SCIENTIFIC ABSTRACT FALKOVICH,S.YE. - FALKOVAKIY, L. A.

AUTTIOR: FA L I KOV I CH .109-5-10/22 TITLE: '--Gn-tlTe _Pre~iuiol_Fin Vi~, I. Coordinati~ in Radiolocation jy:;tums in "'ho Case of Jlnuolieiont Inte--rations. (C tocilrJosti V 0,10- nykh Aste'I'll-l! Fri IERIODICALt HadiotoldinP i !Zu.~tron 1:4-, 1)~7, Vt,,l NI. 1 U. s. S. it. A 11STRACT: Tho author'L; wor% iij 1)~L:jod (;,ti L',W critori:i or lirvoision and the genceral fOr;:111lfL(3 1"or the 3i -ral and the diaturlb-,trices -d -(-- deor-ribed at the output of a r- io r~!Ceutiun 1~14t,IL. ~huy I.L.1 'ior's jrauer i -1c! 1~ '57, in the aut, .,:I i t U--onika, 19 Vol 2, Vr 4 , ')P 4150 - 46u- Cttleul~,.Lion for:.tulae Lrt~ cl,~rivnd here for avora-Ea orror ui,uarua i;~ 'u:ifi :-~ieat3uru-uent of raiv-0.3, and optimum paranoteri of ',Ile reCCDtiOn ICViCeS i1, the cage of incolic!rent inte-~ratlon r,~ (Ititerminod froa the 1,cint of view of procioioll. 11, io t,!iqL tho followitr, 13 neconvary for Oiv accuracys 1) The (,f t:ie radio a:.i,.1ifiO_r h-s to 'Oe brout.~hb iru linc ;.,ith fort or l.:,e sijpn-1 impu1scs. 2) Yhe- impul-se exiavaota.iLiAL; c' vidco line ha3 to have the character of a derivition ot' the de-ItL function. 3) Record- Card 1/2 ju.-,, jau,;t take place at the moment, cte the ouisa-e of the out-  109-5-1-0/22 On the Precioi~jn irj the Hi.cordin.,- a in RadioeleCti-4C j!j 1,110 C..jjj )f tions. put volta-e Vxouj~', 7-cro. It i.; zlic,--11 Liat, i-, conzrast to the linear det,-,otlcm of sLtmri,- Hie .:i-,~,'ification of the optiatim form of the .-If thp radi.., ai-ipli- fiu-r in the detectin,: of wcik. 'ut, co;:,lensated by the corresj,u::ding of the u. ~!L~: Vl(leo a~!i,,lifier and thut it, leads w, in Lhe lispersion of errors. (P ~;Javlc Hot .,iven PREjL"-!1ET) BYs jiVAlLABL,: Lii)rtvj of Congress (;ard --/?  FALIKOVICH, S.Ye. .WWWNAWMM -- Precision In reckoning the distance coordinates in radiolocation system@ based on incoherent signal storage. Radiotekh. elaktron. 2 no.5:601-608 Yq 157. (Radar) (KLVA 10:9)  AUTHOR: Fal'kovich, S.Ye. ~ 8011/109-4-1-25/30 TITLE: '- Poten ia Accuracy of the Determining of the Angular Co- ordinates in Radar Systems (Potentsiallnaya tochnost' otscheta uglovykh koordinat v radiolokatsionnykh 81stemakh) PERIODICAL: Radiotekhnika i Elektronika, 1959, Vol 4, Nr 1, pp 142 - 144 (USSR) ABSTRACT: In the analysis it is assumed that the received signal is reliably detected from the background noise. The problem consists of evaluating the limiting accuracy in determining the angular co-ordinate 0 when the single-pulse method is employed (Ref 4). The mean square deviation: (e %) 2m of the readingo cl~( with respect to the true value of the co-ordinate GO can be regarded as a measure of the accuracy. It is shown that the accuracy can be expressed by Eq (3) where P x(e) is the "a posteriori" distribution of the probabilities of the presence of a target at all the angular co-ordinates within a region 01 to if Cardl/3  SOV/109-4-1-25/30 Potential Accuracy of the Determining of the Angular Co-ordinates in Radar Systems the antenna system consists of two reflectors containing the radiating dipoles in their foci, and if these are separated at distances D from each other, the maximilm accuracy is expressed by: 0) 2 C2 2 (10) 2 4Q where Q2 is the total energy of the signal and a 2 is the spectral intensity of the noise. Similarly, on the basis of Eq (3), it is shown that if the antenna system consiet5 of one refle,,tor and two radiating dipoles, the maximum accuracy is exprppd by: -~ff 2 Cr A Card2/3 4Q2(2 In 2)2  SOV/109-4-1-25/30 Potential Accuracy of the Determining of the Angular Co-ordinates in Radar Systems where i!!~ is the width of the directionalpattern of the antenna. There are 4 Soviet references. SUBMITTED: June 12, 195? Card 3/3  AUTHOR: Fall1covich, S.Ye. sov/io9-4-4-8Z2k ~Frol)ability ori"/Method to TITLE: some Results of plying the "A Posteri the Problems of Radar System Design (Nekotoryye rezul'taty primeneniya metoda aposteriornoy veroyatnosti k zadacham proyektirovaniya radiolokatsionnykh sistem) PERIODICAL: Radiotekhnika i elektronika, 1959, vol 4, Nr 4, pp 618 - 628 (USSR) ABSTRACT: For the purpose of analysis it is assumed that the radiated signal is expressed by Eq (3), the perturbing noise is given by Eq (4), while the received signal is represented by Eq (5): the black-face letters in these equations represent the complex slowly changing amplitudes, while f 0 is the carr- ier frequency of the signal. The reflected signal is denoted by AT . The signal reflected from a moving target has a continuously changing delay time, -it and can be represented by: i 0 if Cardi/4 AT(t - -tt Re AT(t - Vt )e 4.10(t-td ejfl (6)  sov/iog-.4-4-08/24 Prqbability Some Results o Applyine )f the "A Posteriori '/Method to The Problems of Radar System Design where the amplitude AT has a certain finite value during tll-t~! period T and is zero outside this interval. The phase y in the received signal is a random quantity having a uniform distribution as Eepresented by Eq (3). The energy of the reflected signal Q is constant and is given by Eq (9). It is further assumed that the delay time -r_t varies at a constant rate and is expressed by Eq (10). The reflected signal can tt;crefore be written in the form of Eq (12) Where I is defined by Eq (11). Tile "a posteriorit' distribution for the whole set of the received signals is given by Eq (13). The probability can also be expreE sed by Eq (15) or approximately by Eq (16); here q denotes the signal-to-noise ratio and is defined by Eq (14). On the basis of the above equations it is shown that an ideal radio receiver can be composed of the following elements: 1) N linear channels; 2) N Card2/4 detectors (terminating each channel), and 3) a device which  soV/log-4-4- '~'/24 Prgba~iA Some Results of Applying the "A Posterl r3. eltfYod to the Problems of Radar System Design adds the outputs of all the detectors and performs the weighting operation. Further analysis of the problem shows that the optimum processing of radar signals includes the process of coherent storage. The difficulties - encountered in employing the storage technique are due to the movement of the target and to the resulting frequency shift in the reflected signal. When the signal duration is T , it is recommended that the coherent storage should be done within an interval of T/n where n is a digit not greater than 10. The coherent storage can be done in three ways: 1) selection of the signals which do not require the elimination of the parasitic random parameter, that is, the signals not requiring the velocity averaging; 2) application of multi-chAnnel systems which permit the velocity averaging; 3) application of two-channel systems which introduce a velocity correction. The signals which permit the coherent storage without the velocity averaging are of two types: very short signals whose duration does Card3/4 not exceed 0.1 of the period of the maximum Doppler  SOV/109-4-4-8/24 Some Results o, Applying the "A Post cr?6Pk4""-4Wd to the Problems 71q of Radar System Design frequency possess this property. Also, the signals which have a s-aw-tooth frequency modulation whose period is equal to the storage time interval do not require the velocity averaging. In general, the opt-imuin processing of the signals reflected from a moving target can be done in a device consisting of N channels; a velocity correction k Al Is introduced in each channel; k denotes the number?