SCIENTIFIC ABSTRACT TAGER, A.S. - TAGER, S.A.

B/109/60/005/071008/024 B140/E163 Excitation of Waveguide Systems by an Electron Stream with Prescribed Modulation attempts to generalise the method in Refs 1 and 2 to the case of excitation of wa~,eguide systems by an electron stream with rion- monochromatic modulation, moving over arbitrary defined periodic trajectories independent of the high-frequency field. This then 'Permits a unified treatment of the problem of waveguide excitation. Electron streams are considered with parameters varying periodically along the z-axis of the waveguide system, and of limited length. The method of solution consists in Ln-;esti,,z,-ating the behaviour of a fictitious waveguide resonator 'Iccupied by the exciting current and moving along the system with velocity of the beam. Various special cases are considered. T~Iere are 4 figures and 6 Soviet references, SUBMITTED; September 16, 1959 Vf Card 2/'1  A 2 JI ui Jill, Val as  f _, - 0. " -7 S/I 94"/651/000/006/1073/ D207-/D302 Theory (Df -,arannotric ampli-i-ication ancl, frC.I(I"Lle"Icy cliaw~'i-,-q- C "I _, in xi~wc,8uidc systr--ims 10 IUDD~~d, E ferati -vnyy zlturnal_ Avtomatil:a i 1-10~ 6~ 1961, 19, abstracL 6 K13:J, (V sb, `1010 Let so dn,7a rozhd, Popoval, I-I., .'Q-; ~30SSR, L960, 173- 187) TILc rA-.,.alv.,,is is given of and L" f r y iii wave~fuide L;ystez.,.s with pe ri odic Va,-17y)-Ilg paraln--ters~ ve-nora", C.--z"res-siolls -int. derived -Eor -a:Ln and noise factor for vari- ous ratios of freciue,Lcies avid of proipagation constants Of Si"nal to t-.,!C DUITLII? 131.,,-nal, From thc author's sumimar';. Ll ~,ujstrnc- ter's ilote" Coulplete t-r-"nslatioll-7 LA  S/ 109/62/007/005/008/021 D266/D307 _L',j_T_4GRS Vikulov, I.K., and Tager, A.S. TI'TIEE.- T--eracJon of a two-velocity electron beam with the -U U _L _L h-J.-,h frequency field of a delay line --RTCQ-C!~,'~- Hadiotek-hnika i elektronika, v. 7, no 5, 1962, 826 - 837 ~-`-e au4-,,ors study theoretically the effect of a two velocity beam on the operation of travelling wave tubes and backward wave oscillators. The usual linear approach is adopted leading to 2. Olk- 2 jWP ok' 2' + 2jpek bz - PekIk = v [E + E 6z ek' P TI .Plere k refers to beam one or two, C - Pierce's gain parameter, W/V 31 w - signal frequency, ve - velocity of the electron beam, p -olasma -~,;ave number; F- 0 - propagation coefficient of the circuit wave Card 1/3  S/199/0-2/007/005/008/021 interac-uion of a two-velocity electron .. D26b/D307 zropagation coefficien-1U. in the presence of the electron beam. .-ssu Lno- +hat C1==2 C = C, adopting Pierce's b (measuring here the devia-u-ion from the mean velocity of the beams) and d (loss) parame- Wer, and introducina h with the relationship h = "e 2 - '~'e I 2C v el U11-e real and imaginary parts of the propagation coefficient are cal- C-_Iated with the aid of an electronic computer. Satisfying the boun- ary conaitions 1-or a backward wave osciliator the authors come to u is possible wher. -he conclusion that. only one oscillation frequency one of the slow space charge waves interacts with the circuit wave. of the two-velocity beam in- As increases the starting current creases and at QC1 = 1 the starting current is already twice as large as that needed in a sin=-le velocity beam. Therefore the authors con- C~ clude that the a-oDlication of a two-velocity beam for the purpose of b_~c'.-:ward ~aave oscillations has no advantages. In forward wave opera- -ion the two-velocity beam leads to increased bandwidth. There are u,,,ro regions of amplification; one of them centers around b = 0 and Card 2/3  -7-- EVIO-j/62/007/005/008/021 --~eracz-4o,n. of a -.-wo-ve] elect-,on .. L260'/D307 b = 2h. The deperiOleiice of ~,rtin oi) CN is !)-'c)t;'-Od for tLide of the --ain sturori~;Iy deponds on QC. At QC = 1 :,.ndC "'~.5 tlh~~ ~;--in (-:r,,----eds that ob.-ained with ~.-he, aid o--r' a single- U o 3 i -c Yt~ a m. The au~ho.~s no'~e that the same tochn-irue car, be used the rro~oerties of a double beam ar,,ipli'Jer where no circ-,,il-. is ~)resent. There are 7 figxures, and I table. S O~n-ember 26, 1961 ""ard 313  ACCESSION NR: AP4043364 S/0181/64/006/008/2418/2427 AUTHOR: Ta er, A. S. g TITLE: Current fluctuations in a semiconductor (dielectric) under conditions of impact ionization and cascade breakdown SOURCE: Fizika tverdogo tela, v. 6, no. 8, 1964, 2418-2427 TOPIC TAGS: dielectric breakdown# cascade, spectral correlation function, probability, pn junction, random process ABSTRACT: An approximate statistical analysis is made of impact ionization as a cascade process, and an attempt was made to determine the spectrum of high-frequency fluctuations of the cascade current . in a planar layer of a semiconductor (dielectric). Such an analysis. would permit, on the one hand, to obtain additional characteristics of the cascade, which could be Verified experimentally, and on the other hand would provide an estimate of the noise properties of de- Card 1/3  ACCESSION NR: AP4043364 vices based on the use of cascade breakdown. A planar layer of semiconductor or dielectric is considered, in which a strong homo- geneous field produces impact ionization and multiplication of the resultant carriers (electrons and holes). The spectrum of the shot fluctuations of the carriers leaving this layer is calculated with allowance for the fluctuations of the multiplication coeffic~ient. The suppression of the current fluctuations in a cascade diode by the space charge of the moving carriers is also considered. The use of this model makes it possible, in particular, to investigate the spectrum of current fluctuations flowing through a p-n junction under large negative bias and cascade breakdown. The probability distribu- tion and the mean square of the fluctuation of the number of parti- cles in the cascade is calculated. It is found that, owing to fluc- tuations of the multiplication coefficient, the probability distribu- tion, the