SCIENTIFIC ABSTRACT YERETSKIY, M. - YERGEBEKOV, M.YE.

yER]rSKn,, m.; VISHMWOLISKIY, A* Closer to reality and Industry. k7t-tranorp. 38 no-7,45-46 a 160. (HIM 13:7) 1. Noskovskiy elektromekbanicheskiy tekhnikumv (Koseaw-Automobile enpineering--Study and teaching)  3=TSKIY, M. -4:~~~~ Technical school helps transportation industry, Avtotramsp 40 no.1208 D 162,, . (MIRA 15:12; 1. Elektromekhanichookiy.tokhnikum Moakovskogo gorodakogo ispolnitellnogo komiteta Mosgorsoveta deputatov trudyashch M sya. (Moscow-Technical education)  LISIN, Alekeandr Sorgeyevich; FEYGIN, Loonid Alakeandrovich; KRAKARNNKO. 0.V., kand.tekhn.nauk,,retsenzent; NOMMICIERV, N.Y.. inzh., retsenzent; I SKIY X I -.inzh., red.; ZUIEVA, N.K., tekhn.red. (Practical laboratory work in automobile maintenance] Laboratornyl praktikum po tekhdoheekomu obalushivaniiu avtomobilai. Moskva, Sauohno-tekhnoisd-yo avtotransp;.1it-ry# 1938~ 119 po (MIRA 12:3) (Automobiles-gaintenance and repair)  VISHNHPOLISKIY, A.H.; L.A,;' TAKOYLNV,Tu,H,; kTAP~SKIT H.I STARKOVSKIT, A.P.0 doteento nauchnyy red.; KROMOSUCH, I.L., red.izd-va; RUDAKOTA. 1.-I., teldmoredo [Using building machinery and equipment) Skopluatataiia stroitellnykh ma 'shin L oborudoveniia. Hoskva' 6oo.W-vo lit-ry po stroitalletvu, arkhit. i stroit.wterialam, 1960. 257 P. (HIRA 14:4) (Building machinery)  ,_YEFMSK3X, Mark-jsqAkcxich,-JWSIN, Vark Leontlyevich; MATVEYEV, Hei.), retsenzent; AFAIUSIYLIV, L.L., kand. tekhn. nauk, red.; GAIAKTIO- IJOVA, Ye,N,l teklme redo [Methodology of degree projects]Motodika diplomnogo proektirovaniia. Moskvay Fauchno-tekhn. izd-vo M-va avtomobill.nogo transp. i shos- sairWkh dorog RSFSR, 1961, 206 p (MIRA 14:11) (Project method in teachingi (Technical education)  YEVDOKD.'OV, B.P.; YERETSKIY M.I. (Problems on the theory of motor vehicles] Zadschnik po toorii avtomobilia. Moskvap Vyaahaia shkolap 1965. 120 p. (MIRA 18:4) I i  SERGEYEVy V. L.; TROMOVp V. P.;.IERE~~ H . YASIKO, 0. 1. __ _~__L _~j Sow results of studying the operation of an electric are heater with gas stabilization of the discharge. Insh.-fiz. I ~ zhur. 6 no.1:14-18 Ja '63. (MIRA 16:1) I (Electric aro)  JEREZ, S.L. Comparative evaluation of the treatment of epidemic meningitis with panicillin and sulfidine. Sovet.med. No.3:18-20 Par 51.(CL,4L 20:6) 1. Of the Clinic for Infectious Dissaaes (Head-Docent I.R.Drobinakiy) Stalino Medical Institute*  I. Ism, S.L., kandidat neditainskikh nauk. Z61, Combined syntomycin and sulfanilamide therapy of dysentery. Sov.med.18 no.3:18-20 Mr 154. (KM 7:2) 1. Iz kliniki infektsionnykh bolezna7 (direktor I.S.Drobinakiy) Stalinakogo meditainakogo inatituta (direktor A.M.Ganichkin). (Dysentery) (Sulfonamides) (Antibiotics)  U.-IrCUITFOV I I'll. ~ Thermo-e.m.f. end Hall effect in semiconductors with charged . impurities. Fiz. tver. tela 6 no.8:2460-2466 Ag 164. (MIRA 17:11) 1. Kiyevskiy gosudarotvennyy universitet Irieni Shevehenko.  al  )N N~ A'-' 44 STIB CODE ss, KK NR R-EF SOV: 004 OTHER 004  ACCESSION NR: AP4043372 s/ol8lA4/006/008/2460/2466 'AUTHORs Yerezhepov, M. TITLE: Thermal emf and Hall effect in semiconductors with charged impurities SOURCE: Fizika tverdogo tela, v. 6, no. (3, 1964, 2460-2466 70PIC TAGS: semiconductor carrier charge, thermal emf, Hall con- stant, carrier density, kinetic equation A13STRACT: This is a continuation of earlier research by the author (with S. I. Pekar, FTT, v. 5, 1297, 1963), where the current in a semiconductor with charged impurities was calculated. In the present article the author evaluates the effect of the screened fields of the charge centers on the thermal emf and an the Hall constant& For concreteness, only the cane of an electronic semi- conductor is considered. An equation is derived for the average Card 1/2  ACCESSION UR: AP4043372 macroscopic current density by nolving the kinetic equation and using the result of K. B. Tolpy*qo (Tr. Inst. flziki, Kiev, v. 3, 52, 1952). The current correction to the carrier density is then evaluated and the coefficient of thermal eml of the Hall constant determined. It is shown that- the influence of the charged imr)urity atoms leads to an increas 'e in the coutfficient of the thermall emf, while the correction to the Hall conutant is cancelled otit, leaving the Hall constant the same as in somicondtictors without impurities. "I am sincerely grateful to Academician G. 1. Pekar for guidance of the work and-to Professor K. B. Tolpy*go for valuable discussions." Orig. art. has: 27 formulas. ASSOCIATION: Kiyevskiy gosudarstvenny*y univeraitet im. T. G. 'Shevcbenko (Kiev State University) SUBMITTEDt 28jan64 ENCL: 00 SUB CODE: SS 14R REP SOV: 003 OTHER: 002 Card 2/2  1-6~4 14-67 EWT(0 -13c'(C) WN, ACC NRs Ar6018543 SaMCE CODE: UP/03BI/66/0o8/006/1807/1811 AUTHOR: 'Yerezh_qovj M. ORO: ftaicotachnical institute, AN UzSSRI TaahMkent Fiziko-tekhnicheakiy institut AN UZBBR)--- Z TITLE: Contribution to the theory of the Hall, effect and-magneto~esistM= in the case of strong magnetic field, with allowance for the field of charged impurity centers in semiconductors -V SOURCE: Mika tyerdogo tela, v. 8j, no. 6.. 