logical conditions- I - good weather 2 - dry snow ra-in 4 - wet snow 5 - rime 3/4 Card  V L 8664--iO ACCESSION MR iENCLOSUR&I S W Average curfes of p U. for various ~' - % meteorological -C conditions! 1 - g weather 2 - dry snow 3 - rain 4 - wet snow 5 - rime 4/4 Card I W-1-00MIN , MIR  r, ~C(,.- 4r., the cl-re Metallnikovy B. 1'. and Ki.cjov&,, T. It. "Living culturev cf fcri C, i n F.. t:cnorrhou if 1~! of ,julfwd(lo-rositAl V1161. corl~,. 11 tv, i ven-Urologii i Kaft~dry kczhno-verenich. b(lezriely GICEI -,:Ii. Kirova, Issue 12, 1948, 2471-52 SO: U-3264, 10 April 1953, (Letc-pis 'Zhurnal tnl,?,Lh Jtato~y, 1,-"o. 3, 19149)  KISLCVA, T. A. Fletallnikov, BE. P. and Kislovu, T. A. "Comparative evalut~tion cf different methods of treating sulfur-- resistinE fcr.-o of Conorrhe-a J-P mt--n by sti:,.vl;,ticn of tha organisms by means of' remedies, If N~iuch. zapicki Gc.r11r. in ta derm~a- tr.1cEii i v~nerol~gii A Kafedry kozho-verenich. boleznuy GGIMI im. Kirov&, Issue 12, 1948, 1). 256-68. SO; U-3264, 10 April 1953, (Letopis 121hurnal Inylh Statey, No-3, 1949)  _jj=jA,.T&*A7mm Andronikovna; CHEKIN, V.P., dotsent, otv.red.; KOTLTAROV, Yu.L., red.; SARAN=, T.V., takhred. (Timber supply of coal Industries] Lesoanabshania ugolluoi promyshlonnosti SSSR. L'vov. Izd-vo Livovskogo univ., 1959. 89 PO (MIRA 12:10) (Coal mines and mining--Eqaipment and supplies) (Timber)  ARTM4'TMV, S.A.;.NMIKOVA, 0.1.; ZHkROV, A.V.; IAETALINIKOV, B.P.; KI~sw~ STPOSTINA, Z.D.; CHASTIKOVA, A.V.; T3KYAM, S.A.; IKONNIIM, N.W.; ARAIOVA, Z.T.; GRISHINA, A.M.- Levomycetiu in the treatment of gonorrhea; results of a cooperative study. Vest. derm. i van. 33 no.2:70-73,Mr-Ap 159. (MIA 12:7) 1. Iz TSentrallnogo nauchno-isaledovatellskogo koshno-venerologichaskogo inatituta (sav.otdelom gonorei - prof. I.K. Porudominskiy, dir. - kand. med.- naiik N.M. Turanov) Ministerstya xdravookhrrinenVa HSISR. 2.T6entr&1'rqy nauchno-isiledovatellskiy kozhno-venerologicheekly institula (for *unkova). 3. Bwhkirsk$y, krayevoy kozhno-venerblogicheskiy institut (for Zharov). 4. Gorlkovskiy krayevoy kozhno-venerologicheskiy Institut (for TezWanko). 5. Sverdlovskiy krayevoy kozhuo-venerologicheakly institut (for Grishina). (GHWRAMPHEMICOL, ther. use, gonorrhea (Ras)) (GONORRM. ther. Ghlorwaphenicol (Hus))  BORISOVA, I.V., kand. ekonome nauk; NIS dots.; MAKAROV, II.A., starshiy prepodavate ; POLYANSKIY, Ye.V., dots.; GPMISHPON, F.O., red.; MALYAVKO, AN., tekhn. red. (Economics, organization, and planning in forestry] Ekonomika$ organizatsiia i planirovanie lesnogo khoziaistva. Llvovp Izd-vo L'vovsko o univ., 1961. 302 p. (MIRA 15:3) Norests and forestry~Economic aspects)  TO?IC TAGS: n#atic -polyardAa, 2q%ylene., adiple acid k5STL'.RACT* Tb-4,5'- -Author ait imthod ;Cor ebtaining1polyamide'-fiber -ease ~hs--'Iwhor. ma-1. ase of n~ and m.~#lylen amaze -ard adipic. acid. To in^- on tho stability of the fiber, the 6C-sts 0.;, r,-=y171e=qdipm'n9 a=d adiDic acid nadergo 'I 0 ~Iyionediamine salt -and-,- im__ acid in a solid state at a te=erature-~LO-6M bolow the melting t=perature ot the obtained polyamide. This procoss is cordueued in the rmsence of a thermo- stablliz-- or a-piaaticizaz. wa.la -fonmaed by, f9rPIA Z the fiber in tho usua    0 :1 1  yj-~fm 7.T. (Ry-:7~amri tl~:"--~i- tr V me'. if)s.,. 17~5)  KISLOVSKAYA. M.D. __~~~016;~Ont IT&__ stream carrying alluvium. Izv. AN Turk. SSR no.2: 3-10 '58. (min 11:4) 1.Turkmenski7 gotudaretvanny7 universitat im. A.M. Gorlkogoi I (Hydrodynamics)  L 0912Z:.6Z E14T (1) GW ACC NR, AP7002324 SOURCE CODE: UR/0387/46/000/CO7/0020/0025,' AUTHOR: Kap vskaya &Actn,_L. D.; UAjo ORG: Institute of Physics of the Earth,-AN SS�~ (Institut fiz'iky zemli AN S:~Si) Physic~'Faculty, Moscow State University, AN SSSR (Fizicheskiy fakulltet, Moskovskiy gosudarstvennyy universitet AN SSSR) TITIE: Energy focusing in the asthenospheric layer SOURCE: AN SSSR. Izvestiya. Fizika zemli, no. 7. 1966, 20-25 TOPIC TAGS: earthquake, seismologic station ABSTRACT: Data from five deep-focus earthquakes with magnitudes M 6.8-7-3,' recorded by Soviet seismic stations,were used in investigating some dynamic characteristics of the Pa wave which propagates in the low-velocity asthenospheric.. layer. On the amplitude hodograph of this wave there is a regular alternation of.the maxima and minima. On the basis of collected data on the distances between extremal points the authors have computed the thickness of the waveguide layer in the asthenosphere. The thickness of the waveguide obtained using these data was 156 km.- It was concluded that the low-irelocity layer in the mantle under the territory of the USSR experiences no variations in thickness. Orig. art. has: 3 figures, 3 formulas and I table. [JPRS: .37097) SUB GODE: oe sm DATEt 21sep65 oRiG REF-. oo7. On REF.. oog  ;-- - - - - - - I I - -zLz ., ;-.!,  A*_D_* USLOVSM,v A.'D..