& channel and Al represents the frequency shift between the channels. There are 5 references, 1 of which is English and 4 Soviet; 1 of the Soviet references is translated from English. SUBMITTED: February 20, 1957 Card 4/4  ile 76 0 AUTHOR: 86800 S/142/60/000/003/015/017 B192/E482 Fallkovich, s,ye. TITLE: The Threshold Ratios for a Frequency-Diversity Radar System PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Radiotekhnika, ig6o, No-3, pp.404-407 TEXT: The fluctuation of the signal strength at radar receivers can be reduced by employing frequency diversity systems (Ref.2) -h1ch operate simultaneously at several frequencies. In such a system the received signal s(t) is in the form of a sum of independently fluctuating elementary signals sl(t), s2(t)-- sn(t) and can be represented in the form Eq. Card 1/ 7 4 n 1(2%10t + 4pi) S(t) I 31(f) - S it, Re SIMe ti 1-1  86800 S/142/60/000/003/015/017 E192/E482 The Threshold Ratios for a Frequency-Diversity Radar The initial phases Vi and the amplitude parameters ci for the various elementary signals si(t) are statistically independent random quantities; yi has a uniform distribution p(~pi), while ei has a Rayleigh distribution p(si). It is assumed that the signal x(t) appearing at the input of the receiving device contains a Gaussian noise of spectral density No and sometimes the useful signal (defined by Eq.(l) ). It is shown that the probability A for a radar system with the signal represented by Eq.(l) Is given by (Ref-3) A erp Eq. 9; (2) Card 2/7  86800 s/142/60/000/003/015/017 E192/E482 The Threshold Ratios for a Frequency-Diversity Radar 2 where q, is the mathematical expectation of the ratio of the energy of an elementary signal to the spectrum density of the noise and zi is a random quantity which is a function of No, X(t) and Si(t). Eq.(2) determines a system for optimal processing of the received signal x(t) in a frequency-diversity equipment. Such a system consists of n channels and a device adding the outputs of the channels. Each of the n channels comprises an optimal linear filter and a square detector. If the received signal contains no useful signal, the distribution functions for zi is PN (Zi) = exp (- Zi (3)* If the received signal contains a useful signal, the distribution of zi is given by Card 3/7  86800 s/142/60/000/003/015/017 E192/E482 The Threshold Ratios for a Frequency-Divcrsity Radar Eq. PSjV(2j)-IjpjV~z,)- ep(- Z, (4) (4) 1+ +q? The random quantities zA are statistically independent. Now, the threshold value of t e signal/noise ratio can be determined by a simultaneous solution of PV (z,- n) (6) ;:Eq. F-F(z.;n)-- (6) and (7) D - D(z.; n) PsN(r, n) dz. (7) where F and D represent the probability of a false alarm and Card 4/7  86800 S/142/60/000/003/015/017 E192/E482 The Threshold Ratios for a Frequency-Diversity Radar the probability of detection respectively, PN is the distribution function for n statistically independent random quantities for the case represented by Eq.(3) and PSN is the distribution function for the case represented by Eq:(4). The final expressions for F. and D are Eq. fp's (Z.): Z' (A) D + where kon is defined by Eq. I'(n: 4 By solving these equations it is found that the threshold value of Card 5/7  86800 S/142/60/000/003/015/017 E192/E482 The Threshold Ratios for a Frequency-Diversity Radar the signal-to-noise ratio is given by Eq. q3 arc 4,, (F) (C) I UOP - arc _?. W) where arc 9n defines a function which is inverse to (Pn' that is if x arc (Pn(y) the'n y = Yn(x). The values of the threshold signal/noise ratio as a function of n for various F and D are plotted in two figures. It is found that if the probability of detection is increased, the threshold signal/noise ratio is rapidly increased. By employing a frequency-diversity system, the effect of the signal strength fluctuation can considerably be reduced and so the energy necessary for detecting a signal with a given degree of reliability is reduced. There are 1 figure and 4 references: 2 Soviet and 2 non-Soviet. Card 6/7  86800 S/142/60/000/003/015/017 E192/E482 The Threshold Ration for a Frequency-Diversity Radar ASSOCIATION: Kafedra radioustroystv Ukrainskogo zaochnogo polltekhntcheakogo instituta (Department of Radio Equipment of the Ukrainian Correspondence Technical Institute) SUBMITTED: October 2, 1959 Card 7/7  8 L gh 13 S/109/60/005/009/029/030/AA e1 E032/E514 AUTHOR: Fallkovich- S. Ya. TITLE- Optimum Detection of Signals on a Background of Noise of Unknown Intensity PERIODICAL:Radiotekhnikn i elektronika, 1960, Vol.5, No.9, pp-1539-1541 TEXT: The problem is formulated as follows. Suppose one is concerned with the reception of signals s(tia) consisting of a given function of time t and a set of random parameters a on a noise background n(t), which can be approximated by gaussian white noise. The spectral intensity of the noise N 0 is unknown. This intensity is assumed to be random but constant in each interval of observation (O;T). Using the measured oscillation x(t) (O< t/ Y0(Z2) (8) The function Y is the same both in Eqs.