1966,~ 1807-1810 TOPIC TAGS* Hall effectj magnetoresistance, Impurity center, semiconductor theory, Debye length) crystal lattice vibration,,.strong magnetic fields current density ABSTRACT: This is a continuation of earlier work by the author (m v. 6, 2460 and 31MA !964) on the influence of the field of charged impurity centers on the Hall ).effect and magnetoresistance in isotropic and nondegenerate semiconductors. Die pre- 1sent article deals with the same influence in the cane of strong but non-quantizing agnetic fields. It is assumed, as before, that the carrier mean free path relative p .to the lattice vibrations is much smaller than the Debye screening radius. It In ,shown that the strong magnetic field gives rise to additional correction factorn in t,he corresponding equations previously derived for the current density., Hall field, and magnetoresistance in a weak field. The corrections are evaluated and a criterion for the applienbility of the theory by which the results were obtained is presented. 2  -7-A& NR, AT603J3543 and K. BO Tolpygo for a valuable d'scussion of the The autlior thaas 5 14 forTaA 6 " resultse Orig. aA: hl, * 4 ()04/ Omi PEF: 003 oRIG PXF* DATE, 0911ov651. BUD CODE-. 20/ , SUBM 2  L U067-63 UT (l)/FdG(k)/BD5/EW (b)-2--AFFTC/ASD /;;3-PzP--ATY1J?(C) aft M6 1303 AP3000604 SIC 31 1 1 3 AMHOEt: yerezhe v Ro _, M. Ye Pekar S. I TIM: Theory'of-electrtcdl-conductlvlty of sodccaductore with due consideration for the field of charged iqpurity centers SOUXM: Fizika tverdogo tela, v. 5, no. 5. 1963p 1297-1303 TOPIC TAGS: semiconductors, Impurity centers, free path of electrons ABSTRACT:- The current in semiconductors is computed by solution of a 3-dimensional equation of'electrical. conductivity and diffusion, in which the coulomb shielded fields of Ion Impurities are considered together with the external field. A new member Is obtained in the.expreselon for current, defined by tke combined effect of external field and fields of Ion impurities. As a result, the macroelectroconduc- tivity in an impure seniconductor proves to be less than in pure semiconductors witi. the sam mobility and concentration of current carriers. This Investigation is entirely theoretical. It le calculated that the "ndence of mobility (resulting _f --th6-above considerationi)~on-concentiation-of-impurity-centere-dlminishes. The authors state that this should not'be confused with the long known effect of dissemination of charged impurities on mobility. Such dissemination may be properly-assumed only,when,the electron free path relative to lattice oscillations Cord 3./2  L U067-63 - Accmaroa NR: Ap3ooo6o4 is greater than the reciprocal of the shielding coefficient. Tile present stub investIgates the ceze vhere tha free path is. less than this value. Both are actually effective, Or1g.- art. has: 39 formdas. ASSOCTATION: Kiyevskly gosudarstvenny*y univerritet is. T. 0. Sheychanko (4-ev State University)- smam; gftbi62 Dm Am: nzun63 - Effm: 00 SbB Cola., P11 NO MF SOV: 00 W2 c N- Card 2/2  YEMHEPOV, S.Ye. ) &1 ArA anatomical structure of the Dzunprian trio. Morphologic Usbobiol.shur. no.4:14-19 '59. (MM 13-1) 1. Kara-Kalpakskiy gospedinstituto (Uzbekistan-Iris (Plant))  ,mum ~WIil~~=~ii?4,;ig?j:-.~.-I'll~WF~INTWiftx~'Ant~~%M"W*Iff-,T.-~.17-~riliT"-r,~,4 - ,*,,Rt_;"7,jjFxM, S. Y(-~., Cand Biol Sci (diss) -- "DzIlugrarskly Iris In Uzbekintan and its utilization". Tashkent, lr%rO. 17 PP (Acad Sci Uzbek SSR, Inst of Botany), 2.20 copies (KL, No 111, 1960, 1.30)  D=KTORSUU. Te.A.; IMR=OV, A.P.; KR3111. N.L. M.ammo-aw" Comparative petrological characteristics of coal seams In the Tula and ShchakIno Districts of the Moscow Basin. Izv.AN 3"R. Ser.geol. 21 no.2:79-85 7 '56. (KLRA, 9:5) 1. Hinisterstvo ugollnoy promyshlennosti, SM, Tullskaya geologi- cheakays, partiya I Trest *Xosb&e9ug1egeo1ogiya*, g. Tula. (Moscow Basin--Coal geology)  v I TRr6BUKIIOVSKly, yu.V.; YERGAKOV, V.A.-, NISTEROV, V-Ye- glectron multipliers with 44 x 44 mm inlet openings. Prib. i takh. ekap. no.1:75-77 J1-Ag '56. (MLRA 10:2) (Blectronic instruments) (Photoelectric multipliers)  GRIGORYEV, V.K., NjkU'j'jjj, 6.1a., rUojifLli, AU.V.) .... ", VISMIEVSKIY, M.Ye., YMIRGAKOV,,__VA_ (Acad. Sci. WW) "Polarization of Electrons in the y -Decay." paper submitting at the A-V Conf. on Iluclear Reactions in Madium and Low Energy Physics, Moscow, 19-27 Nvo 57.  TERGAKOV, V. A.j GIRIM11-YEV, V. K., VISIM"ISKIY, 14. E., MIKITIN, S. Y., - PUSIUMIJ E. V., and TMM10111ordY, Yu. V. , AS Will, Moscow "On the Polarization of Mectrons in P-Dacay," Journal of Nuclear Physics) Amsterdam, Ito. 4, pp 240-247, 1957.  .4. at .- I..l it q .1 4.1" UT ZIW!Mb r4i"141d .; t*. w,- Va. rm "I%" A.I.qze AA p.-J. -0 %-q. %4.4- 0 A.2 TI-0-111.AK&g -*.jmT%xOd r*J~w XAca- j~j 141vilk's-40 tT%6uq'vX I (nVuM ...3n T't%.4rv!F -JIM pw;j-vtpw -V-T -levicz .%Z4 U--l- I.:q q% " d. I.. Z-41 Of ,..4:a C~ T4" sst'l a, 6.4410VI.-9 'C% % V% ;a 1L T. t-Imp-J-4 wv.a 09 Cli pas tv's "...0 q& wl. ralsi-va v0l%*rTzOTG4 7- wjlvs~-104 a' W.4.!L- rl J* Alet.p It% %n -jz%~ On it cam"Sw vult" aim --r-IISSOUT 4, '%~ 'T.'n so it .6c4z--d -tm .0.1 1... at am wl it -qA (In) - - 0'n -ma r-r.-,;-p ;a ema-mims" *j-x-d .2 -.1 -cTTmqT-q XV.