SCIENTIFIC ABSTRACT VASILYEVA, M.YA. - VASILYEVA, N.I.

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SCIENTIFIC ABSTRACT
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E.S. -..NR:. 12315 PP~~i-42r/z-,W,02 C44,' W~, OM/ C SION AP5404 I" a~, S011 AT,-- Kay~qev A-. As TITa: -Plasma noise of a high-freqii-nr-y discharge in a mqgaetic fipld 7, no. 5# 1964p 8114-81*7 TOPIC TAGS: plasma osciUation, h-l;Fh frequency plassma, high fri-qiien-y div-hax~e ABSTRACT! The authors ,)resent data on noise arising In a high- frequency iischarge ir a mag:netic f.'eld. The discharge was ex-Ited in a glass -ylindri-al tub, with inrif~e diameter Z.~ cr. and vith 72 cm between electrodes. A flat va-LI prob,! waA placed in the oentr::Ll pert of th(, t-tr- I-ho a1tprnntinw. vr)1tk)_vf- wi t. h. r ~rr ta Thr Pis. xAiP rnrA Hg. ieaX Y~Llvv w4s A mainLaln the gas presauye congtrunt 1 rth- -x por i mpnta-1 tube. rhp noi8c w~jr, rr--- gist-red vitt- EL hij#i-frequency Apiert- M' FQ du~'~ pftbe Card- ].,/g the- Woe - -The-experiments haVes-slud-~M t1fat__Weh__the etic field magn riGes abave a critical value, noise Gets in abruptly, vith a spectrum ranging from several dozen kilocycles to several mpracyrles, The noise upectrim has a pent at low fr-querv~ies, with a iridt~, -v~-[L *.Pnt'IE ~r a Meqa~,Y-lp. 7hp ma--irrim 'hr -r!ti-a, crease in voJLZ,&ze -ausps a sudr*en in the -riti a-1 raafm i ri-11. Tale It r-!..., ir~ ~-, -P -~ h P c-.;,v ' d i F; SP. t ; tr - ~ n S t aI ~ Y &n ' r-h mpgr P t p ~ risma ro,~S; -1,V - - ; . , - , i G _" , ~,i- i _-~ ;,ii~ j. z_;z i - buwiu uo c i -"at i ov a e,,7 reas e aurig. az-t. nas.- 1 figure and 2 tables. ASSOCIATION: Moakovskiy gosudarstvenny-y universitet (Moscow State univerai-,4) GURU= - 27J wi64 Elicl,: 00 CUB CODE, Mk; UR REF SOV., OOF- "I= 240) SOV/48-23-8-13/25 0 AUTHORS: Vasillyeva, M. Ya.,_.Zaytj3ev, A. A., Andryukhina, E. D. TITLE: Waves of Charge Density Oscillations in a Cylindrical Plasma PERIODICAL: Izvestiya Akademii nauk SM. Seriya fizichookaya, 1959, Vol 23, Nr 8, PP 995-998 (US,511) ABSTRACT: For acoustical waves which may develop in an ionized gas and for the associated electrostatic oscillations of positive ions, equation (1) is given in order to calculate the frequency of ionic oscillations. As shown by the present puper, wavelike processes may be observed in the plauma of the positive column at low gas pressure migrating from the cathode to the anode. Ionic oscillations may be observed only if anode oscillation is absent. The following problems are discussed here: 1) Does a low limit of pressure exist where no anode zone is present? 2) Does any form of wavelike processes exist in colunns without anode zone? If at all, of what kind is their characteristics? The experimental arrangement is shortly described to determine th~ oscillations by means of a photoelectronic multiplier and an oscilloscope. It was found that the anode zone in helium Card 1/3 disappears spontaneously at a pressure of below 0.9 torr and , 1 30V/40-23-6- 13/21, Wtiven of Chnr#ro Donvity Oticillations In a Cylindrical Plasma at currents of less than 60-120 ma. The dependence of the brightness oscillation amplitudes in the positive column on the frequency may mean the presence'of a resonance frequoncy (Fig 1). Table 1 showo the length and r(juonance of tho z~)nvu and, by calculation 'rom them, the propagation velocities of the anode zone in helium at different pressures and for dif- ferent tube diameters. It was found that for defined conditions in helium (0.01 torr) the positive zone expands throuehout the tube, and wave processes may be observed wh'.ch migrate from the cathode to the anode. The results of meauurement summarized in table 2 show that frequency enlargening diminishes the length of the cathode zone. The temperature of 205.103 OK in helium at a pressure of 0.01 torr and a current of 30 ma was determined by means of a Langmuir search electrode. on the basis of these data the velocity of waves was calculated. Finally, similar experiments on argon and xenon are described with the disappearance of the anode zone at prei;sures of 3-4-10- 3 torr. The temperature amounted to 84-10 5 oK under the Card 2/3 above conditions. There are I figure, 2 tables, and 6 ref- 5OV/48-23-3-13/25 Waves of Charge Density Oscillations in a Cylindrical Plasma erences, 2 of which are Soviet. ASSOCIATION: Moskovskiy gos. universitet im. M. V. Lomonosova,Fizicheskiy :akulltet (Moscow State University imeni M. V. Lomonosov, Department of Physics) Card 3/3 21(7) AUTHORS: A. A., Vasillyeva, M. Ya., SOV/56-36-5-58/76 Zaytsev , Inev, V. N. TITLE: On a Possibility of Determining the Potential'in the Plasma Space From the Characteristic of Noises Occurring in a Gas Discharge (0 vozmozhnosti opredeleniya potentsiala prostranstva plazmy po charakteriatikam shumov, vozbuzhdayemykh v gazovom razryade) PERIODICAL: Zhurnal eksperimentallnoy i teoreticheakoy fiziki, 1959, Vol 36, Nr 5, pp 1590-1591 (USSR) ABSTRACT: As the usual probe-method by means of which potential determinations in the plasma t.re carried out is connected with numerous difficulties, tha authors of the present "Letter to the Editor" suggest that the noises occurring in a gas discharge be recorded and that conclusions be drawn from their characteristic as to the course of the potential. In gas-filled tubes with a glow cathode noises with amplitudes of up to 1 v occur with discharges in wide frequency ranges (kilo-megacycles). The authors carried out noise measurements in the probe-cathode range in cylindrical Card 1/2 tubes with oxide cathode by using the noise meter IF-12M. On a Possibility of Determining the Potential in the SOV/56-36-5-58/706 Plasma Space From the Characteristic of Noises Occurring in a Gas Discharge As filling gas krypton was used within the pressure range of from 0.01 to 1 torr; the discharge currents were between 6 and 140 ma. Figure 1 shows a typical probe characteristic and the corresponding noise curves, figure 2 Bhows potential distribution along the discharge axis determined by the usual as well as by the "noise" method. There is good agreement between the curves. There are 2 figures and 4 references. ASSOCIATION: Moskovskiy gosudarstvennyy universitet (Moscow State University) SUBMITTED: January 14, 1959 Card 2/2 24-0), 90) ,)OV/20-127-1-16/65 AUTHORS: 7,aytsev, A. A., Vasillyeva I Ya. TITLE: The Investigation of the Formation of Mobile Layers by the Method of Perturbations (Issledovaniye formirovaniya podvizhnykh aloyev metodom vozmushcheniy) PERIODICAL; Doklady Akademii nauk 333R, 1959t Vol 127, Ur 1, pp 63-66 (USSR) ABSTRACT: For the investigation mentioned in the title the positive column in the transition state from the homogeneous to the layer-like shape must be investigated. In a previous paper by A. A. Zaytsev (Ref 1) it was shown that by the superposi- tion of oscillation from without over the steady discharge (which, in the case of a lacking foreign interference, is characterized by a homogeneous positive column), artificiall., mobile