SCIENTIFIC ABSTRACT GVOZDOVA, L.G. - GVOZDOVSKIY, I.V.

-- -- ~l GVOZDK,)-,,'j,, le-l,.-,, Gand l.ed Lici (diss) "EffecL of brucellosis iolili)n tac fe"ale uL4aauat~We syf7tc:;!-" 1~,iybysliev, ilif ect 0 7- 1-rcl-,id4-nr cover (Iruybysliev '7,t:-.-to '.'C(l In,A) co-'~i.es lib) - 59 -  LAVZ~GOR 0 in limit, us (ri o vNlifa vda 0 ~ i d ,voz o ia (Nu0itim ast., L. G., Masl&ulm aud -- A Mad Med. Sci 11,327, jr7 aN Pop U; . simple, lrzacfi-~4 is pz=li Of! - in iiriae utic[L,~ & flical lalf; =4 dltloni.- callect the urine excrcteddtt~g,24 hrs. ookt4 contg. 100 fril. of 5G%*Ac0f1!;blq.;: LAti, utediate u5d~ L1111K. it 5"10 tilf;w if t1lo, of the uritte for the hu 1coricn.1s, pvcted to be too Well ~af ter. I ad;nln6tr#iatt); 'To Sml, urine sample add I tril. 20% NaWand 6 tril.: distd. Water, had tlte-nkt. for 10 will. to destray1; eltilt. 11W. ard brlug to proper voll Tdk-c a [Ut-bottonl, no'JAU"etil -ellig test lubes. add to Ollie I tal. oI the llCAt-tk_-t,tC4 brlvt wln (control), to ailother I ml, of thiz- ' al stawfar dilTorlghtal urine. and tothe Ulk", ane., I Mt. 01 I &ata. (10 Y/Ml.). To each titux.. add ~51 lal, di;td. ~Vger, 0.5 Mi. glai;W AcOll. 1.5 all. MtAnO.. Mix welf. and 'to the secoad tube add then drop-by-, 'frop ff-.O~.- jillAil full clarity; to the other 21 titfies add thc -1-Ile an't. of 1410 Lis: to the exutt. 5-ituple; and let the tubes stand for 19,45. imin. DO* thc tube i~mntgg. stiodard Isola witildlitil.wat~1 to 20 mi. (final conca. of I - 0.6 yjlul.~ aad potir: into a: Microburct. Titrate tile heat-treated urioz-sawp!c WlOu the I soilli. until tile will be~ iciC tlm~ wrik! intcq- gity as lit the normal itritte coat-, I tIllK), Vic CoInparizil of tile fluort---ecrice illte~l~ity i Itade. un ict illuinination of a llg~qljnrtz lamp affil a light fit cf650mg Tile aint, tn' I exi;-zetcIl/day, (X) iJ themcalvd. p X - (a.b.c,d)IC, kvtttre a -0 tot. (I Ille by tile foritralla. standard I sota. used up; 6 tile allit, (it ThIJ. (.f thf., qt;ivid~ w ard Soln.; c - dilit. factor: 1. (11~1 i) of tile (tally lit fl I C P and c-=, t1wt atnt. (riil,) (if tile dild. urlilL i4k~,11 to- !It(., deto. Vic wi)sitivity fA flit- Illeth(A N 0A-j 1/t41. ElFive alid the-exiAl. t-,rrnr found wa4 11,11 Mi il I wme,  ij,,IN IKOV A, Yt~ Mn.L mosi-va Zltudytrg vil a-~ ir rit-m I r~vin) metal) ol ism in no nhea I ing wound.~ LwIth uumm U Von. pit. !6 no.-1:10-15 My-J- 157, 1. L., laborntorii vitaminov (znv. - prof. V-V.Yeframov) Instituta Pitaniva P.MN i Instituta khirurgli imeril. A.V.Vishnev- sk-o-o ARN Moskva (VITAIKIN Pi3 mutabolis,:i, tu biLms & ulcer-i (Rlls)) (BUIWI~ . me t a ~_- c 1 ie:n. In B2 (174w N metabolism. sari-3,j  MASLENIFOVA, Yo.M.; T10011-111iiOVA, A.N.; WIKO, Yo.A.; P1,1411H, 0.1.; ~tYMPOVAt L.G.; SOLOVITINA, L.Ya.; KULICILKO, Ye.V.; A.Sh . . - Study of the metabolism of vitamins in workers in the hot shop of A metallurgical factory. Vop. pit. 19 no.2:3-9 Mr-Ap 160. WIRA 1,4--7) 1. Iz laboratorii izucheniya vitaminov (zav. - prof. V;V.Yefremov) Instituta pitaniya JOU-1 SSGR, Moskva. (VITAMINS) (HEAT-PHYS IOLOGI CAL EFFECT)  MASLENIKOVAy Te.M.; GVDZDOVA,, L.G.;...LEVCHENK09 Yo.A.; HOW, M.L. Studies on the metabolism of vitamin B2 (riboflavin) and its therapeutic use in protracted nonhealing wounds. Khirurgiia 36 no.11:86-91 IN 160. (NnA 13:12) 1. Iz laboratorii izuchwAya vitaminov (sav. - prof. V.V. Tefremov) Instituta pitaniya (dir. - chlen-korrespondent AME WSR prof. O.P. Molchanova) AMN SSSR i Moskovskogo ortopedi- cheakogo goopitalya (nach. - doktor med.rauk S*N. Voskresenski7) Ministerstva zdravookhranoniya SSSR. (ULCER) (VOUIM) (RIBOMAM)  GV02~DOVA,.L.-Q., "Adequate Vitamin B6 intaite in Patients Suffering from Atherosclerosis" Report to be presented at ~bdical Society of J. E. PURKYNE, Czech, Vitaminological Cong., Prague, Czech., 3-6 Jun 63  C 0: a Co.-.-.PICX 0-17 Smups w:,-,:c" ;cccivcd addizionally (a) -,riza,-.-.:n compi" VCj, (b) vitamin co.-.-.p:--n Z' (,;) Only vitimin B,, only IL.. We swl-:cd -".-Z 0.- ;hCSC addizions On (1) the wci;z:,,z o:' body --nd ks VC ncreascd them faster. (2) The consumption o,' fccd p,-r 1~0 o-' jody-weig"h: by the -a-,s receiving VC was, on the contrary, "ess. (3) Exc.-c-i3n w:zh urinc and E Cir, con;cnt in orZ=3. 0: :i'.' . conz-.-O~ VC -azs gnawc-- 11 :is Nvco~--' a L-'.ay :S Of 0' ~;zt':l 0-- litters f.-on" VC i:cs) 01 VOL:ng rats u'ex.' tneur Conz:O" 1 he conzenz 0' a-, al, woups, buz nzost 0~~ ali in conLrol c,.-- rz;s. (7) 'i-h,: VC "-.a _4 a- mur-11 lower mozbidizy dea :'a-rates zhai coazroll ra:S t,*-.z VC rats ha--; -rezzesz dura~on of"Efe ofindiv,.*dual ani'malls, ma; ofar~mals wh:ch ;cceived Bland B2 vimmL-is only was less, and rats of control grou h,- cl th 6th International Congress on Nutrition, Edinburg 9-15 August 1963  KORODKINA., G.S.; NaMNOVA, Yu.M.: PARAM(RIOVA, E.G.; GVOZDOVA, L.G. GLUSHNEVA, Z. Ya. Effect of diets of different qualitative composition on the clinical course of disease and lipid metabolism in patients with coronary atherosclerosis. Vop.pit. 22 no.ltl7-22 Ja-F163 (MIRA 16:11) 1. Iz Instituta pitaniya AMIT SSSR, Moskva.  KOROBKINA, G.S.; NEIVITNIOVA, Yu.M.; PAUIMNOVA, E.G.; GV.QZ,,PPVA L.G.; KALDIINA, N.N.; GLJJSIRTEVA, Z.Ya.; TURARKRIA, T.I.; MIRER, MI.L. Effect of a phosphatide-enriched diet on cholesterol metabolism in patients with a history of myocardial infarct. Vop. pit. 23 no.2: 49-53 Rr-Ap 164. (MIRA 17:10) 1. Iz serdechno-sosudistogo oldeleniya kliniki lechebnogo pitaniya (zav. - doktor med. nauk V.P. Sokolovskiy), otdela tekhnologii (zav. - prof. D.I. Lobanov) i otdela fiziologii (zav. - chlen-korres- pondent AMN SSSR prof. 0.P. Molchanova) Instituta pitaniya AMN SSSR, Moskva.  a:,ld -4it u.-I.na -n 21 n- -"+ %'MT-RA 1818) vitaminolcgil. "T.T.Yefrefccv) ln--iLltuta pitaniju  GVOZDOVA, L.G. `-- ........ .. . Excretion of n,"lli ~,rltb Iht~ urtno In pation'-s with coronary atliarosol~-lroels- Vop.pit. 24 no.3:86 My-Je 165. (~aRA 18:12) 1. Otdol vitaminologii (zav. - prof, V.V.Yefremov) Instituta pitaniya AMN SSSR, Mosk-va. Submitted May 7, 1964.  --Lyl _icI?nyy zhu nal, v. 3, no, 1, Ii ns'kyy fi A conference devoted to problcrn_- of cv:~-),~'r ti c' ~34; eynamics of dis'persed syrtcm:; UP Cc," 1. ~T. -.~~ech4nzikov from I to 6 th~e theory_dnd practicc of produ,~~*a efft~ct on the2e uroccs3cr of varloun 'WOrkin',~ I?rocesscs in cornbuLztion cl.-.~I't-'-"jc~l~_'. C'L* 0; the ti',Ics wcrc "Inve:30fating .DY oxygen from comprIsscd air, T~ pensJon in hydrocarbon fucl:i, " D. 1. 1". J" P. -Yan'evich, and "Experimental investi-'tion C".-;0- -7 fh)' 'I Y- -m, - metrical nozzles. G. A. Nornov. In~ludcd Alpo ~.c~-c of t.-.c mcLh- ods of solving equations of disrociatinm ras flow in due,:; and dyna-mic calculations for jet engines, G.-A. E. Ya; and A. P. Kisel'ov; the formution of plane shock viavca in chock tubes and pasaagn of shock waves through a Mune front, D. V, Fedoneye , G. D. 2aehmnndr, and 1. K. Sevastlyano ; experimental reaulto on the flow of comburition producto of a mthane-oxygcn mixture around cambered surfaces with diffraction of det- onation waves, L. G. Gvozdlova; the stability of a'.Gtcady~statc- flame front S. K. J~slanov: the relationship between the flame and the diameter 6f a burn- ing drop, V. 0. Fedoseyev; and theoretical and axperimental inveatigation of burning of spherical metal particles, by:L. A.' layachko. I[AS] Card 212  GVOZDOVXR,M.D. Composite tip from the palsolithic site of Talitskiy. Uch.zap. Mosk.um. no.158:207-210 152. (NI.RA 8:8) (Stone implements) (Bone impleisents) 31, ~j  GY00OVEI.M.D. Sculpture of a mammoth from the Avdeyevo paleolithic site near Kursk. Uch.zap.Mosk.un. no.158:211-215 152. (Andeyevo --Ivor7 carving) (NIJU 8:8)  GVOZDOVER, M.D.; NEVESSKIY, U.N. Find of Mousterian sharp stone implements on the southern coast of the Crimea. Trudy Kom.chetv.per. no.26:149-152 161. (MIRA 15:3) (Crimea--Stone implements)  0 0 11 11 M is L--l A. .