-Vva vetj~ -WZT3.-.tm '(0mo moz'c t -T '11-zz -~.tmu Vvl.lj jftl.,Il*j 31 q..T. tr~lm. ;i %9m 0%3 .64im-1 00.. TsJVd Q0j wq4 MIK *Aal(.J"j -4. 6"L 1: rz.%Aqd -T~: -xi V..q mr.a-t- at 9z -T 32 23TRU-ST (V=) 'X JJ: I-A 'Mt 'TZI32.w TA'.wasy 'Tr'-rcarm t-w0g.A 64 U) at nr.j.;mj 8X1= s 3=10T LZ  210) SOV/56-36-4-56/70 AUTHORS: Trobukhovskiy, Yu. V., Vladioirukly, V. V., Grigorlyev, V. K., Yerg~~~ TITLE: The e-4-Angular Correlation in the P-Decay of the Free Neutron (Uglovaya korrelyatsiya e-v pri 0-raspade svobodnogo neytrona) PERIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, 1959, Vol 36, Nr 4, Pp 1314-1316 (USSR) ABSTRACT: In the present "Letter to the Editor" the authors report about a method of determining the electron-neutrino angular correlation in the P-decay of the free neutron; this method is carried out by spectrum analysis of the decay electrons with fixed momentum of the recoil protons. The experimental arrangement is achemat- ically represented by figure 1. The collimated neutron beam (diameter 35 mm) used for this investigation was obtained ftom the heavy water reactor of the AS USSR. The neutron beam incides direct on to a lead- and boron-carbide-shielded monitor by which flux is controlled. The electrons are conveyed via magnetic lenses to a Geiger-]Kdller counterl and eventually reach a photo- zultiplier; the recoil protons encounter an electronic multi- Card 1/3 plier. Work was carried out with double coincidence connection  SOV/56-36-4-56/70 The e-V-Angular Correlation in the P-Decay of the Free Neutron (for the purpose of eliminating such electrons as had penetrated both detectors) and with triple coincidence connection (between the proton- and electron detectors). The former had a time re- solution of 0.2 PBec and the latter of 0 7 Ooec. During measure- ments, the results of which are shown by a diagram in figure 2, the effectivity of the electronic multiplier was checked by calibration with an a-aource and that of the Geiger-MUller count- er and the photomultiplier by means of an SOO-eource, Figure 2 chows the calculated curves for 0,values between +i and -!~ The moa9ured values (which are also plotted) have a standard er- ror. Dealing with the results according to the method of the smallest squares gave \Y-= -0.06 � 0,13, by which only the eta- tiatical error is taken into account. The value deviates some- what from that obtained by Robson (Ref 3) P_- +0,07 0-12). Proceeding from the assumption that in 0-decay the Wn contri- bution is made by the axially-vectorial and the vectorial vari- ant (cf Refs 4-7), it holds, in accordance with theAl-value of the authors, that R - g2 2 +1-5 The authors finally 1/gV - "3-0-53' Card 2/3 thank Academician A. 1. Alikhanov for his advice, Ye. K. Tarasov  SOV/56-36-4.-56/70 The e-~_Angular Correlation in the P-Decay of the Free Neutron for calculationa, and D. P. Zharkov, G. K. Tumanov, and N. I. Afanaslyev for their help in carrying out the experiments; they further thank V. Ye. Nesterov for aesisting in construct- ing the experimental eet-up, and they thank chief engineer of the heavy-water reactor, S. A. Gavrilov, and his collaborators for keeping the reactor in permanent operation. There are 2 figures and 8 references, 4 of which are Soviet, SUBMITTED: December 25, 1958 Card 3/3  VIADU4MSKIY, V.V.; GRIGORIYEV, V.K.1 YERGAKOV, V.A.1 ZHARKOV.. D.P.; TREBUKHUVSKIY, YU#vv Slootron-noutrino angular correlation in free neutron decay. Izv. AN SSM. Ser.-fisq 25 no.931121-M3 161.(14M 144) Neutrops-Decay) Neutrivos ~ (Eleotrone  3579U s/12o/62/ooo/ool/oWo6l E192/I-;382 6 Vigo AUTHORS: Yergalcov, V.A.- and Trabulchovskiy, Yu.V. TITLE: Proton-detector with a film cathode PERIODICAL: Pribory i tekhnika eksperimenta, no. 1, 1962, 158 - 159 - TEXT: The authors have designed a method of detecting the protons having energies of the order of a few hundred eV. The detector is sho-wn in the figure and consists of: I electron multiplier no. 1; 2 - electron multiplier no. 2; 3 a film cathode; 4 - a grounded grid 5 - a magnetic and electrostatic i33 screen; 6 - an a-source of U ; 7 - tube connecting the detector to the vacuum system; 8 - flange of the vacuum system; 9 - base for the electron multiplier; 10 - panel with voltage- divider for the photomuliplier and 11 - magnetic spectrometer. The protons impinge on the cathode, which is in the form of an 11organic" film, coated with silver on both sides by evaporation in vacuum. The cathode is at a negative potential with respect to the ground. The protons are accelerated by the cathode field Card 113  S/12o/62/000/001/038/061 Proton-detector .... Elgz/r..382 and pass through the film and produce secondary electron on both sides. The probability of this process for y-quanta is comparatively low; on the other hand, heavy ions cannot pass through the film. The secondary electrons emitted by the cathode are accelerated and detected by the two photomultipliers connected as a coincidence circuit. The film cathode is made of polyvinyl-chloride acetate and its diameter is 35 mm, while 2 its thickness is 5 IP9/cM The silver layer on each side of the 2 film has