Linear Accelerators; (Cont.) SOV/2003 There are 6 references: 3 Soviet arid 3 English. Glazkov, A. A. The Amplitude of the Fundamental Wave (TIA) In a D-'aphragm- type Waveguide 32 The author generalizes the procedure for calculating the amplitude of the accelerating wave in a linear electron accelerator, dopunding on geometrical parameters and operating conditions of a wavocluide. It is shown that the value of the fundamental wave decreases when higher-ordsir modes are taken into account in calculations. The author alto derives an expression for partial power of the accelerating harmonic. it is shown that partial power depends on the distribution of amplitudes of harmonics at the axis of the waveguide. The author also discusses methods of obtaining the function of amplitude distribution. He presents numerical results of the calculation of partial power, which may be used in practi- cal application. He also describes possible methods of experimental study of higher harmonics in a wavequide. There are 15 references: 6 Soviet and 9 English. Card 3/6  Linear Accelerators; (Cont.) SO'1/2003 Sobenin, N. P. Measurement of Variable Phase Velocity in a Waveqij~de of a Linear Accelerator by the Reflecting Plunger Method 49 The author describes the reflecting plunger method of measur.nq variable phase velocity in a diaphragm-type waveguide. He discus-3es possible error sources and evaluates the accuracy of determining phase velocity. He also presents results of experimental studies of reflecting plungers and suggests optimum sizes of plungers. -There are 4 references, all English. Sobenin, N. P. Determination of the Waveguide Diameter of a Linear Accelerator 54 The author presents experimental and theoretical data for calculating the diameter of a diaphragm-type waveguide with variable phase velocity. He also presents parametric curves for determining the dlamti!ter of a wave- guide in a wide range of variation of the phase velocity, operatIng wave- length, and size of the diaphragm aperture. The curves are valid for diaphragm-type waveguides excited byTr/2-type waves and having a diaphragin thickness of 4 mm. There are 9 references: I Soviet and 8 English. Card 4/6  Linear Accelerators; (Cont.) S07/2003 Shal'nov, A. V., and S. P. Lomnev. Preliminary Bunching of Electrons in a Linear Accelerator by Means of a Klystron Resonator 64 The authors study the axial motion of particles In a waveguide resonator of a linear electron accelerator with a klystron preresonator. Methods of analyzing electron bunching are also presented. The authors suggest plotting the output characteristics of a waveguide resonator as a function of output parameters (terminal energy and phase) and the phitse of the high- frequency field of a particle entering the klystron rosonator. They also present two numerical examples illustrating the advantageous effect of preliminary bunching by means of a klystron. The authors also discuss the injection characterigtics of two types of resonators and prtsent th-~ phase-energy characteristics of a klystron resonator. Therv are 8 references. 5 Soviet, 2 English, and I French. Glazkov, A. A., and Ye. G. Pyatnov. Problems of Improving the Energy Spectrum of Electrons at the Output of a Linear Accelerator by Shifting the Phase 1800. 79 The authors present a theoretical study of a method of shifting the phase 1800 as a means of reducing energy scattering at the output of a Card 5/6  Linear Acceleratorsi (Cont.) SOV/2003 linear electron accelerator. The method was suggested by 0. A, Val'dner. It is shown that the use of this method for accelerators of over 3-5 Mev may by three times the nonuniformity of energy of the output beam. The authors discuss ways of applying this method practically and show that by u6ino this method the longitudinal stability of particles is not disturbed. There are 6 references: 3 Soviet and 3 English. Tragov, A. G. Phase Shifter With Two Dielectric Plates 91 The author discusses a phase shifter In which phase shifting is accomp- lished by moving two dielectric plates in the cross-section of a rectangu- lar waveguide. It is shown that the use of two plates instead of one makes it possible to increase the phase shift and decrease the size of the phase shifter by one and a half times. Results of theoretical and ex- perimental calculations are presented. There are 2 references, both Soviet. AVAILABLE: Library of Congress Card 6/6 JP/Isb 8-31-59  25R16 8/14 2/60/003/006/006/0 16 EO 3 -9/E L !4 AUT HuRS Shn P nov, A.. V. I G I it zkov, A, A, TITLE: Some problems in thn (-i,- s i g n a 0 11 a C -- e 1 e ra t o r 3 PERIODICAL: Izvest, iya vysshikh xichebrlykh raveric-ril)', I Racliotelchnika, 1960, Vol.3, No.6 In- 598-6011 TEXT: A description is given of gimplified methods for the analysis of the relation between IhF~ eLe,-*t.--on 1111d the Ph&se VeLoz;ity on the one hand and th~! llpply fre(pewj on the othe--, when there are smalL departures from tht! riom~nal valu- of !hL, frequency. The exact analysJs of line.Ar electron a~-,-!I.erations i.s very Complicated arid is based on the numpri.:all 'W-i!FrFtti.or of the equation of motion with varying fl'e('lUE!ll-,V ',A,.V, Ye.G. Pyatnov and A.A. Gllazkov, sb. i.r. MIFI, "Lilieynyya uskoriteli7:, Mos,~cw, 19~~9. Ref.1), The pr-~n- are not exact but they are convenient for practica! p-arj:,,~;;es~ The firs' method is based on the ass,.iaipt'on Thai a, the -2-1 cf thl: accelera-cr the Llectron is eq~.jal to '1!~! pllas-~ N'Qlocitv of tile wave. This method is appL:,ed to with Card 1/3  2`~ 6 " ~2/6o/o03/00'/w6/0 16 Some problems in the design of S/I E032/EII4 adiabatic (slew) in-crease An the photie velo-itv .%iong the i4ave- guide. The second method is coir.,enient 1-11*11 1 LYIC-111- acce lerators in whizh the phase ve Lcc ily ir.~~z- Paq e-9 1,rery rapid ty over a small initial part of !he iva-,,Pguide. In ~hjs nieLhad use is made of the rela(ion betireon the --hange in the particle energy and the phase shift at the end of the a--~Llerator. Fc-rmulaa are derived which can be used to obtain a rapid arid rc!lati.vely ac--urate estimate of the frLrjueney propertiLs of' linear The second part of the jmj),~r is ~ORCOI'Iled With I!pjdrCX:LIIIa~e expressions fcr the group velccity of the wave. A. del-iviation iE given of a set of equations for the group veloci,~y a3 it functi-en of the geometry of the waveguide and the working parameters. This formula is said to be more arcurate -ind more gen-!i-al than those given by V. Vlad.Lmirskiy (Ref.,~;, DAN S-SSR, 1946, Y,52 3 2 19 ) arid E. Chu and W. Hansen (Ref.6., The Theory of Dise - Loaded Wave Guides, J. App, Phys, 1948, V~18, N,-),Il. 996). There are I figure arid 7 references~ 2 Soviet and 5 rinn-Soviet. The four most re,--ent English languagi~ referen.:es -read as follows,, Ref.2: R. Shershy, Harvie - T!,avelltng wave Linea., Electron Accelerator, Proc, Phys. So--. . 