SCIENTIFIC ABSTRACT GROSH, K.A. - GROSHEV, L.V.

G&IUSIMOV, D.A..Inxh.: GROSH. K.L..insh.: CILWINYSHYV. A.S.,inzh. Making large foundation blocks in construction yards under winter conditions. Binl,stroi.tekh. I? no.9:6-7 S '55. (MIRA 12:1) lo Treat Chmlyabmetallurgstrov. (Voimulations) (Concrete blocks--Cold weather conditions)  ZORIN, L.V.; GROSILEMKOVA, N.G. Lawn of the formation of placers. 1xv. Veen, geog. ob-va 94 no.109-83 J&-F 162. OCRA 150) (Siberia, Eastern-Ore deposits)  DIRIKHS Alffrod,Dierichs,Alfredl, Drof. doictor,; KOICHKA, Rudollf, tiubicks, Rudolf), lath.: DAVID.Z.[ translator),: GRMHEK, (trnnalatorl, ; FEDOSMY, Bergey Dwitriyevich, Jran4ot*6khn_#__nouk, red.; L4%BTAKOTA,T49S,,inzh.,vad. red.; SOLOHOULOIGH, S.M., tekhn, red. [Phenols and organic bases from coal] Tonoly i oenoveniia is utlei. Moskva. Goo. nouchno-tokhn. twd-vo neft. i gorno-toplivaoi lit-ry 195s. 468 p. (MIRA ll'-M (Phenols) (Coal-tar products)  GROSHEK, K.S.9 inzb. Investigating a fan model with adjuRtable bladne of the whe"l. 1zv.vyn.ucheb.sav.: snerg, 2 no.4:1.14-130 Ap 159. (MIR& 12:9) 1. Tuzhnoye otdolaniye "Orgres". (7ana. Blectric-Hodels)  GROSli'ElIKOP V., inzhener-poLkomik . . .. ... ~-1---.- - Means of speclal treatmenL. Teidi. i vooruz,~. nr;.4:-,V.-25 AP 164. - (MI'liA 17:9)  LIPANDY, It., inzh.; BALAKIM. N.; OLITNIK. I., inzh.; LICOMMEY, T.; GROSHMOT. ff. These are your rights, costrades. Isobr.i rate. no.10:31 0 159. OURA 13-2) 1. TSentralinaya laboratorlya "Glavaospronstroynaterialov," Moskva (for Iduanov). 2. ftkovoditell konstruktorskoy gruppr proyaktno-armtnor,o byuro g.Zaporoshlye (for Olmynlk). 4. Fred- andatell savodskogo soveta, Tessayusnogo obahchostva isobratateley I ratelonalizatorov mbinnogo sayoda, gJaroslayll (for Imontlyev). 5. Starshly inshener Byuro ratsionalizatorov I ltobrotatoley shinnogo savada, gJaroslawl' (for Grashankov). (Tochnelogical Innovations)  ~1 & , , t ; , ., I -.. , ~_/, 0 OROSHMOV, S.S. i._ i - I ~ , Scientific conference of the Central Scientific Research Insti- tute for Physical Culture. Toor. t prak. flukull 18 n0-7:557- 558 155. (KLRA 8:10) (PHYSICAL IMUCATION AND TR&INING--CONGRIMSBS)  GROSIMMOVA, N.G.; ZORIII. L.V.; HAIATEVA, YO.M. . ~ -- -1 - --------- ------- (~mternsry sedimentation in the Zeya Vallv. Sov. geol. 3 no.2:39- 47 7 l6o. (MIRA 13 : 11) 1. Hoskovskiy gosudarstvantgr/ univeraltot iment M.V.Lomonosova Geoe;raflche- skiy fakulltet. (Zeya Valley-SedioontB (Geolort))  A 0 3W PHM I BOOK EXPLOrTATION SOV/2879 Vendrov, Oemen Imon1dovich, Alekmadr Afanaslyevich Groshev, Nikolay MiWaylovich Isakoy,' Imonid Alskowdrovich Bergeyev., losif M.Lkli~~h Shepshelevich, and Viktor Alskmandrovich Ve3lcbko Sovremennsys tekhalks, g1drograftcheskikh lzyskLniy (Modern Techniques in Rom- graphic &urveying) Imningrad, Izd-vo "Bechnoy transport," laningr. otd-niye, 1957. 170 P. 1,500 copies printed. Ed. (Title page)t Ye. V. RUxnyuk, Doctor of Techaleal Sclences, Professor; Reviever: A. I. GruzInw; 3d. (Inside book):D. M. Kudritskiy; Tech. Ed.: K.N. VoleMk. PURPOBIt ftis book to Intended for engineering and technical personnel enipsed In hydrogmphic survey work. It my also serve as,& textbook for students of hydrographic muivying, COVERUM: This book covers the basic principles and techniques of surveying in- land vaterways. It describes the role paAyed by ultrasonics, rudio, lighting card 1/4  Modern Tlechzdques in Hydrographic (Cont.) SOV/2879 engineering, and aerial photography in hydrographic surveying. Various sounding devices and reap finders are described. No personalities are mentioned. There are 13 Soviet references. TABIZ OF CONSM, Ch. 1. Present Position on Introducing New Techniques in Hydrographic Stirvoys 3 1. Generial remarks 2. Brief Informiation on the use of river sounding devices (echo sounders) T 3. Fladiogeodetic and optical range finding measurements in the VSM and their developinent, 9 Bechn Ch. 11. 