mean square and the variance of the number of carriers leaving the impact-ionization region differ greatly from the cor- responding characteristics of a 6-correlated random process. The Card 2/3  ACCESSION NR: AP4043364 spectral density of the cascade-current fluctuations at low frequen- cies therefore exceeds the spectral density of the shot fluctuations and may reach appreciable values. The inertia of the cascade pro- cess, determined by the characteristic time, causes a decrease in the intensity of fluctuations proportional to the square of the fre- quency. The spectral density of the fluctuations of the cascade current varies with the temperature exponentially at low frequencies, but at very high frequencies the temperature variation should be negligible. Preliminary tests have shown agreement with the analyti- cal conclusions. Orig. art. has: 2 figures and 35 formulas. ASSOCIATION: None SUBMITTED: 28Feb64 ENCL: 00 SUB CODE: SS NR REFSOV: 002 OTHER: 004 Card 3/3  '0 1 j /(10. i i7 % ,11, OV ~,OV' V. mf~o"'an' V. 'r, a ORG*~ TITLE; Su-,)erre,-enerative backward-WZLVe SO'jRC;11--: RadiotekYwika i elektronika, v. I I, ria, 1, 19616: 51-57 TOPIC TAGS: superre-enerative ai-riplifier, backward %vave arnpli-Ifier ABSTRACT: in i:efereuce to the D. N. Thomson theoretical wort, (Proc. Nat. El. Colif. , 1960, 16, 753-765) and to the R. Walter et al, experimental work in t' he 0 esults of millimeter band (Proc. IEEE, 1964, 52, 711), the article presents the r an experimental investigation of an O-type BW arnplifier operated at 1-4 Mc under Upe rregerie rative conditions. Plots of amplifier gain vs. varions parameters Gncludino- re sonance -curve shapes) are shown. The amplifier frequency spectrum and no-se factor were mez~sured. Th---se conclus'ons are offered: (1) The super- re-enerative BW am- I pli'ier cyain is much (30 db) higher than that o~r the regenerative arrlolif;er; (2) The superregenerator passband can be electrically controlled by vat-ying the frequency and voltage of modulation, while the gain can be maintainea constar.' '3) The noise factor of the superregenerator is roughly equal to that of the reaenerative amplilier. Orig. art. has: 9 figures -and I table. (031 001 OTH 'REF: 003 SUB CODDE: 09 SUBM DATE- I ISep64 ORIG REF. ATD Card 1 /1 UDC.  T 94241--66- _SYT(j)LETC(f)/EPF(n)_2/EWG(m) Jjp(c) AT ACC NR: AP6014613 SOURCE CODE: UR103861661003100910 9/0372 AUTffOR: Tagery A. S. 17 ~ ORG: none TITLE: Concerning one possible mechanism of instability of an electron plasms, in a crystal SOURCE: Zhurnal eksperimentallnoy i teoreticheskoy fizikio Pis'ma v red&Msiyu. Prilozheniye, V. 3, no. 9, 1W., 369-372 TOPIC TAGS: electron plasma, semiconductor plasma., plasma oscillation, electric energy conversion, semiconductor*carrier, carrier density ABSTRACT: The author shows that a crystal with nonquadratic quasiparticle disper- sion can possess the properties of an active element that transforms dc energy .into. microwave frequencies. The operation of such a device is based on the fact that a charged particle with nonquadratic dispersion behaves in a, magnetic field like a no. isochronous oscillator whose frequency depends on its total energy. The necessary condition for the occurrence of a phase instability capable of exciting oscillations is that the momentum relwmtion time of the charged particles be sufficiently long. This can be realized for pure semiconductors at sufficiently low temperatures. The most suitable for experimental study are semiconductors of the AIIIBv type, such as InSb at 60- 80K, when the electron relaxation tirae at a minirmim impurity content (;5jDi4 Cjjj-3) is imal and amounts to 5 x 10-12 sec. It is proposed to carry out  L 24241-66 ACC NR. AP6014613 the experiment in a semiconductor crystal in the form of a quasi-optical resonator, similar to that used in solid-state lasers. 7he upper limit of radiated power Is estimated at approximately 10-23 j, which is lower than the energy at which intense scattering of electrons by optical phonons begins. The W unit radiated power is estimated at 41D2 w/cm3 and the dissipation power at 5104 w/caP. The frequency at which such resonance can occur lies in the submillimeter andlnfrared bands, and it is concluded that the mechanism for the iNtability of an ele-ttron "i"Ims. in a crys- tal can be used to develop converters fd-FTR-se 5aws. Origo art, IMS: 5 rarmul"O SUB CODE: 20/ SM DATS: 15mar66/ ORIG MW: 002/ OTH 1UW: 001  ACC NRJ AP603340d SOURCE CODE': tm/C-1i11ij/(t/ :1NIVENTOR: Tager, A. S.; Mel'nikov, A. I.; Kobel'kov, G. P.; Tsebiyev, A. M. ORG: None !TITLE: A method for generating and amplifying SHF oscillations using semiconductor diodes. Class 21, No. 185965 !SOURCE: Izobret prom obraz tov zn, no. 18, 1966, 54 ITOPIC TAGS: SHF oscillator, SHF amplifier, semiconductor diode, waveguide, resonator ABSTRACT: This Author's Certificate introduces a method for generating and amplify- ~ing SHF oscillations using semiconductor diodes. Stable generation or amplification of oscillations in the centimeter and millimeter wavelength ranges is produced by !placing the semiconductor diodes in a resonance or waveguide system, connecting them in a DC circuit and selecting their parameters and working points on the voltage- !current curve in such a way that the resistance of the diodes on direct current and 'on frequencies below the working frequencies is positive while the resistance in the iworking frequency range is negative and greater than the resistance of losses in the :diodes and in the high-frequency circuit. 