SCIENTIFIC ABSTRACT GURNSPAN, M. - GUROV, K.P.

GURNSPAN, M.; SUCWSCHI, Maria Effect of insulin upon the anaphylactic shock and the liberation of histamine in dogs. Studii cerc fiziol 5 no-3:5?1-578 160. MAI 10:2) 1. Institutul do fiziologie normala si patologica "Prof. Dr. D.Danielopolu" al Academ3ei R.P.R. (INSULIN) (ANAPHYLAXIS) (HISTAMINE)  GURNY, L. [Gorny, L. 1, PcIdpolkovnik Voyska Pol lokogo Class of radiotelegraph operators. Tokh. i voonun. nc).4:86-117 ~ ILk 17:9) Ap 164. (mil i  1 1. -rhysia cosmic, P Carbon *Altitude Depend~L-n,~e ar-,d Car-Te &of Abror-m-,7,,-~,n in Coxbon for Farticlzs Generat-=g Pul- se 161tkization Clh=ber at Altitudes of 3,36r, and 4,700 *tars," G. G-aro, V. Nikolaye'v', L, FE~.zer' 1. chwe-lo, PhYIF 11-r'st iment P, N~ lo~- ,~cad spi DssR, 4 pp "Dok Ak ftuk SSSR-" Vol LXVII, NO 4 Used a 24-cm diamater S#Leriesl ionization chamber -filled with. argon to a preaaare of 4'ats In e--X' of feat -'M 4un vents. Registered 7a2seji by a system -g **=-Uri avaivi,to *Sister it.. ;,OitCidL*nCL-3. ~ Aii'Uyer b6tween tfie tv,6 altitu was campensated for by. a layer of graphite equi- Talent, in mazs . Tables show nmaber of, 1~ulses iii Pa 'unshielded'chember and in the ebanber vhen Obleldea by grapbite layers vith thicknesses of 64, 128, and 192 g/sq Submitted by Acad D. T. 'Skobelltsyn 20 YAy 49. 3/59M  -kip A jL  SUBJECT USSR / PHYSICS CARD 1 / 2 PA - '574 AUTHOR ADIROVI6,E,I., IUROG.M., V KULESOV,V.F~ TITLE The Dependence of the Life of Charge Carrieri which are not in Equilibrium in Germanium on Temperature and on Composition, PERIODICAL Zurn.eksp,,i te or.fis,jl, fase.2,261-272 (1956) Issued: 10 / 1956 The present work provides an analytical solution of the problem and the solution is written down in form of simple approximation expressions which are suited for concrete computation,. Computation of the position of FERMI levels: The position of the FERMI level at thermodynamic equilibrium is determined on the basis of a condition of normaliza- tion which is given here. In non-degenerated semiconductors the distribution of electrons in the upper zone as well as the distribution of holes in the lower zone obey BOLTZIWTNIS statistics., As a level of reference of energies the position of the FERMI level in a pure semiconduotor is assumed. Here only semiconductors with low activation energy of donors and acceptors are studied.. A typical repre- sentative of such semiconductors is germaniuml all further evaluations refer to it. In the case of donor germanium the FERMI level is positive at all tempera- tures. In electron germanium the concentration of the holes on acceptor levels may be' neglected at all test temperatures. The domain of low temperatures can be subdivided into three temperature intervals in which various approximation expressions are possible, In the case of the usual concentrations of admixtures the upper boundary of this domain does not depend on the binding energy of the  &rn..eksp.i teor.,fis,31, fasc.2, 261-272 (1956) CARD 2 / 2 PA - 1574 electron on the admixture lev?ls, For the domain of higher temperatures two temperatures are specially mentioned: 93 corresponds to the equality of the ad- mixture-dependent and independent conductivity,and 94 to independent conducti- ity. Nearly all results obtained here hold also in the case of hole-semiconduc- tors The iife T,* of the charge carriers which are not in equilibrium increases with rising temperature at first to a maximum, after which it again decreases, At I Ep I> EL 'r )~ increases even at 9 4 0 Here IF and E L denote the enerbries of the"trap" and the hole respectively. If,; however) the recombination levels are in the middle of the forbidden zone (or, more accurately, if the position of the "trap" agrees with that of the FERMI level in pure germanium), increases momentarily after which it remains constant. The relaxation of the concentra- tion of electrons which does not, correspond to equilibrium is due to two pro- cesses: 1~) Recombination of electrons in the empty "traps" which correspond to equilibrium, and 2.) Recombination of electrons corresponding to equilibrium with the surplus of empty "traps". In conclusion three concrete examples are dealt with, INSTITUTION: Physical Institute "P.N.LEBEDEV" of the Academy of Science in the USSR  SUBJECT USSR / PHYSICS CARD 1 / 2 PA - 1365 AUTHOR ADIROVIC, E*Ii7 _GU_RO _G-]A TITLE The Character stli_c_T~m~es ~T Electronic Processes in Semiconductors, PERIODICAL Dokl.Akad.Nauk, 108, fasc. 3, 417-420 (1956) Issued: a / 1956 reviewed: 10 / 1956 First, the electron transitions in a semiconductor containing recombination centers (traps) are given, The acceptors and donors are assumed to be totally ionized. By the subdivision of all concentrations into a part which is in equi- librium and a part which is not, as well ae by the neglect of terms which are quadratic with respect to concentration, a further system of equations is ob- tained. This system is then solved for the damping of concentrations that are not in equilibrium at initial conditions which correspond to steady operation. The solution obtained contains 4 time-dependent parameters (which are explicitly given),. Two of them are identical with the life of electrons. (W.SHOCKLEY, W.READ, Phys,Rev. gj, 835 (1952)). These expressions are specialized for low concentrations of the recombination centers. Further, there is a characteristic time of damping which, at steady conditions, is identical with the life of the (real or unreal) carriers which are not in equilibrium. However, in the case of high concentrations of the "traps" the damping process is determined by two characteristic times. In a diagram these parameters are represented as functions of the position of the FERMI level., In the case of high concentrations of the "traps" the maximum of the life of the electrons is shifted towards the conductivity domain of the  Dokl,,Akad.Nauk, 108, faec.3, 417-420 (1956) CARD 2 / 2 PA - 1365 e-type. (F > 0), According to the dependen3e of the lift of the holes on the FER1,1I level F, another heat-dependent emission of holes from the "traps" into the valence zone occurs, and therefore a second maximum exists in the case of such a dependence, In the case of steady operation the recombination of elec- trons and holes in the "traps" is in equilibrium with the producticn of pairs, If this pair production is interrupted, uncompensated and approxima-.ely equally strong currents of electrons and holes from the zones to the "traps" are pro- duced. The life of unreal charge carriers is introduced into the theory as a fundamental characteristic. In the case of high concentrations of the "traps" the results obtained by the authors agree with those obtained by SHOCKLEY and READ only within a certain interval.. If the "traps" are in the lower half of the forbidden zone, the characteristic time of damping is equal to the life of 'the real current carriers, This is true for all positions of FERMI levels ir, elec-- tronic semiconductors as well as in sufficiently marked hole-semicorductcrs, In conclusion the two main methods for the measuring of lives, the impulse me- thod and the Dhotoelectric method, are discussed, INSTITUTION: Physical Institute "P.N.LEBEDEV" of the Academy of Science In the USSR.  AUTHOR TITLE PEMODICAL GURO G M 56-7-23/66 Decay Law for Concentration of Non-equilibrium Charge Carriers in Semiconductors. (Zakon zatukhaniya kontaentrataii neraynoyeanykh nositeley zaryada v poluproyodnikakh.- Ru3aiar) Zhu-.-nal Eksperim. i Teoret. Fiziki 1957, Vol 33, Nr 7, PP 158 - 165 (USSR) ABSTRACT The present paper studies the kinetics and the rules governing the non-steady process of damping non equilibrium charge carrisis in the case of a low concentration of the traps and any generation levels. The Problem and its Solution:' At first the equations for the kinetics of electron processes in the case of an existing damping and uniform produotion are given. This system is than transformed, and the concentration is divided up into an equilibrium part and a nonequilibrium part. This system can be linearized only in the case of very low generation levels. The law of damping for the general nonlinear case in here calculated according to a method developed by ARTSIMOVICK. Suma-iry of Conclusions: The kinetics of the damping of the non equilibrium charge carrier in semiconductors with small concentration of traps is of a complicated character. In some CARD 1/2 intervals of the concentration of the non equilibrium carriers  56-7-23/66 Decay Law for Concentration of Non-equilibrium Charge Carriers in Semiconductor@. simple kinetic schemes of recombination predominate, which leads to the approximation of the damping law by an exponential function, a hyperboliol or a linear function. Besides the well investigated monomoleoular and bimolsoular kinetics of recombination in the semiconductor there are also processes with constant recombination velocity. They correspond to a life that is proportional to the concentration of the non equilibrium charge carriers. These recombination processes take place at low temperatures in iuoh semiconductors in which the recombination cross section of the unreal charge carriers is much greater than the cross section of the real charge carriers. In the case of certain ratios and conditions of the constants and temperature the damping of non equilibrium charge carriers develops entirely according to the monomoleoular scheme. (With I IliVitration) ASSOCIATION: Physical., Institute "P.N. LEBEDEVII of the Academy of Sciences of the USSR ' (Fizioheskiy institut im.P.N.Lebedeva Akademii nauk , SSSR.