layers can be caused and maintained. This is, however, possible only if the positive column, due to the peculi-ariti-03 of the proceasaa tnkinj-, place in it, has a tendency to fray out. The mobile layers may be formed by a 9in.,le perturbation of the discharge statot but in that case the layers formed immediately become blurred and vanish, so that the positive Card 1/4 column immediately returns to the original (i.e. homogeneous) :;07/20-127-1-16./65 The Investigation of the Formation of Mobile Layers by the !!ethod of Perturbations shape as time prot-,reases. It is upon this fact that the investigation method employed in this paper in baned, for the authors uno the method of pule, perturbationi. The tension pulses (of rectangular shape with a width of 1 4sec and a frequency of 50 3ec-1) are trnnamitted either on to cylindrical probe or on to a metal ring (which may be 1if- ferently orientated with re,3pect to the cathode). The trarisi- tion processes in the positive column were investil,,-ated b.,- means of a photoelectronic multiplier and a catho3e oacillo- graph with "waiting development". Experimental difficulties are briefly montionod. In helium tind at presourezi of 1 torr the positive column in of homogeneous shape in the rringfi of low amperages. Below the critical amperage of 110 ma the positive column has oscillations of the bri--htneS3 Of luminescence with decreasing amplitude an a reoult of perti.irbationo. The degree of oncillation damping dependn on ampera[;e. The more amperage differs from critical ampera,-,e, the stronger damping will be. At an amperage of more than Card 2/4 6 ma, the oscillation amplitude no lonj-;er decreasec to zero SOV/20-127-1-16/65 The Investigation of the Formation of Mobile Layer3 by the ?Iothol o!" Perturbations in the intervals of time between the successive pulses. In the state which is a near approach to the threshold of the spontaneous occurrence of mobile layers, oscillations are damped only very slowly, as Vint, under these condition3, seconds are necessary for the oscillations to vanish. The attached figures show varioiis oscillograms. I--mediately con- nected with the motion of the layers, is an oscillation of the anode fall with the frequency of the mobile layers. Therefore, a current oscillation in the discharge circuit always occurs whenever the positive column contains mobile layers. The action upon the cathode range is not the basic condition necessary for the artificial excitation of the layer-like state. Experiments show that layers are formed if pulses are applied to Vie probe which is at a sufficient- ly large distance from the cathode. This is always brou:;ht about in such a manner that the layer-like shape of the column forms with some delay towards the side of the anode. In all cases the velocity of the "stratification wave" Card 3/4 was greater than the velocity of the motion of layers. The SOV/20-127-1-16/65 The Investigation of the Formation of Yobile Layers by the Method cf Perturbations ,, stratification wave" decreases in the order He, 11e+H Ar+H(;. There are 2 figurea, I table, and 3 Soviet referenceo. ASSOCIATION: Tylookovskiy gosudarstvennyy universiteta im. 1.1. V. Lomonosolla (Koacoyi State University imeni M. V. Lomononov) PRESENTED: March 12, 1959, by M. A. Loontovich, Academician SUBMITTED: March 11, 1959 Card 4/4 836og S/056/60/038/005/042/050 B006/BO63 AUTHORS: Zaytsev, A. A., Vasillyeva LA.