112 ux; 621.373.h22  ACC NR- AP6033466 i i f I I 1-diodes; 2-high-frequency circuit iSUB CODE: 091 SUBM DATE: 270c'59 v !Cord 212  ACC NR: AP60306371 millimeter band oscillation on the order of a few mw; c) frequency multipliers based on an LPD externally synchronized by a subharmcnic; d) regenerative amplifiers,! e.g., a single-stage 3-cm LPD which has 20-25 db gain at a 50-mc bandwidth, and is linear for inputs down to 1 pv; e) stable white-noise generators covering the decimeter and centimeter bands, with effective noise temperatures in the 10 _107K r.uige. AdvantageG of the LPD over existing equivalents such as the klystron and the varactor are low cost, small size, simplicity, and high temperature stability. A disadvantage is the relatively high noise level, compared to that of a good klystron. The authors predict improvements in the efficiency and power output of LPD's which will make them dependable and useful micro-wave elements. Orig. art. has: 18 figures! and 6 formulas. SUB CODE, : 091 SUBM DATE: 26mey66/ ORIG REF: 0091 OTH REF., 003/ IrLD PRESS! 5106 Card 2/2  Acc N--; U." 0 G 6 3 1, (06 6 A. S. 0"G: lla: I C'az-~ ode and 4ts in SIIF en3incor:n- -~-InichOSMbll rlall%, V. CDO, no. 1966, 6,111-6-16 ~Unctiorx diode, re-flox '-Iyscron, vo-C c.-iaracteris tic, noise generator C" a-,- n 'N.~&Ictojny c-aptor of this ar-iclo, n -o is c3 ilod as (j; cc) !;C) Zatf 6 --:o :,?D (Iavinro-prolotnyi diodi -assd f - 1~ for Y ,3 -v oqzj-valon-~ t-D -no ra~jca lcayatron tuba - pcd Ln t'-o USSR S - in and -,;Iach was f.!-zt- duv,)10- c-an-or daa-5 -W-Itll tho gcnorral class of diOd-35 ',"-050 (~Yn c tno mochanism. of f4-,~Ic e=i5sion ZZ'd t`o O~ olect-nan ~~otlion aro discussod. --z-'D boll on:: s s. cla s s o f dev-v c o zboin -- ba sica-Uy a p-n juunc tion vari o ty. Ca-d :!4 UDC: 621,385.26  c-aptcr analyzes tI_ -s'atic volt-a-moera cnaracteristic df '-' A I . . I ar. d ras-stance 3-n the region of avalanche breakdo;-an. T,?r conce:)~~ of cUivaler", multiplication layer" is introduced and de--;nrd as Wzdch the full avalanche current is generated ui~ile t~, t) apace char,-e Zero. -e fou:7th chapter deals TP-*th -the SIC, charac"eristics of the ---PD dev--ce. T-_,rzt, 21-undamental relations are established in the lower frequancy :-anga '4'-'!0r6 t__,D Yax-wellian relaxation time and the free transport tirie O'_' Carriers aro neg]-isible as compared to the period of Oscillations d wh-ere, 4~- '_ B-0, t a -,rule- D icat an th ,.L- 1. tion process may be considered quasi-stationa-r. This =Odal and the corresponding equival6rt. circuit serve than for a bas-s fn datez-6_ t1aa currant-volta.c'e and the r0si-stance-roact-ance relations at higher zl .L:~Gquencias. such -1i analysis is carried out separately for t- Ztle case of small ci~:nal a~,21_itudes and Lor -t-he casr. of lar-ge signal amplitudes. e`a.pter Js devoted to evaluating the power outLpu~u and a --iciency f 0- c_n L?:) type oscilliator; bofI elec-~'_I`on efficiency and ova-,a!! efficiency are cons- T` a a dc lectron efficiency is, like the powoa-, a funct4on of the :dztft a:-d its maximum value can become az hi-h as 50% ~~_e zrxzlti-jlication. -_'aye~r S,I-,Zff_. ciently narrow. The ovez-all efalciency, on t. i4 J. a 0 e-.6- ` an 5 to t-he diode current and Q_' ctor bu~ ortion la inversely ;?--op t to its Capacitance. Cc. d 2.,4 ACC NR: Ap7ol2400 ons and noise in an LPD and an --The sixth chapter deals with current fluctuati LPD type oscillator: the calculated noise coofficiont for the centiMtOr- wavelength range is 215-30 decibels, while tho' calculated siGnal/noiso ratio - he passband of the oscillator circuit. , ~(amplitudinal noise at frequencies within t -15 equal to 145.;155 db/hz. The following chapter, the soventho prosents,the results Of experimental studies concerning the LPD characteristics- shown here and discussed are: 1) the resistive and reactive components Of junction impedance as functions of current.' 2) the linear increase of the charactoristic'curront with froquencyr 3) the, total impedance of an LPD p-n junction as a decreasing function of the W signal. amplitudO, 4) the spectral density distribution of current fluctuationsy and 5) a correlation between tested and calculated value' of LPD-oscillatOr power- The eighth and last chapter of the article describos several operative devices an avalanche-drift diode. Among them are: 1) - . based on and designed with centimeter and millimeter wave the generators of coherent oscillations in the s of tuning (through varying ranges, usuallY provided with electrical mean diode current or through an auxiliary varactor diode) and which can be ernal signal supplied, e. g. quartz-crystal type multiplier -t . The article synchronized by an OY and 3) noise generators circiLit'. 2) regenerative amplifier ilitios of avalanche-drift diodes; concludes with a 'n assessment *of overall capab far, its merits over the r n the most promising so .he germanium ve sion has bee -ons being t4e p-n jungtion h9rogeneity which.. ,allium arsenide versi sili.con and Card 314  AcC NR: AP7012400 'ensures a uniform Asti-ibution of broak~own and the* high thermal conductivity (i.e. lower thermal resistance) as weighed against the lower forbidden energy itap. The bibliogravlxv includes twenty one USA sources. OrIg. art. has% 31 figures and 7 formulas. PrS: 40,3 '27 f  1,j-,jCjTjOjj4ch, A. D. 0'.~G; none 7 1 T L EAv"Iancho-Lrarksit oscillator. Cl--~~s 21, Njo. 1901,29 ;hlennyye obraztsy, tovarnyye znaki, no. 2, 1967, 47 SOUR~-E: lzobreteniya promy- TQPTC TAGS- uhf oscillator, sensor diode, ABSTRACT: An Author 'ertificate has beer, issued for the avalanche -trans it osc-;.:..a tor with machanical tuning shown Ln Fig. 1. To increase output power and tuning range and also to reduce powar drop in the tuning range, the =ovable resistive contact is removed from the resonator of the oscillator and 1/2 UD C :621.373.1:621.332.2  ACC INR: A117005607 'Fig. 1. Avalanche-transit oscillator Movable resistive contact; 2 resonator; 3 - ring-shaped slots; 4 - fixed contactless plunger. energy output occurs through ring-shaped slots in a fixed plunger. Or"&. art. has: 1 figure. (WP] SUB CODE: 09/ SUBM DATE: 1ODec63/ ATD PRESS: 5116 Card  UGER, I.L. -11~_,_ - Clinical significance of cholecystography. Ter. arkh., Moskva 25 no.2;85 Mar-Apr 1953. (CIML 24:3) 1. Professor.  