- Russian) PRESENT19D BY: - SUBMITTED: 25.12.1956 AVAILABLE: Library of Congress. CARD 2/2  GURO, G.M., Cand Phys Math Sci - (diss) "Characteristic times of electron -)rocesses in semiconductors." Mos, 19S61 10 up including cover (Onys Inst im P.M. Lebedev of Acad ~;ci !JSSR) 150 ronie~i (KL, 50-58, kiR 120) - 7 -  AUTHOR: Guro, G. IM, 57--28-5-21,/3 TITLE: On the Theory of the Photogalvanomagnetic Eff,*ect in Semicon- ductors (K teorii fotogallvanomagnitnogo effekta v polupro- vodnikakh) PERIODICAL; Zhurnal Tekhnicheakoy Fiziki, 1958, Vol. 28, Nr 5, pp. 1o36-1045 (USSR) AB3TRACT: As is known, the measurement of the voltage ~nd the amperage of the photogalvanomagnetic effect according to Kikoin- -Noskov (Ref 1) offers the possibility to determine directly the surface recombination velocity as well as the short life of the current carriers not in equilibrium in semiconduct- Van Roosbroeck (Ref 5) gives the best rounded-off representat- ion of this theory, investigating this problem for semi-in- finite samples, He ae3umed, that the voltage of the photo- galvanomagnetic effect in the semi-infinite sample is con- stant across the whole depth of the semiconductor due to the existence of circular currents. Por this reason he also assumed, that the value of the voltage Va (measured experi- mentally) equalo the mean value Vn (computed from the one- -dimensional problem of the diffusion of not equalized car- Card 1/3 riers in a weak magnetic field)(Refs 2,3). The problem con-  On the Theory of the Photogalvanomagnetic Effect in Semi- 57-28-5-21/36 conductors cerning the voltage of the photogalvanomagnetic effect - Vn and the ring currents makes only sense in samples of finite on in the present paper the author dimensions. For this re conductel an examinat io an accurate solution of the two-di- g merEional problem of thelphotogalvanomagnetic longitudinal and transverse effect (Ref 6), taking into account the ring curr- ents, in a rectangular sample at a low light intensity and weak magnetic fields. This examination yields the possibility to conduct a direct compariton with the experiment and per- mits to clear the part played by the ring currents, to the in- fluence of which Van Roadzvedk pointd apart from a determination of thellimits of applicability of 6heiapproximation of the se- mi-infinite sample. Summary: 1) A neglect of thetprocesses at the edges of the sample furnishes the boundary conditions. the life with In order to offer an opportunity to determine _ an accuracy of up to 2o% down to values of 10 a sec in this approximation, the ratio of the length and the width of the sample must be"30. 2) More accurate formulae taking into ac- count the processes near the edges of the sample, moreover yield a possibility to determine the short life (1o-5 sec and Card 2/3 below) from the voltage measurements of thIphotogalvanomagnetic  On the Theory of the Photogalvanomagnetic Effect in Semi- 5-1-28-5-21/36 conductors transverse effect on the illuminated and dark face of the sample. 3) Due to the existence of ring currents, which are created by the magnetic field, not only a quadratic photo- galvanomagnetic effect takes place in the illuminated sample, which is longitudinal with respect to the magnetic field, but also a linear one, the linear, longitudinal one reaching its maximum Value at the boundaries of the sample. The author thanks A. V. Rzhanov, Candidate of Physioal-Mathematical Sciences, for the theme, and E. I. Adirovich,Doctor of Phy- sical-Mathematical Sciences and Professor at Moscow State University,for valuable sug;-,estions. There are 1 figure and 15 references, 7 of which are Soviet. ASSOCIATION: Fizicheskiy institut im. P. N. Lebedeva AN SSSR, Moskva (Mos- cow,Physics Institute imeni P. N. Lebedev AS USSR) SUBMITTED: June 5, 1957 Card 3/3 1. Semiconductors--Electrical properties  GURO, G. M. Characteristic times of stationary electronic processes in semi- conductors. Fiz.tver.tela 1 n0-1:3-12 Ja '59- (MMA 12:4) (Semiconductors)  3/053/60/072/004/003/006 9j 3~31 P39) B029/BO56 . a /,0 113, & AUTHOR: Guro, G. M,, TITLE; Characteristic Times of Electronic Processes in Semiconductors PERIODICAL: Uspekhi fizicheskikh nauk, 1960, Vol. 72, No. 4, pp. 711 - 740 TEXT: V. L. Bonch-Bruyevich (Ref. 18) investigated the -.,.echanism of "radiationless" recombination. S. G, Kalashnikov (Ref, 37) exactly analyzed electronic processes in semiconductors having a set of trops with different levels. V. Ye. Lashkarev (Refs. 48,49) investigated steady processes in semiconductors with mixed conductivity, and showed that the diffusion of electrons and holes is determined by the "general character- istic length" ("length of diffusion shift"). M. I. Iglitsyn et al. Ref. 60) determined a relation bet-teen the quantities to be measured rrent passing through the contact, lifetime, mobility of minority M carriers, resistance). If thid relation is satisfied conditions will hold that correspond to a uniform unsteady generation. From the 91 papers Card 1/3  Characteristic Times of Electronic Processes S/053//60/072/004/003/006 in Semiconductors B029/BO56 discussed, the following conclusions may be drawn; A semiconductor constituting a system of carriers of both types and of different localiza- tion. centers, has several characteristic times. Each of these times corresponds to a certain electronic process and is fully determined by the kinetic equations of these processes. Electronic processes in semi- conductors may be divided into the following main groupst steady and unsteady processes with uniform (G = const) and nonuniform generation (G = f(x,y,t)) of minority carriers, Electronic processes occurring with uniform and steady generation are characterized by the times'~st and s+- e h'. In some cases, these times may be determined by measuring the steady photoconductivity. In the case of steady, nonuniform generation, a t ~ st 'e s d rL bipolar diffusion is added to the processes described by e an _ h (i.e., the motion of non-equilibrium pairs). This range of absorpticr, of non-equilibrium pairs is determined by the coefficient of the ambi- polar diffusion D = De Dh(n0+p 0) and by the time De no+ DhPo Card 2/3  87543 Characteristic Tines of Electronic Processes S/053/60/072/004/003/000' in Semiconductors B029/056 j=m j=m P,j(p +pJ)+,,i (n +nj) 1 . T 1.. T AjAj 10 0 1 10 o . 1 TO - Iti -. e h AJ(p 4pj)+Aj(n +n.j) J=1. 0 j=1 h 0 1 e 0 1 Aj, i 0 A~ are the capture coefficients of the electrons and holes;rr 0 does not depend on the concentration of adhesion centers. Therefore, all methods based upon measuring the diffusion length have a lifetime that does not depend on the existence or on the state of adhesion centers in the semiconductor. Its dependence on the state and existence of adhesion centers which contained in semiconductors may be determined from the formula derived by G. M. Guro for the longer time 'r V which is experimen- tally measured. There are 13 figures and 91 references: 31 Soviet, 60 US, 2 British, and 4 German, Card 3/3  389LE S/181/62/004/007/025/037 .Q if, r27 6 B102/B104 A U T H OR Guro, G. M. TITLE-': Influence of impact recombination on the attenuation of the non-equilibrium carrier concentration in semiconductors PERIODICAL: Fizika tverdogo tela, v. 4, no. 7, 1962, 1936-1945 TEVV: The author stu4ies theoretically the influence of impact recombina- tion on attenuation of non-equilibrium carriers in the case of 'a small concentration of the recombination centers, when the recombination times (10-5_10-6 see) are much greater than the energy relaxation times (10-12 see) of the carriers. Using the kinetic equations obtained earlier (Guro, ZhETF, 33, 159, 1957) a general 'expression for the attenuation law is worked out and is applied to the limiting cases of high and low generation levels. The-solutions obtained hold for the most interesting cases of highly alloyed semiconductors (n 0 >) Po ) - for small and large impact- recombination cross sections. They yield simple approximations correspond- ing to different recombination meohanismsp as bimo~lecular, monomolecular Card 1/3  S/1 8XO'2/004/007/02 5/037 Influence of impact recombination ... B102 B 104 - etc. 