(7) and The difference is tRat in the latter equation both Y and Y are functions not only of the a priori,but also of the input Sata x(t). For this reason the optimum system should consist of two channels, namely, a Y shaping channel and a Y shaping channel. The paper is concluded with the application o? the above theory to a number of special cases. There are 3 Soviet references. SUBMITTED: December 16, IL959 Card 5/5 ff.j R1 I  86881 4/8;~- 0 S/108/60/015/012/CO3/009 B01O/BO59 AUTHOR: Pal$kovich, S. Ye., Member of the Society TITLE: Correlation Functions and Spectra of Frequency-modulated Radiolocation Signals PERIODICAL: Radiotekhnika, 1960, Vol. 15, No. 12, pp. 13 - 18 TEXT: The author demonstrates the approximative calculation of correla- tion function and energy spectrum from a given frequency-modulated radio- location signal. The reverse problem, i.e., calculation of the frequency- modulated signal from the given correlation function, is solved too. The results may be generalized to signals of small amplitude-modulated band- width and also to periodic signals. For a frequency-modulated signal of the shape A(t) - Aocost2n[fot+e(t)]+9j (A. - amplitude of the signal; f0 - carrier frequency; 9 - initial phase angle; e(t) - frequency swing), A2 T(I the correlation function (5) f(T) - --a coef2n[foT+8(t)-~(t-T)Jj dt Is 2 _ T Y+T Card 1/4  8t-'66' I Correlation Functions and Spectra of S/108/60/015/012/003/009 Frequency-modulated Radiolocation Signals B010/B059 obtained if equal signal and modulation periods T are assumed.j(T~ is different from zero for very small T-values only; thus, 6(t)-g -T OF(t)T holds approximately, where F(t) ~L e(t); then, (7) A 2 T12 dt 0 Cos 2n T + P(t) dt is obtained in the place of (5). The .0,J Y- [ If 0 .111 T72 OD energy spectrum-n(f) is given asfl(f) -_S t(-T) exp (-12nfT) dT. An example 00 with linear frequency swing function F(t) - 2Fmt/T , jtj-_4-T/2 (T - period of modulation) is computed. If F(t) varies monotonically from one extremum, (Fm ) to the other (-Fm), then the frequency-modulated signal can be calculated from the given correlation function. Since t is a unique function of Fs t T(F), one can substitute f - fo + F(t) for t in (7) A2 f+F A2 0 _aid (f_f.)l and, thus, y(-') I~L T(f-f )I cos(2nf-r)df and.Q(t). ___f f -F df 0 2 df 0 m Card 2/4  86681 Correlation Functions and Spectra of Frequency-modulated Hadiolocation Signals S/108/60/015/012/003/009 B010/B059 k2 T 2/T2) (11). If, for instance, y(T) = exp(-xi U cos 2Rf0T is given, then 12-511111 t - V(F) - 2 T exp(-y 2/2)dy is obtained from (11). Z ~Q(x)dx 7M -OD The notations ares x - t/T and y - (f - f OVFM 1 so, F(t) (t/T), u where f-'(x) is the function inverse to f(x) m 1 exp(-y 212)dy. The 2 7rn J co approximation Ao(t)Ao (t - T)fVA0(t) is allowable if the signal has an additional amplitude modulation, provided the amplitude-modulated band- width is considerably smaller than the frequency swing. Thus, r/2 2(t)cos f2i[fot + F(t)-r] dt and A 2 _T72 1 2 E .n(f) - - A P (f _f 0)]+L (p(f-f,)l for If_fojZ-Fm. Finally, the case where 0 df Card 3/4  86881 Correlation Functions and Spectra of S/108/60/015/012/003/009 Frequency-modulated Radiolocation Signals B010/B059 the signal consists of M repeating periods is briefly discussed: M-1 kit) - A(t - kT). In this case, the energy spectrum aj f ) . 112 $Q__f1(n/T)jsin x UT(f-n/T)/7[MT(f-n/T )12 is obtained. There nm _oD are 2 Soviet references. SUBMITTED: April 4, 1958 Card 4/4  PHASE I BOOK EXPLOITATION SOV/5513 Fallkovich- S-Ye- Pri em radiolokstsionnykh signalov na fone flyuktuatelonnykh pomekh fReception of Radar Signals Agqinst a Background of Fluctuation Noises) Noscow, Izd-vo "Sovetskoye radio". 1961. 310 P, 10,000 copies printed. Ed.: N.D.Ivanushko; Tech. Ed.: A.A.Sveshnikov. PURPOSE: This book in Intended for radio engineers and technicians,, and for students taking advanced courses in radio engineering divisions of schools of higher education, COVERAGE: The book deals with the statistical determInatlon of the limit (potential) capabilities of radar systems with various types of signals, and with theoretical problems related to the designing of radar receivers, Basle factors determining threshold signal Card-1/8"~-  A Reception of Radar (Cont.) SOV/5513 energy and the maximum accuracy of target coordinate readings In reception against a background of stationary daussian noises are studied. Emphasis is laid on the formulation and methods of solving radar problems rather than on queitione of the practical realization of the results of theoretical studies. The author thanks V.I. Tikhonovo A.Ye."vishArin-ov,and L.S. Gutkin sho re- viewed the book, There are 14 references; 53 Soviet (including 10 translations), 20 English, and 1 German. TABLE OF CONTENTS: Foreword Ch. I. Definitions and 1. Some definitions functions 2. Some definitions 3 Initial Relationships 7 and relationships for determined 7 and relationships for stationary Card~:~  "VILIFTSM, Khatukell I.Ini:3eyevjf.!ti[Vil.an.,tlkyi, karid. tp~nn. 1. '. rinuk-, FALIKOVICIIJ, Savell Yeremeyevich j~'P-jx(jvyk-h, %IA. doktor tekhn. - na red. i nd-'V U; VOLKOV, V.M., kand. tekhn. nauk, reZs',nze"n'~' [.Leception of centimeter waves] Prylviannia santymet"OVYkh klivyl I .Kyiv, Tekhxiika~ 1964, 291 1).  ZF,0-2/Z'.-IT(d)/F5S-2/FFP,-4/EZC(t)/*4-,ED-2 Pn-4/Pp-4/Pac-4/Pj-4 AH5004017 BOOK EXPLOITATION UR/ Vilenskiy, Khatskel' Hoiseyev ich (Candidate of Technical Sciences); Fal'kovich, Savelij:Y-8remiy-,evLch (Doctor of Technical Sciences). Reception of centimeter wavea,(Pryytnannya santymetrovykh khvyl') Kiev,. Vyd-va "Tekhnika", 1964. 0292 p. itlus., biblio. 700 copies printed. TOPIC TAGS: centimeter wave receiver, travelling wave tube, S11F amplifier, negative feedback, tunnel diot;e amplifier, parametric amplifier, maser, klystron, backward wave tube, receiver noise reduction PURPOSE AND COVERAGEt This book is intended for engineers, scien- t i f i c. worke rs , and a tudents in adv an ce d rad i o eng ine e r in a cou rse a in schools of higher education. The book deals with the theory. computation, and design of receiving equipment for centimeter radio waves. Methods of obtaining high aensL~Ivtty by reduciz.,, random noise in the equipment and the design and construction cf vhf receivers are em2hasLzed. Chapters 1. 111, and TV. with the exception of section 21, were written by S. Ya. Fal'kovich; Card 1/5  .-'3 i 6 1 -6. 5 AM5004017 Chapters 11, V, VI, VII, and sectfon 21 of Chapter IV were written by Kh. M. Vilenslkiy. TABLE OF CONTENTSi Foreword -- 5 I: Sensitivity of Radio-Receiving Equipment I . General information -7 2. Some supplementary definitions -- 10 3. Equivalent noise circuits 16 4. Antenna noise 22 5. Noise figure 28 II: Input Circuits of Centimeter Wave Receivers 6. General information -- 45 7. General methocla of computing input circuits 47 8. Intermediate (converted) frequency circuits 62 9. General characteristic of shf wave -- 69 10. Input circuitn employing coaxial and strip-type resonators 70 Card 2 /5  ,L 38161-65 AM500.4017 11, Input circuits employing toroidal resonators 76 12. Input circuits with waveguide coupling stretchers 81 13. Input circuits employing wavegulde resonators with reactance irises -- 86 14. Input circuits using wavaguLde resonators with resonance-type irises -- 90 15. Input circuits using multichain waveguLde band-pass filters 93 16. Antenna switches for receiving centimeter waves -- 97 111. Frequency Converters 17. System of equations4nd equivalent cirdult of diode mixers--10f 18. Semiconductor diode mixers (crystal diodes) 110 19. Operating ralationships of miximr parameters 117 20. Optimum conditions for mixer operation -- 128 ~IV. Super High-Frequency