TAGER I.I., professop,(Moskva) Roentgenologic procedure in suspected pulmonary cancer.Vest. rent. i rad. no.4:21-26 il-Ag 154. (KLRA 7:10) (LUNGS, neoplasms, diag. x-ray)  TAGER, I.L., professor; PIFKO, A.S., dotsent X-ray diagnosis of bursitis omentalis. Vest.rent. i rad. 31 no.2: 74-75 Mr-AP '56. (MLRA 9:8) 1. Iz orderia Lenina bollnitsy imeni S.F.Botkina (Glavnyy vrach prof. A.14.Shabanov) (OMPOTUM, diseases, bursitis, x-ray diag. (Rus)) (BURSITIS, omental. x-ray diag. (Rus))  bdASHLOV, Valentin Ivanovich.; TAGER, I.L., obshchiy red. EX rays] Hantgenovy llachi. Roskva, liadgiz, 1959. 110 --p. (MIRA 13:3) (x RAY;S)  TAGER, losif Livovich [Kistakes and difficulties in the radioscopic diagnosis of stomach cancer] Oshibki i tradnosti v rentgenodiagnostike raka zheludka. Moskva, Medgiz, 1959. 168 P. (KIRA 13:?) (Stomach--Cancer) (Diagnosis, Radioscopic)  TAGE'R, I.L. (Moskva, Vostochnaya u1., kop.2, kv.85); 'u,.BKII.1, I.Kh. S-.,.,`-,.;--atization of changes in the vessels of the lesser cir-culation iii mitral stanosis; x-ray, clinical and morphological comparisons. Grud. khir. 2 no.4:19-26 Jl-Ag 160. (MIRA 15:6) 1. Iz tretlyey kafedry rentgenologii (zav. - prof. I.L. Tager) TSentrallnogo Instituta usovershenstvovaniya vrachey (dir. M.D. Kovrigina). (I-LITRAL VALVE -D ISEASES) (FUU-IONARY CD-RCULATION)  TAGGER, I.L-..; PERELIMAN, V.M. - W- Precipitation pneumocysto~raphy in combination with the injection of .gas into the perives.ical cellular tissue and t~a abdominal cavity in the diagnosis of bladder tumors. Urologiia 25 no. 4:24- 26 Jl-Ag 160. (NLU 14: 1) (BLADDER-TUMORS)  Tj',GZR, I.L.; prof. (Moskvaq u1. Kostyakova,, d.89 kv.35); NIVINSKAYA, M.M., kand.med.nauk Late metastases of breast cancer into the skeleton. Vest. rent. i rad. 35 no. 2.3-8 mr-~ffidp 160. (MIRA 14:2) (BREAST-CAVCER) (BONES-CANCER)  TAGER, I.L.9 prof.; SHNEYDFRISY $.B., kand.med.nauk Some interpretations of the roentgenological pAture of the relief of the mucosa of the small intestine. Vest. rent, i rad. 35 no. 5:59-62 S-0 140. OMIRA 13:12) r 1. Iz rentgenovskogo otdeleniya Mookovskoy klinicheskoy bolinitsy No. 52 (glavnyy vrach P.S. Petrushko) i otdeleniya rentgenologii i radiologii (zav. - kandid4t meoitainskikh nauk K.I. Ambrozaytis) Instituta onkologii Litovqkoy SSR (dir. - kand.med. nauk A.I. Telichenas). (INTESTPM-RADIOGRAPHY)  TAGER, I.L.; NGVOFASTOVS-UY-A, L.R. Dynamics of rigid antral gastritis. Khim. med. 38 no.5:101-109, my 6o. (GASTRITIS) (SMACH-DISEASES) (MIRA 133:12)  MICLOMTOV, Yonstantin Pavlovich; red,,; AASHEVSKAYA, red. ., tekhn. A.Y..,, red.; BUlj'17fAYEV, [!--'.oentgenology of occupational diseases and intoxications] i?lentgenologiia professionallnykh zabolevanii i intoksikatsil. Yoskmra, Medgiz.. 1961. 226 p. (MIRA 15t3) 1. Institut. gigiyeny truda i profzabolevaniy Akader,ii medi- tsinskikh nwik SSM (for Molokanov). (CCGUFATIuNAL DISEASES) (DIAGNOSIS, ;WIOSCOFIC) (BIBUSTRUL TOXICOLOGY)  i . f 1- - '0. ~ 1. , , "I' " % -, o 3 i ~ -, ~7 , I :~ 1. V, ; , 1 1 :17:1., 'PAG:i N , -11 . L, - ; 1. 1 ~ F() , - ,i , IL . , kv , 2rA ~ '; a f, (I t., I j~ e , ~ -.;, ~; r , a n -. hernia, (',!ncer -)t' ',ht, (MIRA 17:7) Up onk n o , I C '. 7 e; ~ - ~I'J i 6z .  4,jk,~a, A-,,4- uj~K)st- TAGER. I.L~, prof~ (14 yalcova, D.8, kv.35),*SIRTYDERIS, M.B., Adaptability of the motor function of 'he small intestim fol- -L u lowing gastric resectio-n, Vest. rent'. i rad. 38 no.10,20-24 J~2-10'3, (14MA 16:10) 1. Iz rentgero7skogo otdelentya Moskovskoy 52-y klinicheskoy bollnitsy (glarnyy vrach P.S,,Petinushko) i otdeleniya rent-eno- logii i radioi-,~,7i-.- (zav. - lcand~med.nauk K.I. Ambrozaytisi Instituta. onlkolofii Litrvjkoy SSR (dir. - kand.med.nauk A.I. Telichenas).  MALYSHEVA, O.A.; TAGER, I.L., prof. Use of cineroentgenography for studying the function of esophagointestLinal and esophagogastric anastomoses* Vestn. rentgen. i radicl. 38 no-4:29--'Q Jl~kglo"3 (MMA. 17:2) 1. Iz rentgeno-radiologicheskogo otdela ( zalr. - zasluzhennyy deyatell nauki prof. I.L.Tager) Instituta eksperimentaltnoy i klinicheskoy onkologi-I ( dir. - deystv-ilkeltnyy chlen AIT-41 SSSR prof. N.N.Blokhin) Al-24 SSSR.  TAGER. I.L., Irrof. Review of the book by of t-Ine sp,.;nT- E!'r.-I their differential diagnosiall. Ves'n. rentgen. i .-adinl. 38 no.4-.84 Jl-Ag'0'3 (KIRA 1`7 -~)  NIVINSKAYA, MJI,; TkGEI', 1-.L.; FRE-SM, 1-1. Y..ray c~j,,,rac!,,!rj5rjc-, oJ neUtstm.ic me"anomas of e V-st. rent. i rude 18 no.~-.,;--~-P, 11-D 16", z rert F; erio- rad iolc~gi c lies kogo otdela (viv, zasluzhenziyy 'V~L~nll riauk:. -~T. I.L.reaer' lns~ituta eksperimentallnoy i, I ': I-L K. C, n kkr o 10 2? ktor ~eysrv:Lte' Iny-y chlen AMN S~~R prc~~'~ N.N. Kokh;rO AMN S~~R kh'rur~- ~ j - ji choskogo (nachaltrik IL.I. Presman) ISentrailrov klir,4,- bolln-itsy (nachallnik 11.1. Y.,-;rlyev' M-In4-sterst.va put.ay soobshcheniya.  r-.:~, -)ti rapy an-i b4 ne  YE, c u I t e s a r a e no r f n ti~ e .7 - ra y ui -i o s s c c a c r c t' resected stomAcn. ',"est. rent. i rad. I . 11 i s t i t u t e k s; e r i i i z e n t a 11 n o y i 'K n i ce (,.v o, i o I o:,! 31 , , E  TA F 1 ew S in rc=n-, Cu. lie s 9 164. Initilut el-srerizi-,entallnoy i klin-eheskoy onAoiogii '~?I SSSR, Moskva.  TAGER. I.L., prof.; MERKnOVA, N.V.; TSESHKOVSKIY, M.S. Nature of reparative processes in the bones of patients with r.Veloma treated with sarcolysine. Vest. rent. i rad. 40 no.2:13-17 Mr-Ap 165. (lAJRA 18:6) 1. Rentgeno-radiologicheskiy otdel (zav.- prof. I.L. Tager), ot(leleniye kldmioterapii (zav.- doktor med. nauk V.I. Astrakhan) Instituta eksperimentallnoy i klinleheskoy onkologii AMN SSSR, Moskva.  u !,--nnyy A fri A:, I Iz rr-n f,~--enc-radl ol cgl If Tairer) lnstit~.~a ekspe -imenl,a~ m-, r. k AINNI SSSR (d.1 devs te 1, 111, --OR N.N. n I s k ay 'o n r, sy '41 a ri z -7 a W  S1194V611000100810921092 D201/U304 AUTHOR: Tager, N.P. TITLE: Special features of electron tubes -for condenser tiLicro.Aiones PERIODICAL: Rej-'-ferativnyy zhunial. Avtomatika i radiocleltronika, 1961, 59, abstract 8 K_505 (Tr. Vses. n.