36unding Device and Its Use In River Surwys 12 4. Description of the RKL-lm, - type river echo sounding device 12 5- Carrying out surveying work 23 6. The PEL-2 echo sounding device 33 Card 2/4  Modern Tbchniques in Hydrographic (coat.) 901/28T9 Ch. III. Specialized Hydrographic Aerial Photographic Survey 37 7. Basic problems of aerial photography 37 8. Air-borDe survey work 40 9. Ftmdamentals of a hydrographic interpretation of aerial photographs 51 10. Measuring the depth according to sounding tracks 63 Ch. IV. Fadloipodetic Methods for Determining Coordinate Points on Water, IALnd, and in the Air 68 3.1. Fundwentals of phase methods in radio measurements 68 12. "Cartographic Preparation" 89 13. ftdio measurements in carrying out the surveying work on rivers, lakes, and water reservoirs 100 14. Specific application of radio methods in specialized aerial photography 124 Card 3/4  Modern Techniques in Hydrographic (Cont.) SOV/2879 Ch. V. Optical amp Finding 129 15. The SW-I ranip finder 130 16. The Gol 1955 raw finder 150 17. The field of application of optical geodetic range finders 16o 166 Bibliography 171 AVAILAMX: Library of Congress (VK591.B55) m/ftl card 4/4 12-29-59  AUTHOR: GroDhav, A.A.. SOV/109-4-6-18/27 TITLE: late-ratint-, Amplifiers Eiiiiployinf~ Transistors (Integriruyushchiye usiliteli na poluprovodnikovylih triodaldi) PERIODICAL: Radioteldinika i elektronil:a, 1951), Vol 4, Nr 6, pp 1038 - 1045 (USSR) ABSTRACT: A sin.-le-sta.-e transistor amplifier is consleared. The traiizji.,,,tor is represented by an equivalent active quadrupole Y 0 (Figure 1). The fcodback path is repre- sented by a passive quadrupole Y, . Tite amplifier has an input admittance Y, = 1/zll 'Where z 1 ta%es into account also the internal impedance of the generator; Y11 is the load admittance. The :,mtrix of the equivalent quadrupole Y' , representing t.*ic parallcl combination of the quadrupoles Y and Y, , is g-4ven by Eq (1). 0 C., The transfer coefficient of the amplifler in expresEed Cardl/6 by Eq (2) or by Eq (3), whore yj3X reprejents the input  SOV/109-4-%"-IUC/27 Integrating Amplifiors Employing Transistors admittance of the transistor, Ic is the voltage ai-.ir)Iifi- cation of the transistor without fcodback acid Y4 BX is the equivalent input admittance of the ampliiier. if tile admittance parawators are replaced by tile corrost)onding iml)ndanco parameters, the transfer function > I , Eq (11) can also be written. as Eq (12). Now ttic response of the systei,,i to a unit stop can be ropro3ontod by Eq (13). Tlio solution of thin is in the form of Eq (14). The relative integration error cau therefore be defined by: u2W - u2("An. u2(t)AA t (15) R3BX Ck where: Card3/6  SOV/ 10 1k .. 