SCIENTIFIC ABSTRACT KISLOV, V.G. - KISLOVA, N.S.

2i877-66 L ACC NRi AP6009922 drawbar by an eccentric to change the cyclic feed of the pump during regulation Itith- out changing the "sod conditions of VA, vegulator. SUB CODE: 13/ SUBM DAM 13Apr42/ ORIG IMF: oo6/ M REF., ODO cc 3/3c%Jc'~      BAKIIAREV, A.P., Iti-Mi.; KiSLOV, V.G.-, Jnzh.; KARPOV, L.N., kand.,e~hn.nauk; YAKUNIN, A.S., inz . The new UTU-5 small-size standrd fuel pump. Trakt. i sellkhczmash. no.11:5-8 N-164. (MIRA 18:1) 1. Noginskiy zavod topltvnoy apparatury (for Kislov). 2. Tsentrall- nyy nauchno-issledovatellskiy i konstruktorskiy Institut top3lvnoy apparatury avtotraktarnykh i statsionaniykh dvigateley (for Yakun1n).  KISLOV, V.G. Diesel engines should be provided with high-quality fuel systems. Trakt.i sellkhozmash. no.8:12-13 Ag 162. (KRA 15:8). 1. GIaynyy konstruktor Noginskogo zavoda toplivnoy apparatury. (Diesel engines) (tractors-Fuel systems)    AUTHOR: Kislov, V.I. 108-13-6-6/11 TITLE- The Bridge Circuit of Gas Voltage Stabilizers (Mostovaya skhema., gazovogo stabili2atora napryazheniya) FERIODICAL: Radiotekbnika, 1958, Vol 13, Ur 6, pp 72-74 (USSR) ABSTRACT: In the stabilizer circuit described here, compensation of the additional -voltage& U is realiz ea. Therefore the voltage on the load, if the working scope of the obaracteristio is rectilinear, remains strictly constant, which means that the stabilization factor is infinite. First, the conditions for the constancy of voltage on the load are determined. For this purpose the equation (10) is derived. The explanation for the fact that the voltage on the load is independent of feed voltage is given. In this, way the stabilization limits are determined. They can be evaluated by the relative deviation of the feed voltage from the mean value. Equation (12) serves this purpose. The degree of efficiency of the simple gas stabilizer can be determined according to the fonm,IA (16). The degree of efficiency determined according to (16) is not high; it amounts to about 30% and depends mainly an Card 1/2 the amount of the ballast resistance. The degree of efficiency  The Bridge Circuit of Gas Voltage Stabilizers 108-13-6-8/11 of the gas stabilizer described is detenained according to fonmila (17). Though it Is somewhat lower than that of a nonaal stabilizer, -.~as aifferenoe is not great. In conclusion calcula- tion of.the ata'PI-1-izer is demonstrated. There are 3 figures. SUMITTTED: JU4 95 11957 (initis'_11Y) and Novenber 26, 19-57 (after r-.-Ision) 1. Voltage stabilizers--Performance 2. Volt4ge, stabilizers--Equipm-,_ ment 3. Electric bridges--Circuits 4. Mathematics Card W2  V"OV, Konstantin Konstantinovich; LAZUKOV, Grigoriy 1-7anovich; 'I=V V red. NIKOLAYEV, Vladimir Alaksandrovich; K fQuaternary period; Glacial epoch - Quaternary period] Chetverticbnyi period; lednikovyi period - antropogenovyi period. Moskva, Izd-vo Mosk. univ. Vol.2. 1965. 434 p. (MIRA 18:10)  AVSM. G.A., prof., otv.red.; KIMOV, V.L., red. [Collection of materials of the Nniarged Conference of the Group of Workers in Glaciology at the Sovist'Interdeparimntai Committee for the International Geophysical Tear, Kay 20-24. 1958. Koscowl Sbornik materialov rasshirennogo soveshchaniis rabochei grappy po gliatelologii Sovetskogo Keshduvedometvennogo kositsta Methdn- narodnogo Geofisicheskogo Gods, 20-24 maja 1958 g. v Kosk", Moskva, 1959. 