- wll*'U*ory of surface waveB in magnetic hydro- dynamics,# Moscow State U imeni M, V. Lononosov* Moscow., 1956. (Dissertation for the Degm of Candidate in Physico- mathematical in ScienceaO. SO: Knishaya. Letopis' No 23.v 1956 IL YINFIRTIZI, ARN  KISLOVSKIY A Readers' letters. Avt.transp. 41 no.10:46 0 163. (MIRA 16:10)1, 1. Sredne-Volzhskoye geologicheskoys upravleniye. ----------- N W et  sov/58-59-4-7324 Translation from: Referativnyy Zhurnal Fizika, 1959, Nr 4, p 16 (USSR) AUTHOR: Kislovskiy, A.D. TITLE: on the Theory of Surface Waves in Magnetohydr amics PERIODICAL: Uch. zap. Turkm. un-t. 1957, Nr 11, PP 119 - 147 ABSTRACT: The author.undertakes a linear approximation of surface waves in an incompressible conducting fluid placed in the parallel surface of a magnetic field. A similar nonlinear problem is solved in the form of a multiple series on the assumption that the viscosity Is equal to zero, the conductivity is infinite, the flow is potential, and volume currents are absent but the surface current is not equal to zero. S.I. Syrovatskiy Card 1/1  KISLOVSKIY, A.D. Theory of,prfece waves in magnetic hydrodynamics. Vast. Moak. un. Ser..Mw't.. m6kh., astron. fis., khim. 12 no. 6:99-106 157. (KIRA 111.10) 1. Kafedra statimUcheskly fisiki i mkhaniki Moskovskogo gosudarstvannop,piversitsta. (waves) Wtheilatical physics)  T-12 G, A. [Labesgue. Hanri):.JISLOV LATA-KARSKAYA, 0.1., [translator]; TAGLCK, I.K.. red.; KCLCHANOV. M.P., red.; SKIRNOVA, K.I., tekhn.red. Neawnvmeut of size] Ob ismerenii velichin. Izd.2. Pod red. I.N.IAgloma. Koakra. Goz.uchebno-pedagog.izd-vo N-va proev. RSM, 1960. 203 p. Translated from the Prench. (KIRA 14:1) (Kensuration)   d be Tb re!3ti,e Poe 1. u If g qbstrs- ic-~Ctr,.L -CT'V%, i~kLw Act. Ism, k!lc j  0A 6'. P1Lm I SM EXPLOITATION 307/1365 LOvoy, Urdver"t Motor Isly X Vassoymogo saytahchanlya po spektrookopil. t. 11 Nolokulyamaya spektrovPnplya (Papers or the 10th All-Unlon Conference on Spsctroacop7. Vol. It Molecular Spectromeop7) tL'V0V) IZd'V* L#VOV$kOgO UnIT-t&o 1957. 499 P. k 000 GOV146 prlnttd. (Sorloss Its: PlzychW %b1myk, M. -Vm-2) WitionAl Spommortz Agonays Akadgwya nauk MR. balsslya po spektrookopil. .1 User. S.L.1 Tech. Zd.s Saranyuk, T.V.j Editorial boardt toL-v1~t:pg G.S., AosdomIcian (Rasp. Ed., Doooss"L Reporent, B.3, Doctor k;sldal and M4th#WAt1C&l 30i*=*Sp Pabolinakly I.L.6,!mtor or PhIsioal and Mathematical Sciences, Y-brikent. U.. tar of Physloal and Mathematical Sciences, Korxdtn]dX, V.G. , CoMidato of Toohalcal Sclencos~ Rayokly* 3,M., Candidate of Ph7aical and Flathenatloal Sciences# KUwvskly# &JI, Candidate of Physloal and Whematloal SoUncs Mjllyan*huk, V.3.. Candid to or Ph,7sl-jal &-A FAI-hematioal 3clonce " Glaubazomm, :, A. To.: Cudidat. of Physical and MAtheastloal lanced. Card 2/30 Immeran, L.A. Now O;unal rathol in xaAe-spoo- trosoopy 81 Kovner. N.A., A.M. Bogowlor. The 31ructure and Vibrational Apoctra of Som ArAustio Nydrocarbous 84 Kw*rAtski7 V.D. and B M. Yavorskly. Method for the ' - C l l l Z -u a at on f -.p Ab = Spectra of Orgando Molecules as roganson, A.V. WormAl-4bration Prequenoles mid the AnharmAnicity Constants of Acotylong WA Dek%toro- acetylene Molecules 93 "DURIGTiGh. 0.P., and A.A. Skmbin. Folaritation Method for the Phamze-r* %f Optical C=stauta of Metals in the Minrared Ran&* 95 x1olovekL& L.D. use or a Resonator Model With - '-- WS C*um Fri-aUbu for the IMP atatlou of Optical Characteristic@ or Ab.rblAg"VAa'dl& in tU Infrared IN, Rano card  jr .4M MeEgriasr:~ esonator wo4ei ith visrous r c I'Dr AUt-mi-ld preciTng alwrs. i~a the b~, A 4., ption, the refitcti"ll am di-ii-, I. L lkie, in the infrarvd region J Lh, Elie Lnethod of Rabearts (C.A. 44. 281i,' Thi- -al:i!, Icugli-5 of glix. reflCajoa tx~ I *0 lite max rf 1. Na Is,. N r it, K F, K C!, K li,, K 1 i., J, Wai. Csbr. Cil wrrr. rc~p.: '34"43, 7.5. Wa. L18, Its. No au'l 12, D_~. 13, 1 1 4j' 5.3. 67, 23. 47, 67, &J, 78, UK) , Tlt,~- , At- v'" n 4i,,_ ugfratlent With the expO. cc-nuiv; of sawyc. (Exprron,7nmi Sm.jlliscapy L951, M lip. (CA. 45, 50A*)). lAcdcle'licc-, 4-F- KuLby 7' - 2~ T"  51-A -1-16/26 AU11MOR: Kis TITLE Optical Characteristics of Copper Halides in th6 .pticr. Bands at the Temperature of Liquid Nitrogen. Ab so.- (optichesk-Lye llcharall~teristiki Galogenidov m(~da. v po-losald,_ -pc[;lo9h,,hGnJ_-Ya pri tenperature zhidko-o azota.) P i'LIODICAL: Wtika i Spektroskopip, 1_958, Vol. IVf Nr. 1, f'-.I()O. (USSR) .1 9 A BST RA G T S. Nikitin and his -Io~-_rorkers (Rofs.1-5) reported raeasurements of absorption and reflection of the visible HL_-ht by layers of copper halides sublizoiated onto glass at the teaperature. Re!ydlts for CuI (Re-i".1) near the 4052.2 1 band and the exj-,,e-_ri=-ntaI results of Refs.7,h, may be discussed on the basis of the present author's theory (Ref.6), which uses a damped oscillator model. To find the optical chareacteristics off a "Layer near the absorption Card 113 band the aut"hor used -rallies of the refractive index  51-' 4'-1-16/26 Optical Characteristics of Copper Haj4deS in the Absorption Bands at the Temperat-are of 1AL11-lid Nitrogen. outside that absorption band, N,,avelenLths corresponding to the ro=.