6-18/27 Integrating Amplifiers Employing Transistox,3 kyj t U2(t) 0, R :)BX C(k - I) From the above formulae, it taU hO 50011 that a single- stage integrator cannot yield very high time constants. Tho necessary increase in the time conzitant cnn be achieved by employintg multi---ta~-,(- transistor integrators. This type of circuit is illustrated in Figure 2, while its equivalent representation is given in Figure 3. The transfer function of the integrator of Figure 3 can be expr(tsocd by Eq (22). This is vory similar to the transfer functio + f s single-ntage integrator, aa may be seen by comparing Eqs (8) and (24). The main disadvantage of 1.110 circuit of Figure 2 is its low input impedance. This can be increased by employing an emitter-follower input stage. Alternatively, an input stage may be ferried by connecting Card11/6 two transit;tors in a circuit of the type illustrated in  SOV/109-4-6-16/27 Integrating Amplifiars Employing Transistors Figure 4a; the high input impedance can also be secured by employing a circuit of the type illustrated in Figure 49. It is shown that the input impedance of an integrator employing an emitter input stage is given by Eq (25). The input impedance of an integrator with the circuit of Figure 4a is given by Eq (26). The input impedance of the circuit of Figure 46 is expressed by Eq (27). The theory was used to design a four-stage integrator. A detailed circuit diagram of this is shown in Figure 5- It was found that the weasured results 0 obtained with the amplifier, at a temperature of 20 + 5 C1 were in good agreement with the theoretically predicTed values.. The author expresses his gratitude to the Candidate of Technical Sciences S.Ya. Shats for reading the manuscript and for valuable advice. Card 5/6  Integrating Amplifiql-9 Employing Transistors sov/iog-4-6-18/27 There are 5 figurius and 5 reforences, of which 4 are Soviet and 1 English; I Soviet reference is translated from English. S UBMTT ED -February 1, 1958 C"rd 6/6  3/ 1f)6/61/000/012/004/010 rc~ 19 A055/A 12'1 AUTHORs Groshev, A.,A. TITLE% Transistorized a-c amplifiers with direct~coupling FERIODICALI Elektrosvyazl, no. 12, 1961, 29 - 35 TEM The author examines the stability of the static operation conditions of transistorized a-c amplifiers with direct doupling, taking Into account the ef- fect of the zero collector -current Ik I of current amplification factor oG and of base-to-emitter voltage Ube- The ana? ys,s Is first applied to the case of a two- stage amplifier. The expression giving the collector current of the second stage is: E02-1) Ube2(S2-1) Ik2 - Rloadl Rloadl ikl(32-1) 4 'kO2S21 (2) where S2 - R Rloadl+P-2 Ik2 24*Rload1(1_c'2) Jk'0121 is the stability coefficient determining the degree of Influence of Iko on the col- Card 1/5  31200 3/106/6 1/(jo(.)/ ()1 ?/004/010 Transistorized a-c amplifiers with direct coupling A055/Al;?7 lector current. The expression for the c,~Pliactor current of the fjr:it. stage Isi !L(- IkI - ~--01-1) - " ~1 00,1-1) + IkOISI, RC Re where 31 - (R,,~Rj) R14R,0-091- /I Substitution of (4) in yields another expression of Ik2' E Ubt2 (S' E I is -1) 2-1) - T(si-1)(32-1) + k2 - Rloadl 2 Hload 1 TkOI(32-1)'91 +TkO2'92- (5) Assuming that the supply voltage H and the bias resistances are constant, the author obtainst 41k2'~t) lk2W.P,32 - '31("12-1) lkl&~L + 32&1k02 - '9102-04101 + + S2-1 ('91-1)(32-1) 6u (6) R dUbe2 R bel Card 2 lotLdl ,/5 c  J12(A) 'j/ 106/6 IAWMI a/004/010 Transistorized a-c amplifiers with d1r,- 1 4,. There are 3 figures and 4 references: 2 Soviet-bloc and 2 non-Soviet-bloc. The references to the English-language publications read as follows: R. Fox and Wo Guatp Bul. Amer. Phys. Soc., 1960, 5, 80; Electronics 1960P 33Y 5r 78- ASSOCIATION: Kiyevskiy gosudarstvennyy universitet im, T.G. Shev- chenko (Kiyev State University im. 