165 p. (KM 13:4) 1.'Russia (1923- U.S.S.R.) Hashduvedomstvannyy komitst po pro- vedenlyu Kashdanarodnogo Geofislohaskogo Goda. (Glaciological research-Congresses)  MARKOV, Xonstantin Konstantinovich; LAZUKOV, Grigoriy Ivanovich; NIKOLAYEV, Vladimir Aleksandrovich; KISLOV V L., red. [Quaternary period; glacial period-quaternary period) Chetvertichnyi period; lednikovyi period - an-tropogenovyi period. Moskvap Izd-vo Mosk. univ. Vol.l. 1965. 371 p. (MIRA 18:7)  M0S1N.#_X-,,1.p_XATS, C61.; SlXnAKOV, L.D., akademik, red.; SHMU3=321, S.V., red.; AGOSRKOV, M.L., red.; BORISOV, S.F., red.; BYSTROVp N.M., red.; p-reds; MAMMALEVp M~KqP red.j KUZNETSOV) N.A.# red,; MAIMOVSM Me, red.; MUINIKOV, N.V., red.; POLKOVNIKOVI A.A.,, red.; POPOV, K.S., red.; CHArAIN, S.1.0 laureat Leninskoy premii, red.; 0MAROTAV Tq6~g tekhn. red. [Kursk Magnetic Anomaly; history of the discovery study, and coranercial development of iron-ore deposits. Collection of documents and materials in two volumes, 1742-19601 Kurskida magnitnaia'anomaliia; istoriia otkrytiia,, issledovanii i pro- - fl. myshlennogo osvoeniia. zhelezorudnykh mestorozbdenii. Sborn3x dokumentov i materialov v dvukh tomakh, 1742-1960. Belgorod, Belgorodskoe knizhnoe izd-vo. Vol.l. 1742-1926. 1961. 417 p. (MIRA 15:3) (Kursk Magnetic Anomaly-Iron ores) (Magnetic prospecting)   W-w- sla! 0 As 11 11 4 n 4 I A L A- t ll Ff a I I U a AM X _ _1 _. _ 1, A I V -11 I_LIM,1111 94-M aft-k.-A, C A I A A j a a 4 4 1 - - __ __ - W: 7 7 7 ' " , V. 9 Kid-. 1. . N. S. It it, 1174,*,"V40__TImr vs- A licluity Ill tile coptlef-runtlantan twille conliol, of a I lepilth qA &I,,jut 10-2) inin. id voinslintan wife 'mIY, fulfill flat inill, a daW.-like shape. Alms this knifill, live Cu a wife k irplAcrif hy a thin sold prilifir (about O.&A.8 0 *0 s 1~irk), serml. (rosin live cevastantan by 4 3-3 0 by" of In. Itmiult 1, .4. A Cu fiblum Icnm itclim 0.1102 X 00 w" 91,41) 4 Wound around the upper Pori of %be -00 0 manian, himilaird by mantel: this Cit-cibbon tA*mAd rrill, 01"11 Iti-W turn. frurn the rAgnt of the condliffivin dagger. The whole is odd plated by cathWic simiterinif 06 .3 -5 is essamel layer. The feature and finally mated with a 3 ,f thk thefintwouple I,, allsence of Cu (the beat cond. of which is SIX011 10-17 lintel higlK-r than that of constan- AS tan) ahmif a ternsinsill length of the ifienno-need)c of 141.011 11) W tolu.. If q trillaivenent )IV wigs) don notl molt g:99 its eflorl in le"Ill, diffelem-s, 11*81411clurnis with 0 relative 00 V Skmall 02 totI.5%. owing to the Is.-% that the tbeftuo- 'k c.- in. 1. of dw milge CU/Au is only I/m of that -f 0 z the cmpit Cu/con,,tantan. and because the CujAu miple 8 00 d only twcupisrs a spar* with a ternp. gradient orvillicible r in cittelpalmm with the temp. differe"m bet get [be cold 1:0 slid the hot junctitm of the wimit-cmeple. Thectlidplate 844 Provides a *211-jarfory clec. contact between the Cu and the conltantan. The thennotesuple, notable for Its wAid. lip 0 J ity vInd suppleness, I-. Suited fur temp, meavartirimmis an ma well likiclinwas 1-0 s 2 m h 0 f moo is . . out . , S thin objecto o I-W tealp. nicasitirments in saw% and liquids at a cliwis o woo place avid a Rivrii.moment. N. Than w Cs so 1 1, t A k t Ijj~s~tj~ Lj!j~&jk 4E~~jj 0 Noe sigh, 411,411114 woo it , -i-1-111i dw cwV &it Es U it AV so -I - , O " 11, 1 ga , 4 0 ; 0 sit si, v 0 sm, 00 0 0 0 01 0 6 .6 0 0 OT 11 ! 