-ima and minima- on the reflection curve, and the fact- of coincidence of the reflection and absomption maxima. FiS.1 shows calculated optical characteristics for a CuI film. Circles on the dispersion curve reprezent experimental values from Ref.2; they a6ree sati sfa c, o rily ur-ith the calculated values. The half-vridth of 8 R and the maximum value of the absorption coefficient, of 0.65 x 10 6 cm-1 , calculated by the. present author, are in better aLreement with the expcrimorr~al values of Rof.1 than -'U-h(-, values calculated on the I-asis of Drude and Lorentz-Iorenz's theory as givejn in Ref .1. Fi--2 oho-us the oDtical character- 0 - Card 2/3 istics of CuOl and CuBr films. The values of  51-A *-1-16/26 Optical Characteristics rf Copper Halides in the Absorotion Bands at the "Llerrperat.-tre of VLquid -Nitrogen. half--widths obtained by calculation show poorer agreement with e.---periment than in the case of CuI; th-is may be due to a more complex composition of the CuCl and 0-,Br bands. There are 2 figures and 8 references, of which 5 are French, 2 Russian and 1 English. ASSOCIATION.: State Institute of optics imeni S.I. Vavilov. (Gos. opt_Jcnes_1.~-iy izstitut im. S.I. Vavilova.) SUBLUTV10; March 28, 1957. AVAIIABIE: Library of Congress. 1. Copper halides-Optical characteriotten-Theory 2. Copper halides-Absorption 3. Copper halides-Reflection Card 3/3  5-1-.4 -1 -1-7/26 AUThOR: Kislovskiy, L. D. TITLE: Certa-Ln Optical Properties of Coru_nci_um. (Nekotoryye opticheskiye kharakteristiki korwada.) IV, 17r. 1 PERIODICAL: Optika i Spektroskopi-ga, 1958, Vol. pp. 100-102. (USSR) AW-HULCT: Synthetic corundum is a promising optical material (Ref.1). It possesses a wide transmission band (0.2 - 6.0 ~Li see Fig.a) and high mechanical, chemical and therrel stability. The optical properties of coiundum (transmission, reflection and dis- persion of the ordinary ray in leuco-sapphire) were studied by a large number of workers. Unfortunately the -jalues of the re~fractive index in the ultraviolet and infrared reSlions -are not reported at all, and the V U Card 1/3 da 4-a or, the reflection and absorption in those regions  51-- 4 --1-1?/26 Certain O-ulvicaj properties of Corundum. are not very complete. The present communication reports calculation of the optical properties of corcund,,jm in a wide spectral region (0-075 - 35-0 tL) usinG a number of separate experimental values for some of these properties. The calculation follows the method Gilien in Refs.9910, -and is based on approximation of the amplitude and phase of the reflected wave by tho ampli- tude and phase of degenerate vibrations of a damped oscillator. The fundamental quantities neoessary for calculations are given in Table 1. The values of the refractive index calculated by the author are given in Table 2. The.calculated reflection spectrum (curve b) is compared with experimental values (Refs.3,?,8) denoted by open circles. Calculated values of the Card 2/3 optical constants (refractive index and absorption  51--4 -1-17/26 Certain 0- ptical Properties of Cc)-rundum. coefficient) in the reGions of strong absorption are Siven in Table 3. Guvre v in the figure on p.100 shows the transmission sj)ectrum of corundum powder calculated from the data of L.V. Levitskiy and the.data of Ref-5. In agreement with -values of Table 3, curve v shovis a maximum at 9 ~L and increase of transmission beyond 20 Ii. The author thanks B.S. ITeporent for his interest in this viorkq and L.V. Levitsskiy for measurement of corund-um povx.ller tra- t3F~j 011 11n, 4-, 1r There is 1 figu're,3 Q- tables and 12 refGrenoes, of which 5 are Russian, 2 Fi~encnh, 7 '.L - - 3 h,'ng"Iish, 1 Italiem, and 1 of unknovin origin. A220OLM011: State Institute of Optics imeni. S.I. Vavilov- (Gos. opt.