-A A M 00 C-10 of at of so 8 00 I L a _146! 6 0 0 0 0. IFO-V, 0--s1 0 6 0 111 0 41 * P a 0' * 0 6 0 0 41 0 a 0 6 0 0 U 11 kl " a 41 V It U A 14 n a M a 11 v 11 m a a L, a p a 4f Q at cif!* I iv. F, E-1 r - I All "ccm U41 /,10"406 of wmdm em4wo" him ewcwod4a 00-4 S V. Gvos- An as electric distbup in duver... J. r4reb. Pkyj- (U S. S. k7 M4TALLURGICAL kiltIl-lWil CLXStWKAVIGN -w-aw I.v &is ~l 1 9l,"14,1980 MW jj I L14 I I I ru 0 0 0 1 9 w 0 A b u s Ay po Li 0 11 dill 6 0 ejo 0 0 4 0 0 0 0 0 0 0 0 to 0 40 to 0 SO 010 0 0 0 9 0 0 0 0 0 0 9 0 0 *1* 0 0 9 0 0 0 9 0 0 0 0 0 * 0 0 =90 0 goo tie too  G v0 8 lEa S -Y. .kUVja!ZX_VnXour Arc. S. Gvosdover land F. Konovalov. Coniptes Rendits de I'AcU ides Sciences, U.R.S.3. 1. YPP. r*,-' Grrnian.--The- parts of a gas disebargo in which the,. space chuges are compensated are now generally referred to under the terin plasina. A tube of about 12 cm. dia. wivi fitted with in incan- dr:icent tungsten kathode, a inulybdctinin anode atilt two probes. and contained it drop of fig. One prok, consisted of an Cquiputerifial incwl- dcscent oxide-kathode with independent heating, while tile control piobe Iva- a molybdenum disc, 2 cm. dia. The discharge tulit- waj maintained betwcell tile allode atilt the oxide-prolv, it llotential lolvet Olan Ihe imlisa- tion potential, a strearn of slow electrons is emitted from the probe, but these electrons cannot ionise by direct impact thr. unexcitcd fig atoms. The condition of the plasma is therefore deteirm ined principally by tile di9cliarge ratio% between tile tungsten kathode arid the atiode. But for the production of the current between the oxide-prqbe arid tile ail(Nic tile plasma generated by 'the current between tungsten Italth"llit illitt allode wint change its stationary ilato, and tile temperature distithillion of Ill,-, ~, ctrons inust alter corre4pondingly. Thcqc concluMniv; Ivrw ~,Aahlished .1-'crimentally. A.  AMMNOV, S.A.; GVOZDOVER, S.D.; KONSTAIMNOV, Tu.S.; TROFIMENKO, I.T. Using TAd-tube oscillators in studying electron paramgnetic resonance. Prib. i tekh. ekep. no.3:109 MY-Je '58. (MIRA 11:6) l.Fizicheakir fakulltet Monkovakogo gosudarstvennogo universiteta. (Oscillators, Zlectron-tube)  SOV/53-66-4 AUTHORS: khin, V. M. TITLE: Bibliography (Bibliografiya) PEIIODICAL Uspekhi fizicheskikh nauk, 1958, Vol 66, Nr 4, PP 700-702 (USSR) ABSTRACT': This is a detailed review of the -book "Introduction to Radio- physics" (Vvedeniye v radiofiziku) by V. 1. Kalinin and G. M. Gershteyn. It was published in 1957 by "Gostekliizdat" in Moscow. The book has * 660 pages. Price:12.65 Rubles. The size of the edition is not mentioned.  'INWA 11, 1 qioooo$oooooo*Oeo 0 e ie a 0 see 00 0 0 0 0 0 0 0 0 0 * 6 .1 iz. 3 4 3 4 r I f a 11 v U 4 tj 16 ty is to a a C I I c K i a L a M~ cc a A so C 00 1-7 ~, 0 6 a** 41 **a as alt 0 41 oAt 0 * 6 0 a # 0 a 0 a 0 0 0 0 a v R a X n X 9 IN IF a 41 IV a 4F 4 t A k I d I -A-L-L-A 9 A_X__A_J_.JJqG so -00 7 go a Uboratim, &.n a Meky~ Sar b we D so POSitiveMwicurylasm, S.D.Civmdever. PAys.Zeots.d.S"jd % In German.-An experiment isdm;ribed u, -hi, it is found that mercury Ions am onl ca able of f i l t f .60 400 ree oc rusts rom a ng c y p molybdenum surface at about I16th the rate that they are freed by own- 6 =00 ions, when the oonditim me On same. The volocitim of the ions of macwy vapour us lor p4antials of 0 to 6W V. This result is to bd a expected now the suWag powntial for ury vapDur roqwm a much Slow higher voltap titan is necessmy for the inert gases. H. AL 13. too A I L a .91"LVOSCAL L1111141ket CLASUPICATIC" see 00 '60 tse 00 WOO 1i;;;* son Iftv S.&O.0 .41 . I I I ; a, 4K P U 16 A, '0 L' No, 0 0 0 0 0 9 0 0 : : ; I* : : ; 0* : , 0 T44 0 0 * 0 0 0 0000 00 00 0 0 0 0 0 o1 a 0 0 0 **Goose* 0 0  I . I . . . - .. .. . ! 1. .. . -, - I- - ---- -. ",- i, , I I - I 1!," 2 ~~ ~11 I , lm I ~ WI I I I - 1 -119 -~W Q I 6 C, 9 a 0 6 0 6 0 0 0 0 0 1) 11 34 If If 11 11 If m! It J) 11 1 It )I ~f 9 A I L a If I AA 01 ~L Al If I OL If 1 RWWm bolvem die olfsawsm mW Im mmm hm a .00 3 bet SAW~ 066W Is a miliftstry-vopm Afthaw. s, 0 -MU- ~~ z 11101k i J; %lirlillth iLFuujkl the volhosir is scro. the total rffct*t id thr o! kmid k to I"lloy the Isra. 'holliv. I hr folk. 4 dectlost culivul its 6"1 Culls-lit ill thil raw k lwlwtvli CO. alld 316A Uivairl oth" v,ouliliiol~ fit,- trit'.11,41 culfirlif j 4ktiviols nol Lmly tiff the tinalroluslismi III the iimv charge 0 Ijy Isms. ions. livit on the fidditirroxth around the catboile. a 00 This changes with changes in mvfvjcv stiructute of the cathode. The mtitj W frimtrun cunrni to ion clarrent is 0* 11 %nudleir in this vow. A. It. F. Duiwatz Z:* 0 00 w J, L171PAIL49 CL&SSWKATtC" goo 41 if III it 5, J a A 0 19 W13 1 0 00 0 0 0 0 6 so 10 o 0 o o 0 0 0 0 0 * 0 0 0 0 0 0 0 0 * 0 0 0 0 a o 0 0 0 0.0 a 0 0 0 0 0 0 0 0 0 0 0 a 0 0 4 6 0 0 0 0 0 * 0 0 0 0  0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 -4-W is v - - 00000000 0t000000000 0 10-4 0 0 0 0 66 0 04 W 0 ww-w- a , 1 A I V 0 1A MA MLU i A L ~ 00 A 4_L_ t. .-L- L_ 0 0* -40 00 00 00 Of .100 go -00 oo *0 66 r " 61j. Cb~rmiieriistks of FrOn KkCaodee In a Contravied Me- -00 00 chwip. .8. Gwedover. Torks. Phys.. U.S~S.P. 4. W OP. 717-721, 1937. 1- E-44ik-~txprdnlental deteMinations wrre nwk- W Prt'he 00 JI _ Ck'CttO& ChUS171411111ilItkil iU a COUtMCW diMA49". The fellujil ObtAiLeRd .00 G* 43 indimist a UwAwvliiAn disUilintitin of the electrunip in such diwTimpre. It if 41111MU tb44t by tbg UM Of PgQbM in COntraCtC4 l1j6LhjLrgee It IN 1XVISIWO to deturmine the twWnitude of the ekvtnm currinit, the timplimturv iinit AID& to estimate The Ord" of Maxnawk od do ionic current. The resuftip obtainall confinn tbow of Mewbaw. (Sim Ww Abstnwt 313 (1037).) A. W. 2 moo 00 !-So too too lee 9A I t a U t9 trip ftd an Me Ptun it -qKwf, 0 oooooo* 0 0 0 * 0 0 0 * 0 0 0 0 0 0 0 0 0 0 -0 -0- 0 0 * 19 0 0000000 4 of 04 a 004 4 40000 0 00 of Ipso so 00 0 0  J1( A fit NO 0 0 0 111 0 111 0 0 0 it to is It. it III a )d a)6 a it a u u lk -1- L M.. 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Gvk)4,h)%" PA.-k, 4. :-49 00 ,00 hr ntrau fire path in th, PIA.Jua. and 11W tITTIT "I t,6%.I. 0 I'm Sw,x =00 7 Zoo j 00 zoo 00 wodi 00 ,go go ::oO 0 0 zoo 1 0 0 7 zoo 00 * ~ . . of- Zoo ZO --oo P4 ;4 WO n 1 14 'It I 0 0 0 0 0 0 0 0 0 0 0 0 r 0 0 0 0 a 0 0 0 0 0 0 9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 * 4 0 0 0 0 0 0 0 0 0 0 0 0 0 * 0 0 9 0 ,  0 0 0 0 a 0 0 0 4, e a 0 0 a 0 0 4 0 0 0 0 9 0 0 0 0 0 :10 0 0 0 0 0 0 0 0 0 0 0 6 ; I I . 1 0 .1 Q 11 1. It 1. 1 11 a it 1*3 ;4 11 11 11 .1 .1 11 .' 11 M A L L 1 6 11 1 L L 0 h, F ii 2 1 1, V A& FA M t' 00 00,1 Mobility of viectruas'in a X" duriag qlgsljc wd"&nag 1) ('Pvu*&Vu- J- 1--trPl. TlAftwd. PhYs. I t'. S S. k, oel. 7jjj likig); cf. J!. 1. jj, :LJO.. - F .Cloatil,11, lo, ell, Imn awtion wilh nnd walkno diffusitm arr otvivt~f 00 r4king into amount clerlmn Prattering by neutral imrli~ 1- the "uation LNmiatun the ti~n Itm gwh %4 of A (,Andrr rathrr than the tn~n frtv psth of stmiritti.m. 00 8 F. It. kathmann 00 Of 00 z f 00 J! 0001 Of a , 00 A 00 9: 001 00 4 6 0 a a 0 6 4 6 0 0 4 1, " 0 -00 .00 .00 -00 -00 , : .00 0 0 Soo zoo -.00 0 0 -O0 t:O 0 001 t j A .1lawPWIL tilt"016"t "A"'r K.110- woo 008 it. 900 14 v,]P- Mgt! V v 414 'A q K It n It o o 0 0 0 0 0 0 0 & 0 q 0 o o 0 o 0 e 0 0 0 0 0 0,90000000000000000;~oooo;oo4p4p*ooooo4Doooee  _4j~'JV 0 o So 0 0 11111141 0 As 0 41 0 a 0 0 0 0 0 p 0 a 1 2 1 4 ) & I a 0 a 11 )j 11 m is $6 is 11 111 31 j 11 Z? a At Is 111 0 is i r is is is m a ok v is As Q is sit as oil A 11L ALL Is fi ll A QViA, ~ 9 1- L-L-1- I- M. 1111 IZ CV U f 1 1. 