7 4 0 40 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 00 0 0 4;__0 0 0 0 0, 0 0 0 6  2. USSR (600) "Errors in Measurements of Air Temperature.0 Sbornik trudov po agronomilchnesky.oy fizike (All-Union Academy of Agricultural Science im-eni Lenin), Issue 4, 1948 (131-340) 9. Meteorologiya i Gidrologiya, No. 3, 1949. IM Report U-2551y 30 Oct 52.  AUTHOR: Kislov, V.V. 6-58-1,,-7/18 TITLE: On the Tmnrovament of the Practical Preparation of Students of Aekial Photogeodesy (0b uluchshenii prakticheskoy podgotQvki st-aden44ov-aczDfo-cogeodt:zistov) PERIODICAL: Geodeziya i Kartograflya, 1958, Nr 4, PP. 39-40 (USSR) ABSTRACT: This problem was dealt with by the s cientific-technical JiAbilari conference of the MIIGAiK (Moscow Institute of Goodetioal Aerial Photograpby- and Car-tographical Engineers) held in commemoration of the 40th anniversary of the October Revolution. Professor P.S.Zakatov and Professor G.V.Romanovskiy spoke about this subjeot in their lectures. It was repeateaiy pointed out that the process of interpretation of aerial photographs does not come t-p to the standard of the other processes of topogmphical work connected with aerial photography. This can be explained by the insufficient preparation of specialists in this field. A short survey of this preparation is given, and mys and means of impl-oving it are point- ed out. During the first 2 years the students of the Faculty of Aerial Photography Measurement attended a nourse of geodesy last- Card 1/3 ing 8 weeks per annum. DurIng ths first year only one dV is  On the Improvement of the Practical Pr-paration of 6-58-4-7N Students of Aerial.Awtogeodemy devoted to the determination of s,---.Ies of aerial photographs, whereas in the second year every student is granted 1,- 2 days for mapping out an aerial photograpla plan of i : 25 000 covering an _2 area of about I Im , i.e. for relief-dmwing and for interpre-ta.- tion. ThouJi at the laboratory for Geomorphology students almo take aerial photos during the second year, they are treated he" merely as a sideline. The study of photogramwtry begins with the 4th semester, is continued during the 3. year, and ends with a practical course of instiaotion lasting two weeks. However, neither ,at the laboratory for photogrammetryp nor in the course of leotureB is the problem of topograpbical interpretation dealt with even for one hour. Instraction for work in the open air is carried oat with- in only one day. In the course of the atudy of stereophotogramme-47 (in the 3- and 4. year) the students s-tudy problems connected iv' ith the topographical interpratation of aerial photographs during courses on cartography. Besides~ students deal with these problemi when studying "The Economic Use of Aerial PhotograpW. The be- latea treatment of this subject provided by the ayllabus will make itself felt now that, according to the new syllabus, the fir-at in- struction on practical topography is provided to be given 01:-.5aAy Card 2,13 in the course of tht~ 3- year. The bases of topogmphical  On the Improvement of the Practiml Prenamtion of 6-58-4-7/18 Students of Aerial Photogeodesy evaluation mst be taught already in connection with the teaching of photogrammetry. No changes of the syllabus are necessary for this purpose. The necessary time for topographical evaluation can easily be made available by a reduction of the time hitherto spent on the assembling of photo-schemes, the study of the assemblies of antiquated phototrams formers, of the graphical transforming of perspective aerial photographs, etc.. In the course of photo- grametry lessons at least 2 papers must be written on the inter- pretation of aerial photographs in connection vrith the production of. topographical maps of the scales of I , 10 000 and I : 25 000. AVAILABLE: Library of Congress 1* Aerial. photograpby-Study end teaching Card 313  IMAILOY, Petr Ivanovich;-XISWT.