. Further details on the.  NeV Data on Tectites SOY/20-128-1-14/58 structure are briefly discussed. When the globules are slightly magnified under a microscope, they look very much like old rusty cannon-balls. Some of them are strongly oxidized. Considerably smaller fused globules (Size: from tenths of a micron to 10 g) were found by the author in tectites from Indochina on an elec- tron microscope. These are the two most probable assumptions of the formation of tectites: formation in connection with meteo- rite craters and merely cosmic origin. In this way it is pos- sible to explain the origin of the above globules by a specific collision of the tectite substance during fusion. Similar pheno- mena have yet not been observed under terrestrial conditions. In connection herewith, also a large number of magnetite glo- bules with nickel found in large meteorites are very interesting. Investigations carried out in the last years indicate that mag- netite globules (also with nickel) 3-6 g thick (more rarely up to 25 p and more) fall upon the Earth. They probably originate from meteorites, i.e. they are emitted from the meteorite during the flight. Equal amounts are found in industrial areas and un- inhabited regions alike. There are 3 figures and 4 references, 1 of which is Soviet. Card 2/3  Nev Data on Tectites SOV120-128-1-141-08 ASSOCIATION: Komitet po meteoritam Akademii nauk SSSR (Committee for Meteorites of the AS USSR) PRESENTED: May 5, 1959, by V. G. Pesenkov, Academioian Card 3/3  VOROB'YeV, G. G. Cma Geol--Limxal Sci -- ((jiss) "IrivestigatLon c-f' UE-1 com, ositi on of Te,-.tit-:;s -n connection v,itl, 4.,.~ roblem of tl-.-ir or,,,-'n," Moscow, 1960 18 pp,200 cop (Inst. of Ceochem,-str., and Arvilytin. ry im V. I. Vernaciskiy, AS USSY) (KL, 43-60, 117)  eb fj it ff 40 go ft,K OR tr ri  ,-VOROBIYXV9 G.G. ---------- - Chemical composition of tektites and the problem of their origin* Goo)&imiia no.5:427-442 160. (NIPA 1318) L.Inotitute of Scientific and Technical Information, Academy of sciences, U..S.S.ROO KOBODWO (Tektite)  VORCBIMff. G.0. (Hookva) -"I-- Riddle of tektites, Pr1roda no,6:75-77 Ja 160. WRA 13:6) (Taktite)  VOROBIYIC7, G.G. . investigating tha composition of tinktites. Part 2. Vatmaritika no.18:35-40 160. (HMA 13:5) (Holdavite)  VOROBlYrVe O.G. The problem of tektites and silica glaoses. Meteoritika no.19:26-62 16o. (KIRA 13:11) (Tektite)  S/081/62/000/0 J4/029/087 B149/BIOI AUTHORA Voroblytn G. G. TITLEs A method of quantitative spectral analysis of tektites and the silicate phase of meteorites PERIODICALt Referativnyy zhurnal. Khimiya) no- 4, 1962, 10, abstract (Sb. "Meteoritikall no. 20, M., 1961, 185 - 192) 4D141 TEXTt A weighed sample of 0.03 g is mixed with 0.06 g of specially puri. fJed lithium fluoride and with 0.09 g of carbon powder. For.the second dilution variant 0.06 g of the mixture are removed and a further 0-15 9 each of,lithium fluoride and carbon are added. The mixtures obtained arel placed into the opening of a carbon electrode 6 mm deep, I mm. diameter, with walls 0-5 mm thick, and are moistened with a drop of liquid cupferron. The spectra are excited for 4 