1_6 0 411 00 Investigation at a dirWed besem of high4pased qjqC. -00 0 0 Imes dwOVIO MOKUY vaptim In a heated calbaide dk. C11111f t b V 4 h h .00 00 e. i u , n anti . le . J, jl~r I he,,,ef. Nyt. (1% 8, S. It.) 5, cut 43(Ijklml. Uhr rI. _0410 0, 0 VVI.Wity d6tribil(wit fujwf~stj Its a diftelvil [witill is i d 0 00 (I ctiv twe W Y wits tow mthotisr. Aiiissiod the ryfisi. dricsof pro1w in a dischargir 1. It) the assiss a varialsir 11011- oil willon'tric ionic Imyrr fonsis, EltvirosirelIrctionmixtirr Imm a tKiody drewer.1 prolw than frj)jo it voniplelely de. 0, go rj stamft,if o1w. _00 ** 11 go j i o 0 A 0 : 0 0 00 .00 a 4P 00 00 top 0 ASN~$L& SAIALtUNGKAL LiftlAtOf CLAIIWKAItC& 0 00 slit . U it " 1 4 , - I ; " ~ I An I " 0 0 0 0 0 0 00 00 0 , n 1# 14 (( Ill a d, 0 0 0 0 J, 0 0 0 0 0 00. 0 41 4111 0 0 0 0 0 IS 0 0 00 0 1. 0, 0 0 o o go 0 0 o 0 0 0 0 0 0 00 0 0 0 0 0 0 go 0 0 000 00000 . 0 0 0 000 :Or  I T ':1-,F".110111 0aGoo o 0 6 o a o 0 06 *1 -0- 410 o 0 4 0 0 0 o 0 4 4 0 0 0 0 a 0 o * o 0 o a a 0 o a o o 0 a o a 0 s 0 a a 0 0 0 0 0 0 0 0 0 0 4 0 0 6 0 a 0 a 0 0 0 * 0 6 0 j -II I w . I A - I .. .% 11 Is it bill ii A )4 A .1 H m I'M 11 1" 1, 4 .~) a 00 b L I YA It A L a 9 4 1 1 AA 20 tj UD it 0 if 0 so 00 Dependence of the average vidiats charActerising elAstic scattering of electrons In pars on the effective cross 00 Ic section for transmission of momentutil I I G-lik m-I 00 r S D. J. Vtpll. lice,-,ti 1'4p I N .1; It 0 M S~IIUXI C. mi'l G. Ill'i III, 00 A rly-live .00 00 a momemum ~Iit 1 awl th, dCai- 4 skml,w ... s 4 -ki -1 -00 00 1 .11'. 01. 1'.1 cal"it. [Ilk. .00 Alld 1.1111114911' 111 tal.le, kf 1,.s 11C. N,- 0 0 ;411.1 A .It Ow 1~skm% "f thv 14.111-4.1,1 alld - 0 00 Kollath it'. .1. 26, 1114. 2143, 21OLW. 111-1 'I'ItA -Joe I[ is to like Cmij. of 411111l'i"Il. Ill"billiv, 'iv. 0 00 j jialll~" Cie. - 0 00 A 0 00 00 00 00 00 .00 00 .00 00 40 00 00 L'It"Tc.1 "I I $ a w w 'j a 'j I ' u It It n It m IMIJ -1 1 %. " 2 0 69 0 0 0 0 0 0 4p 0 0) 0 0 0 a 0 0 go 0 0 0 0 0 0 0 00 go go ' o g g IS a; ; ; 0 0 0 0 0 0 0 0 4 0 4 0 0 0 0 0 0 0 0 0 a 0 0 0 0 0 0 0 0 1  $ice ji0l 1947 Vacuum Tubes Mkgaetron Oscillators, M-agastron CAN "Belf-ose13-lat lone in Double Sagnent; Magnetrculi b7ad:e& by a Lecher System," S. D. Gvozdovor, Ye. M. ftwoz, Physics Faculty, Moecow State UniTerrslty, 10 pp "M;Lr Takh Fjz- Vol ZVU, 17o -e A report of studies condueted cm a magnetran oucilla- tbr with a split anode, and loaded by a Lecher aysten. It was shown that the zero ajq>roximaticn. of thq fte- quenoy is the fre~quenoy of the f1luctuating dietrib- All uting system, which can be determined by Kirchooffts and Abraham's formulas. The results of these exp&rl- 1Z sics (Contd) Jul 1947 ments can be applied to all types of oscillators, The cal,culations vere conducted on the assumption that the dynamic characteristics of the magnetran are not de- pendent cn the frequency, 34T69  Sep 48 oscillators, Electric Vacuum Tubes, Triode "Self-Excitation of a Triode Oscillator with Feedback in the Decimeter Band," S. D. Gvozdover, V. ft. ZOre.. 19 -)P "Zb,.zr Tekh Fiz" Vol XVIII, No 9 Examines self-excitation of a tr1ode cocilint-or taking account of time of electron flow betweeL cathode and grid of the tube. Gives peneral formulas for the wave length of the oscillator, coadltlone of self-excitation, and frequency corrention determined 7T/119TI7 USSR/Electronics (Contd) Sep 48 by the triode. Illustrates general theory by analysis of self-excitation in the Esau circuit. Submitted 1 Apr 32/J49TI7 0  1**** 0 to top 0 00 *go*-* A R-S--Z~ f 1, r. m 1 1 LIL.- FQ.- L-3- -L.vtIA --- Ili I A 0414 So -09 to :: Isaw =am& a pvwo la a dkabwp. V. ftum MA a Z. 8vwjwvw=, I 9K dWnbm"efpftwy an ,r I m-mmDd w absola rt"O In a Hg.""W An to Inemm In the Mak awmw to the pmbe rftdwo its 0 ionic lkyw awn oyamw4dW. J. W. S. 00 ZOO ik' 4? or .1 X If 14 s6 n fl 91 is "a 4a X. 0 0 0 0 0 0 0 0 0 * 0 0 0 0 0 We 0 0 0 0 9 0 is 0 0 0 0 0 46 0 0 .0 to 0 a 0 0 0 0 0 0 0 0 0 0 0-01 w %.-#-o 0 0 0 0 0 0 0 0 0 0 *  I 1 10 11 it 11 14 0 It kl0 1 a it is Is 0 0 19 4 A 1111L -X--P. 4 A A 11L - ~a_A LA-W-M.IX-11 I I f 4V fx~ 171. 1,10~i :;IL MY, UNMIJO~~ .1p ;V~Ifql 0 o so jl-. 00 mi. ristamw G in read 9 cakmm. a.-Ovisaftvw. sea 11hys. Zoits. d. Soilittanion, 13. 2. pp. IWI40. IOU, Ili ElvUA.-- '60 00. .' A Immula for the kmolwWal pudim t nd thp TxWfivit eWuvnn is dmv"l too bAm# into miwoW the "wow W Ow walls of Ow dimr~ tutial. I.S.- ,0 k Ahetrnct 5420 (kft?)~j A- fees o: 4:00 '00 00 use A I, I L A NITAILLU111GICAL LIT(RAVOt CLAMPKATICO We u 0 49 M3 III, 0 IV It 0 0 0 4 IN u I Is 40 W Co 0 0 0 o a o o 0 o 0 0:1000 0 0 0 0 0 * 0 * so :1* 0 0!  On fit now of fth-v'r"amy cwmio thrnulth Mortraftle AppmIt". ". It 116,11 II V fkv~", 111`T"I"~ I it I II , wil Att ~1 m .1--VIIIIII~ hqj, nty al-ImsMu" W ligml 0 '. I . A, a , fit it I '1.. 1, 1 It %. m Itrie w I- I tar I I I. -it', it, and to III, It-t%vlling lkwite dHromitted I,v "fit wil I-Lil'-wil ti't"I -m-.t I 'fit'rmwill", III,. 1P 00 M, -IIIJI'm it 11 I-V - 'j-, IPM I MAI 1,11, 11-14-1 1- it:,. w-Im"I 41j, ~ .h10. I. I", (A, 111, -dt, .M.m-d .11-1-loil &,W.~l ow" II'v fal Op. It- .%I . I .... I it, 10 .1o'It"Imill .... .. tl". AW 1-1 1 J,l it,,. Ito. -Ii,fmo .( %1t it" .( lit 11'. moldood. .4  Thil I 1- Iv m"Ilt It"ll 1:i 11, md 0,  0 0 0 0 a 16 Jk* 0000 0 0 6 a Go 0 0 es 0 0 0 6 6 0 0G 0o a 6 0 00 6 6 le LI fk n I 4A go LL El 1 00 00 :0 .00 00 V , M. &N. AMW. 3d. VRSS. SL*. favy., I* 1 40 so 36 il"O At blow- is A" . dnim ft kin* smaw of Il~ d =h =00 P-g ft. mwff Or dKU=Mqpa* veM 0 zoo 00 CGLA&W. Two am an In d": d *W d r --w capg,*" i : (I R& Onity OW Abar. 0 2701(1946)). A. L. 1:0 0 .t:oe too LOW, a cg lc K 0 ow o m m i ir v 9a a4 doe 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0.0 0 0 0 0 0 0 Soo  SON-Itim"ift of a Ilan abst"o, lit'j" %,1. U ffs.s. "i - T~. No 1, IV -,.1'7'4- In Uu-i-n I A th, leth-4 kl%~tlqwl 1. dl~t-.A .1 1 h. -'t.t'T I- -If . ,,I I~ th-0 .4 ih, g V -If  oo* 0 000 0 0 o t- 0ON 1 0 it If Is "If 4 1? IS Is MP U33 Idis ]I U man a I T V a OU U.Sto A L ILA-r F 6 _J SA t.oo 69'.396.615.149.2 621.365.1.029.6 69 2917 o: Theory of the OWle cavity transverse klystroji. loflMkov, L. and qy5mdover, S. D. .4u11. Aoad. Sci. UM, Sar. 10 (No. 1) 79-66 (1~~Fa-~Uzsian. - The type of valve suGeestod avoid& tho inefficiency 0.1 : of the reflex klystron where the bftm modulating voltcl;o is simattLneoun 17 0 apr~liod to tho corvervion space. The -1roposod klyetron conslato of a 0 : cathode end two coaxial cylinders joined to a ainele c-tvity in such 0 a -.-,my as to -,roduce a i-iodulator, an inductor end n convortor s:Naco. 0,,' i : General e-,untions are ontulatod, and the output carrent equation Is 0 derived, solved to a firut approximation and intor:-ratod -hysically. 0 qP w Thour Do ,I, a-.)ntrol oxperiments do not agree closely rith th ry, they indicate the feasibility of tho ,roponod construction. L. zoo &ITALLUPWAL LITINANAt CLAWFICATIC" it 0 0 0  dystrot I ~9_ -1. A 0, 11C Iiiele,116 Oam flaya -1 dil Ali, , !mi& 7 -a! bCtwCqm wrl(,Ak~ ,,Td Cad"Alo, From 11-~ d-A-r- critial equati,)n of inotwn of a allriqlv repreemativii mc iracgral ek uatinn for t1w toud cim--it deasill- on 0, A! 