'T.1j, Shevchcn"-n~ SUBMITTED: July 3, 1961 Card 2/2  /rIp 018 S/185/62/007/004 6. D407~D301 I _R S Norchevyyt Yu. P., arid'Erosliev, 1. "-1. r' -,he ch.,-,racteristics o`* a '2er::-.oeIec-,,ronic On energy-convorter with metallic-caesium 0 cathodes and strall electrode gap !--77IODICAL: Uk-.ayinslkyy fizychnyy zhurnal, V. 7, no. 4, 19629 447-448 -,he characteristics of an exner-Imental onergy-converter -iih me'ailic-caesium cathodes are described; the results given are preliminary. The distance d between -.he electrodes could be altered within wide limits. A figure shows the isobars of eiectronic emission (i.e., the short-circuit current -1 0 .vith- out an additional ionizer, at.a pressure 1.) = 1.0 - 3-06 Hg, d = 0.1 =. Owing to the neutralization of the electronic space-charge by caesium ions, it is possible to obtain 'Large Card (5  S/185/62/007,/004/018/018 On the characteristics... D407/D301 va'ues of 1 (e.9-P 1 7 amp/cm2 at a chamber-temperature 0 0 0 tb 330 C and cathode temuerature TC = 21500K). Another fi- .-ure shows the current-voltage characteristics of emission. From the characteristics, it is evident that usefui energy- conversion power W = 6.5 watt/cm 2 can be obtained with an opti- mal output-voltage V~~ 1.1 volt; a qualitative estim-te of the efi,iciency factor yieided Tj-:~ 9,,4*. If a mo.Lybdenum cathode is- used, one obtains I U = 3U amp/cm 2 V/ = 12.5 watt/crA2 V = 1.0 volz (with T. = 2400 0K, and t b 3600C). All these values 1~re quite satisfactory, but the authors hope to obtain still better result-s. The dependences Card 2/3 1g 0 VV)  On 4 characteristics ... S116 1 04/0 18/01 B ly'62/007/0 D301 D40 c or. s tructed by the metliod of E. Car-abateaG et, al. (see refer- e,-ces), are two straigftt lines. 12he electrc)n t~!,-,,per-atu,re T' U e oIL' t~~e interel ec trod e uiasma Rs estimated by the 31ope of these Lines. ~Ie vias equal ~o 2900 K for ti-,e first stra',ght 141ne (Ta c---.hode, tb = 330 OC), and 55000K for -6he second (!~:o ctthode, 0 L b 360 C). There are 3 'igures and 5 references: 2 Soviet- b--oc and 3 non-Soviet-bloc. Tne references to the E'ngl-.sh- T language publications read as follows: R. Hirsch J%. ~ , V. 'pr,'. Phys., 51, 20b4, 1960; E. Carabateas, S. Pezar-is and G. -Hatsopoulos, il J. Appi. Phys., 32, 352, 1961; V. .1.4ohler, J. Bur. Stand., 2i, 873, 1938. ASSOCIATION': I:yyivslkyy derzhuniversytet im. K. 1317evcheka r (Kyyiv State University im. T. S evchenko) S-JB:."I A' TED: December 30, 1961 Card 3/3  Al -0 t -C "yc,--yy zhlurnal V. 7j 569 12" - -- -e o : o h -~ 4 v s th, . . . .ur er Ur _0 c. - s r c t u r ~-nj t or, 3, i 7) b,~ v,.; n 0 S C I r. 0 r 3 C C r U t , - c C 0 C tl , c c C.:'. 1 ..la- th a - v;as - -z i c: L c - rs Q,-, u--,. l In devclonin:- tlllcl - 1~ ' . I. - , air - , - e t re c ., Dnduc-Lod t. c - a s vi a . o n- p n' a y r _ carl-~  D 4 0 f ic,.~cndt~ncc cf t'-.c 0 y --r-d -~~Q Cond- -0-13 mnirg nara'~c Or ue cl--- c'j~ , e d s th he detc ).;.j - -e3 ve mai-nitu-"c 0: o'.; a I h corver~;c S a 3 o true. On the othcr aand c of "fli +11 .1,oct on L e I, a no ak.l,~,-'Oclablc e U, e i c . r i bu i o n c- n r e-- c- n - c o f an D r o n o u n c c ao- 4~ sf r a y s 0 an indicat'ion Of t'- -ro :,f --' on a e rZ'-Z) C, Z;" 't",.c. entirc c--thocle --pace s e c um c Collision-,. The 'Presence o c;no 'n 4 S of an-malous -lovi-d _s _n ab s "I e f t . T' to -arc s S*ov~-C--.