Amplifiers 71. Slif amplifiers based an travelling wave tubes -- 136 22 .5hf amplifiers using two-terminal networks with nagati,,,n feedback -- 144 23. Tunnel diode amplifiers -- 152 24. rarametric amplifiers 161 ard - 3/5  Af15 00 40 17 25. quantum (molecular) amplifiers 183 V. Uete rod yne a 26. deneral information 196 27. Heterodyne tieing a reflex klystron 197 28. Heterodyne*. using -a backuard-wave tube -- 2G1 29. Tunnel diode heterodyne 203 30. Heterodyne-mLxer coupling methods -- 206 vi. intermediate-Frequency Preamplifiers 31. General information -- 214 32. General theory of amplLfter stages -!,- 215 33. Theory and calculation of a cathode-grounded trinde amplifier stage -- 223 34. Theory and calculation of a grid-grounded triode amplifier stage -- 236 35. Cascade amplifier circuit 242 VII. Super High-Frequency Untte 36.deneral information -- 244 37. coaxiAl-type hf unit -- 247 38. Coaxial-strip and strip -type shf units 253 Card 4/5  L 5 AM5004017 39. Waveguide shf units 255 40. Coaxial-w aveguilde shf units 257 41. Shf unit using a balanced mixer -- 261 42. Shf unit using a travelling-wave tube 268 43. Sht unit uajug,,a parametric amplifier 274 44. Shf unit using a.Tnotecular amplifier 281 45. Method of coupling an if parametric am plifier and a frequercy converter In ceatimeter-wave receivers -- 283 SUB CODE: BC SMITTEN "A8JuI64 MR REP SM 042 OTHER: 014 I-Card- 5 5,_  ACCESSION NR: AP4024734 5/0.109/64/009/003/0539/0545 AUTHOR: Fallkovich, 5. To. TITLE: Noise-current correlation in tunnel-diode mixers SOURCE: Radiotekhaika i slektronika, Y. 9, no. 3, 1964, 539-545 TOPIC TAGS: mixer, frequency mixer, diode, tunnel diode, tunnel diode mixer, frequency converter ABSTRACT: Hitherto, noise-current components in a tunnel diode have been assurned to be either statistically independent or entirely correlated. The present article trios to theoretically determine the real correlation that exists between various frequency components of the noise current In mixer diodes. Fornuilas are developed for the intensity and correlation of noise currents in an equivalent circuit of a diode mixer. The application of general formulas is illustrated by a nAcrowave-mixer equivalent circuit having a finite admittance for the receiving, Card I /Z  ACCESSION NR: AP4OZ4?34 mirror, and internmiliate frequencies; formlas for noise-factor calculatiest are developed. Orig. art. ham: I figuis, and 30 formul". ASSOCIATION: SUBMITTED: 30J&n63, DATE ACQ: IOApr64- sun colm NO R1W SOY: 003 Cwd ZNCL: 00 OTHER: 003  F:13-07-1'~"If, ji.d llydilaullc stoj)-b~-3Lq) .ti. rv,.112:40-41 D  SUDOPIATOV, A.; FALIKOVICH, Ya.; EMIMMN, A. More attention to the freezing of fruits and berries. lhol. tekh. 35 no.6:62-63 N-D '58. (MIRA 12:1) Wev-Pruit. Prozen)  FALIKOYICH, Ta. Manufacturing natursa alrups from frozen fruits and berries. Ilholotakhe 35 no,6:63' N-D 158. (KIU 12:1) (Xisv-Frult 4ulass, 7rosen)  KII-i-EYE"j, P.M.; LIFSHITS, G.I.; DIK, H.G.; BATRAKOV, V.I.; 'jLAVUTShIY, N.I., inzh.; FRID, N.Ya.; SUMPLA.'07, G.A.; iALYOVICIT, Ya.D., starshi.., tekhriolop Worthy welcome to the 22d Oongress of the 3PSU. Khol. teVh. 38 no.4-5-13 JI-Ag, 161. (1111.1A 15:1) 1. Direktor Moskovakogo khladokombinata No.3 (for Kireyev). 2. Glavn3nj inz~.. Moskovskogo khladokombinata No.3 (for Lifshits). 3. Glavnyv lnzh. Hoskovskoro kholodil'nika No.9 (for Uk). 4. Glavnyy inzh. Moskovskogo kboloctil'nika No.10 (for Ratrak3v). 5. Glavnyy inzh. Moskovskogo kholodillnika No.12 (for ~rld). 6. Direktor Kiyevskogo kholodil'nika No.1 (for Sudoplatov). (Refrigeration and refrigerating machinery)  ;,-~re-7onki v kon'.,--tchrom proizv.?od~-,tvu. -rudy pls!lch. prom,-rti, vy~-,- 6, 1949, n an :; v . 'SO: LCtoj-'ijI 'itatey, I:o. 1949  F-..T Yll . - , !, I 1 ;.0. ~ 18111 FALlYWICII, Yu. Ye. 1 A. 1'. Ochistka cti-lovogo spirta-riktifikata ot primancy. I Trudy Yrasnodarsk. in - ta ~Ishch. prom-sti, V~7-. 6, 1949, s. SC: Letopis' ZhurnalInykh Statoy, 1'o. 29, 1-1-oskva, 1049  FALIKOVICH, Yu._ Ye. and MDZHOYAN, Ye. L. "Factors In the Redistillation of Imourities in Ethyl Alcohol," Vin. SSSR, 12, No.2. 1952  FALIKOVICH, Yu.Ye. Determining copper in wines and cognacs with the help of ion- exchange reeins. Izv. vyo. uchob. zav.;piahch. tekh. no.3:144- 147 6c. (MIRA 14:8) 1. Krasnodarskiy vinodeliya. (Ion exchage institut PSOMP Kafedra tekbnologU resins) (Wine and wine m0ing-Analysis)  FALIKOVICH, Yu.Te. Determination of tartaric acid in vine and wort b7 means of ion exchange resins. Izvevy~eucheb.zav*;pi9hch*tekh. no.4:158-160 160. (MMA 13: U) 1. ]Crasnodarskiy institut pishchervoy prowyehlonnosti. Xafedra tekh- nologii. vinodoliya. (Tartaric acid) (Wine and wine making--Analysis)  -iAL-1 Determining cations in pentose hydrolyzates by means of ion exchange resins. lzv.vys.i2cheb.zav.; pishch.tekh. no.-3:3,3-36 162. O= 15:7) 1. Krasnodarskiy institut pishchevoy promyshlennosti, kafedra, organicbeakoy Ichimil. (Ion exchange resins) (Pentoses-Analysis)  FALIKOVICH, Yu,Ye. Using ion exchange resins in the anlysis of pentose hydroly'ates. Gidroliz.i lesokhim,prom. 15 no.8sl8-20 162. (MIRA 15:12) 1. Krasnodarskiy institut pishchevoy proaVahlemosti. (Im exchange resins) (Pentoses) (Hydrolysis)  FILIXOVICH A Yu.Te.!_ Prinimali uchastiyes STANCHU, L,, student; _----------5HUHEHJ31flAP G., studentka Determining copper content of wine and brandy by memo of ign exchange resins. Trudy KIPP no.22s375-378 161. (NIERA 16:4) (Wine and winemaking-Analys~o) (Ion exchange reslai)  FALIXOVICH Yu.Ye. Determining tartaric acid in wine and must by means of ion exchange resins. Trudy KIPP no.22s379-382 161. (KIRA 16:4) (Wine and winemaking-Analysis) (Tartaric acid) (Ion eKchange resins)  KULINEVICHS V.G.; FALIKOVICH, Yu.Ye.; PARFENTIYEVA, T.L. Selective determining of xylite and YYlose content in their mixture. Izv.vys.ueheb.sav.; pishch.tekh. no.ltl53-157 163. WRA 16:3) 1. Krasnodarokiy institut pishchevoy promyshlennosti, kafedra organicheskoy khimii. (Hydrogenation) (Xylose)  KUL'ITEVICHi V.G.,* -TA!JkQ~~C.H,jt~,,,Ye.; PARFENTIYEVA, T.L. Separate determining of sugars and polyatomic alcohols In multicomponent systems. Izv. vys. ucheb. zav ; pishch. tekh. no.6:11+7-149 163. iMIRA 17:3) 1. Krasnodarokiy politakhnichookiy inatitut, kafedra organi- cheskoy khimii.  0 0 loop 0 ulalaaccas" ALM 00 .4 1 u a" is it u x id x If 30 a UP a 40 al a a cp AV 1-0 ,,(a 3-D 4--P At- CAD 004 W11% OOR tj 00 *OR 00 Jr Is of 0 0, A 00 *OF ~jp 00 A so *0 -polwpiqwl a" -v -v *Ivnjr,% m3w Atunq put U3%u 00- n)!9 aqj - *ti , 'j. *J3 'Ito -1141 '1 -OO.L-l 00 -,v v P- -*m-w I I m if .14AII0. Qw 14111wad SalmO Je of 'a a 'r -1r, 1 4 - I1 11 9--w -T- 7 1 W 9 V1 I I I all a " 'r I r 4 a A R a of a n It a �r I a" w r a It if .4 11 b if a I I 1 9 1 0 1 1 4 ---AD -W-0 s 0 of a 0 0 0 1 0 0 0 0 0 0 0 9 9 0 0 0 0 9 00 0 0 Of 0 -0 40 000 0 & 00 00 0 Soo 0 0 0 0 0 0 0:  OIR I 'A, 00 a sea 00 it Gen 00 A 604 se, a 004 004 sea fig 's a 0 0 a a Z-"- / :00 lee .00 go* "00 lee 000 goo lee* 4400 1 9 00 go as* '00 talawo wN am'= iiain VA env iii l k " 6 ff : 0-0 0 0 41 eA-.G 0 Wo 0-0 001*6000000*00-  1o 0 00000j-0-00*0 0 0 0 0 0 9 0*0:09000060646909000 ; - 1 0 0 0 0 0 0 *,A . . . . . . of 0 4 4 If v 0 too . a a as o0 Is ~"Jaj_ a %j7js-.