-i. no. 39 Icinofotoin-ta, 1960, no. 34, 110-117) TEXT: The most important parameters of tubcs, for conden- ser microphones are an. follows; grid current, the shape of the grid current characteristic, resistance of the grid modulation, tube ad life-time. -As is lknoim, the noise -vol- '10i se level, sta,Ality a-L tage, starting fLrom a certain value, decreases with the increase of the grid lealt resistor R - This increase is, however, limited by the properties o-.t- the elgctron tube, By choosing individually t1he tubes, a tube may be 47ound which would be most suitable for a resis- tmice -trajs~7orTacr ampii:7ier is the tube 606 5 (606 B) a-Lid for a Card 1/2  3/194/61/000/008/092/092 Spccial f eatures --- D201/D3.34 cathode follox,,er tube 6)Klrl-E (6Zh1P-E). It would bc advisable, hot;rcver, to develop a special tube which could be based oil 6ZI11P-E.V/ Requirements are li-sted for such a special tube, 4 figures. I table. 3 reEcre-accn. Z-,V.-,stracter's note: Complete translation2 Card 2/2   0 0 US Mv ~:Msl o- o- o- o- -0 -6 -0 0 -0 0 0 9 4 0 0 o 0 0 0 0 0 a 0 0 0" o'? 0-9 0 0 : 0 R _r 1-00 d~~matioa o1 wmdim in ya LA6. j. 3ti4,,mu4).-The metbad d;;,rb,4 0 0 v atists in oxidizing VO, I* to H Vot, with XMnO. at in a aWn. contc. lf,PO, + HSO.. adding H"..- 00 211,0 to remsow ricess %InO,-. ct"ing. adding KI and so litraling the Is fimrm"l by reducing HVOt, bock to Chsa. Blam Zoo 00 0 0 =*o '2 Z 04 A J aI L A #ETALLUROKAL CLAIUVICAT'Cm ~z 00 iiji, -,4 -Op : 0 U 10 L ap j4 a a Iq vi pt tt it it or mw n I !so an; 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 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 4 ~4 0 0 0 0 0 0 0 6 0 0 04 'A Ogg 0 0 (p; i 00 0 0004009000000000 ,A  Name-. TAGER, P-G. Title: professor Author of book, "The Kerr Cell", This work is a report (..)n the theory of modulated 11g1it for sound pictures and televis.1on., with the aid of the Kerr effect. Director of TELEKINO (Television-Moving Pictures) Laboratory of the NIKFI (Scientific Research Moving Picture Photography Institute), Palace of the Soviets. The laboratory at the- present time concerns Itself with the following aspects sound recording, newsreel filming, film processing, and developing of large television screens. in 1937 thIs laboratory perfer;ted a multi-cellular screen with 1-200 elements. REF: R, F. #ii, p.66 -. 1938 REFz R~ F. #19~, p.18, 1938  TAGER, P. G. "New Laboratory cif Televis-icn 'C'eti-aods,ll Iz. Ak. Nauk SSSR, Otdel. Tekh. Nauk, No. 10, 1940 OR Report U-1530, 25 Oct. 1951  !! ~ .1 ~ : ~ ~ .-. , 1; . - - . . I -, - L .. ~ 4 ~; ~ ) . . - , 1. , . . ,, ? . ) 7 ) - 7 - -  TAG:,-R 3 P. G . if "Physical Phenomena in a Medium Through Vhich Supersonic 1,aves and Light Pass , Zhur. Tekh. Fiz., 15, pp 318-36, 1945 "Effect of the Pressure Within a Liquid on Its Refraction Index and Dispersion," Ziiur. Tekh. Fiz., 15, pp 337-47, 1945 Chem. Abs. Vol. 40, No 101 20 May 46  TAG~~,'~, ?.G. Tager, P.G. "Special aspects of phonoggrains." report 77, Trudy NIXFI (Nauch.-issled. kino-fotc_in-t), Isn'le 7, 1947, (column title: 1944), p. 1"-142 SO: U-283P, Let6pis ZhurnAlInykh Statey, No. 1, 1949  TAGM, P.G, Special types of sound tracks. Trudy NIKFI no.7:148-152 147. (Bound-Recording and reproducing) (MIRA 11:6) (Motion-picture projection-3quipment and supplies)  2 UM/ftg1n*er1W ion X9k7 lWarders, Counters "An Automatic Counting and Recording Device," P. G. Taw). -8 pp "Aytomat i Telemekh" Vol VIII, No I A vell-Illustrated article giving a short description of a recording apparatus vhich will record all phases of work of an apparatus -under investigation. It is able to operate on as many as 20 individual machines at the ame time i It -me, develop" *at-- Oe Itst-dinte of - Autmatic Xleckliwry and dmechiaj,64-~'Of the AcadeW of Scienc6a of the USSR.''Assistance vas given by 1. D. Andreyev and D. V. Zernov. 22T)*.5   C, t .Aytonatika i Telemeth" vol IK, No 4 Examine phase and amplitude of frequency spectra obtained under steady operation during puls8 modula- tion. Position of each pulse boundary (beginning and end) is determined by various functions of the instantaneous value of the modulating voltage. Examples shov that formulas defining the spectrai In phase-pulse, time-pulse and other methods can w 1-;/49T26 USSR/Lriectronics Modulation, Pulse "Spectrum in Asymmetric Pulse Modulations,," P, G. Tager, Inst ofAntomatics and Telemech, Acad Sci USSR, 121 Pp USSR/Electronics (Contd) jul/Aug 48, Jul/Aug 48 readily be deduced as particular cases of a general formula for nonsymmetrical pulse modulation, Sub- mitted 1 Oct 1947. (L 4W 13/49726 1~  -'t- A jo L t L 1 A I F 9 AI I I VA)VI if if a it if Z All Lin S-Z 1twx a 40 41 4t "U 049 - f _AA 0 (X PO_ j _ If. __JL- -- " 0 0 .a 'I' A- - lot, - T -T"I-PL, Vol. 4, No. 6 Automatics Ir Telemechanics 00, 1.00 00 ; ;_so go -06 00 -oil 00 Tager, r.1. (Tnstitutp of Ailtomntics & Telemechanics, V.S.S.R. Academy *16 or 5ciqnces)'p Contemporayy methods of sound recording on movie films, 00. 16.90-94. Koo go, 1 lzv-stiva Akaderrdi Naiilr~ 5.3.3.R., Otdelenie Tekhnicheqkikh %auk ago go 4 , IC?'O nn 11 (November) aeo . , 09.1 I. it ITAiLL)PVKAt. LITIWoRl (I ASSIFKATION I z 00 got -7- Lt. 4 t WX 00 04 00  "I vow ww w 0 * 0 0 0 0 * 0 & 0 0 0 * 0 0 0 0 a t V, V w 0 G~ V -v a 29, 10 it m 13 u a 36 u a 19 w I Itj I 1 14 is 16 ly if I* x 1 11 V a 34 is 36 ) 41 a 41 4 L L L I J1 I-JL h r u R i T y I L 4-L-T .4 --3 00-0881 so .Of. 00 -00 0e .00 A21 T.- 6-!'*. It INS - 90 MIctmn-Oplical SouiW-R~oordjnx Device. r 1. '00 1.":. '( /11 1-1 R" Zkl Nu'~ N."11 *0 10. 0M, 'OmL: '11-1, qw. lit If-If -I.. -:-I Illm 00 11" I.-am " -.t' !.' d m "r .'II " 00 1, lit 1, "T 4, 11"t I)-., Ing w 11" 06 mf -Itr-11. 