1948, v.61, Pt.i-L-L, ~Io.3451 Card 2/3 p.255-  2"),11c) Some problems in the design of s/142/6o/oo/w/006/06 EO"):-'/E I [It Ref.4t C. crosjean V. Vanhuyse, "Experimentat Vorif Lca(ion of a Frequency Equation for Corrugated Walle GuLdes" ll~ Nuavo Cimento , 1955, Vol.1, Nc..,., 193, Ref.6: as quoted in the text abcve. Ref-7: W. Walkinshaw., "Theoretical Design of' a LAnfiar A:cplerator for Elecl-ronsli Proz. Phys. Sc)z,. , 194B. v.(-,.1, Ill, III No,345, 246 ASSOCIATION. Kafedra elektrotekhnii~; W.31(cvsko~o i.nzh!~nerno- f~-kiz~heskogo instituta f,Deparlment of Ele~trical Enginearin,,; ~jo 4 z ow E n. g i n. a e r i n g a n d Pi i ys i, c s I ns t i t u t SUBMITTED: Initially July 24. 1959, and after i-eils,-on January 6, 1960, Card 3/3  S:ALINOVI ,.,V.; GLAZIM, ilroblow concerning tho crilculation of linear olm,"ron r-cce- lerzitin.~ clevicoa. L~v. vyi. uv,~,eh. rudloOlch. 3 nc.~*- 598- 604 N-D 161. WIRA 14: 8) i. Rekopiendovam kinfodroy- cloktrotoklmiki Mc,o)wv;jko,-,-;o J.nz).e- nernofiziohosko,uo instltuta. (Wave guldes) (Farticle accolort~tors)  VALIDNER, O.A.; GIAZKOV, A.A. -- ----- 1-11- Linear eleotron accelerator to 3 f4ev energy. Erib.i tekh.eksp. 6 no.5:26~28 8-0 161. (MIRA 14:10) 1. lbskovakiy inzhenerno-fizicheakdy Institut. (Particle accelerators)  GUZKCV,~A. A. 8/089/62/015/0C,6/019/027 B102/BI86 AUTHORSI G. T. and M. R. TITLEi Fauchnaya konferentaiya Moskovskogo Inshonerno-fizicheakogo inatituta (Scientific Coafer*noe of the Moscow Enj;inaerins Physics Institate) 1962 PFRIODICALi Atomnaya energiyat Y. 13, no. 6, 1962, 03 - 6o6 TEXT a The annual conference took place in May 1962 with more thlin 400 delegates participating. A review is given of these lectures thoit aro anaumed to be of interest for the roadera of Atomasyn onerglya. Thoy are followinga A. I. Leypunakiyj futuro of fast reactoral 1, A. Vitaillyev, deoign of accelerators for superhigh anorgioul I. Ya. Pomeranoliuk, analytioity, unitarity, and asymptotic behavior of strong interatitions fit high anergical L. B. Migdal, phenomenological theory for 1he murty-body probleol Yu. D. Fiveyekiyl deceleration of medium-enargy antiprotona in r -;-IF.--kogan, Ya. A. losilevskly, theory of the Mastiatior offootl matte I Yu M. I. Ryasanov, theory of ionization losses in nonhoucigen-tous sisdiuml Yu, 3, Ivanov, A. A. Rukhadsep h-f conductivity cf suboritioal plasma; IL Card 1/4  SION6210131006101 9/1027 Nauchnaya konferentsiya ... B102 B186 design of 50-Mev electron linear accelerator; Y(:. G. Pyntn-:iv'-A A. Glazkov, V. G. Lopito, A. I. Finogenov, G. N. Skepskiy, V. D. Seleznev, experimenti~l- characterictics oi' low-energy electron linear accel t-ra tars; G. A. Zeytlenk, V. 11.11. Lev~n, S. i. iliskunov, V. L. ~--'-mirnav, V. K. Khokhlov, radioaircuit paraiiieters of 1!')-(LUi~)-type accelt:rator3; G. A. Tyagunov, Q. it. Val'dner, B. IN.. Gokhberq,, '0'. 1. Korshunov, V. 1. Kotuv, Ye. 14oroz, accelerator claa,3ific,3tion 9nd teraii no log,; 0. 5 . Mi I ova nov, VB. Var!ikS in, 1, . R. Zenkevich, theoretical anq'ysis of magnetron operation; A. G. Tragov, P. R. Zenkovich, calculation of attenuation in a diaphragmitted wavetjuidoi Yu. P. Lazarenko, A. V. liyabtsev, optii:ium attenuation lenrLh for linear accelerator; A. A. Zhigarev, H. YE. felineyev, review on ti-Rjectographs; I. G. blorozova, G. A. Tyaj7unov, review on more than 500 ion 8ourcn,l; M. A. Abroyan, V. L. Komarov, duopla8nil-itron-type source; V. 3. Klj,',net~lov, A. I, Solnyshkov, calculation qnd production of intenae ion beami, V. L11. Rybin (Ye. V. Armenskiy), inductive current transiAttera of hiFh f3ensitivity; V. I. Koroza, G. A. Tyaganov, kinetic deacription of linear acceleration of relativi3tic electrons; A. D. Vlasov, phaso oscillations in linear acceleratorH; E. L. Burshteyn, G. V. Voskre3ensk,,y, bean field effects in the waveguide of an electron linear accelerator; R. S. Bobovikov, Card 3/4  L 100164 3 ZPF(n)-2/BDS/8WT(1)/EVf Pab-4-IJF(G)/AR +/ ACCMION.NR: AP3002715 /000/003/0029/0032 genov, ALMMR: Valldner, 0. A., Glazkoy A. A,,; Fino 6 9 TITLE: Linear accelerator for 544ev erergy (Model U-12) 0 SWRCE: Pribory i tekhnika eksperimenta, no., 3, 1963, 29-31! TOPIC TAGS: linear accelerator, G=a radiation, eleotron 11.0celexal= ABSTRACT: The performance of a linear electron accel-trator,recemiair developed at the Moskovskiy inzhenerno-fizicheakiy iunitut (Djaoccr!, r!~,g P sio pj!SL _ jn=_4x J-AL.- Institute) is described. This unit has a diaphragmed acaeililxatir4~ vivegulde 3 consisting of a first (buncher) section 122 cm in length, ci:inta11.1d'xj1-, S4 segizents of varying. cross section, and a second section 78 cz in length contc~~-Llzg 30 segments of coustant cross section. Over the entire length the phsmi velfj(.,i:t-,y risen 1'ram 0,436 to 1.00 and the voltage gradieAt from 17.4 to P6 k-r/C11). Vin :()Ovex sourq!j 111 an S-band magmetron of 1.5-megavatt peak powr., vorkit% &~ 4,00 epij with pulses of 2.5 microsec. This yields a beam of 70-micrtvmp average cluia,ent and a 4--5 Mev energy, with an energy spectrum of approximately 5~ itwA an averlige bean power of 300 vatts- With opti-n- decelerating tpxget, EL Gama rallation level of Card 1/2  kCAMOAR: AP3002715 6oo r/mtn is attainable at a one-meter distance namal tA) tM tariget. AcceltriLtar characteristic curves are given as mpaswred over the mWoot-equ n.*equimay rango of 6.79--6.8s vc. Tests show that aci~.elerator efficiency, defimed tus; the fraction. of h-f pulse energy transferred to the beam, can attain '215%. 71:j an.,Ixe wt this Uh-e beam energy was determined from its iibsorption in mlinLinwa Z:)J.l AjAydxa. Vie Ins,in operation difficulties cited are in obtaining thei optJ;mua iuteb ar th! V"egu.Ue to the magnetron and in getting axial symmetry of the magnellik- foviasing fieli in order to prevent beam losses in the guide. This model fa. un tm 'j=vemitt (wex an earlier version in its maximum beam ener&y and radiation prodaced., as vell as in construction and reliability. Several units are in mcmat ojNars.Uori. Orig. art. has: 6 figures. ASSOCIATION: Moskovskiy inshenerno-fizicheskly institut (witicaw -'.G.'zWireer1ng- Physics Institute) SURUTTED: 121a:62 DATE ACQ: 12.Tul63 ENCL: M, SUB CODE: 00 NO REF SOV: 002 OTIMR - 001) Card 2/2 .......... .. ------ -- --- ..........  S/0691/6%/~ 1 4/C D2/3 I 7/D1 j 1-~ 102 'B 1 :16 A 0 R ~j V~il 'Iner, 0. A. , GLiz'r-ov, A. A. 7 -2 ~Z' : Development of com-mercial ILnear R T 3 -D 1 A L Atomnriya en.-.Irgiya, v . 14 , nn - -2 , r!; re p o r t o n t h --- 1,- 0 an I c ~ -IS ril (' t i (m WO r"' r _. i ed out, at tale imititut, In.;'.itllte of "'riy~3ical wIn ich l(!J to t ~i,? 3 pr i es prol uc )-i f~)ur 1- 3 o 1' e r o n e z i r a c e I e r:i t o r:, Y - 10 U - 1;,) and Tj- 1 16 t I e "r, c t ro n en e ',:(2 v ~:-,in cu r ren 2 ~ia a ri Q 11 L~ i,,; o I o 0 a r a e n - i t y 2 7, e 1 c~ n g ', h 12 2 c mi 4 c c- lo The pha~;e vel9city of tilt- -.i v e 1. e:3 e ti, e e n 3 - 3 6 a n 1 3 the mean loal n1trameter a/ X ('0 16 , th e am.nli~u';e of *.he -7-fiell is kvi'c,-,,. U - 12 le o r, ;,.'I C, Z' :,' e v , m ea n c i i r r e n ', 1 ~-) 0 4a, -I-ray -*nte,-.,iity 63,~ i-//m~n; -,cave ':r,.,1 e 'n t 203 cm (04 cello), the lust 7f~ c~-,i (5-1 cells) are equal. 0 v a/X = 0. 