min in an a.a. are at 5 a with a working span of 2 mm. Two photoplates ar6 placed in a cassettes one of 2.8f'OCs (GOST) units of sensitivity for the short-wave region of a medium quartz spectrograph, and the other of 0-7 unite of sensitivity for the long-wave region. Sy-nthetio standards are prepared from lithium fluoride and carbon. Calibration ourves are plotted as log(S-S versus logCj where 3 is the 1/2 0  S/081/62/000/004/029/087 A method of quantitative spectral ... B149/ 101 density of blackening of the line and 8 is the density of blackening of 0 the-background. The average irrdrAn-detarmining Beg Mg, Un, P) Si, Gat Al, Ca, V, Cut Hat Tit Zr, Rig Co, Crt Sr, Ba is 8.9 ~. The results of spectral analyses carried out in different laboratories and the results. of~chemical and spectral analysisare comparod. [Abstracter's notes Complete translation.1  -,VOROBIYEVI G.G.; -14AMNAIMORZH, 0. Spectrochoblical investi.gati6n of the Noyan Bogdo meteorite of Mongolia. Meteoritika no,22:6o-63 161. (M]W- 14: 11) (Noyan Bogdo region-Moteorites)  STARIKp I.Ye.: VOROBIYEV, G.G.; SOBWOVICH, E,V.; SHATS, M.M.; =KOs S.M. Origin and'age or taktites.--Biul�Kom.po oprfaboavozrogeoisfom. no.5t26-34 162. (MIRA 15ill) (Tektite) (~ead-Isotopes)  S/534/62/000/022/002/002 1033/1240 AUTHORS: Kaduship, A.A., and V A method of investigation of meteorites and tektitas PERIODICAL: Akademiya nauk SSSR. Komitet po meteoritam.* Ifeteoritika, no. 22. I.Toscbw, 1962, 104-109 TEXT: The application of infrared,absorption Rnalysis in chemistry and minerolo;,7 is reviewed. Because of its insensi- tivity to native' metals infrnred spectroscopy ir_-~y be used only. for stone meteorites. The spec~Tometer UR - 10 manufactured by YRri Zeiss of Yena, GDR wr~~ used for analysis. The powders to be Investi6pted were mixed with KBr or NPC1 and pressed in-to tablets. Card 1/2  A method of investig'ition... The particle size should not exceed 5/,a absorption spectr~t-of the non-magnetite rites, tektites, nnd other niturnl Blng3es, There are 6 figures. S/534/62/000/022/002/002 1033/1240 to avoid distortion. The fractions of several meteo- were investignted. Card 2/2  VOROBIYEVI G.G.., kaM.geologo-mineral6gichookikh nauk Expedition wafter' the n'qstery of taktites.0' Nauka i zhizn' 29 no.ns85 N 162. (Tek.tite) (MM 16s1)  LIP=; S,Aol VOROBOYEVO 0,G, Use of punched cardB for informtion retrieval. Preparing . and reading punched cards, M UO-3t40-46 163- (MIn 16:11)  -.VOR.OB"'1EV-j G.G.; LIPKIN, S.A. Use of aperture punched cards for Information retrieval. Bibliographical system for marginal-hole punched cards. NTI no.4t2O-25 63. (KRA 16tlO)   u r a cnnalrlons. n P-  VOROBIYEV, G,G. , Investigating the composition of tektites, Part 4s Spectrographic determination of beryllitm in tektites and some other glasses. Meteoritika no*24t5l-55 164. (MIRA DO)  YAVNELI, A.A.; VOROBIYEV, G.G. Bibliographic system for meteorites on manually operated punch cards. Meteoritika. no.24.