a thickness of 1 2 ILg/cm The film is fixed on a fine metal ring. The potential difference between the cathode and the grids of the multipliers is 200 - 600 V. The operation of the detector is checked by means of the a-source of U233 and the ion source. The efficiency of the a-particlo dotoction is 60%' for the given geometry and for the protons and ions of H+ it is'20 - 301%. As regards the y-radiation 2 Card 2/4  S/12o/62/000/001/038/061 Proton-detector .... E192/E382 having an Intensity of 100 pRn/sec, the detector counts 2 pulses per second. The authors thank V.V. Vladimirskiy for valuable advice and V.K. Grigorlyev, D.P. Zharkov (deceased), G.K. Tumanov and V.A. Korolev for helpin this work. There is 1 figure. SUBMITTED: May 17, 1961 Card 3/4  27714 S/120/61/006/003/027/041 '2 2073/9535 AUTHORSt Yergakov, V.A., Levin, G. S., Melamid, A.Ye., Tre)u ovskiy, Yu.V. and Xhlobnikov, N.5 TITLE: Electron multiplier with an axially symmetrical Mlet window of 24 cmia area PERIODICALt Pribory i tekhnika eksperimenta, 1961, NO-3,PP-157-158 TEM For recording wide beams of recoil nuclei, electron multipliers are required with an an large an possible area of the cathode from which the recorded particles eject electrons. Fig.1 shown a sketch of the electron multiplier. In this paper an electron multiplier is described, the cathode of which is in the shape of a hemisphere of 60 mm diameter with a central opening of 10 mm diameter. Along the axis a short 6 mm diameter cylinder is placed which is electrically connected with the first dynode. In the gap between the cylinder and the edges of the cathode opening, a r.ing,with welded on 0.15 mm diameter tungsten wires which are located along the generating lines of the 8 mm diameter cylindrical surface inside the cathode cavity, is fixed onto glass insulators. A potential slightly higher than the cathode Card 1/5  2?724 Electron multiplier with an axially ... s/lzo/61/000/003/027/041 Z073/Z535 potential is fed to the wire "cylinder" and this produces an additional field that accelerates the electrons which are released from the cathode surface by the primary particles so that the collection of electrons from the peripheral regions of the cathode into the dynode system is considerably improved. To eliminate field distortions in the cathode cavity, the inlet window is covered by a grid to which an independent potential can be red. Electrons from the cathode, which come into the near-axial region of the cathode with only low energies (due to the accelerating field produced by the wire cylinder), are under the effect of a strong focusing field of the cylinder of the first dynode which collects them onto the active part of its surface. Then follows the ordinary process of multiplication in the dynode system, which has 17 dynodes instead of the usual 11 in the type IC (18) multipliers. The cathode and the dynodes a re made of an Al-Mg alloy with an addition of silicon with thicknesses of 0.2 mm and 0.1 to 0.12 mm, respectively. Activation in by alternating heating in vacuum and in an 02 atmosphere at, t -%- 4500C until the required quantity of oxygen 0 to 5 ILg1cm ) in absorbed. An Card 2/5  27724 Electron multiplier with an axially *.. 3/120/61/000/003/027/041 Z073/Z535 important advantage of this alloy against other alloys (Ag-Mg, Cu-Mg, Cu-Al-Mg, Cu-Bs) is its reactivation aft*r standing in air (heating in vacuo at 340*C for 3o-6o =in). The operation of an electron multiplier is as followas onto each section of the cathode a narrow, 8 mm wide, beam of a-particles is directed and the number of pulses at the output is recorded. Fis.3 shows the focusing curves (N - pulses/soc) taken on displacing the source along the cathode diameter. The half-width of the curve equals 55 mm (which coincides with the diameter of the inlet window) but does not change on changing the efficiency of the recording of the a-particles (curves 1, 2 and 3 were recorded for a-particle recording efficiencies of 100, 45 and 19%, respectively). The beat amplitude distribution of the pulses (Fig.4) was obtained for the following operating conditionst Number of Electrodes Potential difference, Grid-cathode 27 ty Cathode-wire cylinder 46 20 Wire cylinder - lot dynode 380 T100 let dynode 2nd dynode 210 ,Card 3/5 17th dynode collector 210  27714 Electron multiplier with an axially ... 5/12o/61/000/003/027/041 9073/Z535 The authors also investigated the integral amplitude distribution of the pulses at the output end of the multiplier. Fig.4 shown the integral amplitude distribution of the pulses of the multiplier for a and P particleal the bias on the discriminator (V) is recorded on the abscissa whilst on the ordinate the number of pulses per second N are recorded, the amplitude of 2which is larger than the bias voltage (98P curve - a-particles Po 16, bottom curve - y-particles cc ). The plateau of the counting in the range of small discriminations is characterized by 100% efficiency of recording the a-particles. The background of the electron multi- plier for the 70% range of a-particle recording in 2 pulses/sec and in the range of 50% it does not exceed 1,5 