1'5, 7 frops from 30 to 26 kv cm. U-1 3 : 10 ~-!e v , 70 i1a , Card 1/2  U I?. T 0 T Tj a rjo a s T n I T fl. UIC rj 1. a o-, I G J L, 0 7 'A 7: C I J., I I - I I U G T 'l C,I u ou~, a ii G 0, U b T G 0 T i) A .)C L  ACCESSION NR: AT4019722 5/2759/63/000/1:105/OID55/0064 AUTHOR: Glazkov, A. A. T IT I.E: Po-aor balarice during acceleration in a 11near ac,::alerator (LEA) S OU, R C -_ : I nzhorierno-f i z i ches ki y ins t i tut . U!i kor I t if I i (,r%ccv I cvator!; no. 51 i 56". 1 5 5. t3 ~, TOPi~ WGS: I inc~jl- electron a,';celf--rotoi, olrc- ojrv-.: oi 0i rt,,sults i n '(I ir ulvory '~i 1ji j I o!l boll ")i ~Ilc n orc,2i ~o i ay I on ji I t;:' L 1L (I ZI fl Y h Ill flot'. .-;c( P:' on L oil. I" o' -a 1, d ciin r t-i I- cr t c; I r 5 os"~: 1- I Ol. i 0.1 6 i'l 1 11 c .11 1 o. i" I; I,: zh'~ LEI% in illa- 1'/~~L: 7 fll; _,SSUIfIp 1: aC. - C _))V,~J Lit Jl~_' A10  A C C FS p! j( :tj j 00 tit Ju re F, C 0 D;- Cord 2/2  77 J~, u ;MV h a j 1, i ijjf P (t) Fib ~248845 EMMAEC ... 74~ 4 ACCESSION M AT5001, 96 06 107 -dl AUTHOR Glazkov, A. A.; :u id 1;i if! if if tideb i.-With 4he ~iid 11 L ld _'TIVLE.. Sgaration 'of hi nefter ?~k eleatticalitave k Ali scow* Inzhenern n(~ -Ho 041 _sou j:iiJ :way I,. TOPIC d TAGS:_ particle acceieiai~r~i ~Vr6tqnj,,~ 4: r1we, gulde., ttaveling wave accelirzitoi; ~,4rb#xb :ABSTUCT.* -The. iuthors.conzider'Ihe iieulibl AW C ,ft:0jfl wayegade -Ath type EOi tre g Tjio~ inlti~l -2particld-is assumed tobe c, Bey. i~:` Pdtet~ jilt$ I, ~i,se ric -field imparts each v elect' it c INMt ji ~c vith the type of particle, aftoi p 111 ot~V ms).01 :$I iq jq"q. ;1b r,, -a deflection Static magueti~ Th Aryl~oZ in cins is c1logen such as %a J of t ~e t :Particles (weve phase ireloci tol.~~Ay) ouch r in: winciple frcm the well 1~uq": IiAe(kr tr'alyeling-wbw 16a J~ 'rCard ift   F Sund'ITED: 00 00 -:4R_ IN Gov: 000 Do Cffd: '!J L 271W ~'IWT~.m)/T ACC NR. AP6001566 SOURCE COD'L: (A) 'AUTHOR: Val'dner, 0. A., Glazkov, A. A. ORG- Moscow Engineering and Physics Institute (Moakovskly 1nzhanerno-fizicfi_eskiy institut TITLE: Calculation of the dynamics of particles in waveguide -type $(.,!parators SOURCE: Pribory i tekhnika eksperimenta, no. 6, 1965, 27-37 TOPIC TAGS: particle separator, waveguide particle separator , partt6le motion, i waveguide, particle beam, nuclear physics apparatus ABSTRACT: The displacement and deviation of particles in a TW separator are calculated as functions of their rest energies an the basia of INirticle ..motion equations. The principles of selection of waxe phase velocity and other separator parameters for optimal isolation of certain particles from a ijingle-impulse beam arJ. discussed. The effects of nonmonochromaticity and divergence of the beam are allowed for. The design of the longitudinal separator, which uses standaro TM mode, is simpler thanks to the great deal of experience acc-arnulated in the develop- ment of linear electron accelerators. However, this sepa-sitor requires either  L 23137-66 NRt AP6001566 unwieldy static magnets or longer sections and higher SHF power than those needed for a lateral-type separator. Also, the longitudinal type if; more isenijitive to particle-pulse spread. The lateral type has a larger aperturi~, does not require additional magnets, but uses the HEM, -mode whose properties are complex and little known. Separator -parameter tolerances are coasiderod. Supe).-high-fi-npulbe- particle separatiop is analyzed. The theory Is illustii.ted I)v an exiii-riple of Isolating 1 1 '~6 L; ., 1 -1. K-me sons 'and'anti -protons , , vGilhomenta of 5 and 21, Girdri, in a neparator lit a wavelength of 10 cm. Orig. art. has: 10 figures, 25 formulaim, and 5 tables. SUB CODE: 18, 09 / SUBM DATE: 28Nov64 / ORIG REF: 003  L 06536-67 EWT ( m) ljp(c) ACC NR~AT6017513F-- --- - -- --~AO- SOURCE-CODE: (JR/2759/65/000/007/0092/0119 AMIN: Glazkoy, A. A., Gryzlov, A. V. ORG: none TITLE: Separation of high energy particles in a waveguide with transverso field ~SOURCE: Moscow. Inzhenerno-fizicheskiy institut. Uskoriteli, no. 7, 1965, 92-119 TOPIC TAGS: high ener y accelerator, particle accelerator component, magnetic separa- tion, waveguide diffraction ABSTRACT: The authors present a detailed review of the design of waveguid,2 separators UF separators) for high energy particles. The computational methods are based iriainly on published work performed at CERI, Stanford, Berkeley, and Brookhaven. As an examplel~ Ithe Stanford RF separator was cited with the following parameters: length-L = 6 m, Ifield intensity--Eu (hybrid wave) = 60 kv/cm, aperture--2a :1 140.611 rffi, waveguide d[a- meter--2b = 117.894 mm, period--D = 35.0 mm , diaphragm thi6ness--t 2 5.84 min. Typical. :angular separations are graphed as functions of L and E0. Orig. iwt. has: 14 figures, 143 formulas iSUB CODE: 20,18/ SUBM DATE: none/ ORIG REF: 002 LCq,d 1/1 9-  Mc AT6017514 SOURCE CODE: UR/2759/65/000/007/0120/014:171 AU`rHOR: Glazkov, A. A.; Gryzlov, A. V. 4 ORG: none TITLE! Improvement of the characteristics of a separator by suctionalizing the wave- guide SOURCE: Moscow. In,-henerno-fizicheskiy institut. Uskoriteli, no. 7, 1965, 120-141 TOPIC TAGS: nuclear particle separation, waveguide, K meson, pi neson, antiproton ABSTRACT: In this paper the theory is preGented anti the characta r Is ties are set forth 'for the construction of a particle separator consisting of two sections of a waveguide.1 !With the identical alignment of the field in the two sections of the waveguide and the T - ,conditions such that L = 6 meters, the power in each section equals 8 megawatts, amp 'litude of hybrid wave at entrance E0 = 42.3 kv/cm, the initial particle pulse P = 5 Bev/sec and the deflection amplitude x1 = 5.08 mrad, the separation of K and W-mesons ,can be achieved with an optimum distance between sections I opt = 12 m. The dispersion 'of the hybrid wave HEM,, with given cell dimensions is inverted, i. e., the phase and igroup velocity direction are opposite. An optimum length of 0.36 meters in required :for separation of antipv tons and-m-mej2p�. The characteristics of the separator in rCard 1/2  C,3rd 'Ulm L 06,h19-6- ACC NR: AT6-0175-15---- SO-URCE- CODE: UP~-/275-9-/,I~!,/QOO/OID7/0142/0166 AUTHOR: Glazkov,_A. GEyzlov, A. V. IORG: none TITLE: Effect of scatter in the initial conditions upon the in a separator SOURCE: Mo-s--cow. Inzhenerrio-fiziclieskiy iristiLut. Uskoriteli, rio. 7, 1965, 142-166 ~TOPIC TAGS: antiproton, pi meson, K meson, klystron, 11,11 meson, nurlear particle separation ABSTRACT: The effect of scatter in tilie initla! upon pai-ticie separation iwas studied for three separator modeLs. I has i longitudinil field (TM01), a section length of 7 meters with a separation 8 modulation amplitude of field E0 = 85 kv/cm. Model 2 has with a transverse fleld (PLIMli), section length 3 meters, Maximum separation of 16 meters (can be a(ljusteo), acip'Li-tude of deflecting field E0 t42.3 kv/cm. Model 3 is the transverse tyj'(' Wi_tl, p(~rpkindiculav fields in the sectionn, 11/2 L = 3 meters, Eo 112.3 kv/cni, the socti.oiv~ ill(, close -to one anothUV. IThe longitudinal separator provides a ldr'~rt~r sopavation width of particles (antipro- ~tons, K-particles, u-masons) relative to t'h~_~ madel with -,h-~ same overall apparatus length and klystron. The complet~~nf-5-, Or s,~paratioji in both cases is of the  L 06419-67 ACC NR'- H6017515 'first order and is sufficipntl~ high. of th,! separator a N!I i that it is impossible to have an exit magriet and that it is cp.iticdlly sensitive -to the initial scattering of pulsed; i4hich Je,id to i larger loss .:)I: sepana-ion width than '.in the case of the transverse type. Tile focusing of the si-!par~itor beam in the lollgi- Ludinal model is) !;impler than in the tran~~Vvr-';e :;epaviltoy, and Tlv~ lorlg'~tudindl type also permits better, rLmik-)val o, L)ackpi,:)un,J ji-inesons from the decompoSition of TT--rresons. In the transverse type separator it is possible to obtain conical resolution of the ;beams with the perpendicular fields in the two sections. This permits complete separa-1 jion of beams containing three or move types of particles. Orig. art. has: 7 figures, :,44 formulas, 3 tables. SUB CODE: 20/ SUBM DATE: 00/ ORIG REF: 0014/ OT11 REF: 00.1 Card ?/2  AUTHOR- Glaz%-ov. A.I. TITLE; 11c, I; ro.~ -I I La Lio I I C) I a Mul L I --d Ij. Nor,--~ - Pr ohab.LA-:-- in ill~,o Fcni,! t)f a Maltij)10 Sorio-:~ ro Ivlo~I:Lyc -!itj lic) L'i'1411 ' 10 Y i -10 1- 110,S t.L VC-2 () YA I I,,' -i v vi PEIRIODICAL: J- io_ll~ (USSP) A~;S VPACT Ti, I 'cld I I.-It i, i; z V, -L i,: v a J- L; t' L L', J L,)L 1. il ii U I L I C I i A t V Irc!.,, oo ed j ii ',,Ile toi-m;; O~ LlIL,- COI~J-~!IItiOa fulicti~:,ni --.1kc. prohlo:.l ii; :1,1;)cr o-ivo~, a fori.-.ula fol:, of C a 6 i   Gr.AZKOV, A. 11. Glazkov, A. 11. "Cr., the probl,)m of' olai-trJc aupply for eyp~ovttl, ii rf drillings," Aw~rl,avdzh. ric-ft. khoz-vo, 1941, !,'0. 11 , 1.. 1-9 SO: 10 April 53, (Loiop :i I'llhurrial fnYl.:h 'ta oy, 'fo. !~, lo/,(P.  no. 30; Monthly List of Russian Acces-sions, Library of Congress,, 1953, Uncl.  Monthl-.-  u Plannin List th i  MDVSESOV, M.; GLjIZKOV. A.N. "Petroleum induatry electrician." Reviewed by U.S. Movsesov, A. 11. Glazkov. Energ.biul. no.6:25-28 Je '53. (MLRA 05:6) (Riznik, AAA.) (Potroalurh onginearing)  ~ I u,t B. T. R. Vol. 3 No. 4 .1 j ItO $j)-ign snil Conitructim i of I'lectric Supply for ' " V,1~111vun% Ind-Irl. Rumn.) A. N." LuLov mid N.~ M. ( - - - Apr. 1954 ,-, 7 C 7 777-r )*" , Rmilti7ii no, 9, S p 1 Electrical Enginearng M';IT7'- IvO, -It:t;! iktributio n within a reAticted area oL,, tll~ 1" mic, TabIvs.  GIAZKUV, A.N. Industrial methods in making electrical equipment, Fnerg.biul. no.1:15-17 Ja '56. Off-RA 9:5) (Electric apparatus and appliances)  ,.C ~ . , ,, I movsESOV, N.S.;- GLAZKOV, A.N. On the new principle of switching and protection in nmtworka of 3--6--10 kv in oil fields and refineries; concerning S.S.Ionifov's article. Znerg.biul. no.1:11-17 Ja 157. (MLRA 10:1) (Electric switchgetir) (Petroleum industr7-Electric equipment)  ~-D - I I I I AV MOVSBSOV, Ii.S.; GIAZKOV, A.N. Some r)roblemi of electric, power wip-ily for nerloh'-.r,ii flooding punp stitiona. M-ne rg. b N I . no.7 :1-7 ii 157 MLRA 10:7) (Old field floodine)  i,/-,0/;" I;--y , / r, ~// /'-- MOVSESOV, H.S.; GLAZKOV, A.N. , i, Development o electric installation work In the pf,,trolaum industry. Finerg.blul. no.11:8-17 N '57. (MIRA 10:10) (Petroleum industry) (Electric engineering)  AR"0311SKIY, NikolaY XOnstantinovich, inzh., _GLAZXOV, A.:I.qkaiantL-I Nikolay-oTichl- lrzh.i IVANKOT, Pavol Alaktardravic!h,, inzh.; -ktiATLOV, Vram Vagramovich, kand. takhri.nauJu, MOMMOV, Noreas Saradovich, Inth.; MOTSOMM, Boris lcalft~-vlch, Luh.; TRONSKIT, L,N., vedumhahly red.; POLOSINA, A.S., ti,khn.rod, Eaand~,A ca oil fifillf e-quipmout] Sprati-riithnik 'po u6fteprt~uU'aliarq-ol elelctrotakimike. By H.K.Arkhanfrel"mLIA i dr. Makva, Go-3,,nauohnc--tokhn.izd~vo neft. 1 1961. 472 p. :2 ~'Oil fteidib-Alactric equipmon4)  GLAZK(V,- Aleksandr flikolayevich, inzh.; PARFEMN, AfanaBiy Nikola7evich, I -__ - -kad. tekhn. nauk; PrIn1ma'l uchastlye ANISIMN, Sh.ye., lrjzh.; Vfd.NSKIY, L.N., ved. red.; VO]UNCVA, VA, tekkg). red. [Electric equipment for petroleum and gas refinerles)EI-Atro- oborudovanie neftegazopererabatyvaiushchikh zevadov. M:)skva, Cofitoptekhizdat, 1962 . 343 p. (MIRA 16-1) (Petroleum refineries--Electric equipment) (Automatic control)   (,LAZKC,',V, kiiokorandr- :i'r-GI)IY('VICh; ZHII.Gl"' , m~Arllrl. r(-(- [Installation of pwor distribit.; n ] riptwc)r-k.,;, and electrical oclu,*,,,-.(,lnti !,'orlt%zh2 i .. , I I osvetitellrvkh ~etai i :-'o~,~kvri, 1965. P.  GULYAY'&V, KA; I.IPTEV, A.D.; M,AMID, M.N.; ~WX15UVA, M.G.; NAW-ZiLDIN, Ye.D.; GLAZKOV, A.P., otv.red. [Industry of Vologda Province; on the fortieth anniversary of the Great October Socialist Revolution] Promyshlannoot, 7010- godekoi obliisti; k 440-lotiiii Velikoi Oktitibr'okol sotsialistichaskoi revollustii. Vologiln, Obl.kniziulain Md., 1957. 92 p. (MIRA 1):3) (Vologda Provinc8--Hconomic conditions)  179MOV, A.I., inzhener; GImiUOV. A.V., inthener. Increaning the productivity of alectromochimical k-rinding. Vput.mash. 33 no. 10:71)-79 0 110. (KLrlA 6:io) (L~rindlnj,, and polishing)  PHASE I BOOK EXFLOETATION JOV/3285 Akademiya nauk SSSR. Institut metallurgit Taplovyye protsessy pri. Xontaktnoy 5varke; sbornik trudov laboratorli svarki metallov (Thermal Processes in Resistance Welding; Collection of Transactions of the Laboratory for the Welding of Metal:s) Mlosco-.r, Izd-io AN &3SR, 1959. 277 P. Errata slip inserted. 3,000 copies printed. Ed.: N. N. Rykalin, Corresponding Member, USSR Academy or Sclenceii; Ed. or Publish- ing House: G. M. Makovskiy; Tech. Ed.: G. A. Astaflyeva. PURPOM 'This book zuiy be of Interci3t to el-igineerii n.nd r.,ijearchei-8 interested in improving the ra~thods and machineo used for resist-ance welding. COVERAGE: 'Me material is based on work conducted at the ;P~Iding laboratory of the Institute of ~~_-tallurgy, Academy of Sciences, USSR, for the purpose of in- vestigating thermal processes in resistiuice welding. A number of the papers present some results of theoretJcal and practical investigation of the butt welding of rods and the welding of crossed rods by the electric resistance method. Spot welding of sheet netal is alao mentioned. 