'With or .-;-ithout impact recombination, the greatest attenuation of the non-equilibrium carrier concentration occurs at high generation levels, in which case the attenuation obeys a hyperbolic law. In the case of low generation levels an exponential law holds: nl;z.-, L~nexp(-t/(TP,+ Tno intermediate regions can be observed not only with ordinary recombination. but also with imDact recombination. In the latter case the intermediato region is characterized by an exponential.attenuation law: n'-- Ane A'. Al A12 I go. A' A A' A A. T Here A are the impact recombination coefficients, A those of ordinary recombination; a refers to electrons, j% to holes, N t is the total traD A. concentration. The occurrence of this region is due to the high density of the non-equilibrium carriers and their small cross sections. Card 2/3  S/181/62/004/007/025/037 influence of impact recombination ... B102/B104 T The presence of a region of mixed reca-mbination'(attenuation time IT c0 allows conclusions to be drawn regarding impact recombination at genera- tion levels much below the limiting values (hyperbolic attenuation law). For low generation levols and large impact recombination cross sections the attenuation satisfies the relation n' Lnaxp(-t/-r T), where 0 no, -4- nj p0 -4-p1 0 ATN,,.(no-A)' ArN,,. (no-po)s holds. The results of this paper hold good also for steady processes.. ASSOCIATION: Pizicheskiy institut im. P. K. Lebedeva AN SSSR Moskva (Physics Institute imeni P. N. LebedeV AS USSR, Moscow) SUB,'.!ITTED: March 9, 1962 Card 3/3  5/181/62/004/012/014/052 B100102 AUTHORS: Guro, G.M., and Rzhanov, A.V. TITLE: Kinetics of the nonequilibrium conductivity in the case of high generation levels PERIODICAL: Fizika tverdogo tela, v. 4, no. 12, 1962, 3441-3445 TEXT: How the period that the carriers are trapped in a recombination center affects the kinetics of the nonequilibrium conductivity in the case of high generation levels is studied. For the case of low generation levels, the effect of the carrier 'lifetime on the excited levels of the recombination centers in stationary processes was in- vestigated by A.V. Rzhanov (FTT, 3, 3691, 1961) as an extension of the recombination theory by W. Shockley and W' Read (Phys.Rev., 87, 835, 1952). G.M. Guro (ZhETF, 33, 158, 1957) derived an attenurtion law of the carrier equilibrium concentration at arbitrary deviations from thermodynamic equilib3;ium, assuming, however, that recombination takes place via the ground state of the recombination center. The same con- ception is adopted here, but a more general expression for the recombina- tion rate is taken as initial equation, whereby the effect of the Card 1/2  Kinetics of the nonequilibrium S/,181/62/004/012/014/052 B100102 trapping period of the carriers is considered. By usinG equations and symbols from previous studies, the recombination rate is shown to prevent the setting of a stationary carrier concentration if the constant generation rate of nonequilibrium carriers exceeds a certain limit Go . Nt/Tr. Here T. is the sum of electron and hole lifetimes on the excited levels of the recombination centers. There are 2 figures. ASSOCIATION: Fizicheskiy institut im. P.N. Lebedeva AN SSSR, Moskva (Physics Institute imeni P.N. Lebedev AS USSR, Moscow) SUBMITTED., july 6, 1962 Card 2/2  ----------- NIP! I q7 I, Pm-4/Pn-4/Pn-4/Pf -4/Pe1,,/P--'-4/n-4 11511(c, 4G/G0 ALtESSION NR: AP50-105OU AUTHOR: Gudzenko,~ L. I.; Gur TrM: Coherent division of quants, SOURCE: Zhizrnal eksperimentmilnoy i teoretb~heskoy fizild V0:48 no. 4,~ 1,96 1-132-3138 TOPIC: TWS: laser laser ac gu~ ~t= m~echad fv! pency divider' tion, ABSTRACT: The problerd considered applLea easentle-Ily to i-he e".- 114 dwhen th4l Samil, frequency corresponds to transitions betueen. a large numbpr of ener(W leviiz-O.P. Ii a quantum mechanical system. Thi a mq concerns for exmqj.',e,,, Vie opermting prin- ciple of ar, effective fzequency divider (a "ical kriz,ruDient '41hian greatly reducee the frequency yet conserves a large fraction oT the Incomilig I radiation pawer)v- Tte dealdve e-lemeat of. ouch-,4. coaverter is a. qaa-vitum-meahaniml atin of i 4~ IA#,e munibpr qf' Gyatem. that includes a band bamided from above~o cousi Practically equidistaixt levells. It is shown that a i~'requdkey Obider can be pro-- duced by placing such a medium in a reeonator of =Mciefat3'y Large qj euid that Card 1/2 ---- --  V I V, I ilia I I !I :rl~~ V F I I I; N~*AhRlp 11111. if Ifill F.M.-I 14 1 MH U14 PrUJUVIRM3.1 UMP, 111-1-1 . ...... .45719-65 L 1 ACCESSION IIR: M010508 ne transformation can.have suffic!qntly high bfflo )riMAb1LS-- the e rgy i, the c4 ijt~ iditims! for, tion.of the nonradiative tranSitiond is Sifficiently T1 tjj6 lijjjt-ir~~' ~C:as6i~; steady state amplification aria considered for. 6f ~ I-owl bl intensity of the ampiified emLesion. Examples of pbysiedi: nedid. 1-hat may sevre for thir. purpose are a gas consiating of nortequilibrium excitedi diatomic wle- cule!--, whose equidistant-level band is made up of vibmtionta lowals, a aoaL- conductor in a magnetic field,, or P- solid -46 conduction electrons In a at!rong fa a, 14~ P2*okb electric field. "T-he authors thankA. drov and r discussion." Orig. art. has-c' 2 figures and 9 formulaz- ASSOCIATION: Fizicheskly infrUtut Im. P., No LebadcmAadmaii amik SSSR 4 -Mc t ~e -1go q1w R, sumnv= t i5oct64 ENCL: 00 SM CME: Er. o=: oa ~-;ANO j7:::1- 77- 90 FW 'GOV 17 003 40i 2 2 Card-  ACC NR. AP7003532 SOURCE CODE: UR/038-6/6-1/005/001/0009/0012i AUTHOR: Guro, G. M.; Ivanchik, I. I.; Kovtonyuk, N. F. ORG: Physics Institute im. P. N. Lebed.ev, Academy of Sciences, SSSR (Fizicheskiy institut'Akademii-nauk SSSR) TITLE: Semiconducting properties of ferroelectrics SOURCE: Zhurnal eksperimentallnoy i teoreticheskoy fiziki. Pisoma v redaktsiyu. Prilozheniye, v.- 5, no. 1, 1967, 9-22 TOPIC TAGS: barium titanate, ferroelectric material, pn junction, forbidden band, electric polarization, light emission ABSTRACT: Using the known fact that a ferroelectric crystal such as BaT103 is SiMi- lar to a p-n junction in which the regions of high free-carrier density are separated by a broad dielectric gap, the authors estimate the free-carrier densities in the n and p regions, and the free-carrier and electric-field distributions over the thick- ness of a BaTi03 plate. The estimates are made separately for an ideally pure crys- tal and for a real crystal with impurities. Analysis based on the band structure I and on calculations of the induced potential difference lead to the following conclusions 1. A BaTiO3 crystal connected in an electric circuit will behave like a p-n junction with symmetric current-voltage characteristic. The symmetry of the characteristic isl a result of repolarization, which causes the current to flow in one direction rela- tive to the p-n junction. 2. During repolarization, nuclei of the opposite phase Card 1/2  ACC NRi grow through the crystal. At the instant when opposite ends of nuclei meet, recom- bination takes place and is accompanied by emission of light. The frequency of such emission can be of the order of the width of the forbidden band, corresponding to violet light in the case of BaTi03. The emission should take place over the entire volume of the crystal and is flash-like. Work aimed at observing this emission is now under way. 3. Thin layers with anomalously high free-carrier density should exist near the surfaces of crystals not equipped with electrodes. Thus, the electric conductivity along the surface should be much higher than in the direction perpendic- ular to the surface.' The authors thank B. M. Vul, V. A. Hassushin, and N. A. Penin for a discussion of the results. Orig. art. hast 3 figures' and 4 formula~i.*_- SUB CODE: 20/ SUBM DATE: 29Sep66/ ORIG MW; 002/ OTH REF: oo4 Card 2/2  GUROP P.Ye.; KHARIKOVSKIY, S.Ye. Design of foundation slabs for centrifugal pumps. Koks i khim. no.9:57 t62. (MIRA 16:10) 1. Gosudarstvennyy institut po proyektirovaniyu predpriyatiy kokaokhimicheskoy prouTshlentiosti. (Pumping machinery-Foundations)  GUROCHKINI,D. T., KASHKINA, A. A, !jA I.~,,Y CAl I LZ Yearly yirlu of '0092 kilor. of milk per cow. Sotu. 7lAv- 1L' flo. 3, 1952. Monthly Lipt of Runsian Accp:i2lons, Libn;ry of Conslr-sv, -ovemb-1- 1952. 'UNCLkSSIF.I.~-  I, IK , Cl . 