-L che s1z-Ly in-stitut im. S.I. Vavilova) SUBL,T1211ED: March 2,31, 1957. AVAI1A,j,)j2: Library of Congress. Card 3/3 1. Corundum-Optical properties No-go, � ;5MR  AIJ THOR -rT- TIT19: On the Problan of Determination of Optical Characteristics frcm Reflection (K voprosu ob opredeloai optichaskikh kharaktoristik po otrazheni~u) PERIODICAL Optika i Spektroskopiya, 1968, Vol 5, Nr 1, pp 66-70 (USSR) 4BSTPAGT: A universal graphical method for determination of optical constants from -hio photometric reflection measurement4s is described, This method makes'it possible to find.the values of the refractive inder- (n)p ,l = n2- 0 the absorption coefficient (1c), F and LIE2 21 2nk, given the values of the ratio of the reflected to the incident amplitudes and the phase-shift on reflection The procedure can be generalized to oblique angles of incidence. Using a photographic enlarger the procedure can be speeded up by projecting a grid of (P, d) on a required scale on to the plane (n, k). The method is explained in detail and examples of appropriate graphs are given. Card 1/2  so,1151-5-1-1,Ag On the Problem of Determination of Optical Characteristics from Reflection The author thanks B.S. Neporent for advice. There are 3 figures and 21 references , 6 of which are Soviet, 5 English, 4 French, 3 American, 2 translations and 1 German. ASSOCIATM-1; Gosudarstvennyy. opticheakiy institit im. S.I. Vavilova (State Optical Inatitute imeni S#I, Vavilov) SUMaTTED: September 13, 1956 Card 2/2 1. Light - Reflection 2. Light - Properti~s 3. Optical materials- Refractive index 4. Photometry - Applications 5. Enlargers (Photograpby) - Applications 6. Data - Analysis  AUTHORS: Pivovarov, VX. and Kislovskiy, L.D. S Ov/51-5-3 --1/21 TIT13; On the Anomalous Behaviour of the Raman Line Intensities in TWO-Component 11ixtures (K voprosu ob anomaltnom khode intensivncsti liniy kombinatsionnogo rasseyaniya dvukhkomponentnykh smesoy) PERIODICAL: Optika I Spektroskopiya, 1958, Vol 5, Nr 3, pp 251-255 (USSR) ABSMTCT.- Bobovich and Tulub (Ref 1) and Pivovarov and Bobovich (Ref 2) found that in cortain two-component mixtures the Raman line intensities of one component are not proportional to the concentration of that component._ Fig 1, which is based on the data of Ref 2, shoy;s the dependence of the Raman intensity on concentration for three mixtures. C2H5`OH---G6H6, (CH3)2GO--G6N and CH013--GEH6. The present authors studied the changes of the Raman line intensities in two-ccmponent mixtures and compared them with the changes in the positions and intensities of absorption bands vhich are non-active in the Raman scattering. All these changes were studied as a function of the concentration of one.of the components. The substance used vas benzene; it was dissolved in Card 1/3 acetone, ethyl alcohol or In chloroform. The concantration dependon-~01  j01//51-5-3-4/21 On the Anomalous Behaviour of the Raman Line Intensities in No-Componont Kixture:3 of the integral intensity of the non-active 26001 absorption band of benzene was investigated. Solutions of benzene with 20, 40, 60, 80 and 100% by volwe of benzene were used, It was found that the 2600 1 band intensity is proportional to the concentration of benzene in acetone and in ethyl alcohol (Fig 2). When bentene is dissolved in chloroform an anonialous increase of the Z600,9 band intensity is observed with decrease of the concentration of benzene. The latter result agrees with that report d b B Yliss and Halmo (Ref 7j - The concentration dependence of the 2 0 absorption band in benzene may be cNalitatively explained by means of the "damped oscillator" sodel proposed earlier by one of the present authors (Kislovskly Refs 8, 9). The discussion of the "damped oscillator" model JOL illustrated by Fies 3 and 4 which show the effect of the refractive index on the position and intensity of an absorption-band and the change in the position and Intensity of a weak absorption band which lies in the ving of a strong band. Application of th"s model to the Card 2/3 active absorption bands made it possible to explain their changes and  on the Ancmalotxs Behaviour of the Raman Lino Intensities in Two-Component Mixtures to show vhy the anomalies in the concentration dependence of the Raman line intensities should occur. The discussion given in tho present paper is of preliminary and phenomenological nature, and it does not deal *ith the molecular mechanism of the observed effects. Tho authors thank B.S. Neporent and YA.S. Bobovich for their criticism and advice. There are 4 figures and 10 references, 9 of which are Soviet.- ASSOGIATION;Gosudarstvennyy optichaskiy institut im. S.I. Vavilova k8tate Optical Institute imeni S.I. Vavilov) SUMaTTED. October 21, 1957 Card 3/3 1. Benzene--Spectrographic analysis 2. Benzene solutions-- properties 3. Raman spectrum--Applications  4 24(7), 24(4) SOV/61-6-6-20/34 AUTHOR; Kislovskiy, L.D. TITLE., Reflection Spectrum and Optical. Properties of Terylens in the Region 700-1300 cm-A (Spektr otrazheniia I optichaskiya kharaktoristiki terilena v oblaotl 700-1300 FERIODICAL: Optilca I r-pektroskopiya, 1959, Vol 6, Nr 6, pp 810-812 (USSR) A~BS TPACT The paper describes a determination of the optical properties of amorphous terylene, as used for production of,artificial fibres, f r0M its reflection spectrum using the method described earlier by the author (Ref 5). The method is based on