14_~asuftng anal Vicording proced- ures are explained and illustrated. Ilie majority of experlm=ts deal with heat- ing, heat distribution, and the flow of current in the velded part. It is Card l/ 6  Thermal Processes in Resistance (Cont.) 11"0V/32135 stated that the automation of industrial processes requii-es improvedj special- ized, and automated resistance welding processes. No per3onalAtLes are mentioned. There are references) both SovLet and nori-Sovl.et, at tbf-- end of each paper. TABLE OF CONTENTS: Introduction 3 N. N. R~rkalin. Theory of Electric Resistance Heating of Bars in Butt Welding 6 Introduction 6 1. Basic considerations 2. Equation of the heating process 7~. Resistance heating of welded bars of infinite leneth 17 4. Resistance heating of the portion of the bar having. cold ends 2r, 5. Resistance heating of several portions of the bar with heut flowing through the end 351 Card 2/ 6  Thermal Processes in Resistance (Cont.) SOV/3281 6. Resistance heating of bars at a given (,.Lr(,uit volt-aj,,,(--- 45 7. Cooling of butt-welded bars 50 A. I. Pugin. Feating of Bars in Resistance Butt Veldini;; 54 Introduction 54 1. Methods of investigation 5 5 , o I' the Etma 2. Resistance of the contact zone and hoatinv near the contact 6o 3. Calculation of the thermal cycle of the welded joint aiid the temperature distribution along the length of the bars 93 It. Structure and properties of welded joints 122 Conclusions 132 A. 1. Pugin. Intermittent Fkating of Large-Diameter Carbon Steel Rods in Resistance Flash Welding 134 Introduction 1. Methods of investigation 134 135 Card 3/ 6  Thermal Processes in Resistance (Cont.) ISOV/3285 2. Change of' rcol3tivity of carbon FAP(!L during li,:-ating, by inditstrial-frequency current 137 5. Pre-heating of bars in resistance flash welding 144 It. Calculation of regime parazipter3 and therical cycle (comparlison -qLth experinvatal daW) 163 Conclusions 166 A. V. Gluzkoi. 1~2at Propa(,~ation Dirinw Puloe B~itt Weldirij! or Different Me- ta 18 108 1. Determination of the amoulit of heat going into carbide plate and the steel specimen 168 2. Schematics of heat propagation during, heating of the rLLIse welded parts 1-71 3. Heat propagation during heating of welded parts bY Pill-Satilig arc 173 4. Process of heat propagation during cooling of a sielded. joint between carbide and steel 178- Card 4/ 6  Thermal Processes in Resistance (Cont.) Soll/5213c, S. A. Aduainskly. Cooling of 3pot Welds in SheetG 182 1. Measurement of metal temperatun! in the zone near the contact during cooling and the amount of heat required In spot welding of sheet metal 11~2 2. Calculation of metal temperature of the zone neur the contact during cooling 1T Conclusions 200 N 202 N. Rykalin. Distribution of Transverse Current In a Homogeneous Rod 1. Stating the problem 202 2. Equation for distribution of potential 203 3. Distribution of current and Dotential in an infinitA~ cylinder 206 4. Density of current in the center of EL bar 211 5. Distribution of plane potential and transverse current in a rod 216 V. A. Vasillyeva. Heating During Resistance I-L-sh Welding Of Rods 223 Introduction 225 I. Methods of measuring and recording welding process parameters 224 2. Compression of the crDszed. barty In resistance welding 228 Card 5/6  Thermal Processes in FOsiotance (Cont. ) MV/*528!)i 3. Thermal efficiency of the welding pracr,-iin 235 4. Experimental study of the heating process during rewLstaric-i! mash weldinj, of rods 2,~,8 5. Temperature distribution in the zone near the contac t 245 6. Theoretical investigation of the heating process of bars 26o 7. Analysis of the bar heating process ;265 8. Determination of mininium current necessary for welding 269 9. Determination of current density in the center of the bar 271 Conclusions 274 AVAILABLE: Library of Congress VK/ fu 1 5-8-6o Card 6/6   T !I) V A-1 I 23b( v 04-1 I ; K G a rk cv; :43 11 o1 chorb-a-k-, V.v ORG TITJ,F,i olactracl, zrl.-A! , ".o. SOURCEi J zr-bretrinlya, provjshleniiy-,~~-, TOPIC I oloctro(-.1iomical troatmollt, AB37 RAC Autho-.- Corilificata b)--in w Olertl7rr~h'fill-If-i'A tl-efk',=~Int of P!-Irts ~ (,!j,o!3o-d trc,lyto PtLmpod through and with-wi lky~jr~,A'r -dri-,) 1:-.1 ing uritom actuated by 1-Y, int-s-ka, mA clittel, of' the charbor. :.i~:, tho !~ystcm, the control unit. rl a slido e diaphragm vorki-1, (Ljoki Fig. 1) __S~crd 1/2  L 334?2-,66 ACC NR,ip-Ccd-A6-9- Fiff. 1. D)TICO frix- mlertrc-l%fjlUAc,%l treatmant or ptLrt.!i. 1.--- ailAdt; 2---- diaphralpt; A.- wortli,,q chAmbel' Orig. art. bast 1 figure. SUB COD&i 1;4/7-IUBM DAM 16Mar64 ElartrGlytiC machinin c,rd 2/2 J'-'  ANTSUTA, Ye.B., arkhit.; KIRILLOV, N.P., arkhil.., KIIZIIETSC)V, VV., arkhit., SILTITITSEVA, M.N., arkhit.; PYATITI, S.G,, in.,th, 11:1.nimali uchastlye; CHUYE21KO , R.G., arkhit,; POSEVICII, Ya.Ya., st. tekhnik; &jLUKHOV, G,,T,,, iwii.~ SAMSONOVA, T.T., Inzh.; KOIY.SOVA, Ye.le,. st. tekhnik; WAROVA, T,N., takhnik~ SIIAI,91A!r, M.S~ , in?,h.; SEVRIOVA, G,,V.., irizh.; PLATUNIN, Yu-S., gr., bizh- i VOLINOVA, tokhnI.k-; SOLOVIYEV, 1,!.I,, inzh.; 1-10-M', LA, tokluill- [Two-apartmint houce with two-room apart 'ipontt.--; ;tmidard plan 1-102-51 Dvakhkv,,-a,t.Iniyi zhiloi dom-, kv~Lrt ij7 v dvo kor, Jill t3*J, ttpovo~ pronkt 1-102-5. I,Itskva. Allbor, 1. 1960~ 27 p~ (14TRA 14.10) 1. Poscow, TSentralltV-y institut, Uvovykh proyektot), (Apartment houses,----,Df.-a-Jgr:3 and plans)  RESHETOV, K.A., inzhener-kaDitan; ZqUKOV, Ya.S., inzhener---IUIyor;.j&jA.2. KO ,,J~~.,'-,--inzhener-kapitan; 2MIOV, A,G., inzhener; SHM-YKAN, "RII A.B., pod-Dolkovnik, reda;rtor; YMM37NA, Ye.1f., telchnicheakly re- daktor. [The PK-30. R-20--M and R-60-M medium field telephonl~ switchboards] Polevye telefonxiye kommutatory 3rednei emikosti FK-30, R-20-M, P-60-M. Mosirva, Veen. Izd-vo Mininterstva Vooruzhenaykh Sil SSSR, 11946. 142 1). (HIRA 8: 2 ) 1. Russia (1923-- U,S.S.R,) Armiya. UpravlenLye boyevoy podgotovki voysk svyazi sukhoputnykh voysk. (Telephone switchboards)  7ri L 5847 'AccEssIoN NR: P5014816 : M1 01 no v~iowop ~ Pm  ro Aa:Very easy'to control aft it utomatic~altitmde contro Artrar 4h flight direction the autbrnat1#,tO,1m: hange . !his is. also Possible' in th vase aia'n'Atit'' I e -op 68 ;Kith d ~fd mi a v rfilbh dive rfi;e o a i Polar vek~A W44 it4~' f Oa, 4Isec.'Which 6~da- roui~- corresp y lar'velocity traniducem.:a ld~-na : " gjneiiiia ind converts an eleetrlo - 7 7. i7 77 ' OF!Iix !I j' :11' j-1 -!I ~4 d7, lIl IF, a a D12 W, kowov'sx, ~i u kh Abel$ Peril J. ':o jj~i r .r ~iiier!, I n 0.4t sh, M~ or i'~em 04", 6ut'. iP6) 3. or hol ti) aI P rop 77- I-l- 4  13; n l it I N il  6,UA-ILAVU4 VIU~ Ur2690 aL17VI0,4001 W: i !'Ll f ip. !LIT ASJWYATION,i. nbno A ow ca jO  L 9742-66 E1.9 (d) BC 74- ftfi~~__AIYWYOZ57 SWid__ECODE DE UR/0209/65/000/011/0056/0060 qq'j-'~ ' .,:" AUTHOR: qlp~A_1q_jy,j _(G.qkpnel, Military pilot first class).;.Giilkit~Ljr. Lieutenant- colonel, Military pilot second class); Krylov, V. (Colonel, hililitary navigator first class) q, ftr' ORG: None TITLE: An automatic control system SOURCE: Aviatsiya i kosmonavtika, no. 11, 1965, 56-60 TOPIC TAGS: aircraft system, autornatii.: control system, airborne computer, navigation cAYnP-'--) 0~:-"+- I YwIn adz;v, 4-'r-4 ABSTRACT: Aircraft guidance control systems not only carry out the functions of automatic control but also issue instructions to the pilot according to which he may perform flight maneuvers according to a prescribed trajectory. The authors de- scribe a "Privod" piloting -navigation system. In addition to an automatic control system4 the Privod is coupled with n computer, the radiotechnical, equipment of a..My SP-5011-andiag syqtem; an RSBN-Z short-range navigz~tion and Landi!q,LRstem0?JrWd an automatic pilot. It is intended for affecting the landing approach maneuver,  L 9742-66 ACC NR: AP6000257 using course and glide equipment; and for plotting the pre-landing maneuver and flight on a prescribed course, trajectory, and attitude. The various components of the system, its function, and landbased aids such as bescoim, are. discussed. T authors noted that the Privod system presents no difficulty for the crew in flight, and that the experiences of the authors may prove to be beneficial in this respect. The experiences of the authors are to be related in another arlicle, Orig. Art. has.