's (leduccd ill W1.1119 of the applied vollage. P'l, r negligibbo 5pave diarge, thi-, (Hula L~ now romi"Aoud zl~i r! I m6ts. Ivith will eb~(Voll E~mnm mt *0 im! vwlw,,n~n, throlij-11 in,(N-cunc~~ L ow? !~2! din whae ut, w le flic (me an-ular vsvhcity~ ands i - RlwmL Tho voltar ir which go V(x) N tho 4bkk, voltagt~, G all intagral cqlvizioa in tem's Cf Che Ot!ctran s!m)-m (miats. The F;oludon of (1) is attachd in aceoldmice w,101 &w mothad of sticcuMve appradmatliw",of X-LAJndaddt altAl, A. and N: Baguknut-~x,~~!Iltr a~ N -it, Nhdian* Aim duction tc oa-Ulie. I a:41 of udif'3, no. 11, prillecton University Pmsq, ~ 1143 flicst, lt~Psi% 4, 152]. Ortly the first co ctioa L~ via to the fre,- frequ,61,`~t is dcrivcd in goneval forM Application is made to Ov,- memotron, i.e., a diqt~ invity klystron with impremd corwalit C110'ent demny. Tho con- dition for !zulf-e_xcitaflon is v:~;Lahlimlied and batli thii free frequw1cy and the arliplitude -,)f t1w VOIA-1ge ordilation Itre. computul. The maximtrin of powor hiteractiost haiv~ui elcuma stream and Cavity i'a a1sr, dc'dlloxt E_ ;116w. viathatrinUcel Maviews, VOI So 110- 5 rip 'Agic v1strIM 1011 'Jim moll-ESCOMP'" %A th, -011,Ml,  Tbm Tbom of Um Smookedil. 11,1,41,faill. (ZA, f4tp. I*of, Pil N.) ,, pp. In kuaiian. %tth Engt6l% ...I wi, I 14~)nAnt hequencisrss. tile ansplitusic t..l1."nAFY %lisl4tkisru. tile effictirmy. And tile ..wma MIU11FIld 1411- CXCItAtitlil .1tr dCtq'# file monotrue. I he noutud rites 8, a anigh- "t'llit uty.troll -Iiinie -'IsorrAllim 6 Im'r-1 .I% tile 1.,~t 111.1t rlt-gAti C fill,1101AMO CAU Ill? 141-11i'Vil t') J-4,11nit All klipcharV t--t-e,-n t--- I-Ah 1 1114111" 111C 061011A 111"lli 411 ) I N1,11). f 11,4, 4,14 1"I" .11 I'll 1) And 1: Is I I Its., 4 is , , -.1 I.,p), I,  USSR/ftelters Nov 1946 Systems, Electric "The Self-Excitation of Electric System With Die- l$ tributed Parameters , S. D. Gvosdover, 10 pp "Zhur Eksp i Teor Piz" Vol XVI, No 11 Published in English in the Journal of Physics of the USSR., 100 481, 1946. 13T71  000 01111 0 00 04'17;~~ -L -,A-- x ..F -0 A-A-1-ILL W. W L 77 A , a! a I --"~ I tosar-Pressese Dbeharp fMM M bwsm"- . ~t b"a t cam Undwr CmAkisas of a rres System (In Russian.) V. Bulst and S. Gvotdaver. ofourptal of Technical Physics (U.S.S.R.), 00 Gim multi of a theoretical study Of lOw-Pr"Ou'v discharge from a cathode heated to IntandescerIct. 00 In the spedW case when the discharge current fit lower than the electron -emlselon capacity of the cathode at the incandescent temperature. The formulas and graph& derived from this anal 09 ;1 permit solutions of the problem of determirdnXII: voltage of the tube and the cathode drop whtn the m disch rge current, voltage. and i men op:T2"' tube 'are known. f the jt Woo AS* S k 4 01TALLURMC.L t1Tfft1rVaj C,4111FKATIC0 .11 O.V Got oleo 24i4j, W CAV 't, U of 0000100 see $09 00 066 0 0 * 0  USSR/Nuclear Physics - Paranse"t1GIL Aug 50 Nucleus Resonance Os;~~dying the Paramagnetism of Atomic Nuclei by the Method of Magnetospin. Resonance," S. D. Ovozdover, A. A. Mugazanik, Moscow State U "Zhur Eksper i Teoret FIz" Vol XX, No 8, PP 705- 721 Solves problem of nuclear induction in form of Volterra integral equation and obtains relations that permit one, in terms of'parameters of radio signals arising during magnetospin resonance, to determine how the vector of magnetization due to 165T53 USsR/Nuclear Physics - Paramagnetism Aug 50 (Contd) magnetism of nuclei varies with time. Estab lishes equivalence of form of radio signals to amplitude of high-frequency magnetic field and works out new method for measuring time of prolonged relax- ation. Details case of periodic modulation of constant magnetic field. Compares results of experiments with theory favorably. Submitted 26 Jan 50. 165T53  0 9 0 0 0 9 0 0 0*0 see 0 0 41 41 43 a C 0 W It 4 X L - - PO 2 T W ON I u an a it v A x jw 3 It AT It ri ;- vott"Ve AP4P "01ONMI913 IrnIVIRS111 IV311MOM11fila I I 1 9 A q t: VI! ` of) so= DOM so* 002 111410 .11141, U1,131-jalul M11 1-blurl-11111 lapim", Igloo Ill 1-11114111 AjVtjfj W.'j, I'll, 1jr, %-I 0 O's u"10-114- 1'. -ul'umd"JI IPA'-il-u ."11 m. amk 11"wrl'I'll 0: 0: es* -81 lpfq~ -1-4. .1111 pur -Sonvu.~1 'p"m -11 1,-u 00 092 ~kj. '11111v,' ,InK ul-litrialul Atil 1.1111 1k.1.1ml, .1 1.1,1 son 000 it wf. pul, (I 214~jk J,~J. ~.,Jj p- 00 o*= y d-I -.7 00 1:0 00 -*-"a -vu I p 11-0 "-v mp 10 Aft-j 4q, no v 00 go. so- IP so 00 so 00- r so so- -N 00 00 ------- 00 00 11 A I r A Vo IT it a a It A so 0 0 00 0 0 0 0 0 0 0 0 "o so 0 *to 0 91k 0 o 0 o 0 0 0 0 0 00 00 0 000 0 0 0 . . .. ..... ....  Cr 0 ~I The shzpa of mapetle mounce signal% of S-EL11u, mdaixr and N. =Ym (! ~al 1~cv~- Vewlik 110jON, 'Set. _~'B~_Atrjt~ I -,Fir "414f. rCt, If-Ok, 74-01(1953), cf. C.A. 48, IM99e.-The %irlial,Nbape 110111,~- clear magnefic ".ionance e)zvtj. Is represvituli by thel -nlw- tion at an Integral cquati,on. A niedsod ~Qf W10114 Illi-I - Cquation is dovelaped wbich. is suitable to; thl, Ocatmb--it of. most of the visu encountercd in ptacticc, lrc~itveraleum which have wit bten c6risiderrd prevkKisly, oh~ sigual -if6PPIS graphic lly.  GVOZDOVXR, S.D.; POMERANTSEV, N.K. Form of signals in magnetic resonance in the case of non-interacting, spinning particles. Vest.Mosk.un. 8 no.6:85-94 Je '53. MRA 6:10 1. Fizicheskiy fakulltet. (Electromagnetism) (Nuclear physics)   I M-4 1 :11TURIC" rMINIMM.". I !"E X-t FJ~HEML FOR ru ()Tji;rq Y N -rio,,f or VI t L;Lv;l. r-'amlixted by :'Pjl)tl Tooret. FI! 25 43q-41-)(19G6! )f 3VI "ill  GV0HOVULk, S. D. Prof. "Development of Radiophysics and Electronics at the delivered at the plenary meeting of the Jubilee Session of physics held at Moscow State U. 10-14 May 55, Vest. Mosk. Nauk, No.6Y 1955. Physics Faculty," a paper the Conference on Radio- U., Ser. Fiz-Mat. i Yest. Sum. 900, 26 Apr 56  USSR/ Physical Chemistry Molecule, Chemical bond B-4 Abs Jour : Referat Zhur Knimiya) No 4, 1957) ioN4 Author : Gvozdover S.D., Pomerantsev N.M., Folyakova A.L. Title :Te-te-r-nUm~on~of Tiw. of Transversal Relaxation of Nuclear Magnetic Moomts Orig Pub : Zh. eksperim. i teor. fiziki, 1955, 28, No 5, 584-588 Abstract : A theoret determination is ma&i of t-he co"elation between the quantity cK - (2/a~n)1~2 2 , vhich includes the tirae of transversaL relaxation of the nu- clei T2, and the ratio Z of amplitudes of first and second extremes of dis- persion signal arising on nor-adiabatic passage of mgnetic field throu& resonance; hertin a is a quantity propoTtional to the rate of modulation of the magnetic field:-. Correlation between alpha and Z is presented in the form of a table and graph. By Pe described methoda determination was made of timq T2 for spins of i17 nuclei in the compound BF 3 .2H2O : T2 0.9 . 10 -~ second. Card 1/1 F I T  U.'