representation of separate reflection bands as damped- resonators whose amplitudes and phases are eonsidered to be the amplitudes and phases of normal reflection. The specular, reflection - speetrum (Fig 1) on practically normal Incidence of light on a polished terylene plate was obtained by meaw of a spectrometer INS-11 with an NaGl' prism. A plate of crystalline KBr, whose refractive index is well 6614 vas used as the reflection standard. By plotting the reflection band peaks on the complex. refractive index plane (details In Rer 5) the author obtained the values of the optical constants n and k of terylene In the card 1/2  SOV/51-6-6-20/34 ReflecV~on Spectrum and Optical Properties of Terylene in the Region 700-1300 =-I region 600-1300 cm-l. These constants are shown as functioAg of 'wavelength in Fig 3. There are 3 figures, 1 table and 7 references, Card 2/2 2 Of which are Soviet,13 English, 1 German and 1 international.  SOV/51-7-3-5/P.1 AUTHOR j Nislovskiy.. L.D. TI TUIP, optical Properties of 'Nater and Ice In the Infrared and Radiowave Regions of the Spectr=- NRIMMIL: Optika I spoictroskopiya, 1959, Vol 7, 11r 3, pp 311-320 (USSR) .133MICT: Card V3 The author calculated the values of the optical constants (the refractive index n and the absorption factor k) of vater and ice in a wide range of infrared and radiorave frequencies. The calculations vere based on the author's own model (Ref 15). The author used certain published data and come of his own experimental results. Some of the data used in calculations of the optical constants of mater in the infrared region are given in Table Iss this table lists the reflection maxima and minima at the-water-fluorite boundary at 2.83, 6.0 and 6.55 IL, reflection minima and maxima at the vater-air boundary at 11.0 and 20 IL, absorption maxim at 15.8, and 60 IL and permittivity at 300 IL (L = 4.2). From the first three values listed in Table 1 the author.constructed a "resonance circle", shown in Fig 2. From this circle the author deduced the values of the optical constants n and k in -the region 2.2-3.4 IL (Fig 19). Fig 1A shows the spectrum of reflection at the fluorite-7mler boundary  Optical Properties of Water and Ice in the Infrared and Radiowave Regions of the Spectrwu in the region 2'.1-3.4 -0 obtained by means of an INS-11 spectrograph with an LIF prism. Using.the data of Table 1,Schulz!s formula for the dispersion of water in 'the ultraviolet visible regions can be extended to the near infrared by addition of a tom due to the absorption band at 2.92 ~L. At 200L-1 the dispersi.on formula is then given by Eq (1) 0 where A is in 'aticrons -Fig 3A represents the author's reflection spectrum at the fluorite-water boundary in the region 4.6-8.5 IL. Fig 4 shows the fires onance circle" for this spectral region and Fig 36 gives the wavelength dependence. of n and 1C of rater found using Fig 4. Fig 5 shows the 11raynance curve" for all the absorption bands of water in the infrared region. Fig 6 shows the reflection spectrum at the wator-air boundary (Fig-6.k) and the ty-1velength dependence of n and k between 2 and 200 IL (Fig 65), deduced from the curve of Fig 5. The more Important parameters of the absorption bands between 2 IL and 1 era are collected in 'Table 5 Using Debyets and Maxwell's formulae, the wavelength dependence of the optical constants of 'water in the radiowave region was constructed. It Is shown In Fig 7 for wavelengths from 0.01 cm to 1000 km; the upper continuous curve and the left-hand dashed band represent -water, the other two curves in Fig 7 represent Ice. In calculation of the optical rd 2/3 constants of ice in the infrared region the author used the -1000 data  t),.,tAea1 Prorerti,a; of and Ice in the Infrared and Radiawave Ro6ions of the Spectram. listed in 'rable, 4, i.e. reflection cami-ra and minima at 3.2, 2.8, 13 and 10 -~L, absorption maxima at 12.5 and 62 ji and permittivity at short navolengtha (9 = 3.17). The calculation yielded -wavelength dependence of the optical constants of ice bettioan 2 and 200 )1 (Fig 96). The Laore important characteristics of the infrared absorption bands of ice are listed in Table S. Using BrInghaus's and the author's ovin (Table 5) data EL dispersion formula vi" deduced for polyc rysta.1 line ice -which Is valid in the visible and near infrared region at -100C; this formula is givew in ~:q (7). The optical constants of ice in the Debye absorption region vern det.orminad using the author's own equations and certain experimental constants listed by Stoineman at al (Rat 44) and Smyth at al (Rat 50). The results of the calculation for -1000 are shown In Fig 7-where the lower continuous curve rapresento the refractive index and the right-hand dashed band gives the absorption factor of ice; these constants are given for iavelangths from 0.01 cm to 1000 k=- Acknowledgment is made to B.S. Neporentfor his advice. There are 9 figures, 5 tables and 53 references, 12 of 'which are Zoviet, 23 'Fnglish, 12 German, 3 French, olard U3 2 SiAss and 1 International. SUSAIM-0: December 25, 1958  Oi- KISLOVSKIY, L. D., Cand Phys-Math Sct (dies) "A method of determining the optical characteristics of isotropic media with strong absorption bands (the 'resonant environment' method)". Leningrad, 196o. 14 pp (State Order of Lenin Optical Inst im S. I. Vavilov), 150 copies NO 15, 11,160, 131)  V~, IQ PRUE I BOOK EXPLOITATION Ural sic oye moveshchnnlye po spektrookopil. 