-bloc and Til . o 0c, t r an 0 Y. is" - hevc-enr-a (XyyJv Kyy 'a"ar-Zhunive:fsy te te sl t -a jnivorsity irr. T.... shev""'.onko) S "C!--uary 30, 1962 2/2  AID Nr- 979-9 29 May OSCILLATIONS IN A CESIUM-VAPOR DIODE (USSR) Levitskiy, S. M. , and Groshev. Radiotekhnika i elektronika, v. 8, no. 4, Apr 1963, 612-618. S/109/63/008/004/009/030 Plate-current oscillations in a diode filled with cesium vapor were investigated by means of an experimental tube operated at various values of vapor pressure, cathode heating., and anode voltage, The cathode was a thin, 1-mm wide tantalum strip, while the anode was formed by tantalum plates placed on both sides of the strip, which could be simultaneously adjusted either closer or farther apart, thus changing the distance from plate to cathode from 0. 7 to 10 mm. The tube was placed in a thermostat whose temperature could be regulated from 20 to 300*C. Either a resistance directly connected in the plate current, or one coupled to it througli an hf transformer, served as the load. Results of the investigations confirm the existence of two modes.of oscillation: -mode I corresponds to high pressure and low cathode tempprature, and mode II corresponds to low pressure and high cathode temperature. Mode I oscillations are of low intensity and have a Card 1/g  AID Xr. 979-9 29 May OSdILTATIONS (Cont'd] S/109/63/008/004/009/030 frequency of the order of 1 to 20 kc and a waveform close to sinusoidal. In mode II, the mode principally discussed, oscillations are very intense, have a frequency of the order of 100 to 1000 kc, and may have a waveform quite different from the sinusoidal. In mode 11 oscillation the amplitude decreases with a drop in cathode temperature and ceases abruptly at a critical lower boundary tempera- turi.~. At a cathode temperature of about 2000*K, the oscillation frequency varies at first only slightly, but on approaching the lower boundary it suddenly increases almost twofold. Moreover, mode II oscillation intensity decreases as anode vol- tao-C: iL, -educed to zero and then to negative values, and disappears at some cri- tical nerrative potential. Oscillations disappear also at excessive positive poten- ZZ'als. This positive potential limit was found to -Vary directly with the cathode- anode spacing, and also directly with increased cathode temperature. From the analysis of test results it is concluded that the oscillatory condition is linked to the bunching action of gas ions in the interelectrode space. Measurements with an 'Lon probe support this view. [DW j Card 2/2  ACCESSION NR: AP4009985 810109/6410091001/013210137 AUTHOR: Levitokiy, S- It- I OV00h4ve to Me TITLE: oscillatory phenonzena in cesium-vapor-fUled diode@ SOURCE: Radiotekhnika I slektronika, v. 9. no. 1, 1964, 132-137 TOPIC TAGS: cesium diode. cesium vapor filled diode, cesium tube oscillator. cesium tube oscillator phenomena, frequency pulling, frequency locking. diode synchronization ABSTRACT: An experimental study of frequency pplling, locking, parallel operation, and maximum power of oscillations met up in a cesium-vapor-filled diode ia reported. The frequency pulling was measured at 200-300 kc and 2, 300K temperature of the cathode, with the diode operating under intermittent (50 cps) generation conditions. A GSS-6 oscillator was used as a source of oscillations in the locking experiments; the locking range was observed am wide as 20%. Card 1/Z  ACCESSION NR-. AP400998S Parallel operation and synchronization were investigated in a scheme comprising two identical cesium diodes; frequency vs. coupling and total output power vs. load resistance curves are reporied. A-c power and the efficiency of thermal- to-electric energy conversion constitute only a part of the d-c values which could have been obtained from the same diode under nonoscillatory conditions. "In conclusion, we wish to thank N. D, Morgulix for him constant interest in the work, his valuable advice and suggestions. 