- 3 figures.   kr66_ EWT(d) IJ.P(c) BC ....... .. i AP6003294 SOURCE CODE: UR/0209/66?000/001/0070/0075 XUTHOR: Glazkov., 1. (Colonel; Military pilot first clasA Loktionov, V. ~:ngiDeer; MaJor) ORG: none TITLE: "Autopilot-drivell anding system SOURCE: Aviatsiya kosmonavtika, no. 1, 1966, 70-75 TOPIC TAGS: autopilot, aircraft landing system, automatic control system, automatic control equipment, motion mechanics ABSTRACT: An automatic control mechanism, designed to maintain an aircraft on a cer-1 tain course or to cause it to maneuver, is said to be extremely dependable. However -drive system may be it is still subject to eithe, no matter how reliable an autopilot r partial or total failure. A malfunction of the system may result in a change of the motion parameters of the aircraft, such as the attitude, acceleration, angle of at- tack, and angle of roll. Experiments were carried out' to determine the dynamics of these changes as well as the resources available to the pilot to operate the aircraft.l-- Failures were introduced by feeding into the system an electric strnal which was turned on by a crew member at a specialty designed "failure control panel." The time needed by the pilot to detect unpredictabLe errors during flight and to correct for them amounted to 1.5-2.5 sec for errorr occurring fit the longitudinal and 1.5-6 sec 1/3  AP6003294 for errors originating in the latitudinal control channels of the autopflot. With the a-topilot turned off, the pilot operated the aircraft using instrument readings from the drive system, and when the drive sr;tem failed he maneuvared by using the gyro horizon, variometer, altimeter, speed indicator, and other instruments. In a perturbed longitudinal motion, the dive failure (pilat's reaction time, 1.5-2.5 sec) caused the aircraft to lose altitude up to 25 m in hor -izontal flight and '10 m in gliding descent. In 4-6 seconds, the altitude loss amounted to 70 m, while in the zone between the outer and the inner marker beacons it: increased to 90 m. The motion of an aircraft during its recovery by a command instrument within 1, 2, 3, 41and 5 seconds is illustrated in Pies, 1 and 2. T'he dotted line indicates the path of an 300 250 200 Fig, 1. Altitude loso during recovery in horizontal flight Card aec  ,L-14.566T ACC NR, AP6003294 Descent lot Outer marker beacon sec ig. 2. Altitude .1os.4 during re covery in glicle path aircraft piloted by gyro horizon, variometer, glIde path indicator, and command in- strument while being pulled out of a dive. NM) SUB CODE: Ol/ SUBM DATE: none/ ATD PRESS: q tqo Card 3/3  D;154o4-66 XWT(d) IJP(c) Br- ACC NR: AP6000628 SOLIRCE CODE: UR/0209/65/DOO/012/005310056 p AUTHOR: Z- Colonel, military pilot first class); GalUn'jLLN.~.'(Lt Colonel, mi itary pilot second class); Eglov, V (Colonel, military navigato'i!n! first class) ORG: None TITLE: The landing approtch according to the "Privod" syseem SOURCE: Avistsiya i kosmouavtikA, no. 12, 1965, 53-56 TOPIC TAGS: aircraft guidance equipment, coamand guidance system, aircraft guidance ABSTRACT: The authors describe the actions of the crew aml the piloting tech.' nique using the "Privod" command guidance system, both in t'ho landtng approach Zn-try flight). situation and during a flight with a prescribed itinerary (cl,'0811-co The authors analyze in some detail landing approach techniques from a square configurition called a IU201 as well as the technique3 assactated v-1th a straight approach run pattern. Wind velocity drift angle correctiona and banking angles are analyzed as they pertain to landings baW on this aystitai. Three to five training flights are sufficient to enable a good crew to latid an aircraft with Card 1/2  L 1504-66 ACC HR: AP6000628 thia system. Particular attention Is given to the safety fibaturesi of this gutd- ancq pilot-assist system.' OrIg. art. hasi 1 figure. SUB CODE: 17 SUM DATE: none Card 2/2  GOLIDENSHM11, I.; ORLOV, K.; GIAZKOV, 14. Special docks 'An a continuous operation line. Grazlid..av. 17 no.6:6 Je 16o. (KRA 13117) (Airplanes-44aintenance and repair)  GLAZKOV, M. New refrigeration plant on the tyinku of tLe rivjr I.- Rech. transp. 19 no-4:54 Ap IW" (IIIPA 14:3) (Moscow-Refrigeration and refrigerating machinery)  NIGOF,B.A.; SHMMID,S.D., rednktor; GLAZXC71,M.H., red,4kt,:)r; YRASSATA, A.K., tekhnicheskiy redaktor [Business accounting for a river boat] KhozlRistvonnyi raschet rechnof,o Budna. Moskva, I%d-vo Ministerstva rechnogo flota S~O, 1952. 82 p. (MLRA 9: 1) (Inland water tranBportatton-Accountii, bookkeeping,etc.)  z , SRARAPOV, N.I.. reeaktor, FEDTATEVA, V.A. '~IA KOV ~*1A.M.; NIGOF, B.A.~ re4altor-, POPOV~ S.D., tekhnicheEki7 redaktor [RaisIP4 labor productivity In the transportation fleet] K roprosu povyeheniia proizveditellnurti truda na traneportnom flote. Poskva. Vodtrannizdat, 195,~. 58 p, OGRA 7:8) (Inland. wator transportation)  AMBIATOV,P.A., inzhener; GLAZKOV,M.M., inzhener The introduction of a coordinated technoloa in industry and transportation as a potential in the development of ri-vor transportation. Rech. transo. 14 no.6:6-9 je 55. (mah 8:9) (Inland water transportation) (Freight and freightage)  AMIMATOV, P.A., Inzhener, GLAZKOV, M,X. Ways to improvm research and plannixg ia the ecomoinics And aperativiL of rivar transportation. Rach. trmnap. 14 11 '55. (MLRA 9:2) (Inland wnter trnusportation) (Freight And fraightiii,e)  BODROV, Aleksey Dmitriyovich; GLAZKOV Miklucil Mikhaylovich- KPI'IEV, I.S., , rat a on z ant; TUBAROZOV-I-M:'~T.-O- ;n' iiiiiizont ; zinublid4M%, i. )I. , ro'l. ; MAOUSHINA, A.H., rod.izd-vn; M.N., tiikhn.red, (Handbook for the skipper of a bnrt,,e 1-mulin., dry frei.,,,~tl Ponobie alikipani mikhognivioi barzhi. MogkvFi, Izd.-vo *Rachnol ti,nnBilort," 1955. 221; P. (MIRI 12:9) (Barges)  GLAZKOV, M.M.; C;ORIIZV, A.V. Improve cooperationwith efficiency workers and inventors. Rech. transp. 15 no.10:'7-9 0 156. (ISRA 10:2) (Inland water tranuportation)  SUTYRIN, Mikhail Andreyevich; GIAZKOV, M.M., red.; K-HARYUKOV, 11.1., retsenzent-, ALXKST.W, V.I., red. izd-va; GCUCHAKOV, G.N., takhn. red. [Safety in -pushing barges with towboats] BezopaBmoe vozhdonio Budov sposobom tolkaniia. Moskva, Izd-vo "Rochnoi tranwport," 1958. 40 P. (Tugboats) (M.LRA 1138 )  KAKOVSKIY, B.A., GLAZKQY,_Ma,,,,SOWV'YYV, I.V., r-c).-, 7111CGRADOYA, H.K., red. ftd-~'a.,-fiRKAKOVA. r.T., tekhn. r0- ['folga River basin and ito water trammortation] VOIZW-cii hassein I ego rechnoi transport. Hoslcva. Izd-vo "Rochroi tran9DOrt." 1958. 130 u. (mlqA 11:n) (Volga Vnlley--Inlqnd wntpr tr4rinuortation)  GLAZKOV, Mikhail MikbDylovich-, GROMOV, L.V. , red.; VINWRADOVA, II.M., red.izd-va; YEV.,'alOVA, T.T., tekhn.rod. [The Yenisey, the great Siberian river] Enisei - velikqla sibirsk.4io roka. Mookva, Izd-vo "Rechnoi traimport," 1959. 