-')SR/DTuele&i, PhyLUes Mugnet;ic resonanct:. oi* nuclei M-28'(o Card 1/1 Pub. 146 - 13/26 Author Gvozdover,, S. D.; Iyevskaya, N. M. Title Determining the time of transverse relaxation during magnetic resonance of atomic nuclei in weak high-frequency magnetic field Periodical Zhur. eksp. i teor. fiz., 29, August 1955, 227-230" Abstract The authors develop a procedure for measuring -the time of trans- verse relaxation which is based on a determination of the time interval between extrema of dispersion signal in a weak high- frequency magnetic field in the case of non-adiabatic transition through resonance. They obtain relations and construct graphs which permit one to determine the time of transverse relaxation. For an experimental verification of the procedure they measure the dependence of time of transverse relaxation uron the concentration of paramagnetic ions in aqueous solutions of copper sulfate and iron nitrate. Seven references: e.g. S. D. Gvozdover and V-1. A. Magazanik, ibid., 20, 705, 1950; S. D. Gvozdover and N. M. I-yevskaya, ibid., 25, 435, 1953; N. Bloembergen, Nucleax Magnetic Relaxation, Hague, 1948. Institution Moscow State University Submitted May 22, 1954  USSR/Nuclear Physics - Nuclear Relaxation i 17D- 3339 Card 1/1 Pub. 146 - 11/28 Author Gvozdover, S. D. and Iyevakaya, N. M. Title Determination of longitudinal relaxation time at magnetic resonance of atomic nuclei in a strong high frequency magnetic field Periodical : Zhur. Eksp. i Teor. Fiz., 29, No 5, 637-644, 1955 Abstract : Two methods of longitudinal relaxation time determination are devised, by using the envelop of dispersion signals observed in a strong high frequency magnetic field during the variation of a constant magnetic field, and by measuring the distance in time to the inversion point. Correlations allowing the determination of longitudinal relaxation time are derived. As experimental tests of the method, measurements are carried out of the relation of the longitudinal relaxation time to the concentration of paramagnetic ions in aqueous solutions of copper sulfate and of iron nitrate. Eight references, including foreign. Institution Moscow State University Submitted June 18, 1954  PHASE I BOOK EXPLOITATION 530 Ovozdover, Samson Davidovich Teoriya elektronnykh priborov sverkhvysokikh chastot (Theory of Super-High Frequency Electronic In3truments) Moscow, Gostekhizdat, 1956- 527 p. 25,000 copies printed. Ed.; Kostiyenko, A.I.; Tech. Ed.: Tumarkina, N.A. PURPOSE: This monograph is approved as a textbook by the Ministry of Higher Education for students familiar with the subject of general electrodynamics as presented in university courses. COVERAGE: The monograph exposes the theory of only those electron h - f devices which are firmly established in practice and whose functioning can be understood through the concept of a single type of oscillation or wave. An exception is made in favor of the multicavity magnetron which is reviewed in Chapter 10. Problems of technical design are not covered in the monograph. The author thanks Docent M-D Karasev for his Card 1/12 Theory of Super-High Frequency (Cont.) 530 help. V.M. Lopukbin is mentioned as the author of the work on "Excitation of Electromagnetic Oscillation by Electron Flows." Soviet scientists M.S. Neyman and V.I. Bunimovich are credited as the first to introduce cavity resonators into radio engineering; D.A. Rozhanskiy, as the first to suggest the creation of electron flows variable in density based on the principle of the rapid electrons "catching-up" the slow ones; and A-Arsenlyeva and 0. Khaylem of the Leningradskiy fiziko-tekhnicheskiy instittut (Leningrad Physical-Technical Institute), as the first to describe a tube functioning on the basis of this principle. V.F. Kovalenko's book giving the fundamental8 of the design and functioning of certain superhigh frequency devices is praised. There are 131 references, 94 of which are Soviet (including 13 translations), 22 English, and 5 German. TABLE OF CONTENTS: Foreword Card 2/12 USS;/Electronics Vacuum Technique, H-9 Abet Journal% Referat Zhur - Fizika, No 12, 1956, 35227 Author: Gvozdover, S. D.J, Sludskiy, V. N. Institution *. None Title: On the Occurrence of Oscillations of the Relaxation Type In Electron Guns Original Periodical: Vestn. Mosk. un-ta., 1956, No 2, 37-44 Abstract: An attempt was made to explain the causes Of Occu-r.1'emce Of self- excited_cAwrent oscillations in the space between the grids Jm an electron gun. Theoretical calculations are given for the pootentlal distribution, In which it is asoumed that the problem i0 it txla- dimensional one and that the potentials of both gridt; are the i3amt%. It is shown that for a certain value of the current a virtual cathode occurs in the inter-grid apace. Since the latter ianleMa all ano~_ter, smaller value of the current, current oscillations of ti`h6 relaxation type become possible. The authors propose that the vanishing of the Card 1/2  USSRjhlectronics - Vacuum Technique. H-9 Abst Journal: Referat Zhur - Fizika, No 12,, 1956, 35227 Abstract.- virtual cathode occurs as a result negative space charge by positive ionization of the renwants of the tion of the theoretical deductions agreement is shown. The authors a can be used to construct a manomet of the compensation of the ons, formed as the result of ;as. An experimental verl-fica- is given &-nd a qualitative isume that the above phenomenrin ~r for presaures below 10-6 mm mercury. Card 2/2  mane-tic reantuo qt u V ic AIL flIlft W-F ~cy anid ~ -vcr %n4 c t - 0. 1. to R uns , aw 52 71-.417 Eacl:j",  AUTHORS: Bragins,1.: i-,-, V S J; Trofimenko, I.T. .3 TITLE: Mutual synchxoniza'-ion of ef,Lex 1--, amplitude and sinkhronizatsiya c.tr~izd iiy"-"1,, ~3 L". amplitudy i cLastoty.) PERIODICAL: RadiotekluiPra i pp.1048--1052 + I plat-e ~~_TSS16 ABSTRACT: One of the r-of'Lc.,Y: comparatively narrow tuniti~-_, range, I-, lu~:~r~- be-e-n however (Re-f.1) that it is klystrons -iu pargile!) I.-ut-is, In the follz~viing it is prop,,, sed J tailed investigation, T h ~_-- f - rc- "lex 7 Fig.l. consists or tvx-. f.requejacies f and f, and Such tlla~ UID and 2iu a:r-e have a coupliiig k F klystrans, nif' d Card 1/3 The process o f sy i i, I L r fi. t ir)n 1  Mutual Synchronizat.Jori of R(--flt~-x Amplitude and Frequen.-y Dis -;,.i rit diagrammat i ----al 1y i nF E T. carri P. d o ut o ri the vicinity -,!' 10 factors of' 11--fie crder cr '700, 1 "T ~J the permitted values of the klystrons is amplitude ancl 'r,:-quenr~y; -1 ~P witb-in the proceeds srncut~lly (See T-- resented as sYio,,v-r, in ion of laystroll- is plane. I'l" Is seE-r- tt-in- j)i- such as QK < 0,0.j vq-jo r.--. klystron, increase in Only OVC-2t -a Ql- For values o~ and ampl-lude as a funftinn o 1 n Card -9/3 is shown 19~'  109-8-9/17 Mutual Synchronization of Reflex Klystrons Without Producing Ampli-tude and Frequency Discontinuities. seen that it is possible to obtain an almost constant output power over detuning. ranges of about 40 MC76. There are 5 figures and 4 re~erencest of vtiich 2 are Slavic. ASSOCIATION: Departmentof P*sles of thelPloscow State University imeni M.N.Lomonosov. (Fizicheskiy Fakulltet Moskovskogo Gosudarstvennogo Universiteta im. M.V. Lomonosova) SUBMITTED: November 29, 1956. AVAILABLE: Card 3/3  GVOZDOVER, S,D.,doktor tekhn.nauk . I --- -- - Gifted Inventor and scientist V.F.KovAlenko. Izobr.v SSSR 2 no.10:35-36 0 '57. (MIRA 10:11) (Kovalenko, Vadim Fedorovich, 1907- )  'J. A. A, , - '-, - . - . , I- - -- . __ ~ - . I - - . - I _1 - - I ~_~ . . * : - I , .' "An Autodyne Radiospectros cope ia tile 3-c-111 lv,ave report presented at the All-Union Conference on Statistical Radio Physics, GorIkiy, 13-18 Octbber 1958- (Izv. vyssh uchev zaved-Radiote?dl., vol. 2, No. 1, pp 121-127) COMPLETE card under SIFOROV, V. I.)  AUTHORS:Gvozdover D., Kos LjubL:-,,),T G 'I tiyenko, TIME: Experiuental Study of th-a Mutual-3ynclftronous of the Reflex Tdystrons of t-Iie 3-cm Vlaveband izucheniye raboty klistronov 'Urckhsantuine-t-rovo-o di_cpazona) 7 PERIODICAL: Radiotue~dmi'lca i Elek-tronika, ABSTRACT- ?Autual synchronisatiw,-, of the reflex, can )c explained v"it'li roference to Firr.1, Y.-I-lic-'a _-e-.,rczenuts 0 the frequency f of '~-wo :-s -a put power p and function of--U.'Lie volta-c a-.