-.n4dimir-TJ-adi4EpX~g#; PAYLOY, VitalLy likolay Fedorovich; PMOV, Aleksandrovich; TROITWIT, Boris Vladimiro'vioh; LRTCMX, G.P.. red.; VASILIMRA, VJ., red.izd-va; ROKANOTA. T.T., takhn.red. [Topography and aerial.,typegraphical surveying] Topografiia I serofototopograflin. *-6skys, Izd-vo geod.lit-ry, 1959. 471 p. (Topographical surveying) (Aerial photogrammetry)  ITDOROV, Valentin Ivanovich, dOtBent, kand.takhn.nauk: GORINOV, A.V.. prof., reteenzent; AVGRVICH, V.I., doktor geograf.nauk, retsenzent; KISLOV. V.V., red.; ZUIBKOVA, M.S.j-rod.'izd-va; MIKOVA, N.Y.. tekhn.red, [Aerial-photographic survey of highways] Aerofotolzyskaniia aytomobillnykh dorog. Moskva. Nauchno-takhn.ixd-vo K-va avtomobillnogo transp. i a.hosseinykh dorog RSFSR. 1959. 224 po (MIRA 12:8)' 1. Ghlon-korrespondent Akademii nauk SSSR (for Gorinov). (Photography, Aerial) (Uads-Surveying)  -3(4) SOV/154-59-2-19/22 AUvIOR, Kislov, V. V.9 Docent, Candidate of Technical Sciences TITLE: Photogrammetric Classes in the 6SR (Fotogrammetricheskiye kursy v Chekhoslovakii) PERIODICALs Izve8tiya vysshikh uchebnykh zavedeniy. Geodeziya i aerofotos"yemka, 1959, Nr 2, pp 137-147 (USSR) ABSTRACT: The "21st Zeiss-Course on Photogrammetry", organized by Carl Zeiss, Jena, took place at Prague from April 14 to May 12, 1958.. Specialists in photogrammetry from the 6SR, Hungary, Bulgaria, the GDR and the USSR took part in tnese courses for internation- al cooperation. The Soviet delegation consisted of the Scien- tific Chief Assistant.of the TsNIIGAiK K. A. Sokolov,.Engineer, Ye. T. Zdobnikov, Engineer K. S. Sergeyev and the author of .this paper. The courses were held in cooperation with the Central A"inistration for Geodesy and Cartography in the CSR.- Photogrammetric instruments by Messrs. Zeiss were shown, and lectures concerning their theory, design and operation were held. The theoretical and practical work was,done at the Prague Technical Museum, which also housed the exhibition by Messrs. Card 113 Zeiss. Some practical work was carried out at the Prague Tech-  Photogrammetric Classes in the 63R SOV/154-59-2-19/22 nical University-Lectures and inatructions were held in German and given by the following assistants of Messrs. Zeiss: I. Rost, Doctor-Engineer E. Wolf, Doctor-Engineer 0. Hofmann, Diploma- Engineer 0. Weibrecht, Diploma-Engineer Szangolies, Diploma-. Engineer H. Schoeler, Engineer H. Starosczik, and Engineer R. Schuman, Almost every lecture contained some historical references and H. Schoeler lectured on the "heme,"Jena and Photogrammetry". Thefollowing persons gave their assistance to the courses: The Director of the Central Administration for GeIodesy and Cartography in the 6SR FAM and his assistants Kovba, 3torkiln, SklAdai and many others, Some of the instru- ments and appliances are described as follows: The stereoauto- graph 1318 (the lecture was given by 0. Hofmann and the prac- tical instructions were directed by Dipl.