--- jgbOj-#-jja-S- wee 11,~ It! ~~PtisL _ww 00 -40 00 W L AA 6 4 0 & 100=1 ;.,I -hu, .00 00 air via-111414-by jorwitwof M., I .... ..... ,WJjkms,jtfthlAL1% oolllm;11.~AILA I's- w. I 1" .00 00 lfroolumno cm,wisely rs,usu.'.1 All Isums, J.luli%l, a vs~WW ul pludy "1944-11, 'Will Is$ If" 1"k... mj4pvtni Its lsmall jecatitas tiss %L-,) its -Io,.sw 4 A's -00 l1w unip, waras"A troy JOIAly It's Im s, 1.1 Ast.1 111V OKAI* W09 1144011) -104V Is. .00 1.4-1sals; 6(04116411V 444O.W.-I "ods ih., 00 q it-A. 1411111 afl~l 6 0 uk"111.1 .1 it, Also's 1.1 10 400 .00 assly in 01110411t, A1114 UNCIISIL6114,116 SlAhly. 0 Sid.A,Wl 400 ISUMk 14110%IMIN". 11sissist- S. 1110 jW4A11k I I stiff, I lwal, 600 go lialwal husaw uslainik's 1-1 hi"In S CIA111 trut. b.- pl.U.A.. - Off Sitmit. 01.) I'Y is'. P.. ?goo go f-I .411. lfawm 600 "Atoulast at lk$ vitalp. *Iso 1. g'. 11:611 lust l1willoslA1,11 mith I PmA A 6 l.t4s A A. 1'141~'1411V 21.00 i zoo 800 i woe 00 "DO go a I iss.- '#M- dal via- 00.44. r a I Goillialu-- p --"I' Cast a.. OP 10-1 7f. 00 go 0 0 see 000 0 o *0 0 0 :1 0 r a 0 0 0 e 0 0 0 Oij -000000100000000000000*000 00004"go;;O000111100009 00090041  000400 sot 1 'I is u 1# w It 9 to it 0 a A a OA 0 I'm a It a A I v I - A 1 1 t:01,16W 00 00 ' Brow md bwd sub. A. A. F&1 kq"iW T-Jor TOOW I. a mmptts g4 Call trot" difffrel III Im A. A. 1 0o *0 00 of 00 00 A j#vu /Ifp*41qdj 4r a umki , j ywl we rpomill -00 -00 .00 .00 goo zo 0 A 0 goo see 1*0 moo, 'es, As 1-400 too I A 0 glow 01.1411F. - 14,11444 cw, Ofts r u a &I MD AS a Ip 9 v OF & ap to OF a naive WOU 191IRWn its - 901 0 0 a 0 so 0 0 Goo 000 0 0 0 0 :,a 0000 0 0600 a* at 06906 a 00 '00 0 00000 0 0 q 0 goo 0 0 * 0 0 0 0 a 4 a 0 0 a 0 0 *of  n. t) 04sm 1954, ffd~ 6, 6"C~-ne fluldiod citalyst is dective W WaQving 11to heat d cmetion and ptimitting the u%e U h4bly diApaw'd, holy friwtive uliflytts, but "Ukts; i.-1 hie.1" C11, fAZL4OLq bfllW fiteth. "reggth; it f," the highdivoupti. rate. Mquid-phase CO l&yd:tjge=t" Is hichly wf~,Cflve low CH. formatkX3 PtUftt-d%i -.ith LUW C-AtAySt r-I&~TtMMMg. fkad catl,~efov-fxith a(LY Fe Catul)a. hut its Output is rf.11- 16*, Fized bed high-actMty Fe Catakyas can Give Cwu ".ibavwfm of tho sInthesis gas in a drigle ttage at thl,rAVISUre Ud 300 . M ',Pace VdOdUes of 2" whimt C deptuftWu, However, &~OWig 01 uLd catal diff"t aud the tc%np. must N, cautrol!O closely toy"i I . -I C de" tWu 25 rdere"es.  S/081/62/000/005/086/112 B162/B101 ,VLJTHORS: Fallkovskaya, A. A., Vavul, A. Ya., Kheyfets, Ye. M., RaJ0T6_rF,_T.__F. _,L1a_tovq V. As, Pet y akin a, Ye. I. TITLE: Efficiency of some molybdenum and organoaulfur compounds as antiwear additives to lubricating materia13 PERIODICAL: Referativnyy zhurnal. Xhimiya, no- 5, 1962, 530, abstract 5"J[224 (Sb. "Prisadki k maslam i topliva-i". I!., Gostoptekhizdat, 1961, 71-79) TEXT: It isEhown that the additive -15/30 (V-15/30), containinC a complex compound of Mlo, greatly improves the antiwear properties of mineral and synthetic lubricating materials; its action is particularly effective when used jointly with organic compounds containing S, Cl, and other V2/3 elements. A disadvantage of the additive is its unsatisfactory thermal stability in certain high-temperature lubricating materials. The Mo-organic additive -15/1 (B-15/1) can be used for preliminary application of antifriction nonoorroding films on friction surfaces; in this case, Card 1/2  S/001/62/000/005/086/112 Efficiency of some molybdenum ... B162/B101 the efficiency of high-temperature lubrication using various lubricating materials is greatly improved. The S-organic additive ~'-15/2/-t(V-15/2A) is extremely effective as an antiseizing medium for high-temperature lubricating materials. 1.5 - 3 A of it added to lubricating materials, including those prepared on a base of Si-organic liquids, greatly improves v capacity under conditions of high-temperature friction their lubricating of heavily loaded parts. Abstracter's note; Complete translation.-,' Card 2/2  ACC NR-. AP1002569 C A, A) SOURCE CODE: UR/0413/66/000/023/0061/0062 INVENTOR: Fal'kovskaya, A. A.; Oberfel'd, M. Sh.; Kheyfets, Ya. M.; Rapoport, I. B.; Puchkov, N. 6'.; Borovays,"'k."S.; Reznikov, V. D. ORG: none TITLE: Improving the antiseizure and anticorrosion properties and thermal oxidative stability of lubricants. Class 23, No. 189109 (announced by All-Union Scientific Research Institute for Petroleum Refining (Vsesoyuznyy nauchno-issledovatel'skiy i institut po pererabotke nefti)] SOURCE: Izobreteniya, promyshlennyye obraztay, tovarnyye znaki, no. 23, 1966, 61-62 TOPIC TAGS: lubricant, EP property, anticorrosion additive, thermal oxidative Istability, xanthate additive, lubricant additive ABSTRACT: An Author Certificate has been issued for a method for improving the anti- seizure (EP) and anticorrosive properties, and thermal oxidative stability of lubricants. The method provides for the addition to the lubricants of xanthates of the formula HDCSSR', where R and R' are higher and branched alkyl radicals. SUB CODE: l1/ SUBM DATE: 02Jul65/ ATD FREW: 5112 Card 1/1 UDC: 621.892.84  NAPORKO) A.G., kand.ekonom.nauk; BELENIKIY, M.N., kand.ekonom.nauk; CILORI-IOV, P.N., dotsent; BELIKOV, S.P., kand.elconom.nauk; K014ISSAROVA., U.N., prepodavatell; FALIKOVSKAYA, D.L., starshiy 'inzh.-akonomist Necessary textbook on transportation economics (INconmics of railroad transportation" by I.V. V"1. WAeftrovoll -N.&.: - Vimichanko; G.S'-,- Raikher; E.D. Khanukov; a~d N.F. 'Chokhlov. Reviewed by A.G. Naporko and others). Zhol.dor.transp. 43 no.S: 95-96 Ag 161. (MIEUt 14:8) 1. Zaveduyushchiy kafedroy "Ekonomika transportall Tashkentskogo inatituta inzhenerwo zheleznodorozhnogo transporta (for Belentkiy). 2. Kafedra "Ekonomika transporta" Tashkentskogo instituta inzhenerov zheleznodorozhnogo tram orta (for Chernov)' (Railroads) (B~lov, I .V.5 (Borovol,'N.E.) Vinnicbenko.. N.G.) (Raikher, G.S.) amikov,, E.D.) (Khokhlov.. N.F.) C  . - I -,~ - -i-- - -7 -- .. ; ~,~ w ;: ": -., .1 . . . .17. v - o Of" 1, T--l.--, ,,, -1 -i ', ~ tr I ~ ~ - -,-- ~ 11 - - I J.: 11, / FATLIEC1,311'r,'AlA. TS. :'. FI-111211enjyD -,-jjjjjostijjLjj- ramn-,.;~Lo vozrasta. Vrach~)Ib. R,,Jo, 111.4r), 1170. "', STD. 711-IL.2. s C: L-AoPiss `10, 32, 19119,  a '60 , WON , =2n ~v 0 . - - F1 III *wow$ &.0 0#4WINI-61 .094 00 Now do I up 6t Wqai~~- 11. G 00 Z"-Wwmnm ad 0". c0" J. (U. 5: 't"Ib S 40 h A A 01 l i 8f wri - - . 