-180-193 164. (MIRA 17:5)  VOROBIYEV. G.G. Standard forms of the publication of scientific research works. (Review), Zav.lab. 31.no-3:334-337 165. (MA 18:12)   Uoe o b'Yc- v, C - G OP/ 0 S105Y6010382~0921201061 B006 Boil AUTHORS: -Uryasov, N.' M.1, - Vovenko, A. Sjp -Kirillov, A, D.9 Kim Khi In Kulakov, B, A., Ly I _qj~imovL A. L Matulenkoq Yu, L, Savin, Is A*9 Smirnov, Ye, V.p StrMnov., Lo N~e 9 Chuvilo, 1! Ve TITLE: Channel for Antiprotons With a Momentum of 2*6 Bev/0 PERIODICAL: Zhurnal eksperimontallnoy i teoreticheskoy fiziki, 1960, Vol. 38, No. 2, PP. 445-448 TEXT: The authors of the present taper describe a channel built for the investigat,ion of the interaction of antiprotons in a cloud chamber. Anti- protons were produced by 9-Bev protons in a target. Fig. I is a schematic representation of the channel described in the following* The antiprbtonA were identified from their velooity (P - 0.95) by means of three Cherenkov oountersq each of which was provided with two photomultipliers of the type(~DY-33 (FEU-33) -whose efficiencies are specified In Table 1. The efficiencies attained with different coincidence combinations are given in Tables 2 and 3. Fig. 2 shows a block diagram of the electronic Card 1/3  82019 Channel for Antiprotons With a Uomentuz of B105616010301021201061 2.8 Bavlo Doo6lBoll system, and respective data are supplied In Table 4. The efficiency of the scheme described with respect to antiprotons is found to be 60-40%. Some tests are briefly described next. By the system discus ad here, the authors determined the ratio of the number, of j with moment: of (2-8�15) Bey/o to the number of all remainIng particles (which were chiefly X--Mesons) from the beryllium target ~36g/cm ) 8nder the angles 0 and 7 . and from a copper target (,..180 9/cm ) under 7 withjespect to the primary proton beam (8.1 - 8.9 Bev). At an intensity of 1 p of the inner beam, an average of I i was recorded within four minutes, Results; Angle target proton beam particle num- relative number of anti- intensity ber in the protons in the beam channel 00 Be 109 1000 (1.03-+0.13).10-4 70 Be 109 e400 (1-37�D-18).10-4 70 Cu 109 "700 (2-4?e-53)-10_4 The number of particles recorded in the channel agrees with data concern- Card 2/3  Channel for Antijrotons With a Mo.mentum of S1056 82 201061 '1601038 02, 2#8 Bev/0 B006/BO11 ing 9-Bev proton interaotions in emulsiono (Ref- 4), The inogease in the relative number of antiprotons in the transition from 0 to 7 in the laboratory system agrees vtth predictions made on the strength of the statistioal theory, By con-~idering pion absorption (at- 30 mb) and anti.- proton absorption (11t- 60 mb) as well as the attenuation of the beam of primary protons (d in " 30 mb), the ratio of the differential produotion cross sections of j and %--mesons lith 2.8 Bev/o under 00 in the laboratory system is found to be d2d- /d I P x F:;~r 1 5 -10-4 d!Rdp , TQ_dp There are 2'figures, 5 tables, and 4 references: 3 Soviet, 1 Italiant and I International (CERN)o ASSOCIATION: Ob"yedinennyy institut yadeFnykh issledovaniy (Joint Institute of Nuclear Research) SUBMITTED: September 3, 1959 Card 3/3  S/120/60/000/01/046/051~ AUTHOR: Voroblyev, G.G. E192/E382 TITLE: -A-~ffVffer_en_tia-lPneumatic Spark Valve PERIODICAL: Pribory i te~ihnika eksperimenta, 1960, Nr 1, pp 141 - 142 (USSR) ABSTRACT: A cross-sectional diagram of the valve is shown in Figure 1. The device consists of; 1- dural tube; 2 - a glass body; 3 - upper dural plate; 5 - a dural cover; 6 - a tightening ring made of rubber; 7 - a rubber tightening plate; 8, 9 explosion chambers; 10 - a brass ring electrodel 11 a tightening bushing; 12, 13 intermediate electrodes made of tungsten; 14, 15 triggering electrodes made of tungsten; 16, 17 a terminal electrode; 18, 19 - electrode supports made of brass; 20, 21 - brass contacts; 22, 23 - terminal bushings, 24 - "directional" bushing; 25 - a shock absorber made of rubber; 26 - a brass gland; 27 - a lead. If the valve is open, the compressed air from the volume V I (figure 1) pushes the tube I together Cardl/2 with the plates 3 and 4 in the direction of the volume  s/i2o/6o/ooo/o1/o46/O5l A Differential Pneumatic Spark Valve E192/E382 V If a spark is produced in the chambers 8 and 9 tfle air in the chambers and under the plate 3 is instantly heated and its pressure is increased. 'The action of the pressure on the plate 3 is such that the valve becomes open. If the valve was supplied with an operating pressure of 6 atm a reliable operation-was obtained by discharging a condenser having a capacitance of 4 IiF which was charged to the voltage of 5 kV. The main parts of the valve are illustrated in the photograph of Figure 2, while the electric supply circuit is shown inTigure 3. The author expresses his gratitude to I.V. Chuvilo for his constant interest and help in this work and to E,A. Kartintsev for participating in the design of the valve. There are 3 figures and 3 referdnces, I of -which is English and 2 dre Soviet. ASSOCIATION: Oblyedinennyy institut yadernykh issledovaniy (Joint Institute of Nuclear RGBearch) SUBMITTED: January 12, 1959 Card 2/2  ~VOROBIYEV GOG .. sing punched cardi in studying the problem of tektites. Mateoritika no.22sl57-161 162. (MLU 15:8) (Punched card systems) (Tektite)  PROBIUVI, GOGG Use of punched cards in industrial and research laboratoriesj .survey. Zav.lab. 28 no.3s3l6-323 162. OCMA l5j4) (Punchid card systems.-Chemistry)  LIPKINp S.A.; VOROBOYEV., G.G. Photographic methodo uoed for tho acc=ulation of laboratory data, Zav,lab. 28 no.lOtl223-1224 162. (MM 15:10) 11 Vaesoynnyy institut nauchnoy i tekhnicheskoy informatsii. (Punche&~*xd eystems-Chemistry) (Microphotography)  .VORUBIYNV, Me - ........- Identification of minerals b7 spectrum anal7als. Y1z.sbor. no.4:3713-381 158. (HIRA 12:5) I& VnenoyuzW nanchno-isaledovatel'skly inetitut neftyanoy promyshlennooti. (Mineralogy, Determinative) (Spectrum analysis)  K.I.; VORUITBV,.G.G.: ORLOTAI M.L Spectrum analysis of the ash of spent motor oile, scale, and deposits, Khim.i tekh,topl,i meal 5 no.5:50-56 My 16o. (RIBA 13:7) 1. VsesoyuzWy naucbno-iseledovateliskiy institut po parerabotke nefti I gazov i polucheniyu iskusetvennogo zhidkogo topliis. (10brication and lubricants-Analysis)  VOROB I W G. G. Use of punched cards in the decoding of emission spectra. Zxv. (MIRA 3.4. 10) lab, 27 no.2o.-:L264-i268 161. 