1,1 . (TRO, 01THMp G. A. - "Inve.itivatlon of the Influence of Concentration of Elerfxol~rtrfr; in 'dater In a 1~ielectrlc and on Its Dielectric Permeability and Coefficient of Absorption." Sub 13 Nov 52, 'Moscow Oblast Pedagogical inst. (Disserta- tion, for the Degree of Candidate in Physicomathematical Sci-ences). SO: Vechernaya Moskva January-December 1952  USSR/Chemical Technology. Chemical Products and Their Application -- Treatment of natural gases andpetroleum. Motor fue3s. Lubricants, 1-13 Abst Journil: Referat Zhur - Khimiya, No 2, 1957, 5587 Author: Gurok, G. A. Instituti-on: Moscow Oblast Pedagogical Institute Title: Dt-termination by the Electric Method of Moisture in PetroleLm Products in the Preoence of Various Salts in the Water Original Publicatl.im: Uch. zap. Moak. obl. ped. in-ta, 1955, 33, 255-273 Abstracti Moisture content of petroleum products is determined from the value of their dielectric constant which is determined by the method of Drude-Cc-alidge. Magnitude of dielectric constant depends on the velumetric content of water and on the degree of dispersion of the emulaicn. 31 the emulsion includes electrolytes it is necessary to use a calibraticn curve which is plotted by utilizing samples con- tainitg th,,5 same amount of electrolyte. Card Vi  GUROV, A., polkovnik, kand.ekonomicheskikh nauk "Military ideology of West German revanche plotters" by A. V. Beshentsev. Reviewed by A.Gurov. Komm.Vooruzh.Sil 2 no-13% 90-93 J1 162. (MIRA 15:7) (Germany, West-Hilitary policy) (Beshentsev, A.V.)  DAVANTOV,, A,B,; ZUBANITA, L,8.; GUROV, A4A~ Determination of the constants of' copolymerization of 2-mothyl-5-vinyl- pyridine with triethylene glycol dimethacrylate. Ilysokom.soed. 6 no.2: 237-240 F 1-64. (MIRA 17:2) 1. Maskovskiy khimiko-takhnologichoskiy institut ineni. Mendeleyeva.  'qe~)ksandr Aleksandrovich, polkovnik; ENDERNURM11, P.T., polkovnik, RM07 9 . telchn.red. [Ideological sword bearers for the munition industry monopolies in West. Germanyj Ideinye oruzhenostay voenno-promyehiennykh monopolii FRG; kritika revanahistAikh ekonomicheskikh konteeptaii. Moskva, Voen.izd-vo H-va obor.SSSR, 1959. 165 p. (MI1.U 12:12) (Germany, Wout-Firearms industry and trade)  .qVR(~V.. Aleksandr Aleksandrovich, polkovnik, kand.ekonom.nauk; - MRANOV,-- 1. M.--P---r-eU-.;--MUWHOVA, L. A. , tekhn. red. (Technical progress'and militarism] Tekhnicheskii progress i militarizm; politiko-ekonomicheskii ocherk. ~bskva, Voeniadat, 1963. 144 P. (MIRA 16t6) (Militarism) (Arriaments)  SOV/iZ4-58-10- 11738 T,aii-slai cr from: Reierat:'vn-_;y zhurnal, Mekh.nika, 1958, Nr 10, p 143 (USSR) AUTHOR: G%jrc- ., A~ F. T IT LE, On t'-,e Rational Clamp:ng of an Airscrew Propeller Blade by Means Cf Shait Thread (0 rats~onallnom rezlho.,om krepleni~ lopasti ozdushnogo ~-inta) PER.-OD-I*CAI-: Tr. Mosk. av;ats, ir -ta, 1954, Nr 38, pp 52-67 ABSTRACT., The aut-nor examines i*.;.e di-Iferent construct.:onal uesign5 ot a 11inclamental three--thread type and calculates the load distribution ~_'C':g the Iblade -root tr~reads and the shaft of the propeller. Cal- ,~,_Iut:ons are performed accord..!,g to the method proposed by N, Ye ZrL.~o -ik-'v, This method con.6iders the pTopeller as a rod w.-h annular project:oni, It 's a5sumed that there is constant and cemplete contact along all the turns of the threads, The thread turr. that carries the greatest load in each part,,cular design is *sciat.ed and a formula ts given for computing its load depending on the n1imber oi ti.rns of the thread, Stress calcu.,ations are perior,med ior threads charntered at the base of t~e shaft as well Card I/> as for i_ncn"miered threads. The magnitude of the centrifugal  SOV/1~1 -58-10,117 ~8 On the Rut:onal Clamp.'.ng oi an Airscrew Propeller Blade (cont.. ) force is taken as 60 metr;c tc,.,,.s and that of the hending moment ai 100 fon/cm. V. F. Vorob' yev Card 2/2  GUROV A F. kandidat tekhnicheakikh nauk. Direct determination of dynamic rigidity of aerial propellers. Trudy MAI no.55:63-92 156. (MLRA 90.10) (Propellers, Aerial)  GUROV, A.F., kandidat tekhnicheskikh nauk. - ~ Using the integral method for determining the critical speed of rotation for shafts. Trudv MAI no-74:3-38 '56. (MLRA 10:5) (Shafts and shafting)  FIIASE I BOOK EXPLOITATION SOV/3190 SOV/11-M-115 Gurov, Aleksey Fedorovich Izgibnyye kolebaniya detaley i uzlov aviatsionnykh gazoturbinnykh dvigateley. (Bending Vibrations of Parts and Elements of Aircraft Gas Turbine Engines) Moscow, Oborongiz,, 1959. 358 p. (Series: Moscow. Aviatsionnyy institut im. Sergo, Ordzhonikidze. Trudy, vyp. 115) Errata slip inserted. 2,600 copies printed. Sponsoring Agencies: Moscow. Aviatsionnyy institut im. Sergo, Ordzhonikidze and USSR MiniBterstvo vysshego obrazovaniya. Eds.: S. I. Bumshteyn, Engineer and N. A. Gortsuyeva; Tech. Ed.: V. P. Rozhin; Mang g Ed.: A. S. Zaymovskaya, Engineer. PURPOSE: This book is intended for engineers and aircraft engine design specialists concerned with stability and vibrations, and also for students, teachers, and aspirants in these fields. COVERAGE: The book presents studies on vibrations of the housing, critical speeds of the shaft of aircraft engines and the compound vibrations of com- plex elastic systems. A method of determining the frequencies of natural Card 1/7  Bending Vibrations of Parts and Elements (Cont.) SOV13190 and forced vibrations of turbine blades, propeller blades and shafts is given. Methods of determining the dynamic rigidity and pliability of various systems are described. The book contains two chapters. In the first chapter, the author: discusses natural beading vibrations of various statically determined systems of gas turbine engines; derives a general integral equation of a rotating and stationary shaft; derives an integral equation of vibration for particular cases of vibration; gives calculation methods of uniform integral equations; and gives examples of the application of equations derived in this 2~pter. In the second chapter, the author con- siders forced vibrations of vjxious systems; derives general integral equations of forced vibration of rotating and stationary shafts; determines dynenie rigidity and pliability of various systems; examines nonhomogeneous integral equations of vibrations and the numerical methods of their solutions; studies the general theory of the dynamics of elastic systems, empound vibrations of elastic systems, the method of dynamic rigidity and dynamic pliabillty; and presents examples of calculating compound vibrations of systems. The author thanks Professor G. S. Skabachevskiy; V. Ya. Natanzon (deceased), Doctor of Technical Sciences; S. K. Tumanskiy, Doctor of Technical Sciences; A. N. Ogaryechnikov, Docent; Professor A. Yu. Romshevskiy, Honored Scientist and Engineer; Professor I. A. Birger, Doctor of Technical Sciences; A. Ye. Card 2/~  Bending Vibrations of Parts and Elements (Cont.) SOV/3190 Kobrinskiyj Doctor of Technical Sciences; L. N. Lukasheva, S. A. Shteynmny A. Ye. Burnova, V. A. Balabanova. There are 42 references: 38 Soviet, 3 English, and 1 Ger-n. ThELE OF CONTENTS: Preface 3 Symbols Used 8 Ch. I. Natural Bending Vibrations of Parts and Elements of Aircraft Engines 9 1. Introduction 9 2. Integral equation of natural vibrations of a beam 13 Shearing force 17 Bending moment 19 Bearing reaction 21 The effect of shear deformation on vibrations 23 3. Integral equation of the vibrations of a rotating beam 29 4. Numerical solution of integral equations of beam vibrations 38 Method of successive approzJmations 41 Order of numerical cocqxtation 44 Card 3/7  Bending Vibrations of Parts and Elements (Cant.) SOV/3190 5. Natural vibrations of a shaft resting on two bearings 48 Natural vibrations of a shaft of arbitrary form 48 Natural bending vibrations of a shaft taking into account shear deformation 58 Critical speed of a rotor taking into account shear deformation of the shaft and the gyroscopic effect of the vhVels 62 Critical velocity of a shaft idith cantilever 65 Another method for determining the critical speed of a shaft with cantilever 81 Critical speed of a two-cantilevor shaft 86 Integral equation of natural vi6rations of a beew in the form of amplitude values of the bending mcments 91 6. Natural vibrations of free systems 94 Natua-al vibrations of a beam with concentrated and distributed load 95 Critical speed of a rotating shaft 100 Bending vibrations of a free beam tAking into account shear deformation io6 Card 4/7  Bending Vibrations of Parts and Elements (Cont.) SOV/3190 7. Natural vibrations of a beam on one bearing log Natural vibrations of a beam with the bearing at the origin of coordinates UO Natural vibrations of a beam at the cross section., z - za 114 Critical speed