11 mul plion u t e e avi .) . 4 00 of f t -dIytvfw%",5 V i c I swim 0 mm ow. 06vftd a 0 b;i:vI m . . c z. 4"W Vilk-IWIY of sma rate st W40 t4Wk'#*. hr Sim" 0*14 a 0* a Como. 000 lee .40 -00 .00 '00 400 go* 4000 400 600 80:1 so Soo  ANDROSGV V.V.; FALIKOVSKAY-I,-K.V,. .4 A Improved method of fastening ties with screws. Pat' i put.khoz. 5 no,,4:12-13 Ap 161. (MIRL 14s7) I* Zamestitell nachalinika Kishinevokoy Aiotantoii puti Moldavokoy dorogi. (for Androsov)e 2e Starohiy inz"r stantaii Kishinev., Moldavokoy dorogi (for Fallkovskaya). (Railroads-Ties)  GOIAS, I.; SOKOLOV. V.; W~�~-L lw.. Liquidate water looses in domestic water pipe systeme. Zhil.-kom. khos. 4 no.2:16-17 '54. (MIRA 7 - 3) Oster pipes)  FALIKOVSKAYA, L. A. Fallkovskays, L. A. - "The electrochemical protection of iron in water of various compositions In the presence of Wdbitors," (Authors: Rosenberg, M. A., W'- havskaya. L A.9 Pogorellakly, To. 1. and Yurkovskaya, F. B.) Nauch. zapiski. (Dnepropetr. gos. un-t), Vol XXXr3:I, 1948. p. 19-31, - Bibliog: 15 items SO: U-5240, 17, Dec. 53, (Intopis 'Zhurnal Inykh Statey, No. 25, 1949).  FAL KOV S KAffl, . . . . .. '7 -T-5r . 7 Coagulation of natural wstm. it. Kf. A'. Wiiz&~ L NIR ll i ? S k k N P awa ovs a rs a, stud . .Yur aylk. OUIA.ZOA .. - 1. 43. 17-21(IOW); Rofto,41. Zkur. Kkins. 10. 1954. 140. M cf. Sborxik Raba K41w. FdWela Dxepro- . pefrovsk. Uaiv' 37 9(195t).-Tht putpom of this Invivid. 11 l i h 4 1 nuts ous com t e prom amt. of var Won was to or be remoyal o( suspcoded mattcr from satne naturul vinitm, The tfIrttIvtntM Of coagulants was judged froin their clearl"g effect and theaWlityi)(the waterto formscale, l C l I I ed w M "ArY 11OCIA-1111102 010(ttliftlif Of the walcr oup th PM the optimal Concn. of lre'04.7140 for wnter from the rivtr r os. 000 mff.11. ituspended matter was samara eoutc. apg I 80ji'lliffso for watcr frow the riyer 76 juK.11. and of 12(. l Vokh,ya uutg, nIxvut 450 mil./l. suspended mWer wax A) ~ mg.A. ItAfth acted tdinuitancously cut a "Itener avid a Us olvilitud conen. for DoelmopetmA city water C41111j. 2110 mg./I. purpowly ndtItil Laolln w-.tA IfX)-  L USSR/Microbiology Sanitary Microbiology. F-3 Abs Jour : Ref Zhur - Biologiya, No 7, 1957, 26322 Author : Fal'kovskaya, L.N. Inst : - I-*--- Title : Decontamination of Drinking Water by Ultrasonic Vibrations. Orig Pub : Gigiena i sanitariya, 1956, No i, 1i-14 Abst : A study was made of the bactericidal effect of ultraso- nic vibrations, produced by a magnetostriction generator at a frequency of 46 thousand vibrations per second. Tests were conducted with stream water, artificially por.uted with Bacterium coli, Bact. aerogenes and spores of Bacillus subtilis. The bactericidal effect was increa- sed sharply when intensity of exposure to sound wa i r - ased from 0.7 to 1.2 and, particularly, to /1.8 c , and attains 99 - 99.8% for Bact. coli and B. subtilis. Most of the bacteria perish within 2 to 5 seconds of exposure Card 1/3  USSR/Aicrobiology - Sanitary Microbiology. F-3 Abs J:)ur Ref Zhur - Biologiya, No 7, 1957, 26322 to sound of a layer of water up to 10 cm deep, and tur- bidity up to 50 mg/liter dies not affect the operation. The relation between bactericidal effect and intensity of exposure to sound may be expressed for intensities within the 0-3 - 1.2 watts/cm? range by means of the formula N e-1-4x, where N is the number of bacteria N0 after exposure, No is the number prior to exposure, x is ultrasonic intensity in watts/cm:2, and e is the ba- sis of natural logarithms, equal to 2.71. At an inten- sity above 1.2 watts/cm:2, bacteria perish at a more ra- pid rate, which my be derived from the relation N 0.6 0.33x. At a rate of flow of the water from No Card 2/3  'USSR/Microbiology - Sanitary MIcrobiology. F-3 Abs Jour : Ref Zhur - Biologiya, 110 7, 1957, 26322 i to 10 cm per second) a similar effect is obtained from exposure -to sound. The author believes that the effectiveness of exposure to ultrasonic vibra- tions of an intensity of 2 watts/cm? at a frequency of 46 thousand oscillations per second is higher than that of chlorine in decontamination. Card 3/3  SHUBERT, B,2,'P:&MLIYAO A.M.; RUIZHIIISKIY, V.I.; SID=O, T.X.; AIMMA OVO D.N.; SOKOUWo V.Y,g JAL'KOV8KAYAj__L,N.j BRUK-LEVINSON, T.Lq; BELYAKOYA, A.N.; AVEUSHCHWO, R.A., red, Isd-va; TOIKOF, S.Te, tokhn,red, [Water purification for water supply to mmichins-tractor stations and state farm] Ochistim vody dlia vodoonabzhentis poselkow NTS i movkhosov. Xoskvag Izd-vo X-va komun.khos. RSM, 1957* 69 P. (MIRA 11:6) 1. Aimdentys komucallnogo khozymystys. Moscow. (We ter-Purif tea t ion) (Water emply, Rural)  F VI L , K 0 ; -, Y~ - ~ '" , I- , V-` - GORIN, G.S.! FALIKOVS to The water supply of Berlit. Vod.i san.tekh. no-9:31-36 S '57. (MIRA 10: 11) (Berlin--Water supply)  MIKOVSKATA, L., kand. takhn. nauk. - . ~ 1 "-1- - 1. " I .. . . Water supply In citles of the Gernma Democratic Republic. Zhil.- kom. khos. 8 no.11:29-30 158. (MIRA 11:12) (Gersanyg 11ast-Vater-supply engineering)  FAVIONSUY"NA-, Ultrasonic dIsInfOOtIOn of water@ Vod* I *an, tekh. noel2t8-10 9 138. (mim n.-12) (Ultrasonic Vg'v*�-PhYGiOlOglc&l effect) (Water--Disinfection)  GODES, I.G., kand. tekhn. nauk; FALKGVSKAYA'J.V,,, kand. tekhn. nauk; BOIDTINA, A.V.p reT.-Tz_d_-va; K1040KH, E.M.0 tekhn. red. [Using equipment developed by other branches of the national economy for temporary water supply] Ispolizovanie tekhniki na- rodnogo khoziaistva dlia vromennogo vodosnabzheniia. Moskva, Izd-vo M-va koumun. khoz. RSFSR. 1961. 46 p. (MIRA 15:7) 1. Akademiya kowa-unallnogo khozyaystva. (Water-supply engineering)  FALIKOVSKAYAP, L.N. Water oupply In the U.S.A. Nauch. trudy AKKH no,22.,J 163.  L 44554-65 AM5012694 -BOOK- EXPLOITATION UIV, iFallkovskap, mdmila Organizing water supply for inhabited localitiest which have suf fered from mass destruction weapons (Organizatsiya vodosnabzhenija nwelennykh punktov, postradav- e10-1th ot oruzhiya n-assovogo porachaniya) Moscow, Stroyizdat, 1964. 55 P. illun-,' biblio. 10,000 copies printed. TOPIC TAGS: nuclear weapon, HW &gout., CW agent, water supply eyetemo water pol- i lution, water purification, water sanitation iPURPOSE AND GOVERAGEt Problems of the effect of mass destruction weapons on water supply systems of pupulated areas are elucidated in this brochure, The nature of the disruption of this system in brought out and recommendations are given for the organization of water supply in stricken cities. The brochu-re is intended for engineers and- vorke=-Iu-the vater-eupply field and also for a wide circle of DOSAAF active memberG4-.