4 1., 11 00 '00 00 96 00 0 00 Os 00 00 fT'L-PowKAL LIYFRITLIE CLAWIFIC&TICN 00 1, za c~ An L S 0, 0 IN it R 'I If it It ~Lo n 600000 0 0 0 0 0 0 0 0 0  USSR/Electronics - Sound Recording Jul 51 "Line Recording of an Intensive Phonogram and Its Reproduction," P. G. Tager, All-Union Res Cinephoto Inst, Ministry of Cinematography USSR "Zhur Tekh Fiz" Vol XXI) No 7, PP 753-765 Studies reproduction of intensive phonogram, scanned linearly by cathode-ray tube in case of rectilinear sweep by cathode-ray of saw- toothed puleating generator, modulated by amplified microphonic current. Demonstrates that in described case linear distortions are absent. But distortions reappear duriu- LC 18o-T42 USSR/E.ectronics - Sound Recording Jul 51 (Contd) reproduction, depending on setting of instru- ments. Gives suggestions to avoid distor- tions. Submitted 26 Oct 50. 1 LC .189T42  USSR/Physics - Acoustics Fe b 52 All "Stereophonic Sound," A. I. Parfentlyev, Cand Tech Sci and Stalin Prize Winner Priroda, No 2,pp 17-3-9 States that stereophonic transmission of music was fiz-Bt successfully studied in Russia by Prof 1. Ye Goron, Prof P. G. Tager, and Engineers B. N. K:)noplev and M. Z. Vysotskiy. 263T107  r ec t i on ~D 1 U' rZ.V 4 0: -t ~,r, is t e; to r,,Ltc-ic  c, q iZ G. USSR/ Electronics - Television Card 1/1 Pub. 77 - 20/20 Authors : Tager, P. G., Dr. Tech. Sci. Title : Present and future television Periodical : Bauka i zhim, 21/12, 44-45, Dec 1954 Abr,trzict : A book entitled, "Television", by K. Kladkov is reviewed. The book recounts the develorment of television and stresses the role played by Soviet scien- tists, besides speculating about the future of television. Hovmver, in its technical parts the book contains sarie untrue statemnts., such as that a spark between electrodes. can be better produced in a vacum. Illus'ttraf-'.10.1. Institution: ... Submitted : ...  SAVIAROV, A.A. C trFirinla torl ;JAPM, P,Cr,, r(.,d . ; RAYKOVA, Yn I., red,; GE'RASIROVA. Yo.S., [High-speed cinematography in science and technology; collection of .3rtLcles; translated from the English and French] Vysokoskorstnaia kinofotoelemlm v nauke i tekhnike; sbornik statei. Moskva. Izd-vo inostr. lit-ry, 1955. 494 p. (MIRA 11:6) (Ginem9tography)  534.862.3/.4 534.", THE SECONDAR~ FIELD DURM STEREOPHONIC. TWO-CHANNEL TRANSMUMON AND CERTAIN FIXED GE' ARRANGEMENTS OF THE SOURCE OF SOUND IN THE PRIMARY FIELD. P.G.Taxer, R 'M - t_ 7h Akust. Zh., Vol, I,1W.PFOMM (1955). In Russian. . 7RA Y The-ar' The article Is a theoretical investigation devoted to the study .1 the study of the two most Important parameters of the secondary ound field sound field which affect the stereophonic effect, vtz-.-&Tfer- ce of ens ce of energy levels from the two loud speakers perceptible to the hearer, and the perception of a time lag between the signals from these loud speakers. C.R.S.ManderB  Misoellaneous - Cinematography Card 1/1 Pub. 86 4/38 Authors I Tager, P. G., Prof, Title I Rew direction in moving-picture technology PsriWiMl I Priroda "/7t' 33 - 42s Jul 1955 Abstract I A review is made of scientific researches aiming to develop methods for faithful reproduction of natural effects of sight and sound in moving picture technology. These cover a wide range of subjects including mag- netic recording) acoustics, and stereophonics, the latter being discussed in considerable detail. The techniques related to sight effects invol- ving the use of broad screens, etc. are also discussed. One USSR refer- ence (1953). Illustrations; tables; diagrams. Institution Submitted  PARFENT I YEV, A. 1. ; D.EM1,KHOVSKIY. L.A. ; MATTEYENKO, A. S. - TAGER F 9 -_ ;P professor, redaktor; SOVETOV. S.S., redaktor; MATr9PN_I.Jtm., takhnicheskiy redaktor [Sound recording in the staging of theatricals] Zvukozapial v oformlenii spektaklia. Pod red. P.G.Tagera. Moskva, Goa. izd-vo "Iskusstvo," 1956. 142 p. (mLRA 9:7) (Sound--Recording and reproducing)  TAGER) P. 0. Pulse Method of Amplifying Electrical Signals. Patent, Class 21a 2, 18()8. 1,10. 103677, Elektrosvyazl No. 1, Jan 57.  PARFENTIYEV, Andrey Ivanovich, kandidat telchnichesklich nauk; zasluzhennyy deyatell nauki i takhniki RSFSR, doktor tekhaicheskikh nauk, professor, redaktor; KADER, Ya.M., redaktor izdatellstya; MEZHY6RITSKAYA, N.P., takhnicheskiy redaktor [Sound recording] Zapis' zvuka. Izd. 2-oe. dop. Moskva, Voen. izd-vo H-va obor. SSSR, 1957. 137 P- (MLRA 10-8) (Sound--Recording and reproducing)  SOV!'112-58 -2-3202 Txa.-~s ]a ttn7.~. fro t-,;: RefpT a Elelc.': 2'ek .--k. a-, 19-58, N,,, p 2.20 (USSR) AUTHOR: T;igt--,--,- G. -.k. A. , and Bla-zhenk - v.- V. A. TiTLE: A- Ot-.~f-" Ru-~ TV F.1'.'n u. cg,:~m7n PER.'~OD. GAL7 !95--, N- .3, pp. 34-40 ABSTRAC T-"j- -gr ~rns ~L k-*neiz~cnpe screer. on .ncv:.e as p~ at s-lving the P:-cblern. s d e 9 c. eT~ w?. a7A Y~e apparat~-,3 s b;i e,~ v c. e t',.tb, e 1 e t ~-.e t-j-.r a t o rs op en, allcw s a---red --n the kineecope --creen. and IY.,~ T.-!:-e( ed-.: ~1-1'e -.ffect. Ta secicre eq. c" -.-Ct --e Pipmer-'-,. v7 ses of a corn- c ec' i li.i pe a,- e f ed to tLs 0ie v;.,-Ieo s --' g-41 S. P1.1 4 Ya E. ca -d 1,~ I  TAGER, P.G. Q, ereo7monic e"ect in two-chnnnel transmission. Trudy NIKYI no.12: t' - ~ A. 0-110 157. (MIRA 11:5) (Sound-Recording and reproducing)  TAGER, P.G., professor. Magnetic recording of images. Priroda 46 no-5:78-81 NY '57. (MLRA 10:6) 1. Vaesoy=nyy nauchno-isaledovateltakiy kino-fotoinstitut Ministerstva. kulltury SSSR (Moskva). (Magnetia recorders and recording) (Televigion--Tranomitters and transmission)  TAGER, P.G. Uqgnetic recording of moving ima-zes. Tekh. kino i telev. no. 8:62- 7L' A9 ' 5P; - (MIRA 11 :3) ("Television broadrastLng) (Magnetic rucorders -9nd recording)  'OIL. a P_ilse-Type kii-plificatij.-tri of Electrical Signlals usilelliye elektric"rieskilich si--nalov) u T.; ~7 -!DI"AL-. Rad-L:)-Uekhnika. i elektronika Vol 3, Nr 918-92"? (USSR) 1958) Tlltf~ principle of tae af-volification, is based on the -.~cheiadtic of Fi,-.1, in vilAch 11' and denote the tv--~ !,,alves of a tri-----er circuit (a bi-stable device) and P .1 s:,~ecial -.ul:~e -en2rator. The input sigual is a7,nliad to t1le, tl-.