of a shaft on one bearing U9 Solution of equations of vibrations in the form of amplitude values of shearing forces 127 Natural vibrations of a propeller blade on a joint 131 Vibration of a joint blade 149 8. Natural vibrations of a cantilever beam 156 Natural vibrations of a beam of arbitrary profile 156 Critical speed of a cantilever shaft 162 Natural vibrations of a propeller blade vith concen- trated masses 165 Vibrations of turbo-engine blades 175 9. Vibrations of beams vith bearings 183 Ch. II. Forced Bending Vibrations of Parts and Elements of Aircraft Engines 187 1. Introduction 187 2. Integra.1 equation of forced vibrations and dynamic Card 5/7 pliability of a rotating beam 189  Bending Vibrations of Parts and ElLments (Cont.) SOV/31.90 3. Forced vibrations of a shaft of arbitrary form as a result of its static and dynamic imbalance 198 4. Numerical solution of integral equations of forced vibrations of a b 204 Solution of integral equations by means of resolving the forms of forced vibrations into forms of natural vibrations 205 Method of successive approximations. Direct solution of integral equations of forced vibrations 213 5. Forced vibrations of a shaft on two bearings 223 Dynamic pliability force of a beam 223 Forced vibrations of a beam and its dynamic pliability force 231 Dynamic pliability moment of a rotating beam 252 Dynamic rigidity moment of a beam 254 6. Forced vibrations of a free beam 264 ~Forced vibrations and dynamic pliability force of a freely rotating shaft 264 Forced vibrations of a free shaft vith discrete dis- tribution of masses 282 Card 6/7  Bending Vibrations of Parts and Elements (Cont.) SOV/3190 7. Forced vibrations of a beam on one bearing 294 Forced vibrations of a beam of variable cross,section on a joint and acted upon by a harmonic moment 294 Dynamic pliability moment of a rotating beam 3W Dynamic pliability force of a rotating shaft on one bearing 302 Dynamic rigidity of an air propeller 302 8. Forced vibrations of a cantilever beam 313 Forced vibrations of a beam of variable cross section acted upon by harmonic force 313 Dynamic pliability force of a rotating cantilever beam 314 9. Compound vibrations of elastic systems 317 Fundamental theorems of the dynamics of elastic systems 318 Method of dynamic pliability 326 Method of dynamic rigidity 347 Conclusion 354 Bibliography 335 AVAIIAM: Library of Congress AC/"k Card 7/7 5-23-60  PHASE I BOOK EXPLOITATION SOV/6016 Gurov, Aleksey Fedorovich Sovm~stnyye kolebaniya v gazoturbinnvkh dvigatelyakh (Joint Vibra- tions in Gas-Turbine Engines) Moscow, Oborongiz, 1962. 140 p. (Series: Moscow. Aviatsionnyy institut. Trudy, vyp. 144) 2600 copies printed. Sponsoring Agency: Kinisterstvo vysshego I srednego spetsia,11nogo obrazovaniya RSFSR. Mookovskiy ordena Lenina aviatsionnyy insti- tut im. Sergo Ordzhonikidze. Ed. of Publishing House: V. M. Tokar'; Tech. Ed.: P. V. Shcher- bakov; Aanaging Ed.: A. S. Zaymovskaya, Engineer. PURPOSE: This,book is intended for readers concerned with engine dynamics and calculations, and for advanced students. COVERAGE: The book presents the dynamio-yield method, a relatively simple grAphic method for calculating resonant operating regimes Card 1/4  Joint Vibrations in Gas- (Cont.) SOV/6016 of an engine during thedesign stage. The rotor-shaft and engine- body supports are assumed to yield under load. Attention Is given to the calculation of critical speeds and resonant operating re- gimes of an engine, with the engine-bodyrigidity being commen- surable with, orklower than, that of the rotor (a case often met in aircraft-engine designing). Resonant vibrations of the engine shaft and other components are considered. A discussion of a technique for eliminating dangerous resonances is included. The calculation examples given do not refer to any existing engines. No personalities are mentioned. There are 4 references, all Soviet. TAKE OF CONTENTS [Abridged]: Introduction 3 I. Calculating Resonant Operating Regimes of an Engine by the Dynamic-Yi.eld Method 22 Card 24  ZHIRITSKIY, Georgiy Sergeyevi 41 ',,fj..,LOKAY,.VIktor Iosifovich; MAKSUTOVA, Makhfuzya..',, r vna; STRUNKIN, Valentin Aleksandrovich; rIlRnv- A I? doktor.tekhn. nauk, prof., retsenzent; KHOSTC-HEVNIKOV, K.V., doktor tekhn. nauk, prof., retsenzent; KULAGIN, I.I., doktor tekhn.nauk, prof., retsenzent; IEPESHINSKIY, I.A.p.in-h-9 red.; DOGOHOLOVA, M.F.,- red.izd-va; NOVIK, A.Ya., tekhn. red. (Gas turbines of 4rcraftxnginesl Gazovye turbiny aviatsion- .nykh dvigatelei. Moskva, rongiz, 1963. 604 p. (MIRA 16:9) (Gas turbines) (Airj*ane~7 Engines)  ACC NR, Am6o2%59! Monograph UR/ Gurov, Aleksey Fedorovich Calculations for 4tability and oscillations of rocket engines (Raschety na prochnost' i kolebaniya viraketnykh dvigatelyakh) Moscow, Izd-vo "Mashinostroyeniye", 1966, 455 P. illus.~ biblio. 8000 copies printed. Textbook for students at aviation institutes. TOPIC TAGS: rocket engine, rocket engine component, turbopump, aerodynamic stability, theirmal stability, dynamic stress, vibration stress PURPOSE AND COVERAGE: This is a textbook for students in aviation institutes of higher education taking a course in "Design, Planning, and Strength Calculation of*Rocket Engines" as well as by design-engineers and specialists. In the book are presented methods for calculating parts and units of rocket engines for strength and vibration of the turbine blades of a turbopump unit, the strength of a turbopump unit's turbine disks, and the permissible stresses and the reserve strength of the engine parts. Calculations are presented for the strength of the case shell of the engine and combustion chamber; also examined are the common vibrations of the various complex systems., critical shaft rpm, the elimination of vibrations, and damping. The author expresses his gratitude to professors G. S. Skubachevskiy and G. G. Gakhun for their assistance, and to professors 1. A. Birger and A. M. Soyfer for their review of the manuscript. There am 37 references, 35,0f which are Soviet. -Card 1/2  ACC NR:__AM66~~59! '(Abridged) TABLE OF COMM Forevord 3 Symbols 4 Part One. Strength of rocket engine parts -- 5 Ch. 1. Strength of turbopump-unit turbine blades 10 Ch. 2. Strengt# of turbopump-unit Uwbine disks 38 Ch. 3. Calculating an engine case for strength 81 Part Two. Vibrati~na in rocket engines -- 123 Ch. 4. Free vibration of rocket-engine parts -- 123 Ch. 5. Force vibrations In rocket-engine parts -- 203 Ch. 6. Common vibrations of elastic systems -- 295 Ch. 7. Eliminating vibrations In rocket engines -- 356 References -- 452 SUB CODE: 21/ SM DATE: 02hpr66/ OHIG REP: '035/ 2/2 OTH PEY: 002/  S/ 14 "/60/00(-)/o 1 cj/o5/o IF,, A161/AO30 AUTHORS: Medzhibozhskiy, M.Ya.; Gurov, A.K. TITLE: Oxidation of Carbon, Rise in Temperature and Dust Separation with Compressed Air Blow Through Open-Hearth Bath PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Chernaya metallurgiya, 1~~O No. 10, pp. 67 - 78 TEXT: The effect ofblowing was studied in a 30-ton furnace worl~lnz vizh the basic scrap process and firing cold coke gas, with a tar addition for ~laare carburation. The air blow pipe was lined with magnesite chrome ri-rtar -, had a 2,5 mm inner diameter, and was introduced into the bath through .he charging door at 35 - 450, 100 - 300 mm below the metal surface. Air was fed at a rate of 40C - 750 m3/h under 5-6 atm pressure in the line. A total of 57 heats with air blowing were studied and compared with conventional processes and the 07,ygen process. Dusz; samples from the smoke gas were taken by an ejector through water-coolf-ed pipe (Flg- ure 1) into three trap vessels with distilled water, and deduated gas passed a gas flow meter. Metal temperature was measured with a submersion thermocco-1ple connected to a recording electronic potentiometer. The previouc-ly sta:r.,id (Fifif. 2, Card 1/ 5  A16 I /AO30 Oxidation of Carbon, Rise in Temperaturs:- and Dust Separation with Compressed AJ.r Blow Through Open-Hearth Bath 3) phenomenon was confirmed - that the oxygen from the atmosphere ir ttie turna.-."? played the major part in oxidation of carbon in the bath (69 - 76% o~f t-ota!), and the effect of blowing compressed air was near the effec-~ off oxygen b1ow. Direct observations proved that blowing must be started after the metal hia~, rea,!]- ed a certain overheat over the point of liquidus, i.e., about 40oc atove I-, the carbon burning rate dropped abruptly at lower overheating or uriderheating. The volume of compressed air had a determining effect on the carbon burrIng ra~.e (v,) (Fig. 2) and the vc rose faster than in direeL proportion with inereas=F air volume. This is explained by the growth of the oxygen share absorbed ty metal from the hot air in the furnace. The metal temperature had a noUcabl--~ effect on v. only in the temperature range from 1380 - 15000C, azid nor the abso:.