- TABLE OF OONTEYM: introduction - - 3  -L 44554-65 AM5012694 Ch. I. Contemporary means of was destruction Nuclear weapons 5 Chemical weapons 9 Bacteriological weapons 10 Ch. II. Preparation of a water supply system to operate in the case of use of mass destruction means Cities water supply lines 14 Settlements and village populated-areas water supply lines 26 Ch. III. Restoration and organization of the.water supply of a stricken city Restoration of installations and water supply lines - - 32 Decontamination of water supply installations and purification of water 46 SUB CODE,: GO, CB SUBMITTED: 24Sep64 NO REF SOV: 010 OTHER: 000  to o4 1. .4A a a A it r R of I Ark I's-A I a AA 04 4 W it 00 4 PIP 1-mr, "of 00 of 00 00 P. 10"Nov. $4u-. %2,442. )11-1 -troains the 'W="in Un- 44.W. fit Ion 60 I&AIIIIN." it# flor led for intivers"isting monhOlm, Islor, thor Impersonating IT"roll is "oviduloff"I In tor- 0* to, issinwr*ml in voomhoo%. tog mah. nof III. and frivskul incloth on 0 marlds fur bm"Ics. SO is IN filial. off mooltrifte with a OIAVVIII so 4 (mok.. am-clumar) did. with owittrul -Nesit, (-tfter tv ms. Ans. W udis). hoor llmobrfifc~ W fit 11 v is 0 4 11 1 -00 _106 ZOO 400 00 .000 be* I L A SCIALLUNIGICAL LSIONAIWI CLASSIMPKATICA 1 too room 11"WIPIV $#l0" it 941, off . 'I, -_- ,I U 5 AV v 11-11 0000600 000 0000 0 0 0 0 9 0 0 * 10 0-0 0 0 0000 0 00 0 *-*-a- 0-0  **A 00.4 fed oem god 094 OOW off U.V.VAL ".IV$. Alw., 31, 16U. Abruive pwWw Ow w" Whyd faim we to be wW m Mohn m wdtW wkb a &PM ca tbr ftvW go PoW bid so to Mod , *4- HaO. &4.1=. of mks. adds. WhoRn. or wow-oW. pdyk,* r 4m. Tlw produd b tbm GWAW w und. W. Hank S L & an"Looll" LRG"fWI CLAMPKA"m a a * 4 0 -:Op 0 I Ulia 19 0 "Go 000 see; .400 see wee see use Wes we 0*0 *99 9 v UNAWDoli fo i Foi FDA IiIA ili ililfolsaig & i ra 00410e00 4 :00000000000*00000000o :::::  Tr ISLAIM 'EMBLI01 T~APFI CAL RI~POPT AID 48Q-I BOO',- Cttll TJ12-~:0.1;55 Authors: LYUB!VUPvOV, V. N. , VASTLI'M, E. FA--IKIVSKIY. B. I. '7u11 Title: A13PAWl"! TOOL5 AND '*-r-,IP A", U-77, T I MAIMF Tr-,~nslitorrtnd Title: Abre7lvnyye Instrii-fnty i ikh lz,;-otovleniyol POLI SHING' -)ATA Origi'natlIng A,,vnimy: Ilona Pulblishing Hou!;e: Stpte Sciont!"'ic nni Techninpl Publishing Fvms~~ of Machilne-Building PM Shipbuilding Literetura Br.- nch Dpte: 'Lc)5-1 No- PP-: -176 No. of CoPies: 5,000 7,1itorivi Stpff '741. 1 t or :Chlstypkov, A. P.,Engincer Anrrpisnr; Aiv~,-ustinik, A. I., Prof., Dr. of Tech- Sci. PtR?^S-": Anv-)rive,l b.-f th-i ScIrool Arlminintrption ill th, Miniitr,~r of Bu!ldin- P.-, E- for technir-el )f 'n -r.1 -P~!~Inc, "llil,; wirk crn be v1so uspd ra F reffl-mr!-i !')-)k by enidne-rs, tec1-n1-i,-ns Pni s-pcinli-ln7 in V~s nr,)i,~ctlon of Pbrasi-iq. T7,T-- ')ATA (bir Vp.,zillyev) rl-ncribes 1-7r*,n;1'-nT ml rolshin- vnrl brslc of nrturr.-I 1-:11 112  Abrazivnyyo instrumenty i ikh izgotovleniye AID 469 artificial abrasive materials,, as well as abrasive tools, pastes, emery cloths,, sandpapers,, etc.,, with their nomenclature. Part II (by V. N. Iyubomudrov and B. I. Fallkovskly) discusses the tech- nology of the manufacture of abrasive tools with the use of ceramic, magnesia., silicate, vulcanite and bakelite bonds. Special attention is given to ceramic bonding materials because they are widely used and their processing, particularly their heat treatment, is more ccmplicated. The book is provided with illfistrations, tablos and diagrams. No. of References: 49 (1931-1952) Facilitiess Not given 2/2  DASHEVSKIY, Wye. Isaakovich; ZASLAVSKIY, Simon Shlemovich; FALIKOVSKIY, B.L., inzh., retsenzent; PILIPE31KO, Yu.P., -I-n-zF.-,, -red.; GORNOSTAYPOLISKAYA, M.S., tekhn. red. [Mechanization of the manufacture of metalworking and forg- ing dies] Mekhanizatsiia izgotovleniia shtampov i press-form. Moskva, Hashgiz, 1962 172 p. (MIRA .15:8) (Dies (Metalworking))  FALIKOVSKIYO G., inzh. Centralized transportation of ammonia water. Avt. transp. 43 no.12:13-14 D 165. (FIRA 18:12) 1. Ministerstvo avtotransporta i shosueynykh dorog Litovskoy SSR.  KOVANOV, V.V.,- PAVLENKO, S.M.: MEDELYANOVSKIYp A.N.; BOGDANOVA, Ye.V.,- KIULE7pO.I.; KHILIKIN, A.M.; FALIAUV841Y, GaA. Method of phasic control of the blood circulation. Trudy po nov. app. i metodno.1:86-92 163 (MIM 16:12)  M IKOVSKIT,,,,G.B.; WSNOVA, A.Te. Comparative evaluation of valrous methods of placing a circular vascular suture. Bkoper.khir. 4 no.5tl2-16 S-0 159. (MM 13:1) 1. Is irafedry topografichookoy anatocii I operativnoy khirurgit (sav. - Prof. V.V. Kovanov) I Moskovskogo ordena Lenins zeditainekogo Inatituta Imenl I.M. Sechenowa. (BLOOD TBSMS. surg. )  FALIKOVSKIY, G.E. Changes in hemodynamico following the exclusion of various quantities of pulmonary tissue. Blul. eksp. biol. i med. 59 no.41l9-22 Ap 165. (MIRA 18:5) 1. Kafedra operativnoy khirurgii i topograficheskoy anatomii (zav. - deystvetelinyy chlen AMN SSSR prof. V.V. Kovanov) T Mookovskogo ordens, Lenina meditsinakogo instituta iwni Sr.- chenova.  r.-. -1 1- :y I . [I , ~. ~. Tile placinF. organization and control of the -r,,,In,l oroce55 n . L;-~,,( i:,,illls of standard t, . construe tion "oskva Gjizle.~Iprom, 1--jV. 50 ~). (Bibli,;tc&,ka te..stiL'Shchika) (5h-22219) S3,2 5 3 - 1`3  M 1. FALIKOVSKIY, I. M. 2. USSR (600) 4. Peat 7. Effect of air parameters on the drying process of peat. Torf. prome, 29 no. 12, 1952. 9. Monthly List of Russian Accessions, Library of Congress, Marc 1953. VnclassifrR.- -  IALIKOVS Noisayevich; LTKOV, A.Y., laureat Stalinskoy premil, ---'doktor reteensent; KHOKUTSKIT, N.D.. kandidat tekhnicheskikh nauk, dotsent; SOKOWYA, T.Te., redaktor; IL'IrIM, II.K.. takhnichookly redaktor. [Drying and wetting bast fiber nateri&lsl Sushka, i uvlashnonie lubo- voloknistykh materialov. Isd. 2-s, perer. i dop. Moskva. Gos. nauch- no-tekhn. Isd-vo Kinisteretva, prow/shl. tovaroy shirokogo potreb- lenita SSSI, 1954. 410 p. [Niorofilm] (KLRL 8:2) (Bast) (Drying apparatus)  89220 S/05 61/040/001/026/037 44 2 ~Xo 7 2-/ 1.3 ?