-IM TITLE: The Relationship Between the Vibrations and the Rate of Loss of Charged Particles in a Cylindrical Low-pressure Plasma Placed in a Longitudinal Magnetic Field 1~ PERIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fiziki., 1960.. Vol. 38, No- 5, PP. 1639 - 1640 TEXT: The principal purpose of the present work was to investigate the lasma oscillations of a positive column placed in a constant longitu- dinal magnetic fie d. Besides, the authors studied the effect of this field upon the electric field strength along the column and the diffu- eion current on the walls of the discharge tube. The latter had an in- ternal diameter of 2 cm, an electrode spacing of 90 om, and was filled with He (0.2 - 0.05 torr). The plate current could be varied between 50 and 350 ma The gas had an ionization degree of 0.1%. The discharge tube was placed in a solenoid in such a manner that the ends carrying the cathode and the anode projected by 25 and 15 cm, respectively. The Card 1/3 83609 The Relationship Between the Vibrations and B/056/60/038/005/042/050 the Rate of Lose of Charged Particles in a Boo6/w63 Cylindrical Low-pressure Plasma Placed in a Longitudinal Magnetic Field magnetic field strength varied from 0 to 295 koe. Without a magnetic field, the discharge had a noise of 103 _ 106 cps. The magnetic field increased the noise and affected its spectrum. A critical field strength gave-rise to sudden oscillations whose intensity was 10 to 15 times higher than that of the noise level. The pulse height of these oscilla- tions at the.eleotrodes reaches 7 - 10 v. This critical field strength is independent of the current but increases with pressure; p 0.05 0.07 0.1 0 2 I~orrj Hcr 750 990 1400 1~30 [061 - Simultaneously with the occurrence of the oscillations, the anode plate current abruptly drops by 5-8%. Fig. 1 shows the results of measure- mente of the effect of the field on the electric field strength, carried out by means of a probe. The results of measurement of the effect of the magnetic field upon the amperage on the chamber walls are given in Fig. 2. A few other details of the oscillations are discussed. The au- thors believe that the kind of oscillations observed and the increase Card 2/3 836og The Relationship Between the Vibrations and S/056/60/038/005/042/050 the Rate of Lose'of Charged Particles in a B006/BO63 Cylindrical Low-pressure Plasma Placed in a Longitudinal Magnetic Field of the effective rate of the loss of charged particles due to diffusion are caused by a macroscopic displacement of the plasma filament within the magnetic field. Thereare 2 figures and 4 references: 1 Soviet, I US, and 1 British. ASSOCIATION: Moskovskiy gosudarstvennyy universitet (Moscow State SUBMITTED: January 21, 1960 Card 3/3 V" S/109/62/007/003/025/029 D256/D302 AUTHCRS: Zaytsev, A.A., and Vasillyeva M. va TITLE: Striated Positive colui.,in of -as disc:arEe in a 31 onr,i- tudinal -,.agnetic field U 1`-_"IR'IODICA1j; Radiotckhni'"-a i elektronikap v. 7, no. 3, 1962, 557 - 565 TEEXT: The study was conducted in order to exanine the diffusion to the vialls in the process of decrease of the nu;:iber of char,~;ed particles in the plasma. If tziv nechanism of appearance of stria- 'Llions was controlled by the process of diffusion one viould expect -uo observe changes in the velocity of moving striations of the po- sitive column and in the character of the stationary striat.