-)Pl-i--d to the rcflec'tor. 0-1c. :)f the 1--lysturons -o-.;,-rates at a fr~~que-_acy soratewliat 10-1-.7;--. r the other, but the difference is sucI_ th-Z-b tLe j t -.D u -.)Ow 'ri-- -)f ~`.c a tl- --- er of one of the klystrons dccrea5es U_ ;.1j V;. 4-- increa3os. Cons-,)quentl7, it is _msibl~ t.,.-) alm,os~ ovor U.;"c L~: t'r I e t vi o " S t Ou d Y S t~ a v e n f r --, (7, C. i a - t'r 1 rosultin- :m-V-,1.It fvequonnc~ C rn' r Lr_; 0 Y - - ~,C, -.-, U~ -1 cc, .2, .-' i'l I - lo'i of tlb~t~ ro-c- L'or volt-~,ro. 2~ 0 -ated o_-:)eri!~,tontally T)y :r~aiis :)f 11-~2c bloc!-,, of Fi:7.2. Tiie Card 1/3  10"'o, -1- 12/ 1 ~~ Exoerimental 3tud-l' -)f t-h-- 0_)Cration of R-_,J:1cx Klystrons of th,~D ',11aveband outputs, (2) attenuators, (3) waver-:i-ide junctions, (L~) a T-junction, (5) an (6) a waveGuide-cable (,-) a det-e,_,tor (~)) 2 klystrons, (10) a (11 a sy)ec- (8) a load, 4 U-rum analysor, (12) an a:a, -Iifinr, (i') zm o1scilloi, (Izi) a sawtoo-111-h volt-a--e Zret, a and, (16) The out--ut and fraquer--cy curves z:.s a Of t.`_3 re'Ll.'etor shom_ in- Fi:;-s.ja c-nd 315. 1u Via.; fo~md IV-11at tl,,(i 'J,-J~r__ ~_) I k ~ - j strans can be o-oerated 1,Lnder several di'fe7-ent nodest sD!2e of these are ch~_ractorised by the abjence of mn-j-uttal ch_ro_ni7,LLtJ_jn n1iilc oth,~_vs i~-iay lead t1u, the beats. I'U- was found. for exam:jc, -U_'iat the sync_',Ironou~; rer-irule coald 'Do obtain--d if Vie reflector volta.,:~-e 1. 7a!3 V-r- led by �5 V. Same ex-)~_riiacntal vor'r-L was carried out oll and 5 klystrons with a. co-.mmon load. T',-.c and froquency res-,Onso of the 3-1~-lystrmi in Fil It:, L'tio !)(Dwer on.so of L.I~le 5-'--17,~%otr )n Card 2/3  Experimental :-3-budy of trio M'ut~u'l-Tncllron 0-~ Klystrons of iu-~'-Lc 3-c-'Al V' S illustrated in Fr,,,,-!i tllt;~ above i- 4 uhat t'l-L-c zjr:-~'Ue,., can b-. u.-3ed i---l catixis? villel-cc's -Ull:) Y., r --) its, a, z,,T.,iP, i c a i T, -3 r zi2 Ru3sian ASjOCIATIOi-., : 101) SICS 'Facul"UY .-;.L" Ui~w '.1o0cjl 4 V. -d r s 'u v e n n o ~~ o u -n i v ~D r 3 i to t a J- I . VL 3 '/) L~)56 AVAIIABIL: Library of Congress Card 3/3  :~jOV-12 0- AUTHORS: Al-,hmanov, S. A- Gvozdover .3. D,1 Konouantinov, fa, 3" and Ti-ofimen!a), TITLE A,.,,,,)Iicatio-,i of a TINT-Generator and tne Observaui:)-, of Electron Paramagnetic Resonance L3V- ,-,~,-aneratora dlya nablyuderLiya eL,,I;-.-'uro,--m-,) .-o rezonansa) PERIODICAL: Fribory i Te.'chnilca EKsperimenL-L, 1-5J. Nr 100) (USSR) ABSTRACT: A traveli-inc, wave tube (T',.VL) connected --Cros-- an e--r-- LD ternal feedbac-~- circuit may be used u.,:.,, a -enerator Of u.1-L.f. vibratims (Re'Ls.1 and 2), The frequency of the vibrations is determined by -;L resonator in the feedbac'!: cirui'Lit. Such a generator has been used by the authors in the 3 cia region in the observation of electron para- aiamrne'ic resonance. The si-~ecimen under inve,3tl:,-.-,a-ui,)n 0 u (diphenylpicrylhydrazyl) was place-,' directly in the gen- erator circuit and. in the elcctromagnf:,~t gap, The uniform- ity of ~he exterrial magnetuic field was sufficiently hi~.7h and had no effect on the form of absor-rtion lines, The absorn- tion signal ,,.7as detected by a crystual detector placed in the feedback channel. As the feedback is reduced and t'he oscill- Card 1/2 ation threshold. is approached the sensitivity of the TVIT  SOV-120-58-3-32/33 Applicat.L.-m -)-f a TWT-Genera~or and bile ParamaLmetic Resonance sent_--rator increases. In the observation of an absori)tion. si-nal recorded on the screen of an oscillo.-;Cope the ratio for a topeci:i1ozi (~O[Itak:";1.11!~ 10- ..ioles of di-,)"Li.eiiyli)icrylllydraz,-rl was not less tiian 4:1 (bandwidth of the low frequency oscillator %-..-as 2 '-Zc/--). There are no fiZures or tables, Of the ~vjo roferolic-~s, 1 is Soviet Lind 1 is English, I ASSOCIATION: Fizicheskiy fakulltet MIGU (Departaent of Physics of ulle Moscow State University) SUBiJITTED: ~,]hrch 11, 1958. 1. Vibration---Propagatior, Traveling wave tubes-.- Applications -33. Resonance--Magnet4C faoto~-S Card 2/2  GVDZDDVBR, S.D.; WFMIIT, V.M. "Introduction to nuclear phyfiies" by V.I. Kalinin, G.M. Gerahtein. Reviewed by S.D. Gvozdover, V.X. Lopul-chin, VX. Usp. fiz. nauk 66 no.4-.700-702 D '58. (MIR& 12:1) (Nuclear physics)  AUTHORS: Akhmanov, S.A., Gvozdover,,,p SOV/120-59-2-11/50 and Trofimenko, -!-.T-. _,.,D., Konstantinov, Yu.S., TITLE: An Autodyne 3 cm Radiospectros cope for Electron Paramgnetic Resonance Studies (Avtodinnyy radiospektroskop 3-santimetrovogo diapazona dlya nablyudeniya elektronnogo paramagnitnogo rezonansa) PERIODICAL: Pribory i tekhnika eksperimenta, 1959, Nr 21 PP 38-40 (USSR) ABSTRACT: A travelling-wave tube is fitted with variable phase- shifters and a ferrite isolator and is used in a regenerative (or super-regenerative) mode. The oscillation frequency is that of the cavity contai png the specimen. The system is tested on DPPH~h2xl mole is readily detected in the autodyne mode. e magnet is normal; a simple crystal-video detection system is used. The quenching frequency (20-30 kc/s) used in the super-regenerative mode is applied to the spiral on the travelling-wave tube. The sensitivity can, in Card 1/2 favourable cases, be increased by a factor of 2-3, but  SOV/120-59-2-11/50 An Autodyne 3 cm Radiospectros cope for Electron Parawgnetic Resonance Studies superheterodyne or other methods are needed to give any further improvement. Card 2/2 There are 2 figures and 1+ references, of which 2 are Soviet and 2 English, ASSOCIATION: Fizicheskiy fakul'tet MGU (Physics repartment, Moscow State University) SUBMITTED: Janaary 14, 1958  05486 s ov/14 1-2-2-11/ 2 2 AUTHORS: Gvozdo and Solodar', G.G. dover TITLE: haracteristic Equation of the Travelling-irave Tubes for Medium Currents PERIODICAL: Izvestiya vysshikh uchebnykh zavedenly, Radlofizika, 1959, Vol 2, Nr 2, pp 229 - 243 (USSR) ABSTRACT: A problem similar to that presented in this article has been dealt ifith earlier by S. Olving (Ref 2). A more general approach to the- problem is attempted here, it being assumed that the geometrical parameters of the tubes are arbitrary. The notation adopted is similar to that of earlier work (Ref 1). Also, a new function, defined by Eq (1), is introduced; this is plotted in Figure 1. The basic 1-inear:Lsed equations of the system, derived under the assumption that the alternating components are appreciably smaller than the direct ones, are similar to those of Ref 1- M(i~ffl, a-U0 = N(aT, b-r) (2) where M, N and T are defined by Eqs (3), (4) and (5). Cardl/4  05486 sov/141-.2-.2-11/22 Characteristic Equation of the Travelling-wave Tubes for Medium Currents The right-hand side term of Eq (2) can be represented in the form of Eqs (11). Tkt6secan be expanded into the Taylor series so that N can be approximately represented by Eq (15). M of Eq (2) can be represented by Eqs C17). This can also be expanded into the Taylor series as is shown in Eq (19). The final expression for M is given by Eq (24). By substituting Eqs (15) and (24) into Eq (2), an approximate algebraic equation, w1th X as the unknown, is obtained. The resulting expression is in the form of Eq (24) or, finally: 2 X(l + QBX)(X + L) = _ (1 _ QX)2 (26a) where B is defined by Eq (26B). If the tube is such that it fulfils the conditions defined by Eqs (28), the characteristic equation is simplified and can be written as Eq (29a). The function M can also be expanded by moans of the asymptotic formulae provided the conditions Card2/4 of Eq (30) are fulfilled; in this case, the characteristic  0506 sov/14l-2 