=- temperature value but the degree of overheat produced the effect. T.-,i6 proves that the carbon oxidation value during blowing is limited by diffusion proce~s~e!~ whose rate depends on the viscosity of metal and slag, and not by chemical re- actions whose rate grows steeply with increasing temperature. As is known, 'he viscosity of liquid steel is low and decreases only little with lnoreasf-ng tem- perature, but near the liquidus point the effect is high, i.e. between -40 and Card 2/5  sli i Voog/) i 8 A161/AO30 Oxidation of Carbon, Rise in Temperature and Dust Separation with Compressed Air Blow Through Open-Hearth Bath +401C from the liquidus (Fig. 4). When metal contains 2%C (liquidus temperature at 1368n), blowing at 1400 - 14200 has high decarbonizing effect. The dust separ- ation is high with pure oxygen blowing, probably not through the evaporation of iron only, but also through the evaporation of FeO and mechanical separation of particles. As is obvious from the calculations and diagrams of L.M. Yefimov, (REf. 8), the addition of nitrogen to the blast abruptly decreases the intensity of evaporation of iron. The following results have been callciLlated for tar,- temperature: 02 content in blast (%) 100 50 21 (compressea air) N2/02 ratio 0 1 3 - 762) Intensity of iron evaporation in kg-atom Fe/kg-mol 0 o.4 0.26 o Calculations prove that a considerabTe reduction of dust drai~-out car, be acnfe-ied by a) deeper submersion of the oxygen or air je-'. into metal, b) lowering the perature by addition of nitrogen to blast, c) blowing oxygen at relativel-v low C content i ' etal. The quantity of dust in combustion products is slightLy higher T with compressed air blowing than in usual process, but much lower thwi with oxyger. blowing. In an investigation with 70-ton furnaces (R,f. 1), the duzt quar.Llty was Card 3/5  s' /14 -,/6o/oaj 'C 101&~5/`-' A161~030 ' / Oxidation of Carbon, Rise in Temperature and Dust Separation with Compressed Air Lo Blow Through Open-Hearth Bath 20 times higher with oxygen blowing than in the usual process; in a fur- nace (the subject experiments) the difference would be ever. larger. in the case of compressed air blowing, the dust separation is much lower, than 2.n tiie ca.te o~f oxygen, and blowing can still be started at a high C content in ~he batil. Th!_-- is very important in the scrap-ore process where C content reaches j.0~~` a_ndl r--.oY,v- Blowing in the fusion period enables a much lower use of iron ore In an,_~ in combination with intense mixing by compressed air this will OU-1 "ie period. -In this respect compressed air lias great advantages, for oxygen blowing is usually employed only during finishing, at a relatively low C content (to pre- vent high dust separation and furnace lining wear). Data obtained in t1i-IS invest- igation and published previously (Ref. 10), (on the durability of _`Z8~0-ton and 200- -ton furnaces) prove that the durability of lining Is approximately the same with compressed air blowing as in conventional process, and much higher th'a-ri witt. oxy.~(n blowing. It was not possible to determine the chemical composition of separa,.e 0 1 dust samples because of the low weight (0.05 - 6 9), and the sr-mples were rrdxed. The mean components content is about the same as in the usual process; Iron oxij-ai predominate. There are 5 figures, 5 tables and 11 references, lo SovieL and 1. Gel- Card 4/5 man.  KRAMAROV, A.D.; TOIS.TOGUZOV. N.V.; ZARVIV, Ye.Ya.; TDtIERMO, V.P.; LEVIN, . A.M,;-~~.X, Making manganese alloys from Usa deposit manganese ores. Izv. vys. ucheb. zav.,- chern. met. no.12:46-54 1~0. (MIRA 14:1) 1. Sibirskiy mewur cheskiy institut. atey-Manganese ores) (Hapganese alloys-Metallurgy)  ZkRVIN, Ye.ya.; UAMAROV9 A.D.; TOLSTOGUZOVq N.V.; GUROVp A_..K.; LEVIN, A.M.; TD2CJ4Wq V.P. Use of silicomanganoo- made of Use. ores for the reduction of steel. Izv. vyo. ucheb. zav.; chern. meU- no.12:55-.62 160, - (MIRA 14:1) 1. Sibirskiy metallurg4cheskiy institut. (Usa Valle7--Orev depositir) (Silicawmanganese alloys)  s/148/61/o6o/oo2/ou/bil A161/A133 AUT M Nedzhibozhakiy, M. Ya., Gurov, A. X. 71=: The effect of compressed air blowing on the molting indices of the open-hearth scrap process PARUMALs Izvtstiya vysaMkh uohebnykh zavodenly. Chernays, metallur giya, no. 2, 1961, 32 38 IMS The article presents the results of experiviental open-hoprth steel' melting that had been described by the authors proviouslyt (Rof. 1: M.'Ya. Med- Wdboahokly, A. K. Gurov, -Lzv. vyssh. uoh savediniy., Chern. met., no. 10, 1960,), The charge of the ordinary heat consists of 25% pig iron, 75 scr%p, 0.6-ooko and 2.0 lime. In the test heats the coke content was rairsed to 0.8%, and in indtviduLi h4fits to 1.5. An increased carbon content in the charge and the 'lion ore-MMItIons during fIn1shIn,,T made it possible to blow the bath through during tho second half of the smelting period (when the scrap Is molten and the entira bath covered with liquid ntal and alas) and in the first half of finishing. The off*ot of air blowing an the smelting time required for 30-ton heats was determined by comparing the time of each of 57 test heatm with 2 - 3 ordinary heats of same stool grade. cam l/ 3  S/148/61/000/002,/002/011 The effect or compressed air blowing on the molting ... A161/A133 I It Is mentioned that analogous experiments had been conducted previously In large- capsialty furnaces at the Nuznetfikly metallurgiahookiy kombinat (Kuznetsk NotallurgS. "a Cmb") and at the "Zaporozhatal" Plant, and air blowing did not impair the owing for 15 min re- mahanloal:propertios of the steel. Conclusions: 1) Air bl dueed the ameltirig time of 30-ton heats by 33 min (average). The time again was 42 min an the average per heat. The furnace productivity rose'by 9 to 130. .2) The output of serviceable metal in percent or the whole metal charge (including are) was practically the same as in the ordinary process. 3) The iron oxide content was about Vie same In the ordinary and the test melts. 4) kit%blowlns considerably accelerates the formation of highly VasIc slog. 5) The carbon burning rate in 30- -ton heato.was 1.3 - l.Wh at 600 m-11h average air consumption, which in about 4 time faster than in the ordinary process. 6) Air blowing did not spoil metal in any rompeoi (i.e. the mechanical properties, the content of otygen, nitrogen, hydm gon, nonmetallic Inclusions and harmful Impurities In the finished stool). 7) Purnace lining service life was about the same an usual. 8) The ssparj%Iqp of dust in the process with air blowing is Insignificant, and blowing may be etasl" during the smelting at a high carbon content. This shortens the longest heat Verid - smelting. 9) The conditional fuel conanmption was reduced by 10%. 10) The. c tomporature of the furnace top and bottom lining, as well as or the rumes in the Card 2/3  3/148/6 1/ooo/oop,/m/o n The effect of compressed air blowing on the melting ... A161/A133 flue at the stack is only slightly higher than usual and not above the permissible value, ?his la anhieved by the reduced fuel consumption and the increase in fan air omxumption during blowing. There are 1 figure, 5 tables and 4 Soviet-bloc references. A&SWTATION: Sibirskiy metaliurgicheskiy Institut (Siberian Metallurxioal Institute) SUBMITM: November 25, 1959 Guld IV3  s/148/62/000/01.2/001/008 E071/E13-1 AUT11011.5 t-.edzh ibozhsk iy, IV. Ya. , IT iva lov I M. N. , Gurov I A. K. , and Vokrm4hin, V.V. 