216 p. (MIR-4 12:2) (Yenisey Valley-Deacription and travel)  GLAZKOV, M.M.. inzh.-tekhnolog Hydraulic fill method used for unlnaling river sanI. Rech.tran8p. 18 no.?:43-44 F 159. (MIRjk 12:4) 1. Zapadnyy port 14oakov-skogo parokhodstva. (Hydraulic npinneriV,) (8and-Tranaporto.tion) ?Loadinr arul unloadIne)  KOSULINIKOV, K.U.; GIJUKOV, M.M. 'doot Moscow port hoaAinjr towavdii coripl.,~te inachani.LatiolL and trana. 18 no.8-14-17 Af, automation. Rech J9. OMIA 12,12) I.Iladial'nik MoskovskoM) Znpadnogo porfri (for Kotial'nikov). 2.Star- shi3r inzh(3ner-tekhnolog Moskovskogo Zapadnoi-o por-ba (for Glankov). (Moscow-Doelm ) (Sand-Triinaportation)  3/064/60/000/006/00'j;,/020 A 104/029 AUTHORS: Gol I densh teyn t 1. , Orlov, K. , Glazkov, hi. jv~. TITLE: Production Line Docks PERIODICAL: Grazhdanskaya Aviatsiya, 1960, 11o. 6, p- 6. (Tl_ TEXT: The authors describe a mobile repair dock for~i.L -14 ~ 14) aircraft designed by the plant collective under the supervision of I. Ivasik. The dock is made of welded channel-steel and resembles a trolleY-frame on rails along which the aircraft is moved cis shown in the, figure. The aircraft is suspended inside the dock and repairs are carried out from a number of bridging boards. The dock has two fitterfs benches, compressed air is sup- plied from the main line and a 24 v electric power supply is maintained. Upon a number of tests and modifications the production of these docks has been entrusted to the establishment supervised by A. OvsZanihcv. The photo- graph shows the fitter V. Makhov of the repair workshop supervised by Kh. Izmiryan working on the landing gear of a Tu-104 aircraft. There is 1 photo- graph and 1 figure. Card 1/1  YELISTRATOCV, S.I., retsenzent; ~L4KKOV SIDOHOV, P.P., red.; LOBANOV, Ye.V., red. izd-va; IRIDNAYA, I.V., tekhn, red. [Business accounting in a harbor section; from tim %4ork practice oftlia Moscow Weistern llnrtx)r] Khozratichet uchastkii portit; lz opyta rnboty Moskovolcogo Zn1widnogo jmrti). ~lo- sk-va, Jzd-vo "Rechnoi transport," 1963. 37 P.- (Y IHA 16: 10) (Moscow--Port districts--FAnance) (Loading and unloAding)  .J; " 'J-- X F ~ 7 1 M , I, I n:-h. - i!~onnm j, -11, Year --ound for tranar , ?;, ro.8.15-16 A j-; 161. (MIM 16~10) , -til%l  r,L,AZFCVP 14.14.; ZELFNIN, A.P. i . 11, ~v b --IV Limiter for radio relay I :'-; - 7 Y - ' . - 7' - ; radiot.ekh. 8 no.5:617-619 0-0 165. .""": , Submitted 11,hrcli D., I'46r, I  (1, , , ~:, . II - 'r : , ', , or an A I -I.D) nripli %irilo nn,,tlyzf.,r, F'rLb, !. !:*k,~r:, Yj , I L n ~. , " 2 Ja-o' 165. A~',")  G,LAZKDV, N.P. Electrostatic amplitude analyzers. Prib. I tokh. no.1, 48-50 Jl..,Ae, '56. (V1,RA 10:2) (Pulse techniques (Electronics)) (Electronic Instruments)  SUBJECT USSR / PHYSICS CARD I / 2 PA - 1231 AUTE'OR POZE, C11, P. , CLAZFOV, 11. in. TITLE The I nelastic Scatter4nC of 111-.otoneutron.~ :.ia E'nerLiy of 0,5, 0,77; and 1,0 MOV, PERIODICAL Zurn. eksp. i teor. fi.:3, 'iQ, 1017-1024 Publ, r P V i ew 1) d 9 1 1) 1.) The cros,~, sect-Jori o-1 this inelastic scattering was measur,~d on the nuclei of the follo-,,rinC el,~ments: U, Bi, Ht,~-, '.V, Sb, Sri, Cd, Cu, Ni, F~-, Al, Ila. -etiiod and tecl.,ni~ of ~11~surir . The int~lajtdc t~ffect vi:iz m;'..-Lsured by meaauritig the primary spectrum of the neutrons in the sub- stances. The 3am 'ples were spherical and Kad a central caj*ity for the re- ception of neutron sourt~es "Na-Be, La-Be und Na-D90) Th,:- neutr0118 were re- with !t spheri -ion chamber,. cardod by measuring tho recoil nuclei al jonizzat. Tests consistQd in meaourine the primary spectrum of the oourci~ without scatterer and of the secondary spectrum of the source enclosed in the center of the scatterer. Next, structure and manner of sphe i- cal ionization chamber as well as the characteristca ~T he phCtoneutron sourr construct tt iqlierical es are discassoz~d. It is particularly easy to chamber of -~.'ass which is coated with silver inside and (:.ovevs~d Vii.th electrolyte copper on th~? outside. ~Ileasuring results alill the computation of Ll if the number of neutrons diminishes exponentially with the --- 7-- prima_ry energy E 0 as a result of inelastic acts of scattoring, j.t applios  V Zurn. i~k:;[_ i teor. f i.,i , 30, 10)7-1024 ( 1 9~,6) CARD 2 PA 12-'l for the scatt,_arinf~f cross section in hydro~;-_-n that ol If e r e Na;-,,I N, denote the numbers of momi~nta in the primary :tn( Ii It the E I - th~, of tho noiitrciis tpproximation). Tho, tr-rorz, du~_~ t.~, t~-!j approximation swl to the assumption of an exponent-lil :%~~.Jl"_-t,:ln 'J" the _'ie!; of the primary '31ij.-ht. 'Ah-, indivi-du'Ll excit-1 lriv,~Is or th,~- avor-tf,- of )11.1.!1.a:';t1c'111y n-utrons uerf- de'..--i'mined from, the recoil ipectra, "'hlci~' was Posvible only ZJT)proximatively (with an accuracY of from 5 to 7/'j')- J.t Lj particularly "5t to ~he 1"?ft edL~'e of the 'Ipt!ctrum :,f inelas:tJ-11), ne, m,,asuring ill-, 1: s ca t t,~ r e, Itr.-,cis. As an _nd N ~tre Mentio-~J- At Ol7i 0377; and 0,9 eV the recoil !3pectr,,~. -)f ")b and 131 ar- J pletely equal -,,,-~thin the limits of measurinj e-rrors. 2h,~ri~for.., the absorition, eind the inrilaotic snatterirriE of neutz-ons with less, "hiin D,t"' _"eV probably a"10unts to not more than 0,1 barn. Hwaever, vitt"-dii t),,#-, of more than O~ 9 M eV (here at I ,11eV) an inelastic scatfefinC becom,!!; noticeable End the spectrum of Pb !ecreases within the entire range from L,,).- : ~IeV to F-0,45 "IeV. From the curves there follows immediately N11112, and :;j. - 0,11 ~ 0,1. barr, is foand. In non~~Iision the measuring results for tungst~r, are Jlscussedj N1/"; 2 ~ It , 2 5 a -1 0, 4 r 0, 2 barn wan fourd. INSTITUTIO'1~ :  All I AUTILR: Glazkov, ii.r. T I T LE: An Ile -Cameru. for d 1,1 a spektrometrirovaniyLj ncyurcl~ov) 1'Z!,'1IODiCAL: Pi-ibory i -.1 p JS; 11 7 A23TRACT: The con,-~-vuct j t-' f -utrons froi~~ Lhe j-, rie cti,)]! 're, (L', P) T i ::(-V' v.2ry ood ner U~_y re so 1 u t io n ( 3"" by Batcl.elor r!" -I.. ('R,j'.1). t : Lc r?) c L io n o e co unt r-- r -i_ s i,,-j t 1 c- e f ~) i I t. t, 1, c e 1 c a r r i c d o , labor-~itoiv A d c r ib- e d, It ed e - i 1 it f i'n lit I ,jo:;e (Ref.2). -co~:I~tcr, TL-, fillov"i- d LI ve i i. er 2C .nd 15 r.'LT., , _ ,,- 1 c c tro -I - c-~,~acitance of col,.-ct fi-,-- uf Hl- 750 + i ~-,CG (A---) + '10 (i,-J -Linr in am, --~T' V 1, T, o s i t il v e fo n 0. 1 U--%11 ;.-ali ef i,ect 1 C i J, J -It for E 0 is + 4;,, + 50 ':-,,~V, io H I  Ali O.L Tl:ore ;:~: Slavic. o ~'-;Ij-TB1-'lT'-ED: Av Al-:,A-;~ i-E: i (3, 2P  L ii L I o I, i b iLL, i'l, ul r U.3 ~iL A-0 J 1 :; i clu, rre a - - , 'J 10 c:m dollo 1, c -3..,);j u 5 1.7 the rjul- "I O'D tiLrou-1) foil -).;,ar 1 i_,:- 31- ly eVOry L I 10 C. de L L'T .L 1. ~..,o C U of s 'u-f t a a n, f ,ar;;ln t,~b~!) i., . e it -w i L htheir i.ror  L. ;ed ',-I C 1 AI 11 :f iL', b v; - - vi :Tl  1977 .s/i 2,o/60/000/03/002/055, e1 0 E032/E5l.4 AUTHOR; Glazkov, N,P, TITLE- A Cylindrical. Chamber for Fast Neutron SI:)ectrometryA7 PERIODICAL; Pribory i telchnika eksperimenta. 