-Engineer K. Szangolies)i the,micro-rectifier; a ruler made of plexi-glass with marks for fixing of the points around which the model swivels in the horizontal plane during outside orientation; fixtures for the centering of reduced diapositives in cameras of the wide-angle multiplexes (UWW) - a simplified projector with a condenser. Zeiss re6ommends-the use of pantographs in Card 2/3 connection with the multiplexes, and to give the inclination-  Photogrammetric Classes in the ~SR SOV/154-59-2-19/22 angles of the model not in degrees, but in pro mille, in order to simplify the calculations and some operations during the orientation.. There are 8 figures and 4 references. ASSOCIATION: Moskovskiy institut inzhenerov geodezii, aerofotos"yemki i kartografii (Moscow Institute of Geodetic, A(rial Survey and Cartographic Engineers) SUBMITTEDt October 28, 1956 Card 3/3  S/006/60,,'000/05/018/024 B007/BI2'3 AUTHORt (~Tj_ _V, -Xv. Candidate of Technical Sciences TITLE2 Experience Gained.in-Making Aerophotographic Plans With .Contour Lines...6n the:Photocartograph by F. V,..Drobysbev FERIODICALs Geodeziya i kartogra:fiya, 19609 No. pp. 33-37 TEXTt Some methods are -ointed out for making aeraphotog.-aphic plans p from aerophotographs which ime rectified zone by zone..Tba Urallskoy'e predpriyatiye IIBeIIkhozaeios*-emka" (Ural~Enterprise "Sellkh6zaer It 0 yemka") uses for that purpose the method of op=cal compilation ? r=ee Z on FTB rectifiers (Ref. 1 on-P-* 33t.footnote). At the Mot.kovskoye aerogeodezicheak6ye predpriyatiye kMoscow Aerogeodetic Ct~ntex) the moun- tain rectifier of the type,GFT has SWe-n us d for several years. Besides, G. P. Zhu kov and Yee 1. Kalantarov developed a slit-rectifier (Ref. 2, footnotelon. P. 33).-The rectifying-principle used there is 'at present the most perfectone. In.1957-1958, Professor P.,,,V. Drobyahev developed a now msthod of produoin hotogZaphic 21ana with centour lines on the -FXD photdoartograph. These. 'plans are obtalned from aerophotographs 'Card 1/3  Experience Gained in Making Aerophotographic 5/006 60/000/05/08/02t Plans With Contour Lines on the Photocartograph B007YB123 by F. V. Drobyshev (Ref., footnote on p. 34). In this paper, the above-mentioned test is described in detail and9 based on the results obtained, the following statements are made: 1) The FKD can be used for the production of aerophotographic plans with contour lines of hilly or mountainous terrain,I/A, if the number of zones does not exceed 12-15. 2) The accuracy and the photographic quality of the aerophotographic plan are in agreement with specifications. If careful work is done the zone borderlines vanish. 3) The time needed for making aerophotographic plans on the FKD is shorter than that required by conventional methods. Thus, the consumption of photographic material is negligible. N. N. Veselovskiyls method for overprinting contour lines from an engraved celluloid is also mentioned~ There are 1, figure, 2 tablesp and 3 Soviet references. Card  KISLOV, V.V., dotsent Notes on field inspestion of aerial photographs of village-type populated plases. Trudy MIIGAIK no.49%51-54 162. ~(KM 16t6) 1. Kafedra fotogramnetrii Moskovskogo instituta insheneroy geodazii, aerofotos"yenki i kartografii. (Aerial photograwnetry)  FEDOROV, Valentin Ivanovich; ANBREYEV, O.V.9 dots., retsenzentj IZVCHUK, G.P.p dots" retsenzant; qSp . Op ~1.,,J~Y.J_dbta~3 red. ~4-11- [Aerial geodesy and aerial surveying of highways] Aero- geodeziia i aeroizyakaniia avtomobi-I)rqkh dorog. MoMma, Transport.. 1964. 