-~_r~_iinals B of the system. The waveform i-Y tale_ ,~,e r~en-_rabor consists of a fasi". ;3i,-L,)rt rectan--ulal, :And a Ion..- linearly decayin,,!; iDortion (see Fir,3.2). T,A~~; zr~-,.vefoi,m is also -p:-`,lied to the input of t't-,.e syste:ri. IA t~ie in-jut si:-nal is sinUSOidal and its frequ-Incy is con- sid~va-ljly lovier than the renetition frequency of the iulse ,..,-a ve f orm (see Fi-.2), the current oulses of one o--F' the tubes of the trig-er are modulated; this Fnodulat_*~o_n is in 0 u t'ie foru-. of one-sided- Dulse Tidth variati~~,n (se-_;~  ,C)V/10)-3-7 -7/23 175 A,.iplification of Electrical si,-nals T.a,e spectrwa of the resultant output si~;nal can be expressed by Eq.(l), Tuh-ere r, u, v and w are integers, P is the -eneulition frequency of the modulating pulses, E; is the of tl'rie in-.-)ut -AFnal, .-.1ii1e the rei.,iaininL- para- ,;-:;ut~rs --re defined by Fi-.4 whici-, siiows the osition of the eu'r-es (froilt ed-e d and trailing ed-e h ~ in non- - Z:) C' -.iodalated and modulated rmises. if ti)-e load Dn the ",ri-1-1ger havin-, a cut- has a recta-D-E-1alar aniplitude characteristic,, QD he outout si~ -nal can be expre7sea by frequency e 3 (1, (2) and its first harmonic by Eq,(4), uhere J w i s tt e Be s!3 e 1 functui --l of '1512e w order. Tille distortion coeffic- 4L e t 1~ b kP ' wtich is equal to the ratio of the second har- :1.~-_.-J-c a,)-d the fundwaental is e:~~pressed by Eq.(5), If the :-ijstem fulfils the conditions dDf,_Lned by -Bqs.(6) to (12), is by Eq.(13), or approxima~elj by Eq.(14), 2r,-, -.:e above res-alts, 'U- in particular, Eq.(13), it is s---e-- '.-',-)at t-e freauency charactu;~,ristic of the system is prac t ,-,all,-)r over the whole frequency i~an-e fr3-,'--' 0 to E 7- 11 _L_Ae -met~_aod -,,,.,as also i-v(-sti:ated x.-3rL~.ent- wl'iere y If-) -;T emp 1 oy i n g t 1-1 e c i r c u s!i o vrn i n F i:~-S- . 5, 1  --)n of El ctri ---a-' S-L:=,als fili-ar viit' a cut-off frequency of 200 c- s and P U i1 I _L D r is a ;-iwrator producin- pulses of a type 3 OVM 4 n Fi---.-3 and _t repetibi,in froquelicl of 500 c. ps. The out-puU signal -e!, frD:.-I ac--oss R 6001L B- em-loyinr3- this amp- i.U wus ',ossi Io1e to obbai.n equivalonb dyna:aJ_-.i s1c-,oes 20 to 160 iidl/V. The i)a;)L-ar c~-)Tltains 3 fi-ur"s U 4 .-3.)vict refer--ices. ,)a-.-,,er t,) the editor if, _)Ue~ Airoi, tiLe submis.5-ion of t' an- article dealinrl vrith a similar -)r-)ble:D rini'a" 1 19561 a:-,!~-eareCL in the j~Durnal Radi otelc'_ Vol I!. was Ja the aticle vas by V, V, I lanov and 101 7'.pj  of Electrical v ~L - "Rilse method of amplifying audio frequeencies"). Vje3o,7uzn~rv nauchno-issledovaLel'skiy kino-fo o- in~3Litut Ifinioterstva kulltury "33R (All Union 'cientific U 0 0 -Fj-joto-In~;Litute of the Ministry of Culture of :--trcil Cine ~he U3S_R) .3UB,'j!I,-PTED: junc, 11, 1956. 1. Pulse aenerators--Performance 2~ Radio signhis--Control 3. Blectric circuits--Performance 4. Mathematics  s/i c6162100WOOdIG351009 .L , 0 5 5/A ' 3 -ager, P.G. 1ransverse recording of video-signals on a magnetic tape ,V,t. I U ?EPIODICAL: Ellektrosvyaz',~no. 8, 1962, 41 - 49 _-Klil r -1 This a~t4cle is a theoretical analysis of te factors deterrrin4ng o s i t i o -of t-a elements of Video -recording on the zransverse bands of the etic tape. in 1;'_I&:-.e 1, P stands for the magnetic adh~esion, which is con- s-~ --ed as a circle with Its zenter 4n 0, The center of the disk of magnetic hea r -s in OG; the heads move along the circumference G. The X-axis passes through On and the middle F0 of the adhesion. The di4stance'e represents 'the ec- centricity, determined by: e + r = R + p (2). The positive direction of the Z-a--.-.-is coincides aith the direction of the movemient of 'the tape. In his ana y- s*s, the author considers first the lower half of the width of the tape, sho'em in Figure 1. The time is cowited from 'the moment when the examined head 's on the X-axis. Then, :5 = (a.)t, ~) being the angular velocity of the disk. Since Card 1/3  Iransverse recording of video-signals on .... A055/AIG1 T Y x:' tg t + (4) x_ + YF t the element of the video-signal recording made at 'the moment t will be situated, on the tape, at a distance D from p6int FO: D = coRT, + F 'F (5) -11 + YF tg W t U TI "I is the rated number of frames of the television system, trans.-nitted in one second, and q is the ra:-,ed number of t"-.e lines per frame, the recording of the element N, situated on the line n. of the television image band, will occur at the momnent: I ) k a + N (n n; 1', k q2 Q -e.,here k is the "aspect ratio coefficient". The recording position F of this ele- ment is determined by (5). The author analyzes next the recording in the upper hal.'I of the magnetic tape band and deduces some analogous form,41ae. The slnift 2/3  TAGERY P.G. Reproduction of,,yideo signals recorded by a transverse track technique on magnetic tape. Elektrosviazl 16 no.11:30-37 N 162. (MIRA 15:11) (Video tape recorders and recording)  LAZAREV, Vladimir Ivanovich; PARKHOMENKO, Vladimir Ivanovlch; _TA~= P.G., red.; BULIDYAYEV, N.A., tekhn. red. [Msgnetic recording of television images] Magnitnaia zapis' televizionnykh izobrazhenii. Moskva, Gosenergoizdat, 1963. 86 p. (14assovaia radiobiblioteka, no.462) (MIRA 16:5) (Video tape recorders and recording)    TAGER, F.G. ccnversir-Z'- of P- two-cYannei- D .3t,~,,-tions IFEU!"! .1 - diotekhnika stareophoni-- broadcast t~~ single channel transmission. Ra I (MIRA 16: 10) I ~ -) 28 nn.8:41-48 Ag  11. G. Exposure of the photographic layer television images with a motion-picture camera with rapplid film pull-down. Zhur. nauch. _J prikl. fot. i kin. c) ro.5: 368-378 S-0 164. (MIRA 1'7-10) 1. Vsesoyuzn,,7y nauchno-issledovatellskiy fkinofotoinstitut (I-IIFFI) .   A "T 7) in-' -,c u., st ere ys s, R chlen ,.4hniki i elektroqvyazt iment Popwin.   COPO Oct 1947 Ir,uIvtri--cdI idgh. Asb idguita Goal," Yu. L. a.i -n1 ~a A. Ta;,,Lr, CaridlidateL, In Te&mlcal z;cienccs, heating ~qi hak, V. F. Laboratory, 7 F-, OIZ TrP', ?