1960, No .3, pp 16-19 ABSTRACT, Neutron spectrometry in the energy region 0,1--1 MeV no longer presents any serious difficultiel if use is made of ionisation chambers filled with He- gait.- in which the neutrons are detected with the aid of the reaction He3(np)T The energy resolution which can be reached in this way is about 7% (Glazliov, Ref 2)~ Howevir the use of He3 above 1 MeV is difficult owing to He recoil nuclei whose maximum energy is greater than Q = 0,77 MeV, It follows that in this energy region neutron spectrometry can only be successfullY carried out by using hydrogen, deuterium, or helium recoil nuclei.. However, the resolution which can be achieved in this way is rather low Attempts have therefore been made to design a neutron spectrometer Card 1/4 which would have a wide energy rarige. (x Iii.Sh energy  L 0 n' ),!,('E 5 1 A Cvl indi ic-.~ C I i,. m b e r 1'o r, F,~, i t N'C: t row ", r"; r e so Iii t i.on , a tid a high det ec t j (.,~j e f j*j ci eric yA partly su~icessf*nL solution of thi.-., proble:w haS been described by Perlow in Ref 3, However, the disadvantage of Perlow,s instrument is its low re(-()Fd1T1& CfflCif~rlCy and its difficult constr(Iction, Thp pt(~,.,Yent paper describes another , and simpler, non-mechani.ciil mathod of collimatinz zec,Di.1 protons which makes use of the elltire volume of gas in the chamber so that the effective thickness of' the gas can be taken as several times greater than the range, and hence the efficiency can be increAsed by an order of aiag 111 t u (10 ., The principle of the instrument is as follow--,. rhe incident neutrons I-11TUr a cylindrical hydrogen chamber along its axis. Only those proton (racks which are parallel, or almost PiAT11.1lel, fo the ax-is of the chamber Lire selected. In the analysis of iraAs use is made of the consi.derable difference in the ptiLse shape for different track directions. In a Card 2AZYlindrical chamber in which the fxeid 113 largely  ~ 1977 S/12o/60/00()/03/002/055 E03VE5 111 A Cylindrical Chamber for Fast Neutron Spectrometry c,oncentrated near the inner electiode, rhis difference is veiy considerable and can easily be ui5ed. It is Showit r ran~p) of less than that tracks lying within an angula 10' can be selected and the energy of the protons the-i differs by only 3% from the incident rieutrons,, The P111sc. analyser whLch was used to sa-lect tht- pulses lying within the 10' cone is shown in Fig 2, Fig 3 shows collimated and uncolli.-ted proton spectra for neiitroris of 470 785 and 1100 keV Fig It shows the ricutron spectrum for a polanium beryllium sour(e The curve m a r k t-, dawas obtained with ChL collOtt"Itinq, device, In the final form, the chamber wa:i 25 crm long, 10 Cm I. n (I Lamet er and the cell trnl wi re! had a 11 L111ftult el- Of 0 02 (111 ']'It,? c ham b e r iva s f i 11. e d w i t I i it m i x t u r e (:) f 11 v d r o 'C' 11 it t III) and argon (17 r)tm) The officiew-V WIS b X'10 -~ at EIn ~ 0, 2 MeV. The resolution at I Mev vlas 10-,/j A.kn,avrledgment is made to A., L, L(1-1puji!zk1y ar,(] S;j,Chubaiov Caid 3/~j fnt interest in tht: prvserit wclrk, '07:VF~ A -jc,  5/1 20/6-/()C!0/00 5/03 It /o36 E 1 () It /2" 3 "~ T I I L:-1, I ip;,w I It I' or. ci I I i Ic!"a I Z1. 11 E" ~ ZI OD I CL :Priljory i n0.17, 1911-2, 192-193 T'-,~T: A dlo~-i,~no(, ~;o tliat :,11(:!: I:i i otli Z;lt iml cz%:i bo fi.1 let! !I lit, it it prv,!j!~ilre of 1)0 !orcitry i~i t1*;k1I!;l4'(--rrt!,1 fvoin o-le CNII.ill(1,21- LO anoc~ior itiier 1-ty ~,ntvity iks-siz;ted ''ith it Vacuum p-amp ox. by apnlyin,,., industrial ar,-,on ;tt it of 100 it t :-t III this wa y -m~iferr-e(l fLO!:l I St0j,ittr lio) is fir~it tr zo thil wmeu CyLi!W-1- ..11,; Lil"!l From "holicf., t') til" ~o tit- t, cycle i~i 1-t-)t~,atcd Illitil the tlece-3:;ary pre:i~mt-e lho:, 1)een built up. 'rile elltir-.~ equipmelit is _m(le of stainle:5s steel , it is contr-olled by llee"le Vllve:3 ill -...-Ilich col.;1-tined te~lorl ;ill(! rubher prevu:it leaki,-~Ic ~t~ preq.,,urL~s up to 190 ati.i. il!'O ":WOvided to ()O~CrVe L:,;, lierclory level. C 1) 1 _j t r; IItj lit a V o (~ 1: i(_'(I tij 1)11 1- j fV 11 k~ H~2-). T;lff (!(;ui:7)l;1(,rIt was tcnt(~.(l by flliill~) an C11,111lbOr wiLit. it vuLu,,ie of 750 ml. to it pres,mrt: of 50 atr;i He and , the ~ab p.urity i:as observed. There is 1. fi~,urc. SUX-lI-T- D: January 8, 1962 Card j/-;  L 1-1 --'k AID Nr. 979-1 29 May INELASTIC SCATTERII~G OF NEUTRONS IN 0.2-1. 2 M--v REGION (Usa) Glazkov, D1. P. Atotmaya energiya, v. 14, no. 4, Apr 1963, 400-402, S108q16310-lV00VC,,-"'1Olq By r-e--z of a spherical ch=ber 40 mm in dia=ter filled to 40 atm -4tji 11C3, rak~acurc~,-Itj 'Pave been rmda of the spectra and cross sections for t-hc inelastic scattarin~, of 0.2-1. 2-Mav neutrons by the nuclei* of V, Th, W) 2b) CdP MID, Nb, -id T~~. rfac scattering apecimcna had. the form of Gpherical ULy4!r.,; 30 rza thtch with inzlde and outziaQ (Uozictcrs of 40 and 100 twa, respcetively, mid were made of sub3t"-icos with a natural isotope content. A triti= target bowlerded by EL proton 'kxi fro=~a,- I- F-2.5 Van de Graph accelerator served a3 a neutron source. The di,;- uanco f~:-o= tarZct to scatter was 350 cm. The energy scattering by thn target to 60 Kev- To dete=ine the effect of inelastic scattering, the neutron spectra, vere r--asured with and without a 6cattere-r. The spectn-,. obtained for various elezzents are shown in. the illustration. Inelastic acattering, cross sections calculated frozi the spectra.4r~ givep in.&*.table (AS) Card 1/--  GLAZKOV, N.P. Spectra and crosn s,~ctLcns of Inelastic neutron :5cattering in the. energy range 0.2 to 1.2 1-1-v. by V, Th, 11g, W, Sb, Cd, No, 111), and Fe nuclol. Pm. onorg. 14 no.4 ~- 1,00--i,02 A 1) '63. (MIRA 10:3) (N,) u tro n n - --,O)c at teri nd (Noutronn.-SpOc, tril)  GLAZKOV, N.P. :;..i;,I,.-I-Ul;, :1,00:1 .!~ *. (''T, - / -, 1,7f!V. W , ()~ (). I - - . lfied:-,im I w,!, 1,J.* Al,o ,. Pt '11!. ~;!,l 1.1%.. /-1 ") "; , T: " ". 1 Lil . ",  7 ca, .41 7-71T~T7 71 T I--- AWWON 0M)APM379 UR/0120/65/000/OIIJI/00~3,f6OS6'*'---*--'- 539.1.074.8 AUTHOR: Glazkov, N. P. TITLE: Neutron He3 spectrometer filled at 40 atm SOURCE; Pribory i teklmika eksperimenta, no. 3, 1965, 53-56 TOPIC TAGS: neutron spectrometer, Me sup 3 spectrometer ABSTRACT: 3The characteristics of a spherical, 40-mm diameter, chamber filled with He at 40 atm are reported. These parasitic effects are aXlowed for: microphonic, induction, wall (parietal), electrode -adhesion, and recombination, The electron-collection time at 6 kv is 5 (tsec. The energy riiLsoluttort, within the 0. 1-1. 2-Mev dynamic range, is 100-150 kev, with an average efficie-ncy of 0. Z5%. The energy spread due to recombination is 50 kev for thermA neutrona and 100 kev for I-Mev neutrons. The energy spread due to the induction effect Is i uL Irt.- -.11 _tt__4 a. I naL r__ I q~u_ UI-U -14.- 1.. 'i-14-A  L 1138-66 i ACCESSION NR: AP5016379 i between the 40-mm steel sphere and an internal 2-mm diameter sphere hold b lead-in wire mounted in a Mo-glass insulator. Orig. ai-t. baii: 3 figur*& and 3 formulas. ASSOCIATION: none SUBMITTED: 06Apr64 ENCL: 00 _SUB NP NO RE F SOV: 005 OTHER: OOZ C,rd 2/z''(, x