318 p. (141RA 17s12)  KI.SLOV, V.V.; ZAITOV, I.R.; LOBANOV, A.H., doktor tekhn. nauk, retsenzent; LEVCBUK, G.P., kand. tekhn. nauk, dots.j, retsenzent; BORDYUKOV, M.P., kand. tekhn. nauk, dots. retsenzent; OVSYANNIKOV, R.I., kand. tekhn. nauk, dots., retsenzent; KO"fLOV, V.N., kand. tekbn. naukp dots.# -atqenzent; D(BIR, N.Ya., doktor tekhn. nauk, prof., red. . [Practical work in photogrammetry] Praktikum po foto- graumetrii. Moskva, Nedra, 1965. 187 p. (MIRA 18:6)  SOV/109-3-7-17/23 AUTH0Ri3,.F:iSa.o Sviridov, V. T. I Chetkin, M. V. TITLE: A Non-Slowed Wave in the System Consisting of a Coaxial Helix and a Centre Conductor (Nezamedlennaya volna v sisteme koaksiallno raspolozhennykh spirali i tsentral'nogo provod- nika) PERIODICAL: Radiotekhnika i elektronika, 1958, Vol 3, ;4r pp 964-966 (USSR)-. ABSTRACT: The radius of the helix is a and its winding angle is ~The radius of the,,c--entre conductor is c It is assumed that the helix 'satisfies the usual boundary conditions, while the boundary :conditions for the centre conductor are expressed ,by Eqs.(2) and (3). where jil is the permeability of the centre rod, cr is its conductivity and w is the.angular frequency. By employing the above boundary conditions the dispersion equation of the system is in the form of Eq.(4), where 101 .00.) K, are the modified Bessel functions; k, is the wave number, 0 is the propagation constant 7and e and 'Ii are the permittivity and permeability of free s ace. if ~ yaq(l and yctl , Eq.(4 ) can be written as Eq.(53, which can further be simplified and x-rritten as Eq.(6). If the solution Card 1/2 of Eq.(6) is in the form of IEq.(?), the perturbation X is  SOV/109-3-7-17/23 A Non-Slowed Wave in the System Consisting of a Coaxial Helix and a Centre Conductor expressed by, Eq.(q). Prom.Eq.(9).it is seen that ctg should be greater than 1 which is noi!mally fulfilled in a practical-helix. From this it is concluded that in the helix-centre conductor system it is possible to obtain non- slowed waves having a low attenuation; this results in the ~appearance of a parasitic feedbaok between the input and the output of the tube. The paper contains 4 Soviet references. SUBMITTED: January 17, 1958. 1. Electromagnetic waves--Mathematical analysis  MMLOV, V. Y~ BOGDANOT, E. V., MA CS6)VI Z. a. "Interaction or Ilectron now with PI"M"- report presentod by Cbernoy at the 9th Symposium an XMInater Waves, 31 Y"ch 2 APrII IZ9, Prooklyn Polytech. I=t. Nov York. That. for Radloolectricity and Blectronlos., tGO Abet: The "lea of interaction of a limited electron flow with planne is coneldered. The a" dispersion relationship is derived and conditions for an Increase of microwave signal are analyzed. The main requirements on the system for producing effective interaction In a high frequency region of microwave bands am determined. investigations of the system in which modulated electron f1w interacts with Sm discharge plana are described.. Arequency abaracteristace of the system and dependence of the alcro%mve sIgnal of electron density in plasaa defined by a discharge own=t are given.   