pulses/sec. Ye. P. Yurlova and V. F. Ivanov partici ated in the design and building of the multiplier. There are t figures. (Abstractor's Notet Complete translation.] SUBMITTEDt June 6, 1960 Card 4/5  YERGAKOV, V.S. and BESPAIDV, V.I. "Impedance Characteristics of a Flat Magnetron" Uch...Zap. Gorkovsk Un-ta, 27, 1954., io6.,125 The design of a magnetron circuit is carried out for magnetic fields below and exceeding the criticaL In the first case-the current is represented as stm of the constant component anf of integer harmonics of the basic , frequency. In the second case the cathode field consists of the sum of the constant component and of one frequency harzonic. Graphs of active and re- active conductance are plotted depending on the frequency of the equivalent magnetron circuit. At low frequency the reactive component is associated to a capacity effectj at high frequency to an inductance effect.(RZhFiz, No U., 1955)  Q, R (,I -cl ~~G j )  21177 s/14i/6O/OO3/uo6/Oi6/o25 E192/E382 AUTHORS: Yerg!!,k4~vj_y.;s~t and Shaposhnikov, A.A. TITLE: Klystron with an Electron Beam Controlled by a Transverse Electric Field PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Radiofizika, 196o, Vol, 3, No, 6, pp. 1045-1053 TEXT., This paper was read at the Third All-Union Conference on Electronics of the Ministry of Higher Education, Kiyev, 1959. Recent years have witnessed some successful attempts at devising methods of ampli cation, giving a low level of noise. ?Rler However, analysis of any possible low-noise amplifiers is still of considerable interest. In the following a klystron with a transverse field is considered. In this, the control of the electron beam is effected by a high-frequency electric field which is perpendicular to the static trajectories of the electrons. The operation of a klystron with a transverse electric field can be explained on a simple model illustrated in Fig. 1. A resonator with an electric field concentrated in Card 1/8  23277 s/141/6o/oO3/Ou6/oi6/o25 Klystron with .... E192/E382 a narrow gap and directed perpendicularly to the plane of symmetry of the system (along the axis x ) is used as the input device which velocity-modulates the electrons. Such a resonator can be in the form of a cylindrical cavity with two plates forming a capacitive gap. The output device is in the form of a toroidal resonator with ait electric field parallel to the axis. An electron beam in the form of a ribbon enters the first resonator and interacts with the electric field of the input signal. The electrons thus receive a transverse velocity component and move along rectilinear trajectories in the drift space. After the drift space, the electron beam, whose position in the plane z = const. is a function of time, enters into the output device and excites it if the intensity of the longitudinal electric field varies in the direction of the beam deflection (along x ). First, it is assumed that in theklystron of Fig. 1. the average plane of the electron beam coincides with the central plane of the input resonator gap and that the width of the beam 2h and its deflection in the gap are so small in comparison with the distance dl that the Card 2/8  S/141/60/003/ou6/olb/025 Klystron with .... E192/9382 effect of the longitudinal componbnts of the boundary fields of the gap can be neglected. It is shown that in this case the power --.,mpl if icat ion factors can be ex&essed by: N 2h (2 )2 are sin 2 r2G,i M~- M) a (8) (aL >.2h); X2 N (aL < 2h) (9) (9) Whore x is expressed by: U, U, 2G.' (7) 1, L V2-4 sin (Ot/2) 2ht,,d, JIU, Card 3/8  21177 s/i4l/60/003/oo6/ol6/025 Klystron with E192/E382 the following notation is adopted in the above equations; 10 in the boam current; G is the normalised equivalent conductance bf tho second 2 resonator with its load; is the normalised conductance of the first resonator without/ lK load; (,~-)l is the transit angle in the gap, and U0 is the accelerating voltage of the system. If the distribution oflthg current.can be approximated by the function y(x = 1 - x-h-""' , the gain can be represented by: 0  21177 Klystron with .... E192/E382 2/1 + IV arc stn lu 00,01, 2h'-) 1-3 OT ,L (10) + -7 3 aL 6 aL or [)pit 60JIMOM 13XOAIIOM CIMMAe (aL > 2h) it pantibim 2%2 '. (!IL 2 L 7 -2C,,Gl 2h 3 4 2h The noise in the klystron is mainly due to the shot effect and thermal fluctuations. It is shown that the noise spectral density in the vi 'cinity of the resonance frequency for the first-resonator.can be expressed by: ~Card, 5/8  'gal, RWU~-. M M77 5/141/6o/003/00, 6/016/02.5 E192/082 Klystron with 81.