1. Vsesoyuznyy nauchno-iseledovatellskiy inotitut po pererabotke nefti i gaza. (Spectrum analysis)  ITESVIREMKOP Tu,A. (Moskva,, Taganskaya ul,, d.24, W.46)1 PANIN, Yu.11.1 Elactrostimulation of the heart; experimental data. Grud. kh1r.. 6 no.1;28-31 Ja--F 064. (MIRA le~jjl) 1. Gospital*naya khirurgicheekaya klinika lachabnogo fakulftota (zav. - prof. V.S. Yayat) IT MoskovsVngo meditalnskogo insti- tuta Imeni Pirogova. Submitted recamtmr 7, 1962.  VOROBIXEY, Georgly Iyanovich; TIKHONOV.A, Ye.M., red,,; GUPJ'.VICH, H.M.., tekhn, red, [Kuban's new frontiers) Kuban! vykhodit na novye rubezhi. Yoskva,, Izd-vo velvkboz,liV-ryp zhurnalov i plakatovp 1961. 101 P. (14IRL 14: 11) (Kuban-Agriculture-Fconorde aspecta)  VCROBITZV. Georeiy Ivnnovich [Seven-year plan for Udmrtial Semiletka Udmurtli. Izhevek, Udmurtskoe knizhnoe izd-vo, 1959. 100 P. IMIRA 13:2) (Udmurt A.S.S.R.-Sconomic conditions)  YOR.CBIUV, Georgiy Ivanovich (Work organization and wages in vegetable gardening) Organizateiia i oplatu truda. v ovoshchavodetva. Leningrad, Lenizdat, 1957. 173 P. (MIILI 12:4) (wages) (Vegetable gardening)  ORLOVp S.I.1 KOIMOGOROV, V.L.; ANTIPIN, S.V,j ZAVAROV, S,I.; SOLOVIYEV, B,P,; VOROB IYEV.'. -G'.M. ;- KIRCHUNOV, , A. I. Introdixct~14)n of sectional draw-nlates for the manufacture of low- carbon. wire-etftls Metallurg,(.10 noolOt28-29 0 1654, (MIRA IWO I* Uraltakiy nauchno-issledovatel'skiy institut chernykh wtallov i Revdinskiy metizno-metallurgiche'skiy zavod.  V(:RCBI)TV, G34M." TICI,~U-7!'I, V.-To Use of the 5t,?-rwet,Yll 4f, polle Lie nc.3;4~--4~7 165. gcsud.,L,.-~;t:venriyy 3~0-'Ietlya  10 TARARIN,, S.V.; VOLIBM, A.A.; AFONIN, V.T.;..VC(RCBIYEVv 0,M,; TITOV, M,I, ~ ~ Influarte of the operation of changing the contact pins to autmatlo control of elsotrol7ticr calls uith a side aupply of c=ent, TSv6t. met, 38 no.lls806-84 N 165, (MIRA 18111)  VORC�_~EV,.,G.M..; GRECI*TYY, YA.V.; KOTGVA, L.I.; SE-MEV, I.P. I Comparison of various methods of measuring tbo textural perfection of cold-rolled transformer oteel. Zav. lab. 31 no.8:983-986 165. (141P/, 18:9) 1. Dnepropetrovskiy metallurgichookLy Jnotittit.  VORODIMP 0,14.1 W1,13MVP R.M.; MAURITS, I.S. - I,-,- . - 'ba - ppi-ttles of ailimiln. Eff-rict bf inFarities rin thp -si" mp,~hanical p-3 (MIRA 18:6) T5vet.met. 38 no.3:8.1-86 Mr 165.  SOV/124-58-11-13532 Translation from: Referativnyy zhurnal, Mekhanika, 1958, Nr 11, p 223 (USSR) AUTHOR., Vorobl yev, G.. M. TITLE: Notch-toughness Behavior of Aluminum Alloys of the Solid-solution Type (Udarnaya vyazkost' alyuminiyevykh splavov tipa tverdykh rastvorov).1 PERIODICAL: Tr. Vses. n. -i. alyurnin. -magn. in-ta, 1957, Nr 40, pp, 294-301 ABSTRACT: It is shown that 1) binary single-phase Al-Mg alloys have an inflex'ion point on the notch-toughness vs. concentration curve, 2) hardening of the alloys by means of quenching and aging does not change that relationship, and 3) natural hardening of an Al-Cu alloy ensure a more elevated notch toughness. V. M. Kardonskiy Card 1/1  VOROBIYEV G.M. Methols for determining the value of crystal lattice and mosaic block dlstort~ons based on Fourier coefficients. Zav. lab.27 no.6:686-689 161. (KIPA 14:6) 1. Dnepropetrovskiy gosudarstven" universitet. (Crystal latticels