-~O 10 An emlysic of the thermal ioek of a tn5ler urit uUT-1-lied by 0, st+5rimi timbling barrel in ryurpin,,, vulverized hit-,t-ash llgrdtti coal, or. the Ue~sin- of "rsalviental "r 38  Aj jL_U L L0 r 9 A 1 -1, jk!; fPYJIO~ P4(,C list II !Ai 1330. OPERATION OF COMSTION CHAMBER WITH ROTARY STOKERS. 00 Tager, S. A. (Za Ekonomiyu Toplica (Fuel Econ.), 1949, (9), 5-9). Test report on a recent Soviet design working with a tranavort- if able 5toneAr water-tube boiler. (L). o: z0 o 00 -00 60 7* 0 00 goo ~ro 0 -00 =60 R itoo A I L A*EVALLUPGKAL LITERAIURI (LASUFKAT19k %A IS IV 10 Ll" cr a It ce It K Is USE"Aark I 00000000 :100000::~i::::::0*0000000000000000 Aft Is a 'd 01 Ar ft 5193 :s 0 W 000000000006000000~ 0*000000000004000 0t  -0 00 owe owe wwwww'-w-w- 0 zd A 27 a is it a U M z 4 v v v P) 41 'W a) a 2 0 A t L L -,Z-.Z A. L P P r 4 11 1.j.--w f Ly. -A.-I EE 9L 7-90 so ~-06 00 00 09 it 4720. DESIGN OF eXCHANIC"Y STOKED FURNACES FUR LOW uUTHTS 100 . 0 0 a Sk. and Roddatis Tager KE. (Za Ekon. Topliva (Fuel Econ.) i 1-00 , , Auj;- 1950, 1-8). Relations between boil4hr capacities r 0 -00 0 - (in the 2-10 tons/ hour range) types of solid fuel grate , , eez and atckiN arrangements, shape of furne ce, etc,, are 00 J discussed. 0 roe zoo 0 0 ~ 4 P* 0 0 0 60.- 0 00 A I I L I ~[7ALL-1;1(,&L LITE*kTLOE CLAMFKAUDN =00 0 T - .17Q- roe i K a it it K a a it 10 x 1W a 0 2 a 4 A 0 1 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 0 0 0 0 0 0 0 0 0 0 0 0 00 0 0 0 0 0 0 0  (2. /~ e I C soling the gToding of Donets anthracites S A T'11:~T. /4. Ekl.. 8. ~N" '.. I." I.-. , -:11". 1--.1 it, F'T-f ... g ..f D-It,t, jf1th"', iti, I- tkl-f -I I-thI ,' ' If I It i- I- " --- 'I, T111.1, I-( I. "'I ... I r-Im" '4 r, 11-1 -If "I ul,- , vid. -ith It)., II. ..... I,, ...I, I. VIIII-1 NI 11-11  TAGER, 3. A. Stokers, Mechanical Comeiits on I. A. Uvorskii's artilce "The pneumatic soring of ordinar7 types of coal used in chain grate stoker3". Za ekon. top., 9, no. 1, 1952. Mcnthly List of Russian Accessions, Libraij of Congress) March 1052. Unclassifie-i.  TAGER, S.A. Gas baMes in VVD-80 bollers. Energetik 1 no.3:3L--35 AG '53. (1-(WiL 6:8) (Srcewm bci--'-r--rs  . 1 -1 .". .1. I I I . - - ~ . 1. - - - - - ~ I- . - . - . . ~ : 11 ~ * - ) - -1 - 9. Monthly List of Russian Accessions, Library of Congress, '* -- "1 1953. Unclassified.  TAGER, S.A., kandidat tekhnicheskikh nauk; SKIRMV, A.S., inzhener. Improved plans sliding coal gate. Bnergetik 2 no.6:13-14 Je 154. (Coal--Storage) (MLHA 7:7)  LD P - 2 -, 3 3 sub", e C t USSR,"Engineering Ca rd 1/1 Elul). I 10-a- 14/17 u o r s Ta~-g-er, S. A. , Kand. of' Tech. Sci. and V. N. Yurk-evich, Eng. Title Grachical determination of carbon monoxide, coefficient 1..L- L of excess of' air and losses from incomplet.- chemical. com- bustIon according to data of technical gas analysis PerIodical Teuloenergetlka, 5, 59-61, MY 1955 s ,, -a mathematical analysis of tests made in boilers and fur- naces for data on combustion, air supply and density of gas. A graph delCermining the amount of carbon monoxide C, is presented. Another graph shows losses occurring from incomplete combustion. Characteristics of dif-ferent types of coal are given. 2-~-i-`n-4s-ra~ion of "Power Equipment" Trs~=`,a~f~n Submitted a -C e  BNNY*SiilCVlCll, kandidat L_. BOG111, lCandidat toklinicheskikh nauk; BYKUV, lia.A'.. inzhenar; VIASOV, I.I., kBndidat tekhnicheskikh nauk; GRITSBYSKI-f; H,Te., iazhener; GRUBER, L.O., inzhener. GbTiVICH, V,G., inzhener; 3.;-vFYDG7, Y.N., inzheaer; Y3R- Sim, Im.0 kamiidat telchaicl-,eskikh nauk, ZASOHIN, S.N., kandidat rin 3sl '10V tek ir-ii -ikh lVii. 1.i_. k-wiudidat tekhraicheskikch tiauk; KILAUK11S. A.A., inzhfnie:~; KRUj!0V, L.B., Inzhener, LAPIN, Y.B., inzhoce~cZ LAST016M, dotsc;it, LAIUMN. H.I., inzhener, MARKVA-,drl, protessor, doktor teklimicheskikh nauk-, MAKHAYLOV, M.I., professor, dollictur teklinichaskikh nauk, NDCAKOROV, V.A., inzhe- ner; WK0iX0V, K,11,. Inzhaner: GJUl0SHlH,L.I., iTizhoner; FARFSNOV, K,A,, dotsent, *~~twdlda~, tekhnichesiclkJi naukr PEWSOVSKIY, L.M., luzhartor; POPOV, Lnzhener., Putiz)IINA7. B,G,, inzhener.- RAT162, M.P.. lnz~ene_~- ;(06SCEZ'17S;~iY, G.I,, iloteent, kandidat tokhnicheskikh nauk-, HTKO-w. '-.-andidat, iiau~; RYSHKOVSKIY, I.Ya., dott3ent. nauk! RYAL1,07. A.Ya., professor %Clliaiia, ~e~cmicheskiich na-ak; KHAZ121, M.M., p reiIeinsor~ zi~wrc; CqRRN',ShEV. M.A., doktor t8 k'Inicrieskika _vuk,-, iDlli~ pro-fessor, doktor tekhnicheskikh I L!k,;J;.'.', -, j - I ~ ,` - I." I , -'zi dotaent. kandidat na ux. ,01*.~AC,'.~ Ay;~6i ". - I ., iraheiter; BARla- laV. P.V., profess:;-. dvrvti:- :iARNLiARD, K.A., kandidat tekhnv,pieaki~-h full', do.;~em~, kaaaldat tekirinichaskikh llauk~, l3WDs_!j-jv, lr"W.'!n*5r. _:_~LhlD.mNCW, li.K. 'KandidlLat telchniche- skikir, nauk_~ dctseat, k-andirtat ekonomicheakikh aauk-, '%Continued on next card)  R-ONNSM I GU , I. I , - - ~ ecnt, I nued ; ~ n _- d C'_ . VASINUIYEV, V,F.i GOIlGlikR67, N.G-, Intheiner-, DXRrb-AS, A.T., inzIlenez-, DOBROz,,!;LISK!Y. K.M., doisenv,, Landilat tekhnicheskikh nank; DLUGACH, B.A., knndldiat tekhnlchaal~rlkh mquir; D&IMOV, G.P., ~Cardidst tekhrd- cheskikh fiauk; Z_0L4LlIIUV, proressor, doictor takhnicheskikh nauk; ZAbA.L'Llj, R.lu., kandidat tekhnichesklkh nauk; WIN, K.P., lQinciidat trekiirilchij~iklkh riquki r~ARiEzli~!KOV. A.D., kandidat t&-.hnlchFt- skikh rauk; Lki,W-V, inviener, XANSHIN, M.D.; KOCIUMV, ~F.P., profasser, Teknriichesl-i~m nauk; KOGAN', L.A., kandidat tekhni- cheakikh aauk- KUGHUAili, ~J., InLhener; !SVASHOV, A.D., inzhener; WkKSIMOVICH, B..'A., dotsent, kandida-6 tekhnicheskikh iauk; MARTYNOV, M,S,, Inzhener, 'LmUWALi, O.M.; inzhener-, NIKITIN. V.D., professor, kandidat talchnicheskikin nwwk; PADNYA, V.A., inzhener; PANTKAYEV, P.I,, kandid-st teKhnicheskikti nauk; PV12ROV, A.P., professor, doktor tekhni- cheskikh nauk; PCVCjT-tOMNKO, V.V,, professor, doktor tekhnichosk-lkh naul