-ions un- der application of the !onzitudinal magnetic field. The following measureiiients were performed: 1) 'I"he velocity of the striation '-.,.,a- vel in the position column of helium discharge; 2) The lenGth of stationary striations in hydrot-en; 3) The length and the f"requency of non-stationary striations i~ helium and in a mixture of argon Card 4237 S/109/;f'2/G07/GG7J/G25/1V29 Striated positive column of gas ... D256/DjO2 with mercury vapor. The expe2imental method ,,ias that described pre- viously. In addition the discharEe tube w..s placed in th~e ma'-ne-tic field of a solenoid coil and light from the iocal reglion under _Jn- vestigation was directed on to a phtoelectron-multiplier tube and recorded. The nagnetic field was varied up to 1200 gauss, and the pressure from 0.4 'to 1 mm 119. Pulses of 0.2 Ii sec duration -.,ere 14 applied between a rinc, round the tube and thQ c--",I,.ode a' a r tion rate of 50 1/sec in order to attain tr6ansition from a uniforn helium colurm to a striated one. The Dresented results reveal a '-.~e- of the Dattern of the striated discharge upon the magnetic kield applied; i! was found that thle .-ia~;netic I'Tield increases the length of the striations decreasing their frequency and velocity. T.',e results are shown to be in ar-reernent with the nrodiction of an anDroxinate calcuiation expressin'g' the length of the striations in Uerms of diffusion. Th.ere are 6 figures, 3 tables and 19 refere-ne- es; 8 Soviet-bloc and 11 non-Soviet-bloc. '1'he 4 most recent rences to the English-languar-e publications read as follows: H. tother, Ann. Phys. 1959, 49 7Y 373; X. Vlojaczek, Ann. Phys., 1958, 2, 1, 2, 68; R. Bickerton and A. Engel, Proc. Phys. Soc. B, 1956, Card 2/3 ~;/l 09 ,/62/007/003/o25/029 Striated Dositive colu---. of ~-as D2-6/-j-,G2 69v 4,468; A. Stewart, J. Appl. Phys., 19506p 27, 8, 911. ASSGCIATION: Fizicheskiv fallculltet 17,'oskovsko-o (:,o*udarstvcnro,ro universiteta ini. I.I.V. Lor:ionosov,,.,, lcafQdra clektroniki (Paculty of Physicz; of the Moscow St,,lto University im. M.V. Lomonosov, Department of E'lectronics) SUBMITTED; July 14, 1961 Card 3/3 L 3R-100-66 1-:','T (1) ACC NRo AP6029724 AUTHOR: Zernov. D. V. Spasskiy. B. I.; Ullan SOURCE COM UR/0109/66/011/C'05/0966/0967 Timofe-yev, P. V ; Fursoy. V. 9o; Migulin. V.-V G UWal t r. R. A.; Grogdover. S. D.; Shema-vey. A. M.; Sol Te.; DI ininfA, Ku&oynjkoy. A. A.; Zaytsey. A ".; Vm1j.!;Mya- M. Yap; Mitsuk. V. Ye. M.; Zholud ORG: none TITLE: INikolay Al;-ksandroyich Kaptsovi SOURCEs Hadictekhnika i elektronika, v. 11, no- 5p 1966p 966-967 TOPIC TAGS1 electric engineering personnelt magnetronp klystront corona disahargep gas conduction, gas discharge plasma ABSTRAGT: N. A. Naptsov passed avay 10 February 2966, He was a student of the famous P. N., IAbedovj, and performed w=t-. fundamental investigations 'in the dovolopmwt of modern oloct-rMiM He ww the creator and leader of the chair of electronic3 of Moacow State Vni-e ~it # He developed the can- cept of phase grouping of o1 trons, His ideas are the ba33.j for the dewelop-), .zent of the klystron 6He developed the concept explaining the phanomonon of corona discharge. He also developed ideas connected with .formation of gas conduction and phenomena In a gassou3-discharge plasma. Kapt4ov served for yeara as the head of the pbjysical laboratoz7 and *on- sultant to the Mo3cow Bleotron Tube Hg w" the Author of wMarva books., includin *Pb7sical Phenomena In Vaaw= and in Oamp which w= .trawlated Into f0reign 2anguagoal be also created md t&A&t wasamom electronics courses. 