11 Orig. art. has: 6 figures and I formula. ASSOCIATIM. none SUBMITTED: IlDec6Z SUB CODE: GE DATE AGO: 10rob64 40 REr soy: oos ZNCILO. 00 OTHER: 006 Card 2/2  L 01177-66 EWT(1)/EWA(m)-2,/EPA(w)-,2 IJP(c) AT ACCESSION lots AP5017674 uR/qiOq/65/OiO/Oo!/b46/iW-- AUTHORj.Groshev, I. N. 539-124-175 c;26- -- .......... ~ yy,< '. z TITLE: Transient and cerenkov radiation of electron'Oleav-se" ~~/, yy, SOURCE: Radiotekhnika i elektronika, v. 10,, no. 7, 1965, 1346-1348 TOPIC TAGS: transient radiationt Cwm*av radiation "ABSTRACTt Approtbute fornulas for the dirmtIonal pattem and the rMUted power are developed. They are intended for designing the devicem that produce coherent radiation by using the phenomenon of do-excitation of electron Pleaveag. orig. art. hass I figure and 10 formulas. ASSOCIATIONs' none SUBRITMI 14ft64 IMCL 1 00 so COIX I mp NO R1W SOVt 003 1 001 Card I  L 01176-66 EWT(1)/~PAN)-2/E~A(m)-2. .--JJP-(q). -~T -.166- .- - 'ACCESSION NRI AP5017675 UR/0109/65/610 i/i34811,349 539-124-18-03 - 1AUTHORt Groshev, I. N. 76 yyGr 1TITLEt Oeneration of electron "leaves" JSOURCEi Radiotekhnika i elektronika, v. 10, no, 7, 1965, 1348-1349 TOPIC TAGS t electron "leaf It- IABSTRACTt Interaction is explained between a uniform r-f field and a ribbon ,pt radiation by means of electron "leaves*# :electron beam which can produce cohere IThe coherent radiation occurs when d' where 0 is the beam thickness and I i iis the radiation wavelength. Equations determining sufficiently thin electron leaves"with high current densities in them are set up. Orig. art, hast 3 f!Lgmw band 7 formulas. I P ASSOCIATION: none SUB CODE lips, so 1SURMTEDt 14Sop64 ENCM 00 INO RLV SOVS 002 OTMt 000 I Card 1/_J_.  TERLIKOV . V,A. - kand. tel&n.nau~~ GROSHEV, L. M., lmh. Study of atreqsen in the cvmponents and systema of agri cultural mv~hinery under flet! rmdttlonf. Trakt. i sellkhozmsh' 32 .IIRA n.-2.6.3G 31 Je 20)2. Cr 15~6) (Agricultural machiner-) --"fsting)  GROSHEVJI T.M. Results of testing the supporting structure of the SK-4 combine for stability. Trakt. i sellkhozmash. no.2:24.-25 F 164. (MIRA 17:3) 1. Rostovskly na Donu institut osI'9kokhozyayBtv9nnogo mashinostroyeniya.  (c A (h Peb ACCES-SION NH1 APW042 0/0141/04/007/006/1217/1222 ALTMOR t Gros Aar L M. ~23 -_ 1 T1HX1 Exporimental in the static mods SOURCE: IVUZ. Radiofizikap V. 7, ro. 6, 19649 1217-122?- TOPIC TAGSt cylindrical xWetron, epace-charge, electron cloud# electron tra- jectory,. magnetrono electron optical ranging ABTMCT: This in a continuation of earlier vork by the author (with M. I. Kuzzae- tscr4-, 1zv. vyssh. uch. zav. -- Radiofizika v. 4, uo4, 1961) where it van shown that the electron trajectories in the lower part of the electron cloud of a maVe- tron are closed. loops. In the present investigation the author studied experiment- ally the space charge in the upper part of the electron cloud of the --aguttron using the some method of electron-optical ranging. To this end, a second