'I ITLE Fentiires of' thp tech~iology nnd quality of steel for different variants of air injection into tile flame and tile bath of a large opun hearth f'urnace I L i - 101) ICA L: lzv(!stiya vyssikikh uchebrtykii zavedeniy, Chernaya metallurgiya, no.12, 19U2, 111-j5 TEXT: The investigation was carried out on a 4oo ton open ovarth furnace operating with 6t;-b21,. hot metal charge and fired with a mixture of' coke oven gas alid pi-oducer gas. The experimental method, and the technical, thermal and economic criteria of operation, have been described previously (Jzv. VUZ, Chernaya metaliurgiya, no.8, 1()62). it iq concluded that: the injection of compres.,-4ed air into tile flame and the bath led to improvements as measured by all the criteria. blowing tile bath had tile following ett ects: a) the dephosphorisation of tile metal was completed during tile melting period; b) the desulphuribation ot steel is considerably speeded up; c) the rate of carbon elimination Card 113 4-  Features of the technology and 6/l4b/62/(juo/ul2/uul/uo6 Lo,j I/ P, 15 1 increases by a factor of 1.5 - 2.0 anti during the actuaki blowing period by a factor of 2.0 - 2.2; d) the rate of increase of' the metal temperature is accelerated bY 7()',) and amounts to 114 OC/hour; e) slag formation is acceivrated, resulting in the early formation of' a homogencous slag. The rate of carbon elimination is most strongly infitienced by the excess of oxygen in the furnace gases at the burner intake. An increase of the flow rate and pressure of the injected air is effective if it is accompanied by an inervase in the excess oxygen in the furnace atmosphere. A clear relittionship betiveen the rate of carbon elimination and the excess of oxygen in the furnace atmosphere permits the use of air injection into the bath for the automatic control of refining. The. use of air injection into the bath does not cause a deterioration in steel quality in cowparison with steel produced by other methods of air injection or with titeel produced by conventional methods. It is partictilarly important that in the cotirse of the heat as well as in the fininhed steelt the content of nitrogren and oxygen in the metal both during the heat and in the finished steel shall. remain the same as in heats with air Card 2/3  I . . I 4  IEDZHIBOZHSKIY, M.Ya.; PRIVALOV, M.M.; GUROV, A.K.; MOKRUSIIIN, V.V.; GRITSKOV, V. S. Efficiency of the various variants for injecting compressed air into the fuel spray and the bath of large open-hear'-h furnaces. Izve v7s* uchebe zave; chern. met. 5 no.8:35-43 162. NIRA 15:9) 1. Sibirskiy metallurgicheskiy institut i Kuznetskiy metallurgicheskiy kombinat. (Open-hearth furnaces) (Compressed air)  MMHIBCZHgKIY, M. Ya.; PRIVALOV, M. MOKRUSHIN, V. T. Ncul.iarities of the technology and quality of the Bteel pro- duced by various alternates of blowing compressed air into the f3wm and the bath of large-capacity open-hearth furnaces. Izv. vys. ucheb. sav.; chern. met. 5 no.12:41-55 162. (MIRA 16:1) 1. SibirsIdy metallurgichookiy institut. (Open-hearth process---Quality control)  MEDZHIBOZJISKIY, M.Ya.; PRIVALOV, M.M.;__QUBjDV,-Ajj.,; NOKRUSHIN, V.V.; GRITSKOV, V.S.; PriYAMAU UCh&Btiyet TSR4BAL, V.P.; BYCHKOV, P.M.; KMIJZKDI V.P.; VALOV, M.Ye.; SHCHEKOLKIN., M.S. Making a combined use of. compressed air in a high-capacity open-hearth furnace. Stall 22 no.10:894-900 0162, (MIRA 15tlO) (Open-hearth furnaces) (Compressed air)  MEDUIDOZ11SKIY, 14. YP_.; SU11,0111, A.K. Blowing an open-hearth heat with compreseed aii-, Me~,allurg 9 no.1:16-19 Ja 164 (MV 18:1 ) 1. Sibirskiy metallurg. i cheskiy institut.  GUROV, A li dotsent; LOGBIOV, A.P.., dotsent (deceased], RABOOVICH, U,y dotsent; RUSIN, Z.Kh., dotsent; EYDINOVA, L.L., dotsent; TORF, I.F., prepodavatell; AIZKSA14DROV, A.M., prof., red.; FILIPPOVA, E., red.; LEBEDEV, A... tekhn. red. [State budget of the U.S.S.R.) Gosudarstvennyi biudzbet SSM. Moskva, Gosfinizdat,, 1961. 560 p. (MIRA 15:2) 1. Kafedra Gosudarotvennogo byudzheta SSSR Laningradakogo finansovo-elconomichaskogo instituta (for &11 except Filippova, Lebedev). (Budget)  ACC NRI AP6036367 SOURCE CON! Ull/01.09/66/0111011/19414/'A952 AUTHOR: Tereshin, 0. N.! Gurov, A. Ye.; Antipenkov, 1, 11 ORG: none TITLE: Antenn,&)ith a limited excitation region i. SOURCE: Radiotekhnika i elckEronika, v. 11, no, 11, 1966, 1944-1952. TOPIC TAGS: antenna, slot antenna ABSTRACT: The problem is considered of obtaining a radiatinp surface based on a slotted periodic structure with a given radiation pattern and a given controlled (limited) excitation region. A connection is established between the coefficients. of asymptotic expansion for which an entenna field, produced by a system of r~l d tation sources, is absent in the far zone. This permits solution of the antenna synthesis problem for the case iii which separate conditions are imposed on both thL near field and the radiatioln pattern. Two co-phase and two antiphase radiation sources are considered in particular. Expressions are derived for the impedance flinctton which depends on distribution of the primary sources, radiation pattern, and 11 law governing the current droop. The radiation characteristics of such a syE;t-,-m were calculated and experimentally investigated. Theoretical and experimentnj. renulta are in good agreement. Orig. art. has: 6 figures and 33 formulas. SUB CODE: 09/ SUBM DATE: OlJun65/ ORIG REF: 006/ ATD PRESS: 5106  'p- -'! r ~ "'t / - f , ,~) ,e I . I . -~~ z . GIJROV. B.G. (Ghlyabinsk) '-, 17 '. loreign bodies in the bladder. Felld. i sk-ush. 23 no.1:25-27 Ja 158. (13TAIW'm-FCFWIGN BODIRS) (MDU 11:3)  GLrROV, B.M. Effect of perLodiz brief shocks on diffuslon prozes3s:!. Trudy MPH 152:7-13 63. %~VIRA 17i4)  CHIRKOV, A.A.; GUROV, B.M. Use of cast iron crushers for the calibration of piezoelectric pressure gauges. Trudy NPI 152:15-20 163. (KRA 17:4) A R., AR6005808 SOURCE coi)r,. UR/01~17/65/000/010/1028/I028 AUT1IOR. Gurov, B. M.; Gurova, E. F. TITLE: Effect of shock-wave treatment on the electric resistance of AMTij,~Lnnealed aluminum. alloy and ALZO_ cast aluminum alloy SOURCE: Itef. zli. Metallurgiya, Abs. 10U90 REF SOURCE: Uch. zap. Kabhirdino-Balkarsk. un-t. Sor. f1z. -rnatem. , vyp. 22, 1964, 218- 219 o.&A_oY PleogOler~, TOPIC TAGS:. aluminum alloy, shock wave, crystal defect, electric resistance / AMTs aluminum alloy, ALZO aluminum alloy ABSTRACT: The mechanism of action of shock waves on specimens of AMTs and ALZO alloys was investigated. The integral intensity of x-ray interference line (400) with respect to AAITs increases with increase in peak voltage while Its width somewhat decreases. 7be length of ALZO speciinens then decreases. It is assumed that shock waves cause a reduction in the concentration of point defects in the solid solution. A shock wave in AMTs yanks a dislocatio ut of its cloud so that the latter becomes thermodynamically unstable, which Card 1/2 UDC: 669.715:537.311.33  ACC NR: AR6005808 J contributes to the diffusion of the dislocation toward the boundaries of blocks and grains. In the ALZO alloy the shock wave contributes to the release of nonequilibrium atoms, which leads to a decrease in the electric resistance and size of the specimen. Shock-wave treatment under conditions assuring absence of plastic deformation leads to an increase in the mobility of nonequilibrium atoms. I. Dekhtyar. [ Translation of abstract],.. SUB CODE: 11, 20, 13 Card 2/2 aJf  L 46104-66 EWT(1)/EWP(m)/EWT(m NR: AR6ooo448 P(t)/ETI 1JP(C) JD/WIV SOURCE CODE: UR/0l37A5/OOO/OO9/IOl8/IO18 AUTHOR: Gurov, B. M, TITLE: An investigation of the influence of shock waves on the decrepitation of supersaturated solid solutions/ of hardoned alloys Dl and V93 SOURCE: Ref. zh. 14otallurgiya, Abs. 91107 REY SOURCE: Uzh. zap. Kabardino- Balkarsk. un-te Sere fiz#-matemo, vype 2i,, 1964p 215-217 TOPIC TAGS; shock wave, solid solution, metal aging, aluminum alloy / D1 aluminum alloy, VY aluminum alloy ABSTRACT: ~Ilardened specimens of aluminum all and V93 were placed in-a liquid ~.5 s eoy!?Wl in which.shock waves with frequency of a . ere generated. Maximum'pressure in the liquid was converted into maxim= stresses in the specimen. The aging proc- esses were studied at 80C by measuring hardness's electrical resistivity (A P / P ) and by x-rays. No anomialous change was observed in the physical or mechanical prop- erties of all Dl, but an acceleration of the iging process was noted in alloy V93. E. Kadaner Yralation of abstrac2t SUB CODE: 11, Zo UDCt 664-7141-017-3:621i69 -list  GUROV, D.P., student; SAPITSKIYK. F., nauchny7 rukovoditell, kand. teklin.nauk Possible alternative for the chamber system In mining Berestovoe seam with use of the Gumennik cutter-loader. Sbor. nauch. rab. stud. SNO DII no.2:153-158 '57. (MIRA 11:12) l.GorWy fakul'tet DDnetakogo industriallnogo Instituta Im. H.S. Khrushcheva. 2.Predeedatell Soveta studencheskogo nauchnogo obahchestva Donetskogo, industriallnogo instituts, im. H.S. Khru- shcheva (for Sapitskiy). ODnete Baein--Coal mines and mining) (Coal mining machinery)  USSR/Forestry - Forest Crops. K. Abs Jour : Bef Zhur - Biol.0 No 15, 1958,, 68037 Author : Grozdov, B,V., Gurov, U4, Pavlov. V.M... X!konchuk, V.11, Inst : Bryansk Forest Economy Institute. Title : Introducing Some Quick-Groving Tree Species into the Forests of Brynnek Oblast'. Orig Pub : Tro Bryanskogo lesoLhoz, in-ta, 1957, Bo 55-64, Abstract : Data on investigations of the Growth rate of larch crops of different geographic derivations demonstrate that the most favorable for c6nditions in Bryansk,. Kaluaa, and Smlensk oblast'a are the Europe= larch (of plain deriva- tion), the Polish larch, and Sukachev larch from the southwestern part of its habitat (especially the large- conea variant)* The best soil for larches Is a leached chernozen with a loess subsoil; next best are grey, Card 1/2 24  GROZDOV. Boris Vladimi'~.ovich, prof., doktor biolog.nauk; GUROV, F.M., dotsont, red.; PETMSCN, A., takhrod. Uluide to the Michurin Garden and arboretums of Bryansk and its environs] Putevoditell po Hichurinskomu eadu, dendrariiam Brianska i egq_okregtnostei. Briansk. lzd-vd 03rianakii rabochii." 