30, Sverdlovsk, 1960. Materlal3i (11ateriels of the Third Ural Conference on Spectron- 'copy) 1. Sverdlovsk, Metallurgizdat, 1962. 197 p. Errata slip Inserted. 30OO'copies printed. ! Sponsoring Agenclest Inatitut flzlkl metalloy Akademli nauk 333R. Komlselya,po spektrookopli;.and Urallskiy dom tekhniki VSNTO. (Title, page).1 z. P. skornyakov, A. B.-Shayevlchp and S. G. -Bogomolov; Bd.sl, "Oennadly Pavlovich Skornyakov;, Ed. of Publish- Ing Houset H..'L.?Krjzhov&; Tech. Ed. i M. T. Kallkova. -PM633s The book, alcollectlon of articles, is Intended for staff members of spectral analysis laboratorles.In Industry and scien- tific research arganlzations, as well as for students of related -and for toehnologlate utillzing analyt1cal results, Cw 1/15  Materlals of- the, Third Ural Conference (Cont.) COVEPAGEt The 6011eation presents theoretical and practic b leme of the applicatiob of atomic and mol cular spectral an2 y: l : BIG In controlling tho.ohemical compositi n ofv&&Iouv matgrial I in ferrous and nonferrous metallurgy, geologyp chemical Indus-" try, and medicine. The authors express their thanks to 0. V. Chenteova for help In preparing the materials for the press. References follow the individual articles. TABLE OF CONTENTS: -Foreword PART I ' 13heratkov, Yu. A., and L.- F. Makalmovskly. ~Investlgstlon of the dependenci.ofthe total.lntenslty~ofspeatral lines on the.conoontratlon of: *I*mnts In an arc-disch4me plasma Card 2A5;  Ma.terials of the Third Uml.Conf arenas (Cont.) SOV/6181 PART 11 Vasilevskly, K. P.# and B. St Neporent. Absorption of In- frared radiation by.water vapor in mixtures with foreign' ;gages .145 -P-Alove ki Now method of absorption analysis based reflection ,151 on f Bagomolov,,S. 0., A.' P. Kolesov, X~ P. Gjrebenshchlkova,~and E., 1. Gorbunova.. VtillzAtlowof ultraviolet spectros- copy in analysis of by-produot,coke xylene 157 Korshunov,.,;A* V*# and A. A_Ioloiskly. Spectra of low- frequency Raman light "attering by some heptshydrate crystals 164  ZOLOTAREV, V.M.; KISL4DVSKIY L.D. Attachment to an IkS-14 spectrophotometer for obtaining speotra of liquid and solid objucts by the method of disturoed total internal reflection. Prib. i tekh. ekap, 9 no.5ti-15-177 S-0 164. (MIRA 17:12) 1. Gosudarstvennyy optieheskiy institut.   L 29512-65 ?wT(m)1FW(01WW IJP66) JTD ACCESSION NR: AP5005646 S!0051/65/018/002/0318/0320 AUTHOR: Sbg&a1rpjv 1. L. Rudyavskala, 1. G. Kislovskiy,,_ __ 4 TITLE: Free carrier absorption in siligg in the 40-100 micron region A SOURCE: Optika i spektroakopiya, v. 18,_ no. 2, 1965, 318-320 TOPIC TAGS: silicon, absorption, free carrier absorption, infrared absorption, lattice absorption. free carrier &BSTRACT: Neasu ements were made at room temperature of the transmission of n-type Si specimens with a free carrier concentration of 4-1014 cn-3 and a resistivity of 15 ohm-cm, and of compensated samples with a resistivity of 104 ohm*cm obtained by fast neuLrun oombardment. The experiments were conducted in the spectral range UeLweea 40 and 100 microns on samples 1-10 mm thick. Figure I of the Enclosure shows the variations of the coefficient of absorption (k) of Si samples with a re- sistivity of 15 ohm-cm. Curve 2 shows the spectral variation of the coefficient of absorption of free carriers (k.) calculated from the Drude-Zener formula. Curve 3 shows the spectral Variation Of the coefficient of absorption (kb) of Si si'Deciiaena ib,ombarded with fast neutrons (compensated samples). Curve 4 shows the spectral variation of the coefficient of absorption by free carriers calculated by the  L 29512-65 _aw---0Z~JUU.1U 4JU Iformula kF Kb- Curve 5 shof4a the spectral variation of the coefficient of ~absorption of the crystal lattice calculated from the formula kF - k - kb on the assumption that kb - ki (ki being the coefficient of absorption at the long-wave- length -wing of the absorption band at 16,4 micron which is associatedwith the lat- tice v4brations of samples activated with impurities and structural defects). The experimental data for free carrier absorption are in reasonable agreement with the absorption figure calculated with the Drude-Zener formula. orig. art, has: 3 formulas and I figure. '[CSj ASSOCIATION: n3ne SUBM-IMD: 25Jun64 ENCL: 01 SUB CODE: SS NO REF SOV: 006 OTHER. 