-rjkT sin'(01/2 (19) g I dYWI all 1 0 ture and where T is the cathode tempera k is the Boltzmann constant. the other hand, the spe ctral density of the voltage second fluctuation due to the induced electron current in the resonator of the Itlystron is given by: -2 Sin(02/2)]' (20) 2eltC - 0,12 convection current flolfing through where is the average input signal. On the basis the resonator in the absence of an ise figure of EqS. (19) and (20) it is easily found that the no Card. 6/8  21177 s/lhl/6o/oo3/oo6/ol6/o25 Kly,:tron with .... E192/E382 of the Itlystron is expressed by: F. I + 210717', stn"(8,/2) e1, r sin (%/2) (21) tolo d', 0, T+ ikT(72N[ Oj/2 where' T is thb'a~mbient temperatur.a. By.analysing the above equations it is found that the above klystron can give tlie sawe gain as a normal two-resonator klystron but its noise figures is much lower. Such a low noise level in a klystron with a triAnsverse.magnetic field is due to the fact that the voltage induced by the electron beam in the input circuit is primarily caused by the thermal electron velocities (unlike in tne normal hlystron, where this voltage is produced by the motion of the electrons having high velocities). There are Ji figures and 2 references: 1 Soviet and 1 non-Soviet. Card 7/8  21177 S/141/60/003/006/016/025 Klystron with .... 9192/E382 .ASSOCIATIONi Nauchno-issladovatellskiy radiofizicheskiy institut. pri Gortkovskom universitete (Scientific Research Radiophy!!ics Institute of Gorlkiy University) S"UBMITTED: July 12, 1960 Fig. 1: P, d x h. 0-A Ca,rd PKC- 1. CXCMA KA11CTPOH3 c nonepmimm nwex.  YERGAKOV, V.S SHAPOSfINIKGV2 A.A9 Klystron with an electron beam controlled by a tran6verse electric field. Izv. vys. ucheb. zav.; radiofiz. 3 no.6:1045-1053 160, (MIPA 14:4) 1. Ilauchno-issledavatellskiy radiofiziches~iy institut pri, GorIkovakom universitete, (Klyl3trons)  YERGAKOVAp Z.F.- Possibility of chromatographic Dractionation of' a liquid extract of ergot. Apt. delo 10 no. 2:30-31__;4r-Ap 161. (MIRA 14:4) 1. Kafedra tekhnologii lekarstv i galenovych preparatov (zav. - dotsent A.S. Prozorovskiy) 1hrmatseyticheakogo fakullteta Moskovskogo ordena Lenina meditsinakogo'instituia imeni I.M. Sechenova. (ERGOT) (CHROMTOGRAPHIC ANALYSIS)  "I , -i!,i i.;- ll'~, L -11 - ~ltll I- :- 1-1 -~- _ 'i- , MWAGUROV. G,S.; YERGAMYEV, A.Ye.;BAWBOLKV, A.U.; SHESTAKOV. V.A. Rod-boring In hard rock. Trudy Alt.GKKII All Uxakh.13-25-46 154. (XLRA 10:1) (Boring)  ___ww/_C,eoloMr Minipgr cam 1/1 j Pub. 123 .12/17 .-.Authors Ergaliev, A. U. 'Title I Regarding some -problems in connection with choosing a method for pro- ceasing ore deposits Periodical I Vast. AN Kaz. SSR 11/3 (108)s 76-82, Mar 1954 Abstract Various methods of excavating ores are described. Physico-mectianical properties of ore deposits are considered the most important factors.in the selection of an ore excavating method. The possibility of using any method is discussed. Nineteen references (1926-1950). Tables. Institution Submitted  KHETAGIMOV, G.D.; DCBROSIRWY, Ye.l.; Y22QA Ua"k.; VOLKOV, 7.1. Practice of applying high productive systems of mining in certain sines. Vest. AN Kazakh. UR 11 no.9:80-91 S 154. (Mining enginoortug) (HLRA 8:2)  ZikAVNTr,A.Y&.; YERGALrM,'A.Ye. Natural raw mnterial base for Lentnogorek's lead plant. Yest.0 lazakh.SSR 11 no-9:33-41 S 155. (KLRA 9:1) (Leninogorsk-Lead industry)  Y]MALITRY, Abdesh Yorgaliyevich; SHNSTAKOV, Viktor Alekoandrovich; BAI=oOLKIN, A.N.; AIRKS19YBV. O.J., spats, redaktor; ILITASHENKO, L.T., radaktor; CHEZHIK, F., takhnichaskiy redaktor (Work practice of leading mines In Radnyy, Altai) Opyt raboty persdo- vykh gorniakov radnogo Altaia. Alma-Ata. Irazakhakoe goo, izd-vo, 1956. 96 p. (KLRA 9:12) (Altai Territory-Mining engineering)  YERGALIYEV, Me. *ftOWM.14U'~ Classification of ores and rock# by resistance to boring an practiced in the Sokol and Takeli mines. Trudy Alt. GWI AN Kazakh. SSR no.3s102-109 156. ()GRA 10:2) Mazakhatan-Ore deposits) (Borir,g)  I MDALITEV, A.Ye., kRndidat tokhnicheakikh nauk; ZAPLAWY, A-ya-, imndidat RMMMeskikh nau . Some results and prospects for the study and" utilization of the natural resources of the RudnY7 Altai- Tsst-AN Xazakh.SSR 12 no.3: 3-10 Mr 156. (MW 9:7) I.Predstavlona de7stvitallorm chlem AN XazSSR V.I.Smirnovym. (Altai XOUrAtRinB--Hin08 and mineral resources)  AhA&nh BALOBOLKIN, Anatoliy Nikolayevich; SUSTAKOV, Viktor Aleksandrovich; ZHAROTTSET, N.I., redaktor; PARTSEVSKIY, V.N., redaktor izdatelletva; IMSON. I.M.. tekhnichooki.v redaktor [New technique and progressive work practice of the mines in the Zyryanovsk Combine] I.vaia tekhnologiia i persidovoi opyt raboty na rudnikakh Zyrianovskogo kombinata. Moskva, Oos. nauchno-tekhn. 12d-vo lit-ry po chernoi i tovetnoi metallurgii, 1957 72 P. NLRA 10:6) (Zyryanavok-Minirig Engineering]  I A.Ye'- LOSITSKIY, T.V. 401 pm" ~., Mining lode deposits In the Altai. Trudy Alt. OWN AN lazakh. SSR no.5t34-" '57. (KIBA 11:4) (Altai Mountains-Xining engineering)  i-r YOGALIYEV. A,,Ye.; YZMOLAYRY, K.F.; VABIL'YEVA, A.V. Pneumatic sampler. Test. AN Xazakh. SSR 13 n0-1005-97 0 157. (Oren--Sampling and estimation) (MIRA lOtl2) (Pneumatic tools)  4 5-6 R7,q 2j L/ / 't 127-58-4-5/31 AUTHORSs Volkov, K.D., Chief Engineer, Candidate of Technical Sciences, Yurkov, V.N. and Osipo-i, A.V., Mining Engineers j TITLEs Experience of Exploitation of Block Nr 34 in the Belousovo Mine (Opyt,otrabotki bloka Nr 34 na Belouso,;skom Tudnike) PERIODICAL% Gornyy Zhurnal, 1958, Nr 4, pp 19-21 (USSR) ABSTRACT% The authors describe how well the mining work of the block Nr. 34 of the Balousovo Mine was organized. The work was exe- cuted by a party of 12 men. This party executed all the mining work, the boring of blast holes and the maintenance of all mechanical appliances. There are 2 figures and 3 tables. ASSOCIATION:Belousovskoye rudoupravleniye (Belousovo Mining Administration) Card 1/1 1. Nines - Operation  YXRGILLIYBV, A.Te.; WSITSXIY, V.V. Open-cut mining of rare metal deposits in the Altai Mountains. Trudy Alt.QWI AN lazakh.