longi- tudinal ranging electron beam In Antroduced Into the zutgnetron at some distance .from the cathode. The defluction of thisbeen in the field (in the direct vicinity of the peak of the first loop and above it), observed on a fluorescent screen,-.. Card 1/3  ACCESSION HRI APW049 Maketi it pacalble to detormine the characteristics of thin field, and in particular, -the potentlal dintribution. The experiment waa carried out with a special dis- mo-antable tube with two longitudinal ranging, beans, having a construction similar to that described in the earlier paper, except that two pairs of metallic rings are incorporated to permit setting 411-im potential on the edges of the Magnetron, In addition to the supplementary equiprt!nt nece3sary to ahape the second rdnglng be=. The accuracy of the experiments was e3ti1nated. at better than 5%. The ex- peritmental traces obtained on the fluorescent screen were conTared with the theo- retical cur-ves, calculated under the aaw-m-ption that the space charee corresponds to single-flow (Brillouin) atate, double-ftcrw state, and bidrcmic state. The ex- perimental trace was most closely approximated by the bidromic theoretical curve. Since the Presence of a bidromic state implies the existence of a virtual cathode inaide the electron cloudp tests were made to see whether tbe sharpnens of the trace an the screen can be varied by varying the position of this virtual cathode. "Lests at different anode voltages and with a difrerent tube construction haye Con- the V rk 7 t, ab :Card'2/3 -7-  AccFzsion NR: Ap5oo6o42 ASSOCIATIONt Naurhno-iseledovatellskiy radiofizicheakiy inatitut pri Gor'kayokom urdyernitate (Scieatific Research Radiophysica Institute at Gor'kly University) smuiTEL)i 17jan64 EMCW 00 SM COM NP NO Ru sovt 0011 MM: 000 ATD FFZSS~213 Cord 3/3  - - - 1 - 9 0 * 0 0 * * 0 0 * " s OTO 0 w i 0 S 4 Ooo*o*ooose NA *:::::* 1 I is If v it m 4 4It it 0 A billpaivall vu Ion 31 a a 0 a 4, A; IT gap fl "Y 1 k mi -XI-I 04 - o * al-I'll III thAt of with rhallgina III a "A f%l I" hl UP - It - p f I ) %h~tr as so .04 free coo as Goo as goo es see goo so* ..go -.00 00 %00 00 ' '! A V Ap I % 3 If I, I 4 I .1 o n it ~ML3 ti 0 0 It 0 0 0 0 0 0 a oss 4 0 000*0 0 & 0 e go ease**  G11001111"N'l TI. V., "Some Inforratlun on the Sccon-iary Electron I-Wrt,in Surfacen," Zhurnal TcIrdmicheskol Flzikl; 1934) Vol. 14, [)P 3',3l---))4g,'f- The secondary eLectron emisoion ll*ro,-,. oeveral 1-urfacer: of different stnicturer. arid from potasicium hydr-lde lvis beer', it Val'ICS the different surfaces, arud from. potas~siu.,.-. hydride Iss. ixarly the stLmc as from pure potassium, though the photo-electrA.-c ciu-rent inc-reases 1'..' times.  4i--0000000* *sees 0 off 0 9 W:- 0 0 0 0 0 0 to A J~A_AL_ff a a A K L &_g AL J.-I __V_ I _1__A_ AA KOLM 1114OL 4 A A A A A - - - ;.? lot 6.9 - f o 00 I be appew awitibwm of this pbootwrmt Is $Guam- Wy dismosilieved AW b" U"WO 1. cwlftfo~v. -00 . reed. didd, W. V~ R. 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"C~ 04191.1.1 #a 00 *or *on. o em, Soo my 00 002 "A&A y-411,11- + too 00 00. too 00. 1 09 00. 00 00. 00 .900 00. 100 00-1: 00 00 oo.. ills wilt owl 1"IMIS see 0 0, fail#- 23 4 01 -  foe L L.J V 4- I 1 11 1 j 0 4 1 1 All N U 00 Al 00 06 r; OW9. Sit 00-CiiiiMparOw ow Wort with the Cloud Chamber. r N, Uobro#W mad J. Frank. Cowries Hirmlist (AA 141-4) L.,Orokvs 10 0 F.Lad *S 1936 In hwisk -00 i'lic, 11%4 (11. .1 of illitlig a airtrO 4NXnp&fiktl-f is A %.UtAlk-n tit that .4 Nutlatt 11ir org-All,iv i% I.W.C41 its It". strmft'llk. cami-ra and an 00 it"AW Ot 4 141111(vt N AN' "bl-limil liv MCA114 111 fill' ICHU'll C11 thl' I'A"Wilill, I Ill U, fil'-clA I'v fvK%, 00 .3 -t- it -All It'll' I^. "IT Ir 1.0 With a1,% . Iv,1111 .4 Ifir 1, . itt I it Allr'.4 %ht. Ill.. I.