1JPRS: 36,5011 SUB COM 051, 09 / BOX DATE: none ACC NRi AP6002283 SOURGS CODES Uk/0168/65/OW/006/0003/0012 AUrHOR: Vasillyeva, M. Ya.; Zaytaev, A. A.; Miskinova, N. A. ORG: Department of Electronicap Moscow State University (Kafedra clektroniki kloskovskogo universiteta) TITLE- Effect of a readily ionizing gaseous admixture on mobile strata in inert gases and separation of helium-hydrogen and noon-hydrogen mWures SOURCES Moscow. Universitot. Vestnik, Seriya III. Fizika, astronomiyap no. 6, 1965# 3-12 TOPIC TAGS: gas mechanics, gas kinetics, gas flow, inert gas, ionized gas, helium. neong argont hydrogen ABSTRACT: In order to study the effects of hydrogen admixtures on the existence of_. moving strata in Ne, He, and Ar, and in binary mixtures of inert gases (He-Ar, He-Kr, He-No, and Ne-Kr), the authors conducted these investigations, taking Into consider- ation the fact that such studies are complicated by the separation of the mixture com ponents. This required additional studies of.the time and rate of the establishment of a stationarystate of separation In NO-H2 and He-H2 compounds, characterized by the equi~-ibrium between the direction of motion of ions of the readily ionizing component toward the cathode and the diffusion which counteracts soparation. The investigation were conductdd with spectrally pure No. He, Krp and Ar in sealed tubes with an Card i /2_ UDC% 537.561 533.Z7 VeCN-R-s-A-P-6-0-022-8-3- ,iLidirect heating oxide cathode, and a conical anode. The length of the tubes was 60 cm and the diameter varied from 8 to 28 ram. A hydrogen generator, consisting of a! nickel cylinder filled with titanium hydride sponge, saturated with purified hydrogent; supplied the necessary hydrogen. The pressure of the hydrogen reached 1.5 mm Hg. Thel moving strata were observed by means of a rotating mirror and a photomulitiplier, whose signal was fedinto an 10-4 oscillograph. A stabilized rectifier, supplied up t 1.2 ampere of discharge current to the tube. The pre3auro of tha basic gas during the measurements was 1-21 mm Hg. The results showed that moving strata exist in purs inert gas up to the upper boundary current. The magnitude of this current drops as the pressure increases, except in No where at a pressure of 14 mm Hg the current reache3 500 ma. By adding H2 the area of the homogeneous column expands toward the anode and a further addition of hydrogen makes the column completely homogeneous. All this is related to the separation ct the Ne-H2 system. The authors conclude that the addition of hydrogen to helium, noon, and argon eliminates the moving strata. 2-4%*of readily ionizing admixture is most effective for-inhibiting strata in binary mixtures of inert gases. Orig. art. hast 5 figures and 7 tablesp SUB CODEs 07 / SUBM DAM 02JunW ORIG REF%'006/ OTH REPI 004 SHVILKIN, B.N.; VASIL'YLVA, !-:.Ya.; Plasma noise of a high-fre.-l-en,--y Izv. wjo. ucheb. za-,,.; radir)"',12.. 7 1. Moskovskiy gosudarstverm-,71 univEitsitet. YERMOLAYEVA, Ye.A.; KOZLOVA, N.A.; BATSKA, P.; SHILOVA, M.A.;-_VASILYEVA, M. Ye. ------------ Effect of maleic hydrazide on photosynthesis and carbohydrate metabolism in plants. Trudy Bot. inst. Ser. 4 no.15:120-131 162. (KRA 15:7) (Photosynthesis) (Growth promoting substances) (Pyridazinedione) BEMSHITEYN, M. Kh.; YABKO, YaX.; ZAYONCHKOMM, A.D.; VjSjjNEVSKAYA, M.P.; LEV, M.V.; SIRTS, A.L.; KOChTTKOVA, I.V.; VASIL'YEEVA, M. Ye. Toe-puffB made from thermoswLting and thermoplastic polymera. Kozh.-obuv. prom. 7 no. 10:18-212 0 165 (141Tik 19:1) I -.. - VASILIYEVA, M.Ya.; ZAYTSEV, A.A.; MISKINOVA, N.A. Effect of a reaOily ionizable impurity on mobile striations in inert gases andthe separation of mixtures of helium &nd neon with hydrogen. Vdat. Mosk. un. Ser. 3: Fiz., antron. 