= 6:86-105 '58. (XDA 12.-l) (Altai Kountains-Ketals. Rare and minor) (Strip mining)  Y]IRGALIY.gV, A.Ye.: ZAPLAVNYY, A.Ya. - Expansion of the productive capacities of eastern Kazakhstan during the last 40 years. Trudy Alt. GHRII AN Kazakh. SSR no.7: 4-14 '5 8. (KIRA 12: 7) (Kazakhstan-Industries)  YERGALIYEV, A.Ye.; SHISTAKOV, Y.A. Valuation of deposits and selection with consideration of the time BSR no-7:66-81 '58. (Mine valuation) of certain mining parameters factor. Trudy Alt. GHNII AN Kazakh. (MIRA 12:7) (Mining engineering) -  YERGALITEV, A.Ye.- YURKOV, V.N.; OSIPOV, A.V. Boring and blasting operations in drift mining. Trudy Alt. GHNII AN Xazakh. SSR no.7:102rll3 158. (KIRA 12:7) ..(Boring) (Blasting)  YROALIYV, 4._U.-;,YURKOV, V.N.; OSIPOV, A.V. Istablishing vork norms and vagev In lode mining. Trudy Alt, GMR11 AN Uzakh. SSR no-7:224-119 '58. WRA 12.-7) (Mining engineering) .(Vages) (Work measurement)  ,TZRGALITEV, A.Ye.; YERMOLAYICV, K.T.; VASILOY11VA, A.V. --- . Pneumatic percussion drill in prospecting. Vast. Ali Xazakh. SSR 14 no.2:46-51 Y 158. (MIRA 46.2) (Boring) (Prospecting) (Pneumatic tools)  MQW,Mffq Abdesh Torgallyevich; BRICHKIN, A.T.. prof,, doktor takh:,. nauk, b~tv.red.; MAMNA, D.M., red.; PRMOROT, Y.P., tekhn.red. [Development of vein typs deposits] Rasrabotka meatoroxhdonii shillnogo tipe. Alme-Ata, Is4-yo AkRd.nauk Kazaichakoi SO, 1960. 305 P. (MIRA 13:5) 1. Chlon-korrespandOnt AN Kaz= (for Brichkin). (Mining angin"ring)  YERGALIYFV,_A. "e.- KUZNETSOV, I.Ye.; YURKOVt V.N.; POPENKO, H.Kh.; -----o-S-1pov, AN. Development of systems of mining at the Belousovka Mine. Trudy Alt. 014NII All Kazakh. SSR 10:3-11 161. (MIRA 14:9) 1 (Altai Mountains-Mining engineering)  YERGAL,ITEZ,-A,Y -.BABINOVICTI, V.L.; OSIPOV, A.V.; YUUOV, V.N.; s, KRDYAKOV, M.T. System of mining the Berezovskly Mine. Trudy Alt. GMIII AN Kazakh. SSH 10:12-34 161. (YaRA 14:9) (Altai Mountains--Mining engineering)  I-- - --YERGALIYEV.- jl-*Ye-o-;--YU-RKOV,-V.11-.;---OSIPOV, AN. -- Mining flat pitching vein deposits. Trudy Alt. GPOZ AN Kazakh. SSR 10:35-63 '61. (MIRA 14:9) (Mining engineering) .11  YERGALIYEV, A.Ye.; YURKOV, V.N. ---4 -------- Relationship between the rate of boring and the diameter of the i borehole in rocks having different hardnesses. Trudy Alt. GJQJII AN Kazakh. SSR 10:81-88 161. (MIRA 14:9) (boring)  YEROALIYEV# A.Ye.; KARGAZHAIIOV, Z. Determining the minimum industrial metal content of ore from the economic point of view. Trudy Alt. GMNII AN Kazakh. SSR 10: 146-168 !61. (MIRA 14:9) (Orej6-Sampling and estimation)  MGALIYEV, Aodqqh YVrLqlAyevichj YURKGVp Viktor Nazarovich; OSIrOV9 Jffe-koandr Vasil-7-evTc-F; ZWINOV, Tiz0fey Favlovich; KUZMSOV, Yu,H.p red._* HORONZAt Z.P,g tekhn, red, [Systems of working ore deposits of minor and average thickness] Sistemy razrabotki rudnykh mestorozbdenii maloi i arednei moshobno- sti. Alma-,Ataq lzd-vo Akad. nauk Kazakhokoi SSR9 1961. 205 P. (FIRA 14:7) (Mining engineering)  YERGALIYEV, A.Ye.; KARGAZHANOV, Z.K. Existing methods of determining the minimum commercial metal content of ores. Trudy Alt. GHNII AN Kazakh, SSR 1304-70 162. (MIRA 160) (OreB--Sampling and estimation)  YLlt',LlYT-,V, A.le., kand. teklin. nmik; 'i -1 r -.- -1 L"--% .,." ~;. ., 1-1-- ruat romirAtIoll cort-al bo--tha L, o 1. 1 . 6 s 9, *#1 - I C) It~ / ( '~'l I RA IA 8 -. ' ) - 1+ I., Altvy~ikfy Ilia ti tut.  L 15250-66 Kcu IM: AY6001184 SOURCE CODEs UR/0031/65/00()/009/0042/0045 AUTRORt Yergaliyev, A, Ye. (Candidate of technical sciences) ORGs none. TITLEi The effect of collision of a moving mass :SOURCEt AN KazSSR. Vestnik, no. 9, 1965Y 42-45 TOPIC TAGS: mining engineering,-material crushingt collisiony kinetic energyt ipotential energy ABSTRACT. This paper deals with problems involved in the use of the kinetic energy tof a moving rook mass for additional crushing* Two phases of collision are distinguishedt in the firstp the deformation of two colliding masses increases and reaches a maximum by the end of the phase;' in the second4 the rate of motion of the 'Dieces decreases to zero& The kinetic energr of a moving piece with velocity v in .;/Deo is d termined by Ekm where m is the mass of the moving piece; and v the averege velocity of the piece. Card  -L- 1525046------: Me basic formula for the critical velocity of pieced of ore (see Fig.-I) *0 a L", ore V or collision of pieces Ot )~N V cr V~r Fig. 1. Diagram of Sinot collision of pieces of ore. Collision at angle ving at an angle oc is t m0 21:TK Sir T' ;A n=erical calculation is made for specific values. It is found that an exploded mass undergoes comparatively strong additional crushing due to collision. Orig. !ax~t. hast 2 diagrams and 9 formlae. !!,,,SUB CODE, 13/ SUBM DATE, none/ ORIG REFs 002 Card 2/?,A  YZ-RGALIY.,-Vj,'IA.Yc.; YURKOV, MI.; ABEDDIOV, A.Zh.; ZAVARZ11i, V.G.; VEPSHINITIA, V.V. Study of the electrochemical method of fastening loams ani clays. Trudy Alt. GMINII All Kazakh. SSR 15:48-52 163. OMIHA 17:3)  YERGALIYEV, A.Ye.0 kand.tekhn.nauk Analytical calculation of the effective coefficient of .the reduction of distances between boreholes. Vest, All Kazakh,SSR 20 no.1106-41 N 164. (MIRA 18:2)  YERGALIYLT, I.Ye.; GHOYrIM, B.M. Conveying machine for copper pouring. 