-5) B102YB212 AUTHORS: Abrikosov, A. A.9 TITLE: Raman scattering of light in superconductors PERIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, v. 40, no. 1 , 1961 , 262-270 TEXT: A study of the behavior of a superconductor allows many conclusions as to its energy spectrum. The existence of a gap&in the energy spectrum brings about an effect that at T-0 a radiation with a frequency smaller than the threshold frequency 2A is not absorbed. Besides such experiments with varied frequencies, M. S. Khaykin and V. P. Bykov have carried out other experiments in order to determine the electron spectrum with the help of Raman scattering of light in superconductors. At a sufficiently high intensity,it should be possible to measure the distribution of astel- lite frequencies spectroscopically. The main problem of such experiments is that scattering is extremely small in connection with the fact that due to the skin effect the light will only penetrate about 1o-5 cm into a body. No satellite lines have been observed by Khaykin and Bykov; now the ques- Card 1/6  89220 S/05 61/040/001/026/037 Raman scattering of B102YB212 tion comes up, how much the sensitivity has to be increased in order to perform such an experiment successfully and how would such an effect look like. To find out this was the aim of the present work.. The authors tried to determine the frequency and angular distribution of a plane surface of a superconductor, filling a serNkspace z>O at T.O. For simplicity the incident and reflected waves wermik assumed to form only small angles with the surface normal (sin2 g, sini~gNtIF-1;F-denotes the complex dielectric constant). For most metals161-10. -Furthermore, the radiation frequency was assumed to fall in the optical region. Since the absorption probabil- ity of a quantum is B-(C.J,-rL, ) -~JS j0 12, it is possible to concentrate the problem to determining the elements Sio of the scattering matrix, which describe the transition from the ground state to the J-th state for elec- trons of the outer field,A 2+At. (The incident wave produces a field in thD metal which is characterized y the vector potential A 2) . The elements of the S-matrix are determined by a method using quantum field theory, as outlined by L. P. Gorikov (also A. A. Abrikonov and GorIkov, Ref- 4)- Several eligible graph re examined, and it is found that only graphs of the type are of interest. This expression is found for Card 2/6 Y.  89220 B10561611040100110261037 Raman scattering of 3102/B212 the corresponding matrix element:-'it 5 = -ifd x, and the total bility 0 2 for all possible processes is given by e4 A.' (A, (x) A' (x)) + (X)'*p (x)> dxd;. X. (X) (2) For' an..inf inite superconductor relation . d'P (X) (2ar + + (XD 6.01 u2,8 (e e,) epje_,.) dip (3) *0 W ., a . .. . , l pw-x) > .A UPUP8 e W) *0 W e 5P) UPVP8 (e + Pep) e'P(K-je)-dIP (X) (X)> T (2x so I/Elp + A2. EP V 0 P I -PO), Card 3 UP, + to so), VIP (I to sp); Q  89220 _2 S/056/61/040/001/026/037 Raman s'cattering of BI02/B212 ~hclds; I ap is an antieymme tric two-row unit matrix. The following expresslai is then obtained: 2' e PS JOI tGfR(q,)f(~)dq, (9- purface area)i 2m and aftersome, intermediate calculations one finds: 2 ~ opo iijo +A)E[qo-2A~ q 'A "'o- 2,6 f( 0 2 2141 K I where E and K are the n v . q, L2 ~qo+M) q 0/2 ~q 0 +22 cOmPlete elliPtic'integrale, and (q.) 8 A.r A; C0911 co + I ~(n + cos. 6)' 4- 91110 COS 0 1), + X9 'in 4p + sin$ ip cop 0, 1 Tn + Cos 0). + X.1 I(n cos 01 + W + MIT (q$.+ 4x20)2)2 Card 4  89220 S/056/61/040/001/026/037 Raman scattering of B102/B212 The reflection coefficient ddl'which' is'defiried as the fraction of energy hitting the superconductor surface that is reflected in the angular inter- val d4'11 and in the frequency interval dcjf is obtained as 2X4 Cos 0 Coss 0 do= r - - n 7.r.,-11(!+.COOQ)(n"+X',+I)+,4n,~cosoix X [(I cos' V) (n' + k3 _~ 1) + 4n cos O'l + sint 0 sin' O'co3 2(f (nl + xvX X [(n cos 0 + 1)2 + X, Cos, 0] f(n Cos 0' + I)$ + X9 Coss O'l 1(n + Cos 0), + XI] X Xf(n + cos o,), + w w, L=2 co + 2A) 2 (ca W) A /W - (0, - 2AN K In 2xw da'd Q. +2A The' value.for Nb is dcl M-io- 12 P dUd,,~1/2b; P-1. It was thu's found that in order to be able to observe such an effect, the sensitivity has to be at least 1o5 times higher than in experiments of Khaykin and Bykov. Finally, the authors thank Acgdemician L. D. Landau and M. S. Khaykin for'discussions, There are 6 figures and 5 references: 4 Soviet-bloc. Card 5/6  ".. ,,.I  5/0~~/'2/043/00_' 52/063 :1310 4/3 102 U 0 5 11*.)rAosov, A. A., Fallkovskiy, L, A. - T I 'T L 04, f!I(,,CtrOII Crjf.,r(.-,.y .3poclrui, for metals of the bimuth t,.v p U 'I u:; i '~,,Ovu t' cis-;,`fzik v, P 71-RIOD! C!~L: rnal 4,K s i, r!rI.T.,m tal no. ,(q), 1962, 105()-1101 Ar~~-,nic, antimony anj b~ uth cave rhom',.oh-,iral lat"Ices 'ormed when on t o sublaltic&3 of a cubic lattice are m,;tuall,-, d-isplaced ~i-_6onal of the culb":. th.:. elf"C'ror, C~ectvumm IS calculat.~I,i f~r a lattice dlfferin6 ~rr,,m ctJic. 2hen this lattice -'is _4f.form.A so as to cause mutual di~,plzic-jment of the Iwo sublatt4c_,,_,,. ahv ri 1~_-ement results in the metal undereoine; a transition of tht: second Ajnd aht~reby the lattice constant is dc)-.-.bled. of carriers diudnishes. The effect of such a deformation oa the -_-~Iectrozn ene rgy spectrum is investigated, JeadinC to the formwila E. -LI d I Q I vQ'I - T-23 Ca~d i ,/, -.63"o 7  c: /c, 5 6 2,'0 /0 0 /0 2 /0 6 Theory of tilectron ereriy npectrum. . . D 1 V4 J I U,~ L2 lit 0% 1 1 d - _. 11 It Q Q 7 , 1 it whure f !Ire the q n va 1 u e s t a tr i x Dw + aw, + A 0 ~~ Y 1) i 2 A 0 bx-+O- bx. + ri . /-Faxz+A bx_+A_ bl'-tAL b. -+A - bw~ + lq~ - A + ax , V7 caril 2P 4- 0 Y -j A- b. )f.T  L) _i ,6 62/043/003/052/0630 Theory ul' Iuctron energy spectrum... B 104%4 B102 f ~ vu, + ~w, T = cu,, eu� = e (u. � iu,), 6� ='du.,. (7), L - bK. K is a quantity of the order of t1'.e inverse lattice parazeter, is the dt-,formatior- vector, uik is the le.Ccrmatior, tensor. There are 5 figures and 1 table. L 'S30CL.TTON: Institut fizichoskikh problem Akademii nauk SSSR (In-3titute of Physical Problems of the Acadernj of Sciences USSRY SUBI",ITT---D: April 23, 1962 Card 3 3  ANDREYEVO A.F,; FALIKOVSKIY, L.A. All-Union~Conference on Low Temperature Research. Vest. AN SSSR 33 no.1009-100 0 063. (KMA 16:11)  L 13637-63- -SIO05616310"100611 93s/ -ACCESSION NR: AP3003123 AUTHOR: Fal kovskiy, L. As' Theory of electron spedm1of biamuth-type metal a in a magnetic field !SOURCE: Zhurnal ekaper,.1 teor,-flzW; ve noo 6j, 1961 1935-1940 blmmth-typa metal, g-factor., spin-orbit couplingj, IOPIC TAGS: eleevon spectrum. amagnetic level- 'ABSTRACT: The'enerayspectrum of,holes ahd electrons of bismutb,-type metals in a :magnetic field is considered by starting with iesults previously obtained by the -author and A. A. Abrikosov. (ZhVTF. vo 43, 1089 and 1083, 1962) in the absence of a magnetic field, The analysis is devoted essentially to the determination of the g-factor. The paremaguetic. addl 'on to the energy lo calculated in the quasi-. 'classical. apprmtimation, and is characterized by a g-factor that depends on the quasi-momentum. It is shown that thia*deperidence is brought about by the noti.e- able spin-orbit, coupling*, The symmetry of the g-factor is determined by the SYMMetry of the Fermijurface. The calculation of the diamagnetic levels is carried through to conclusion.only for holes and for the case when the mm,,gietic field is paxvllel to the tx1gonal axis of -the crystal. Comparison with experiment is limited by the experimental accuracy. "In conclusion, I want to e3qpresa my bard 1/2