2-11/29 Characteristic Equation of the Travelling-wave Tubes for Medium Currents equation is given by Eq (296 which coincides with Eo (29a). Similarly, it is possible to expand the. function N by jusaxis of the asymptotic formulae and the characteristic equation is then in the form of Eq (30B). First, Eq (29a) is investigated for L = 0 , which represents the condition of complete synchronism. The equation is now written as Eq (36a), which is a standard cubic equation; the complex roots of the equation are plotted in Figure 2 (solid curves). In the case of narrow beams, the conditions of Eq (28a) are not fulfilled and it is necessary to solve the complete fourth-degree characteristic equation (see Eq 26a). The equation was solved for L = 0 for various values of B Graphs �11ustrating the dependence of the roots of Eq (26a) on Q for B = 0.25 and B = - 0.0635 are shourn in Figure 7. It is eeen that the equation always has a pair of complex conjngate roots having a positive real component. At small Q and B> 0 the equation has a pair of negative real roots which, for Q = Q*, coincide and become a pair of Card3/h  0506 SOV/141-2-2-11/22 Characteristic Equation of the Travelling-wave Tubes for Medium Currents complex conjugate roots. The paper contains an appendix which gives expressions for the roots of Eq (36a) (see Eqs 1-6A) and an asymptotic expression for the gain factor of the tube (see the Eq 6"A). From' the analysis, it is concluded that the complete fourth-degree equation has complex roots (in the region which is of most practical interest) which do not differ appreciably from thoseof Eq (29a). The coefficient of depression derived on the basis of Eq (26a) is twice lower than that of the "small- current theory". There are 7 figures and 7 references, of which 6 are Soviet and 1 English. ASSOCIATION: Moskovskiy gosudarstvennyy universitet (Moscow State University) SUBMITTED: juiy 18, 1958 Card 4/4  PIUM. I BOOK E)DWITATION SOV/4705 PAdiofizicheskaya elektronika .(Radiophysical Electronics)[Moscow]Izd-vo Mosk. univ-, 1960- 561 p. Errata slip inserted. 15,000 copies printed. Ed.: N. A. Kaptsov, Professor; Tech. Ed.: M. S. Yermakov. PURPOSE: This book has been approved by the Ministry of Higher and Secondary Special Education, USIM, as a textbook for sch661s of higher education. It can be also used by 13cientific personnel working in the fields of radio engineering and electronics. COVERAGE: The book presents problems of vacuum, cathode, semiconductor, and gas electronics, on which is based the operation of vacuum-tube and gas-filled devices, including microwave devices and also apparatus and instruments used in electron optics. It is assumed that the readers of this book bayea pre- liminary preparation in the fundamentals of nuclear physics, quantum mechanics, statistical physics and electrodynamics. The book was written by a group of lecturers of the Physics Division of Moscow State Uaiversity. Card I -L- TTEU  gadiophysical Electronics SOV/4705 Chapters I, II, and 1171 were written by Professor N. A. Kaptsov; Ch. TV. by Professor S. D. DvozdovL-r,' and Docent V. M. Lopukhin; Ch. V. by Professor Q. V. Spivak and Assi Ye. M. Dubinina; Ch. VII. by Docent A. A. Uytsev and Professor N. A. Kaptsov; Ch. VIII. by Professor N. A. Kaptsov and Assist- ant G. S. Solntsev. The authors thank Professor S. Yu. Luklyanoy and Docent M.D. Karasev , who reviewed the book. There am 76 references: 68 Soviet (in- cluding 14 translations), 6 English, and 2 German. TABLE OF CONTENTS: Foreword Ch. I. Subject of Physical Electronics. High-Vacuum Electronics 9 1. -Introduction 9 2. Transmission of electric current through a high vacuum 13 3. Space charges in gaseous, liquid and solid media 21 4. Physics of electron tubes 21 Ch. II. Semiconductor Electronics 29 5. 'Electron energy levels in crystals 29 6. Impurity semiconductors 32 7. Law of electron distribution along the separate energy levels in semiconductor energy bandEs 36 8. Density of energy states in any energy band of a crystal 39 Card  R3.dicphyskai E-,~c~,ronica sov/47o5 36. C---sium-oxide photocathodes 142 37. Antimony-cesium cathodes 145 38. Other types of photocathodes. Explanation of phenomena occurring in complex photocathodes 147 39. Selcondary electron emission and methods of investigating it 148 40. Abnormal secondary emission. Halter effect 156 41. Vbchanism of secondary electron emission 158 42. Photoelectron multipliers 159 43. Secondary electron emission under the action of positive ions, and excited and neutral atoms 163 44. Other types of cathode electron emission 164 45. Shot effect and flicker effect 165 Ch. IV. Microwave Electronics, 168 46. Introduction 168 47. Dffferential equation systems of electrodynamics and microwave electronics 174 43. Excitation of resonators by electron flows. Concept of induced current 180 49. Double-calrity klystron 182 Card -5/~  rediophysical Electronics sov/4705 50. Reflex klystron 194 51. Traveling-wave (TI-1) tube 205. 52. Backward-wave oscillator (BWO) 229 53- Magaetron 234 54. Space-charge effec'G. Concept of space-charge longitudinal VW;e3 249 55. Electron-wave tube (,TW) 2614 Ch. V. Electron Optics 271 56. Subject and problems of electron optics n_6 57. Optical propertief, of :aIectric amd aw tic fields with axial symmetry 276 58. lienses of electron optics 281 59. Magmetic lenses 282 6o. Electrostatic lenses 286 61. Microlennes 303 62. Electronic mirror 305 63. Geometrical aberration 307 64. Chromatic aberration 3l4 65. Resolution of electron-optics instruments. Space-charge effect and certain methods of correcting lenses 318 Card 6/-4,g,  21602 5/109/60/005/010/025/031 E073/E482 AUTHORS: Akulina, D.K., Akhmanov, S.A., Gvo.zdover,_._S_.D., Gorshkov, A`.S. and Trofimenko, I.T. TITLE: Parametric Phenomena in Wave Systems With Long Electron Beams PERIODICAL: Rad"iotekhnika i elektronika, 1960, V01.5, No.10, pp-1736-1739 TEXT: The phenomenon of parametric regeneration which was first investigated by L.I.Mandellahtam and his associates (Ref.1) in systems with lumped constants may also occur in wave systems (Ref.2). The considerable interest in wave systems with modulated parameters Is due to the prospects of building stable amplifiers and frequency converters with a very wide band which are simple to tune and are unidirectional. In principle, it is possible to obtain in the wave systems noise characteristics which are the same as those obtained in parametric circuit amplifiers. One of the possible variants of wave systems with modulated parameters are wave systems with long electron streams. First, a freely drifting beam of electrons represents a form of transmission line; modulation of the current density by a strong pump signal is Card 1/5  21602 s/iog/60/005/010/025/031 Parametric Phenomena ... E073/E482 analogous to some extent to the modulation of the distributed parameters of a transmission line (Ref.3 and 4). Another example of a waveguide system in which the modulation of the density of the electron beam can lead to parametric effects is a system consisting of a beam of electrons linked with a delay system. Wave systems with long electron beams are at present one of the most suitable fields for studying parametric phenomena in wave systems, since it is difficult to produce purely distributed wave systems with semiconductors and ferrites. In this paper the results are briefly described of experiments on parametric amplification and transformation of the frequency in wave systems with long electron beams in which the interaction of