1959. 26 p. (MIRA 13;11) 1. Vsesovuznyy toontrallnyy sovet professionallnykh soyuzov. Turistako-ekskursionnoye upravlaniye. (Bryansk region-Arboretums)  ACC NRI AP6023021 I SOURCE CODE: AUTHOR: Gurov, G. (Colonel) ORG: None TITLE: Training the battery for night operations SOURCE. Voyennyy vestnik, no. 4, 1966, 82-85 TOPIC TAGS: military training, military personnel, antiaircraft weapon, helicopter, attack aircraft, fire control equipment ABSTRACT: A night exercise designed to train antiaircraft artillery troops to cope with night attacks and night reconnaissance by low flying aircraft and helicopters is described. The exercise lasted for five hours, from 1800-2300, and involved taking up firing positions (1 hour) firing at "enemy" aircraft using automatic fire control equipment (1 hour); movement to a new firing position (1 hour, 30 minutes); operation of the battery when pursued by an enemy (1 hour); discussion of the exer- cise (30 minutes). The drill plan ic shown in detail and characteristic errors are listed as critique subjects. Orig. art. has: 1 figure. SUB COM CL5,19/SM DATE: None  ',"ROVP G K., podpolkovnik meditsinskoy sluzhby Research and practice conference of physiciarp at the "Arkhangel" Clinical Sanatorium. Voen.-med. zhur. no.7:95-96 Jl 161. (~MIA 15: 1) (CLIMATOLOUY, MEDICAL) (CAiWIOVASCULAR SYSTRL-DISWES)  GUROV,-,,G.F-,- - Treatment of chronic coronary insufficiency with nicotinic acid by the electrophoretic method.-Vop.kur.., fizioter. i lech. fiz. kullt. 27 no.4&29'1-299 Jl-Ag'62 (MIRA 16tll) 1. Iz klinicheskogo sanatoriya Ministerstva oborany SWR "Arkhangellskoye" (nachallnik - kand.med.nauk M.Gilenko(.  FREYMUNDTY Ye.N., dots.; KORENEVSKAYA, N.N., dots.; ILICHENKO, S.9; SAMOYLOVAp A.A.., dot3.;UWY,-G.&j dots.; IVANOV7 Yu.M.; ZAYTSEVA, N.V., dote.;EYDELIMAN, M.R., red.; KONIKOV, L.A., red.; PONOMAREVA, A.A., tekhn. red. (Balance of the gru" national product of a Union Republic; problems in the theory and methodology of its preparation] Balans obshchestyannogo produkta soiuznoi rjapubliki; vop- rosy teorii i metodiki sostavleniia. Moskva Ekonomizdat., 1962. 326 p. NIRA 16:4) 1. Moscow. Ekonomiko-statiatichaskiy institut. (Gross national product)  GUFOVI I. "I". C,,ind Zech Di3sartationt "Investigntion of tho Knot Forming Procesa vid Der,!_gn of the Knot-tying Members of flarve3ting Machincs.,~ 1 June 49 Moscow Inst for Mechanizati.:n3 and Electrificat-ion of Agriculture imeni V. M. Mlolotov. 80 Vecheryaya Mos'kva Sum 71  u:;i.crvy,,7,-t,-aey c.-x. iraslhin, trudy rost. n/d in-ta c.-;-. -,yp. v 1, 1~49, c. SO: Letovis' Zhurnallrvkh Stat-ay, Vol. 415,  GUROV, I.N., kandidat tokhnioheakikh nauk. ~~ --- I - Determining the ourface for knotter hooka. Sellkhoomashina no.11:17-18 N '53. NLRA 6:11) (Harvesting machinery)  GUROV.J.K.,,kandidat tekhnicheskilch nauk. Operation involving cornstalks moving at an angle to the husking rollers. Sellkhozmashina no-3:4-5 Mr 157. (MIRA 10:5) (Corn picker (Machine)) -#4  GUROV, I,N dotsent, kand.takhn nauk red - S14IRNOV 14 1. tean.nauk, red.; SHATUNNSKIt a. A' dotsent kan&JeO~8R.n'aAu~andAd.; SET,UIKO, M.G., dotsent, red.; ~,V,~Aojj, I.F., ?ekhn.red. [Design and manufacture of agricultural machinery; collected articles from the Second All-Union Scientific-tachnolo ical Conference in Rostov-on-Donj Konstruirovanie i proizvogltvo sallskokhoziaistvannykli mashin; sbornik statei 'po materialam Vtoroi Vsesoiuznoi nauchno-takhnicheakoi konferentsii, sostoisv- Bheisia v Rostove-na-Donu. Pod red. I.N.Gurova i dr. MosIrvap Gos.11auchno-tekhn.izd-vo mashinostroit.lit-ry, 1959. 326 p. (MIRA 12:11) 1. RIbIl (for Shatunovskiv). (Agricultural machinery)  GUR Ivan Nikolayevich; NONONOV,,Hikhoil Ippolitovich; HAZAROV, G.I., doktor tekhn,neukt retsenzent; PAPWWV, A.I., doktor takhnenauki iitionsent; GALKNp Yu.K,, red,,,; IALIKO, 0,S,, red,iad-va; SMOWVA, T.F.v takhn.red. [Blectric equipment of sploultuzol mechineryl Ilektrooborado- vanie sellskokhosialst"nafth mashin. -Pod obehahal red. IV.K* Galkina, Moskva, Govenauchno-takhn.ind-vo mashinostroLt.lit- 196o. 248 p. (MIRA 14t37 1. Moskovehy Institut mekhanintsil I slaktrifiketait sellskop khosymystys (for Nasarov). 2. Xbarikovskly politeklmiaheskLy lAstitut (for Petrusov), (Apicultural wohiriery-4le atria equipment)  GUROV I N kand.tekhn.nauk I "Handbook for agricultural machinery designere" by A.V.Kraianiche-nkoe Reviewed by I.N. Gurov. Trakt. i sellkhozmash. 31 no.11247- 48 N 161, (MIRA 14:12) ~~griculturai machinery-Design) kY,rasnichenko, A.V.)  GUROV, I.N., kand. tekhn. nauk, nauchn. red.; ZhURAVIE;, M.N., red.izd-va; ELIKIND, V.D., tekhn. red. [Increasing the operating speeds of agricultu'ral machines and tractors] Povyshenie rabochikh skorostel sel'skokho- ziaistvernVkh mashin i traktorov; sbornik dokladov. Mo- skva, Mashgiz, 1963. 314 p. (MIRA 16:12) (Agricultural machinery) (Tractors)  DO I Imicirg taAmnaMm. lilt 77 -T,-- ,TT jott tq Ititnz-1 Vol 10, 9  :~7 and wj~'-r ta I ton, It,w Soure Vol NO 2 e. Mathernotical ReVieqs- 1950  IMP il!~ !+Ai e --- ------------- :1 j 1; Hinz th, Tll,: tre3tinVilt 1-ij bi, ou urrhadmik -u Von Nvull-CI-all JdjI1IIA!/ --narlix tt.~ Im"I tl-~! tA thf-, I Ilao. o!;c t!uit! 111c"11:v. Nloiwq~ 'Ahrium t. f I a fi u rations uant i. (3iirov, K. up I ur% 01 T~ ~7%, tc U ~I- r1i:2 Ul~f i IIC~Z! Vsr -hia-matical -Revif- s! Vol 10, tic Sourco uf;~ jz; :?I ~q,q F~ - .; ~ , E111,111M I , 1~11, I M 1 1011 19" 1 M1111 Ij, r~ .,:~w et  IE ': irz 11111H fill VIIIIII 1`1 Inam e i I ~, -r,- - ";it Ii - - - - - - - - 'ILL d -~I-larovl, X. P. On Quantim hydrpd5mftwki H. Ahad. A=?M -SSSR-2 Eksper. Teoret. Fiz. Z0, 27,;l-M lunial L This is a sequel ma previous paixr of the author's I.Silme 2urnal is, 110-05 *(1943); thesd %,ev. 10, 92]. lit W.6 pa the author e~-A per - mates the cmfficient f vi~-msity d a L fluid, s-aiting frora the moTecusar -model dc-scribed En the preirious. paper. The viscosity is as i sum of two parts, ,a kicetic pa i tw molecular velotity rt dapcnding onty on distributioq functions, and a dynamical part depend'*ikg explicitly also- on the molecular iateractio "S" F. J. Dysow (Princetan, N. 12, No. 3 Sourcel Kathemotical aevlel,~S#  IENBIGH, Kenneth George; KORODDV, V.Vj-~.-..vansiatorl; SMMNCIIENKO. V.K., redaktor; GUROT, K.P.; MaSVA, M.A., tekhnicheakiy reda.~.t.~r. [Tharxodynamics of tho ateady state. Tranalation from the English by V.V.Korobov] Termodinamika statsionarnykh neobratimykh protsessovo' Perevod s angliiskogo V.V.Korobova. Pod red. i s predisl. V.K.Samez- chenko. Moskv&, Izd-vo inostrannoi lit-ry, 1954. 118 p. (Thermodynamics) (MIRA 8:4)  PEMOVSKIY, I.G., akademik, redak-tor; IIIKOLISKIY, S.M., profesaor, redaktor; GUROV, K.P., redaktor; ASTAPIYEVA, tekhniche!3kiy, redaktor. Certain logical problems in arithmetic. Trudy ]fat. inet. 43:3-111 1550- (MM 8o5) (Logic, Symbolic smA maihematical)  PONTRYAGIN. L.S.; IPETROVSKIT, I.G., akademik, redaktor; NIKOLISKIY, S.M., professor, redaktor; GUROT, K.P., redaktor; AIROEMA, T.V., tekh- nicheskiy redaktor. Smooth manifolds and their application in the theory of homotoples. Trudy Hatsinste 45:3-139 155. (MM& 8:4) (Aggregates) (Geometry, Differential)  LTUSTIXH, Yevgeniy Nikolayevicb; KROPOTKIN, P.N., otvetstvennyy redaktor; GUROV, K.P,, redaktor; ASTAFIYXVA9 tekhnichaskiy redaktor. [Isontasy and isostatic hypotheses] Izostaziia i izostaticheskie gipotez3r. Moskva. Izd-vo Akademii nauk SSSR. 1956# 89 p. (Akademiia nauk SSSR. Geofizicheskii insitut.Trudy no-38) (MI.RA 10:3) (Igostasy)  v N-KOBWSKAYA, T.O.; NISMIYAMOV, A.M., akademi1c, glavW rodaktor; TOPGRIYICV, A.Y., akadenik, zamestitall glanvnogo redaktors; ISAKOVA, O.V.. otvetetvanryy redaktor; LIKHTXNSBTETN, Te.S. otvatetvenn37 redaktor; SHMiNG7. V.1., otvatstven*7 redaktor; QUqy.,,K.P... rodaktor izdatellstva; POLTAKOVA, T.V., takhnichookly r~d~a~;r [Vladimir Alsksandrovich Yok;bibliography] Vladimir Alskeandrovich rok; bibliografita. Koskva, Izd-vo Akademii nauk SSSR. 1956. 93 P. (Katerta4 kliobibliograftl uchanykh SSSR. Sortia fiziki. no.7) (Bibliographr-Fok, nadimir Alskeendrovich, 1898- )  KITATGORODSKIY, Aleksandr Isaakovich; GUROV, K.F ., reduktor; KUZUTSOVA, ':~'Ie-i~ac"hil-eekly redaktor Ye.B., redaktor; TUMMI111A N.A 0 [Order and disorder in the world of the atoms] Foriadok i besporiadok v mire atomov. Izd. 2-oe, perer. i dop. Koskvao Goo. izd-vo tekhniko- teoret. lit-ry, 1956. 138 p. (MLFA 10: 2) (Atoms)