25vet. met. 33 noolO:79-80 o l6o. (MIRA 13:10) 1. Irtyshakiy polimetallicheekly kombinat. (Copper-Metallu,rgy) (Conveying machinery)  AIWAMONOV, K.I.; LEB,-'Dr-,Vj N.I.; UiLALIYEV, Me.; U-'j~XIEW, tr,.K.; YAKUSHINP M.V.; KAZAKOV9 V.11.; BRMr,.ffM10Vv-j1.G.; NIKITIII'A, L.I.; KlfVFSYUKp F.I.; Prinimali uchastlye, A.T.; KOTILE7, ROMA110Vp V.S.; HARCIMIXOp B.P.; ZUDWA, T*I,; 0,11UNVp 14,11.; PECHFITKIN, S.N.; LJJKIlly Ye.G; KHLUDKOV, V.I. Shaft-furnace copperamelting with an oxygen--enriched blow. TSvet. mot. 34 no.3:32-39 Mr 161. (i~-[IRA 14:3) L Irtyshokiy polimatallichoskiy kombiwit (for Artamonovy Lebcdovp Yerga.liyev, Lesechkol, Matveyevy Kovalevo liomanov, Murchenkop Zudovap 0marov), 2, Vsesoyuznyy nauchnoisaledovatellakiy institut tsvetnykh metal-lov (for Yakushing Kazakovp Dryukhanovy Ilikitinal Khvoayuk, Fechenkin, Lukin, KUudkov). (Copper-Metallurgy) (Oxygen-Industrial applications)  TSYGODAJ, I.M.; KAZAKOV, V.N.; KOLEPNINOV, N.A.; BRYUYHANOY, N.G.; BURBA,,A.A.; SADYKOT; V.I.; PIGAREV, A.D.; Prinimali uchastiye: FECHENKIN, S.N.; GLAZACHEV G.M ; KHVESYUK;.F.I.; KODINTSEV, A.V.;_ZRG YERMAKOVA, Z.S:,- NOVAK, I.V.; UILIKO,'I.Ye.; LYASHEVSKIY, R.A.; PROKHO- ROVp A.I.; CHERTOVA, N.G.; URUBK0p,V,N.; XUGUCHEVO M. Industrial testing of a flow sheet for the processing of Altai complex metal ores along the lines of the flow sheet used at the Mednegorskii Combihe. TSvet. met. 36 no.121l2-15 D 163. (11IRA 17;2) 1. Vsesoyuznyy nauchno-issledovatel'Bkiy gprno-metallurgichaskiy institut tavetnykh metallov (for Pechankin, Glazach6v, Khvesyuk, Kodintsev). 2. Irtyshskiy polimetallichaskiy kombinat (for Yergaliyev, Yermakova). 3. Mednogorskiy madno-earnr/ kombinat (for Novak, Khillko, Lyashevskiy, Prokhorov, Chertova, Urubko, Kuguchev).  APOLIDNOV, M.K.; YERGALIYEV, G. Xh. Stratigraphy of the Erkebidaik series in the eastern Kokchetav trough.. Izv. All Kazakh. SSR. Ser. geol. no.2:18-25 161. (MIRA 34:7) (Kokchetav region-Geology, Stratigraphic)  YERGALIYEV First find of Upper Cambrian trilobites in the Greater Xara,.Tau. Izv.AN Kazakh.SSR. Ser.geol. no*5:79-82 162, (MIRA 15:12) (Kara-tau-Trilobites)  YEFGALM-V-, G. Kh. . Stratigrapby of the Tendia~ and Cambrlan in the Baykcnur- Karatau-Dihebaglinak zone. Izv. AN Kazakh. SSR Ser. geol. 22 no. 6r12-25 14~-D 165 (MMA 19rl) 1. Inatitut geol6gicheskikh nauk imeni K.T. Satpayeva AN KazSSR9 Alma-Ata.  ---j:ERGKN9I,-Ai-A. Fuel Abstraets May 1954 4~uiakovich, L.S. -IJZEV~A 3336. smi Egnza oF s- A -' Natural. Solid Mol (coal), ficy. 1953, 40-42). Corpressionxesrs on rest cuois and Fuel.9: Winning a~.odelS vere made to discover the p=IbIlIty ot using coarse pcrous concrete made rmn crdl=7 and/cr local cement as stosage in F=tass 2irm. M.  AKSENTOV, Yu.V.; GOLIDIIII A.A.; DZHAKON1YAj V.Ye.; DUSPnNIGH, N.I.; YERGANZHIYEV, N,A.; YEFINKIN, V.I.; LIPAY, I.N.; MIIIENKO,, Yu.G.; ODNOLIKOY V.V.; PEREVEMITSEV, L.T.; TARANETS, D.A.; S.W.AKOV, P.V., prof.; KUKOLEVA, T.V., red.; DELYAYEVA, V.V., tekhn. red. (Theory and practice of color tolovision]Teorlia i prektika tsvetnogo tolevideniia. Moskva, Sovetskoe radio, 1962. 661 p. (MIRA 16:1) (Color television)  XERGANZH.IYEV, N.A - KOPYLOV, F.M.j MCIROZOV, V.A. Lj_ Control of the level of the video signal in color television stations. Elektrosviaz' 16 no.9:70-72 S 162. (MIRA 15:9) (Color television)  MA, V&Aop )cand. vet.nauk; SIDOROT, T.I.e vetvrach; YXRGAYBY, x,p, vetvrach. -0- Compound treatment of paratyphold fever in only"g. Taterinarlia 35 nn.1:64-65 A '58. (MIRA 1112) 11 Nnuohno-proizvodetvannaya laboratorlya po borlbe a bolesnyami molodnynka (for Kovylina). 2. Kuybyabovskaya mozhoovkl.loznaya Tot_ baklaboratoriya (for Sidorov, Targayev). (Paratyphold favor) (Calven-Diseases and posts) 4  YERGAZinoi.1, L.G. interrelst'.onghips bPfwf,-en ?,"fferen, corn varieties in mixed planting. Izv. AN Kaznkh. SSR. Ser. biol. nauk 2 no.6:24- 29 N-D 164. (MIRA 1813)  !Y:-  mw_-0  I.A r-I ,, ~  L ~.:S467-65 EPF(c) /EWT,(j ),/E7AjT(,-a)/T /pr RM ACC&'-S ION NR U-5003829 s /o,L goA 5 /orr /ooi /oo6 s /boo mv r, Card 1/3  soluhla trith WrA than Irm P, '111A ofraetff nr Pr  1 ~s ---,%Crjr ~,rq- -~r PAP .~JA PAP OcId, 14.51 P in R~O; 2 same in 0.15 n KC-Fil  W-ANT'Its IQ Lq SlArltztKIllrailk-11-kogg-,VNAA~-g~~m Ar wiln, SOURCE- AN SSSR. lzv"ttya. -~erlva KhirrlcneLqKava.. no. Tf IP,f' T N,,q Ln UPRO-II&F-CL Z5LlUWU-ll UX-,YtUJ UUAmm CLL aoxrv-~,~ ~1-  1. 4 1,1 T T '7- 1 1 1 of. -A  --- -~- - TrELnBIOI"mttona in polymerr,,-   HODE) V.V..; RAFIKOV, S.R.; YERGEBEKOV, M.Ye.; VASKEYMI, D.N.; KONOVALOV, P.G.; DI*I.ACHKUV, G.A. ' Thermal degradation of 1-1olyalkylonaphonphinic anidis (trid thoir salts, Vyuokom. oood. 7 tio.84.1,452-11~55 Ag 165. (MIRA 18:9) .1 1. Institut elementoorganicheski.kh soyedinenly AN SSSR.