009 ATD PRESS: 3197- E~ L   -66 _-z -3 44 _%(Q ACC NRx AP 5028098, SOU _t COOS: UR/0048/65/029/011/1966/1968 lovski AUTHOR: Galanov, Ye.K.,; KAS ORG: Ztnte qpi~lcs ;Xnstktu".~ S'.21.vavilovi. Wdsundair opticheskiy insiLtut*' stvennyy Institute of.,Crystallogrqphy,-.Academy of,Sclemes SSSR nstitut kristallogr4i kristallografii.Akademii,:naUk SSSR),: A- TITLE, Change s* in the- infrared ~ref lection spectrum of trialXcine sulfate Iincidont to se tr nsition- p rt.Fourti A 1-Union'Coittere hold them pha a 'ale o 1 nce on FerrOelectricity --at Rostov-on-the-Don 12-18. Seote!~~ 'SOURCE: AN SSSR. Izvestiya.-Seriya 14ic '*8ya,v-29,:no.ll, 1965, 1966-1968 TOPIC TAGS: Ferioelectric ci~stal', phase -transition, light ref lection,_ la absorOtion_ Oi riblecular vibration ABSTRAM, By comparing their --orevious ifif rared reflection measurements on trii1yolne sulfate crystals __(Ye.K.: Galanov, and .~L.D._ Kislovskiy, Kristallografiyal 1OP-Ho.2, 209~ (1965)) with x-r, ay -diffr actio,n_'_ d at iand the results-of Raman a nd infrared absorption spectroscopy found In -the -_Iiternturi),.,~_the *authors,have derived vibrational assign- ments.for 25 ref 1,ection bands with: wave numbers b6tween and 3150 cm these are tabulated and comparedvith asaignments,arrived at~by R.S.Krishnon and P.S.Narayanan (Crystallography and.Crystal Perfection. Ed. G.N.Ramachandran,p.329, L. - N.Y.; Acad. Press, 1963). Changes inthe specitrum at the phase transition point were observed L 1/2 _gqrd     V-   -ACC-N& Ap6o334ho _SOMCR -CODE f- UR/0051/66/021/0(0#/0476/0461- AUnMi Rudy&vskAi*a, 1. 0. t LuIryartmeya, A. 0. Kislovi ORO: Dwe. of Tradadselon of coated silicon In the long wave infrared region of the spectrum S`dURCE: Optikil*spektroskopiya, T.1 2i, 'no-. 4, i96~, 476-h81 Topic TW'S: silicon, optic coating' Ir, spectrum, optic transmission ABSTRACZ: The authors have measured in the 20 100 nm range the spectra of sillcon 'coated with a layer 6f silicon dioxide to enhance Its transmission, The transmIssloo spectra were measured with a long-foiALs infrared spectrometer (DIKS-1), with an echelette Ojjjjjjg of 6 li~es/m. The filters used to eliminate the extraneous radi- atidi~'afid:,to z,6&j6e' the level.of the scattered radiation to less than 5% are de* scribed. The spectral width of the slit vas I - 2 nm, and the accuracy with which the-transmission was de 'ternined was 2 - 3%. Samples of different-coating thickness vdiFe measured. The results shoved that the position of the transmission Z=iK= .(A-- ) changed appreciablyg from 42 to 90 nm,'as the thickness of the coating was 14fli.- The largest attainable transmission was-90%. The optical characteristics 'of `tfie coating are tabulated, and'vas of further improiing the tin co.a g efficiency are CCWe UDC: 535.3h5.1 14:5h6.28 + 535.391-5 Ellis 5-71 7 WME-MR, M W_  Cwd 2/2  i-ACC-M,-,%~60-26G9i !AU'rH*0R: SOURCE COD6- --UR-/-O,-l---C-i-/6-6/008/008/2401/2lfO4 GalaDov, Ye. K.; Xislovskiy. L&_Dl. none Defor-nation of the SOJ- ion triglycine sulfate crystals during phase transition IRCE: Fizika tvardogo tela, v. 8, no. 8, 1966, 2401-2404 IC TAGS: IR reflectance, absorption spectrun, IR spectrum, phaze transition TRACT.- infrared reflection and absorption spectra of isomorphic triglycine sulfate Zle crystals are studied. The resulting spectra are compared with those of a group alum crystals. In these crystals, just as in the triglycine sulfate crystals, the :id SO4- ions are weakly perturbed-by the crystal lattice. The analysis of the tri- 'cine sulfate IR spectra indicates that the change in the positions and intensities bands during phase transition is due to the deformation of the S04- ion. The pie- lectric crystals consisted -of deuterized triglycine sulfate and trigiycine selenate. reflection spectra were taken from oriented cut crystals; the absorption spectra m powdered crystals pressed between YBr plates. The spectral region investigated between 1030 and 1200 cm 1. The vibrational frequencies of the free S04- ion in various crystals am tabulated and compared with those meas, ured by other investi- Cord 1/2  ACC NRs 106026691 t !gators. The authors thank 0. P. Girin and L. A. Shuvalov for their'in-ferest and B. S. Neporent for valuable discussions. Orig. art. has: 1 table, 1 formula. ISUB CODS: 20/ SUBM DATE; 26Jan66/ ORIG REF: 007/ OTH REF: 009  A03*,:N1ts AP7002387 SOURCE CODE: UR/0020/66/171/005/1092/1095 -AUTHOR: Ivanov, N'. R.; Shuvalov,' L. A.; Kislovskiy, L. D. s 666H (Institut kristaIlograft I ORG: Institute of Crystallography, Acaderq of Science Akademii nauk SSSR) TITLE: On the structural mechanism of the electrooptical and thermooptical effects in ferroelectric crystals of the triglycinsulfate type .,SOURCE: AN SSSR. Doklady, v. 171, no. 5, 1966, 1092-1095 .