20 no.6: 3-12 N-D 165. (MIRA 19:3) 1. Kafedra elektroniki Moskovskogo universiteta. Submitted June 2, 1964. VASIL'YEVA, N. 91ffIiciency promoters exchange frl--,~tices. Pozh.delo 9 no.12:22-23 D '63. (MIRA 17:1) VASILOYEVA, N., instruktor-letchik Taking past errors into account. Kryl.rod. 12 no.6:25 Je '61. (MIM 14: 6) (Airplanes--Piloting) VASILITEVA, 11. '. Advanced trAining for Personnel working in childrente hooese Nedesestra 17 no.8:29-~4 Ag 158 (MIRA 11:8) (ORPMS AND ORPHANAGES) KOZACHERKOP I.; VASILIYEEVA, N. Good friendship. Prof.-tekl. obr. 21 no-9:32 S 164, (Mll R~ 17: 11) 1. Direktor gorodskogo professionallno-tekhnicheskogo uchillshcha No.4 g. Rostova-na-Donu (for Kozachenko). 2. Pomoshchnik direktora gorodokogo professionallno-tekhnicheskogo uchiliBhcha No-4 g. Rostova-na-Donu (for Vasillyeva). TASILOIZVA,.)i. .. I.IjlAshkin; 1832-1898. N.Vasilleva. R&b.1 sial.33 no.1:23 J& 157.t*, i-r- (KLM 10:2) (fRilshkin, Ivan Ivanovich. 1832-1898) VASIL'YEVA-._N. Always with the people: on the 80th anniversary of TSiatka'm birth. Rabi sial. 32 no.7:16-17 JI '56. (MLRA 9,8) (Pashkovich, Aloiza, 1876-1916) _-VASILIJNY~t . 'On the roads of Rumaniaw by Z.Khiren. Reviewed b7 N.Vasilleva. Sov.voin 38 no.17:14 S 156. (MLRA 10:1) (Rumania-History) VASILI MIVA, 1. %..... -.. ~ A groat and usoful friondship. 4y.profoolur 5 no.1,04-35 -Ta '57. (NLRA 10: 2) 1, MrAoshnik-moilellyer fabriki wSkorokhod.0 (Csockeelevaklew-Shos Industry) VASILIYEVA, N. These are our worries. Pozh.delo 8 no.2:3-5 F 162. (MIRA 15:2) (Fire extinction-Societies) VASILIYEVAP N, Coxforence of readers of the journal 'Plastichev3de m2ns7.1 Plant. massy no.11:76 162. (MM 16: 1) (Plastics-Pariodioals) VASILIYEVA, N.; KAZIMIN, N.; ULIYANOV, V. Resolutions of Women's Councils. Fozh.de1o 8 no-3:6-7 Mr 162. (MIRA 1524) (Tambov Province. Wo n in public UfO) (Fire prevention) BOJARCZENKO, Michal [Boyarchenko, Mikhail] (Moskva)i WASILEWA, Natalia (Moakwa) High-speed magnetic amplifiers, Arch1w autorat 4 no.3/4-. 243-252 159, (EEAI 9:7) (Magnetic amplifiers) V b 6' - - - ''. "'. I I --- . , /I T, I " IDALIJU! # 11 . F- , , A. F- I a-11-1 WI;11. I W77111 "1 111. . - -- - - 4. - --- --- - _;;- .-I --- --- "Daily Periodicity ot Adsorp'tive CaFacity in rlants and Its Connection with the rerme-n-tative Synthesis of Sucrose," Dok. AN, 57, No. 5, -19,47 h. --d t -11 .4 d VASILfYEVA, N. A., and ?,(OROZ(Y,, N. S. "Paleogene Deposits of the Basin of the Bopucharka and Tikhaya 'livers on the Donts Ripht Bank of the Central Current" Uch. Zap. Saratovakogo Gos. Un-ta, Vyn. Geol., 19553, 37, 21-25 The author shows that in the region of the ripht bank of the -addle flav of the River Don lie tranbr,,ressively paleopene deposits upon deposit,-1 of the Upper Cretaceous (up to the Senonan inclusively). The age of the deposits is determined according to their stratipraphic position and from their analogy with the quartz-plauconite sands of the Olipocone of the Ukraine. (RZhGeol, No 3, 19510 SO: W-3~187, 8 liar 55 MWW~,-- Ill;" VFMYO~ i I - . ~ i i I I -, , r.i-..., i_, Mimnil MV 1~ .-K, .~ . . 1 1. 1 ., I I VASILOYEVA, N.A. The role of b;ypaotic sleep in the cotpound treatment of bronchial asthma. Soy.med. 21 no-5;9" my '57. (KLRA 10:7) 1. Is propedevticheskoy torapevtichookoy klialki (zav. - prof. TS.A.Levina) Odeeskogo maditsinakogo institute imeni N.I.Pirogova (dir. - profs I,Ta*Dayueka) (ASTRO, ther. bypnosts) (HYPNOSIS. ther. use sathma) V A S~I L ~I~Av--- Skin reactions in bronchial asthma under compound therapy including hypnotic sleep. Vrach.delo suuDlement '57:28 (MMA 11:3) 1. Xafedra propedevtiki vnutrennikh bolezney (zav.