- Mad 0.11. Iy)thl-.-VIhr%I-Ir 3 track tit-wlimplilittINI(Fut. die AtiltIO-01 Ii, de%crilled. T1w m4in wimit.tge t1ahmA for thr A11114NAU11 I% a, iluct III%- vitAtt thilli'll4b,"il M ttW MCI( tit- ITH-amil-I mid it., kn-,I,AKr(l4 ties -4 it%- IflAtfolifMit Ill fINJU11".1 C. 11; 04 g 00 1,01.41"1 4kAAWK410~ note 60 ati 4 to q La 4 1 1 4a Is Of 0 a 111141111111 00 111 0 0 a see, te 0 0 a  Ar W W w -W a j A &-Lit I A-If -.A-, 1_1 -LL ; W_ fit "ejamt-1wat. Offs f. "Pill- P&M961106 6.9 If. f_ f1ti., of 11.,11 .......... so 00 of 00 a 000 OOS W. 00 a al"Ammumm umm"m uAmp""m low am am Sol list $Ism 4 9 0 0 a 00 -00 -00 '0o goo goo goo goo goo 400 we* see  -- -- 0 0 0 0 0 0 0 0:0 0 e 0 0 0 0 0 0 0 0 # 0 0 0 0 0 A A. L L a 0 r 4 00 00 00 so .00 so k ProdtKuum of pelf* In krypton by I -to X C.C-114, v AndI, M Frank Iv.H " ,.1 ,1 Yom N 00 00 ct"', 00 t. A 32,11166, 00 .00 00 .00 00 09 *0 a .00 00 -4, 0 0 & .00 go 00 .00 '00 I I Pit! o* 00 00 00 00 .00 00 A 6, 1 L AOllittOUKA4 OffMAIC01 CIAWFKAIK4 00 3 of"* go 1~ u a 0 1' 4 -515 1 '11 It tv if .4 .0 it of  0 0 0 0 0 0 0 o 0 0 1 0 0 a IN a 41 As 0 it 4, -to J01149.1"I 1,W)SA11911. sell ..11.6 Al o s 0 go 06 lmqlwl %As- wit a--i III., it 11 ..Am altwaylp "s M 4 11`11 llvMl JJ411114 11jillpi,p. J11, A", IlLisill!"XI .0111 A Al N A A III 1 4-1 jV I tionsl sAili-tah Iles; l I A .. 1.4 v., m vo, I sch"I *Asvj.la~ pvq ' I -" A . 1.1 ur.11 Aums In s,A;JIj.UA qli..I.rd 1;! P. 0 10411* 611141 WI 1411%11 $VIA %will 1111011% V I. 111 .,16"1 p, $.11,104111t As l I I.Nituvili th.p.-4 le , sti* %ru sArt-4 I m 1 A d 0 411p, . . tmoijimxf -1 kj!v p 11, ' * - OqAlr. )3 ffj ) 00 A I f 2 1 It Ir a it of 0 09 0 0 0 a 0 0 'D 9 ; -jA_-AL_&AAkA*# lot Gs 4h . &-" A"-& 00 0 0  A 9 1 11 it 9 U W a Is U, A; is a a P a a At m x v a a a a a 4 a mill 0 I&A ft -L A IL -A - I __ii__v , I --L- I- A _011? "? 1-F, Congo$ wo 0 OMISLIS &.0 #40W#81-11 -61, MT. 110 slaaMM7 of P%lr C*mtkm Im, ILr by rRays. V. so (kwftv gad 1. M. wreak. commIjaits mends" IthAWY) At J'Ated. dims- .00 hmmtk-&Dy araled cbmd chamber. the cmikm of pairs of Imisitruns and 00 clixtroms in Ky by the rmys from Rd-Th is examiAW. Thr results arr 0 divWW into twu group coming Ow ar;~rU Intom[* 0-6-1 *W and gmkr ibm I MY mpWively. Uml~o& am deviumil for allowing for see spurkm pWmdw to WwAromm which h4ve sufficed @in& macima xattarinc. ? goo The ArOactive cniaoametim for pair FrWoMm is found to be in sitproximate avesomt wi4h the theory of )arm and 1111mlyno. [SmfollivivingAbstract.) goo goo age see L L411110AM CL&SWIC&II40 Masi it a., Ost U o AV 00 AS AA A I a GO 0 It 0 1 IN 0 9 A 0 31 0 9 4 00 o 40 0 999*960*666 dim 4 0 0 0 0 0 We 0 0 0 0 0 0 0 4 0 4 0 0 0 0 0 0 0 0 0 a 0 4 0 * 0 0 9 0 0 0 0 0  0o. oil AW AM$Miw MWONOW d Fain ft Kr. L. V. Greim amd M- VWM*- C;DmPd" Memilm (LUM"p) & I'Aad. dis Sesencet. U.S.S.R. it. I-L ". 40-" 19M. to Hq0W.-Coatinuing previms v work two preceding Abstract) examirmlion is made of tim angular distri. lou0jo of pdrs in Kr produmd by rrays hum TW. The dl&ta agree with t1mothmoryalWOwmaid I"Irr. Tboto appmrsto two frojiliffemme in the angWor distrilmlim of the pumknwA aml eiwtmms. Imarticalmly &I anglas