the electrons with the high frequency field in the I longitudinal direction is utilized (see also earlier work of the authors, Ref-5 and 6). The experiments were made in the centimetre (fc = 3000 -3500 Mc/s, frequency of fH-*g 6ooo mc/s) and the decimetre (fc-- 1000-1800 Mc/s, fH = 3000 - 3500 Mcls) ranges. In the experimental set-up both the pump source and the signal were introduced into the electron beam by means of sections of helical lines. The main beam of the electrons first passed Card 2/5  21602 s/log/60/005/010/025/031 Parametric Phenomena ... E073/E482 through the first helix in which it was modulated by the pump signal and then into the second part of the tube where it interacted with the signal. The interaction was realized either in a drift tube (for feeding In and for extracting the signal, small sections of helical lines were used) or in the helical line. The power of the pump signal at the input and the output of the first helix was monitored; measures were provided for filtering the pump signal on the indicating apparatus. The block schematic is given. The parametric amplification was clearly observed in systems of both types for powers of the pump source varying between 200 )LW and 1W. A common feature was the very wide band of the parametric amplification. Thus, in the decimetre range, the amplification was in a band of about 500 to 600 Mc/s with very little change in the gain for the band of the pump source of 200 to 300 Mc/s. In conclusion, the following Is stated. Parametric amplification in wave systems with electron beams extends over a very wide band; for pump signal powers of 10 to 100 mW in systems with lengths not exceeding the dimensions of ordinary TWT, a real gain of about 20 db and more can be achieved. Comparison of the experimental data with results of Card 3/5  2160-2 s/109/60/005/010/025/031 Parametric Phenomena ... E073/E482 calculations by W.Loisell and C.Quate (Ref.3 and 8) shows that the theory does not adequately explain the observed phenomenon. Firstly, disregarding of the combination frequencies is not justified and, secondly, various phenomena, as for instance the non-monotonic relationship between the coefficient of parametric amplification and the power of the pump source etc, are not explained by the work of Loisell. On the other hand, a number of experimental facts are in qualitative agreement with the theory; for instance, the selective properties of the investigated systems, the dependence of the coefficient of parametric amplification on the voltage of the beam for systems with a beam and a delay line. In the investigations described, no special measures were taken for picking up the noise energy; the minimum noise coefficient of the systems investigated was at the level of the noiae of the appropriate travelling wave tubes. Even in their present state electron wave parametric systems may be of interest from the point of view of wide band mixing and division of frequencies. Acknowledgments are expressed to A.S.Tager for his comments on the results and to V.G.Dmitriyev and A.A.Ovzyannikov for their Card 4/5  21602 s/iog/60/005/010/025/031 Parametric Phenomena ... E073/R482 assistance with the measurements. There are 2 figures and' 8 references: 4 Soviet and 4 non-Soviet. ASSOCIATION: Fizicheskiy fakulltet Moskovskogo gosudarstvennogo universiteta im. M.V.Lomonosova Kafedra radiotekhniki (Physics Department, Moscow State University imeni M.V.Lomonosov, Radioengineering Chair) SUBMITTED: October 30, 1959 (initially) May 5, 1960 (after revision) Card 5/5  GVOZD07TER, Samson Davidovich Theory of microwave valves. New York, Lindon, Pergarion Press, 1961. xiii, 486 p. diagrs., granhs, tables. ~:Lnternat Lo- z.al series of rionogra-hs --n ele,Ai---nics an,~ InFtrwnen- tatIon, v. 12) Translated from the originFil Run3ian: Tertya elek- tronnykh priborov sverkhvysukik~h chastot, MoFcow, 1950'. Bibliography: p. 476-481-  G-VPZDOVM, S.D. Development of radio physics and electronics at the faculty of physics of Moscow University. Ist. i metod. est. nauk 2:247- 263 t63. (MIM 16:11)  s/14l/.63/oo6/ooi/o13/018 E192/E382 AUTHORS: Gvozdover. S.D., Gorshkov, A.S. and Marchenko, V.F. TITLE: Investigation of travelling-wave amplifiers based on semiconductor diodes PERIODICAL: Izvestiya vysshi1d-vuchebny1di zavedeniy, Radiofizika, v. 6, no. 1, 1963, 126:- 136 T The amplifiers are based on a coaxial or s37nmetrical strip line with a T131-1-wave. Tkie lines are provided with parIa- metric diodes which either shunt the line or axe connected into the center conductor (see Fig. 1,, where Zs7 jz osin(pt YP = J(2/Z dtg(peo/2) and "e 0 is the length of a section of the line; for the series-connected diodes Z., = -2j:Zotr,,,(Pe,/2:) YP sin(p~ where Z is the wave impedanctg of the line; JT- 0 0 Fig. 113 represents the equivalent circuit of a parametric diode). The parameters of the amplifier are chosen in such a way that (A) 4) + W %,rh ere w is the ptunp frequency, w tile signat 11 = c P H Card 115  s/141/63/006/001/,13/018 Investigation of .... S192/E382 frequency and w the difference frequency; also., the phas 'e synchronism shouEd be maintained: Bc+ BP B where B C BH and, B P* are the phase shifts per dRoded segment for the signal, pump and difference frequencies, rilspectively. The gain factor of the amplifier with parallel diades is given by, (X m Y(wc )Y(W.P sin(P21 0)sin(,ec0') 2a 2Z C (0 w sinB sin B 0 c p p C. and for the series diodes it.is: Card 2/5  S/14l/63A06/001/03-3/018 Investisation'of C-192/ID382 m /sin(P oto)sin(p *go) CL (3a) 2Z CA a) 0 sin B -sin B 0 0 P P c wh er e m is the capacitanoe-modulatiOrL Coefficient, VHO is the wave-shift, in the; line, egment without ~diodea 0 .2 Y(W) Z 'WC J/ s 0 0 '611 01" ~h resonance frequency of th~e diode and C is the capa-6itance 0 a diode-holder. By takin*g into account the losses in 'the line which am assumed to be entirely due to the resistance It of the diod e$, it is found that-the gain of the amplifier is.: .2a N 2 n GP e OhL(a N (4a) Lwhere N is the number of the diodes and az., is -the' atteiiuat ioLn coefficient of a segment of a cold line. Two exberimental amplifiers were constructed* The system with parallel diodes -Card 3/5  $/I It 1/63/006/001/013/018 Investigation of .... E192/E382 ,nal and pump frecluoncy waves was built in such a way that the sig propagated along two symmetrical strip lines having the stuno external plates. The amplifier consisted of 10 sections in which the diodes had a-capacitance of 0.27 0-3 PF, the equivalent inductanue was 1.5 x 10-9 H and R S 5 - 7ohm. With optimum value biasing voltages of the diodes, an operating bandwidth of 12%) was obtained and the maximum gain was 13 tit). The calculatcd value of 'gain by using Eq., (2a) was 12 db. The aiiiplifior idith series-connected diodes also consisted of two syimiietrical strip lines and the decoupling between the signal and pump lines was about 12 db. A bandwidth of about 104% and gain of 7 db were obtained with this -amplifier. The noise factor was about 11 to5 db. The formulas for calculating the gain are reasonably accurate,- in particular, for amplifiezisoperating over the frequency range in the vicinity of the' resonance frequency of the diodes. However, the experiments and theory scem to diverge at em waves, which can be explained by the presendeof additional losses caused by the. contact of the diodes with the conductors of the line. Card 4/5  S/141/4 )j/0 fsign and fpump ~f sign* Nonlinear effects such as para- metric amDlification for f ~f . and f