-prof. TS.A. Levine) Odeaskogo meditsinskogo institutn. (SKIff--INMVATION) (ASTIMA) (SLEEP- -TFECRAPEUT IC USX) G VAGILYEVA X. A.' MAYDEBOR, V. Ii., MKOLOVISKIY, 0.. V., SHANGTI-1, 11. 14., ALIEKOIE'YEV) F. A.) =j I R., SEYFER, V. N. "Tritium in Underground water Studies." report presented at -the Conference on Radioisotopes in Metallurgy and Solid State Physics, IAEA, Copenhagen, 6-17 Sept 196o. VASILIYEVA, N.A.; SOKOLOVSKIT, E.Y.; MAYDEBOR, Y.N. Using tritium for studying the flow of injected water. Geol. nefti i gaxa, 4 no-7:55-59 -TO 16o. (NDU 13:8) 1. Groznenskiy nauchno-inaledovatellskiy neftyanoy institut. (Hvdrogen--Isotopes) VASjL'Y-.VA, NI.A., Cand 1!erl Sci -- (diss) "APPlicatio-r, of suggested sl&en by means of hypnoAt in the cnmnlex & therapy of bronchial asthrra." Odessa, 191A, li P;., I (Odessa Merl Inst im N.T. Piroj,ov) 200 covies (KL, ?3-58, 111) - 123 - LI[Vn:A, TS.A.. prof., GRUZINA, Te.A.,dots., VASILYEVA, B.A., ROYANOVSKAYA, A.I., TAGODKINA, N.I., PAVWVA, O.Y. Treating stenocardia with, nitranol. -Sov.med. 22.no.8tU9--126.Ag '58 (mm, nao) 1. Is.propedevtichaskoy terapavticheakoy kliniki (save r prof0 Tq;&e.Levina) Odeeskogo meditainakogo Instituta iment I.;I. Pirogova (dir*' profe',I.Ya. Deynaka). (AlGrNA, PECTORIS, there* aminotrate (Run)) (NITRITES, there uie aminotrate in angirim pectorim (Rue)) VASIL -YEVA, N P V met*-,--~ f,~T anal : i, -~ j! 157 98 -ns T' -,k N ~%SSF 'n g y M i RA .7) lr,3 J,7 -1 T--t~ 1 N, R~ik~,~a *.Il r~-e r,, --I tnv I enn. aka&TpAlcm N,,M,. 1610600600 0 0 0 0 0 0 0 0 0 4 0 0 & 9 0 0 I I j 6 1 0 p I F ill #1 11 ill is it I? it it I ii U a Is b ft It A X e 11 U U a 0 1, a p 0 1, m to 1 A a -f-A. K IF a I I - I V 1 1 _V_A_J _L. OMA N QL 0 K 0 ~o 0 _Qi' st olsture In the bulk of slowed grain Lgo i i A. Kileell. N. VsqiI:S.,V3 and C, T%yXjnk')V3. if'-mp" 1 710' M)WO- S l h d d 24 F i, i rea . s . a" . , Wisi ng . ; . 0 00 C erm'I in -Seeds (A a soft variety of spring wheat wcrr iirs" .0 water an a mrainer and allowed to l1ry m a thi, L cuslium ' .00 of VAUSt alld thoroughly 41tiOd ill thrrilonlAts At :.M :I . 00 in kyrts 4-3 cm. tirk-k. The, expl. wall emidoi-t-1 in A-1. ~99 dasks itisullittj with felt and is] (loth drill Provided wilh .06 woliden lids. A little trititerator *4- dvmvied 1-1 1,.4- ll through the Bid and cool the vain Ilmally. I fir lid v 1- 400 a pmtked by a thermometer. Tlv- cc*441 tiowtion if the 400 u~ grain 7as isolated in a gauxe Imig imprriputed with par4l. t O I filk h h l ! f 0o a Oil s .."t t e .411m wit A r X. o ie ng was fill, I grain coritained in the voicl. 7 z cyllildfical SWI vc%%ti W ANAll 20 2. "e.-J-1tv %ith t 041 ittict still I outki tulle wailed in and in%uldltif Itifin Oil go 0 00 rest of (be grain by a double-glasli tituff 0~1 too cally. Tht figure4 obtained %how t fiat grain StV" I'd - 41 If 00 to ill cooled portiom. Sniall diflereni-cs in ternp. ittflive 6*0 00 to bring about such tratilibcati,mi emi in ra-i "h,r, I he see water c0litcut of the grain is elitfruirly Ww. rhe imixf. lance of this (act for grain storage is Slitiatcd out andalmi zoo the nmuity of a urtifum tvnp. diroughout its %oL xi f 0 SITALIURCMAIL. LITTIATIAll O - see WO.: t om. is, ~Wt 4 i A I I I 'ui Joe As t it 11 it 0 it IffitAKIN Mratt tie W a I I" ' 0 10 * 0 All, 0 of 0 sit 0 0 0 we 00 0000 0 o 0 0 0 0 0 0 0 0 AJO00*0000 %,A PA M- oo A I-go 1 0#4