Electron-Flux Interaction with Plasma 77775 SOV/109-5-2-8/27) while variable components are proportional to e the polarization potential will be expressed by 011-1 1 all I MR atz- + - -5~- -1 7j -TC7~. + T211 0, r (2) T2 (T + Z-1 (3) where Is the wave nuinber in medium, k is the wave number in vacuum, Te is the electron wave number; N pe is different from zero when r. a. Dividing the space into two ;--,.reas, one of which (0 < r --' a) contains the electron flux and plasma, while the Card 2/13 (r >a) contains only plasma, and Joining the Solutions  -9-3150,9-3240 7Y775 SOV/109--5-2-3/26 AUTHORS: Bogdanov,1E. V., Kisl(?v, V. Ya., Ch(,~rriov, Z. S. TITLE: Electron Flux Interaction with Plasma PERIODICAL: Radiotekhneka I Qlektrorilka, 1960, Vol. 5, Nr 2, pp 229- 238 (USSR) ABSTRACT: The Interaction of a finite electron beam with plasma is analyzed and the dispersion equation I-,, derived. A system is tested experimentally In which a modulated electron beam interacts with plasma of a gaseous dis- charge within a longitudinal Magnetic field. Amplifica- tion was achieved up to 40 db within the range of 3 to 30 cm waves. (1) Tnteraction of a finite modulated electron rlux with plasma. Existing theories concern- ing the interaction of an infinite flux with an infinite plasma being too abstract,, the authors assi*m a cylin- drical electron flux of diameter a plercing an inCinite plasma in the direction of z-axis. Assuming further thEt current densities and electron velocities in the beam Card 1/13 and in the plasma have only longitudinal components,  Electron Flux Interaction with Plasma 77775 SOV/109-5-2-8/26 at the boundary of the beam r a, dispersion equations are obtained Ta J, L~4) if(V (C j. 71 -(.,1 -it.) WHEKE TS > 0. ANP Ta J1 (7'4) v,,a (TA (6) -j; W-) when 2 > 0, where 7' 2 _7' 2, H(2) is Hanckel's 71 1 0 function of the zero order and 2-nd kind, corresponding to a wave leaving the electron flux; Ko is modified Card 3/13 Bessel's function. The authors limit themselves to an  Electron Flux Interaction with Plasma 77775 SOV/109-5-2-8/26 analysis of waves with phase velocity of near ve* From Eqs. (4) and (6) they find the dependence of Ta on 7a, permitting the derivation of the propagation constant and of its Imaginary part. The amplification per unit length of system is expressed by a simple equation G. where '/'Pe 6J e/ve is the plasma wave number of the P electron fl?~x. At the boundary of the plasma ( z = 0) the variable component of the current density of the space charge waves in the%stream is J(O) = 0, and the variable velocity v(O) is maximum. Two waves are generated in the system plasma -- electron stream; one is attenuated, the other is amplified. Therefore, the coefficient of amplification is Card 4/13  Electron Flux.Interaction with Plasma Card 6/13 77775 SOV/109-5-2-8/26 T" I'*- WIP is W k2) all Consideration of thermal terms is very important In case of resonance (for large - ,Yea) If Tea oo practically a lane condition is achieved when the dependence of 1~ on the radius disappear , and the dispersion equation takes on the shape T- = 0 (A. I. Akhiyezer, Ya. B. Faynberg, Zh E T F, 1957, 21, 126,2). It Is doubtful whether such a case can be achieved practically. Amplification of the usual types of TWT drops at shorter wavelengths in consequence of an Increase of Xa for the delay structure. In plasma the amplifica on Increases with -/1 a, and It is  Electron Flux Interaction with Plasma 77775 SOV/109-5-2-8/26 G = (8,69TY-71- 3) d 6(76) Card 5/13 where ~ is length of the interaction zone. A graphic representation of quantity q is.Tiven in Fig. 1. The method of calculating quantity '/ea, (jp1w ) is explained in an appendix to this article. The most important relation is that of the amplification to W 2 W 2, or, if amplification at a given frequency is considered, the relation to n/no where no correspondi. to plasma resonance for the g1ven frequency. If n