~TOPIC TAGS: electrooptic effect, ion, ferroelectric material, glycine, sulfate, crystallography 0 ABSTpACT Theoretical and experimental investitations were made of the,imp rtant 2- ions in the occurrence part played by the deformation of So or Se04 of spontaneous polarization in mouociini, trialycinsulfate or triglycin selenate crystals. The deformation resulting from the displacement of nitrogen atoms can be measured by directional changes of the maxiwim polarizabLlity, i.e., by shifts of the Indicstrix of the crystal. Measure- meats were performed of the shifts of the optical indicatrix in the para- electric phase at a temperature close to the malting temperature of the crystals.. These shifts showed up an breaks on the # (T) dependence curves, which are explained as indicating the presence in both crystals of 1 /2 me! s48.-5 +S'46  62 6t ACC NRs AP70 hi the' several characteristic teimperatures above the curie point, at w-A, J rupture of bonds takes place. It is suggested teat the results cAn be extrapolated to other cryIstale of the "me type. Thus, for examoleo- one ean eAlculmem Omt the zmaltInR temneraturs of tri2lwinfluobervilate  K~�LCVSKIY, V., inzhener-sudovoditell ~ 7 - ~ CAlculating the elements of position lines in determining the bearings of objects beyond the map margin. Mor.flot 26 no.1:21 Ja 166. (MIRA 19t1)  KIShOVSKOT Sergey Vladimirovich: SLOBOZHAN. I.I., red.; ONOMKO, N.G., tekhn. 0 [History and regional study of Bokeltogorsk) Bokeitogorsk-, istoriko-kroevedchookil ochark. Leningrad, Lenizdat, 1960. 134 p. (KIU 13:11) (Bokeltogorsk)  KISLOVSKOYO SERGEY VLADIMIROVICH Boksitogorsk; Istoriko-krayevedcheskiy ocherk. Leningrad, Lenizdat, 1960. 134 f 1j P- IlluSev Ports, (Goroda Leningradskoy Oblasti) Bibliography: p. 134- L 135-/'  wa=w no- :w TIP AM #M_%. VIM AP6028154 SOURCE CODE: UR/0307/66/000/002/009F/eW AUTHOR: Smirnov. L. Ye.; Kislovskoy, V. S. ORG: none TITLE: Topographic interpretation of. aerial color photographs printed on different types of paper SOURCE: Leningrad. Universitet. Vestaik. Seriya geologii i geografil, no. 2, 1966, 96-102 TOPIC TAGS: topography, color photo Interpretation, photographic material. paper, aerial photograph ABSTRACT: The authors compare the interpretability of a large variety of 1:10, 000 and 1:17, 000 spe6trozonal aerial photographs of diversified terrains, printed on SB-2 two-layer color spectrozonal paper, on F-1 and F-2 three-layer color paper', on Czech Fomacolor paper, and on U. S. Kodak and Unibrom. paper, using additive and subtractive printing tech- niques. The terrains were in the Central Siberian taiga. zone and in the forest zone of the, North-West European Soviet Union and covered populated localities and Isolated buildings; communication and pipe lines; railways and roads; brooks, canals, rivers, beaches and lakes; Card 1/2  I ACC NRi AP6028154 fences, ditches, fords, bridges, ravines and precipices; rocks, stone deposits, sand strips, marshes and polygonal surfaces; pine, fir, bireb, and larch woods, burned woods, cedar shrubs, bushes, and individual trees; meadows, reed thickets, and plowed fields. SN-2, SN-2m, SN-5 and TsN-3 films were used for photographs, magnifying glasses and stereo- scopes for interpretation, and the Rharkevich formula (A. A. Kharkevich. 0 tsennostl informatsli. V sb.; "Problemy kibernetiki", vyp. 4. M. �--Pizmatgiz, 1960) for photograph interpretability evaluation. Better interpretation results were achieved with SN-2m, films and F-1 and TsB-I paper. OrIg. art. has: 1 formula, 4 tables, and 1 figure. SUB CODE: 14/ SUBM DATE: OIOct65/ ORIG RE F: 004  KISLOW, A. "Electrical methods in research," Przeglad Geologiczny) Warszawa, No 5, May 1954, p. 169. SO: Eastern European Accessions List) Vol 3, No 11., Nov 1954, L.C.  KISLOW) A. "Electric coring while boring wells, it Przeglad Geologiczny, ~jarszaum, No 8, Aug 1954, P. 341. SO, Eastern EWopean Accessions List, Vol 3, No 11, Nov 1954, L.C.   HELM', A. "Geophysics ir. the Sleirvice~ of Geological FrjLlnceriri~gfl, P. 474, (PR27CI.ID z GEOUGIC-24-1, No. 11, Voveriber 1954, T-larsaw, Polarcl) SO.: S . Y-nnibly List of East F-oro-pear. Accessions (F AL)~ LC, Vol. 4, Eo. 3, Mlarch 1955, U'rel.  Yz* ow tv 6i Y4  MW $4M A. K44cw X 1955, 11. ir. r4at,-~Qc ftwh bull* ffi~a up ~xom wmml rmal', diarp umiulat"ca~ Ping ,0~2 ~A tho ~.U~A m4n, ; - . .,. w- , -~t I T14 ~~ ~"L-w f. ~daFl, ~ . wsm emewd ta 1M1 whZ charg,~ W~-e PIA"4 &JTE~ul i50 "0 lwiirr, 14-19 m, tl-&" b--!Wz waccy (Able. Re-:1ta ~r~ -pa. al th, dinwaultics. 2 pmal--- SW NZ ar'd have t*Zr glyea MA JjhMU-ACjCtjg gli t~~ &fjjr re .jt~i dne*~t~, 4. Wujtj=blO pmgra:m hP.5 ~~*n mmde Im -!Lucidating tho em-.Uare, of t~6 PrA rulzaaam ple~%"uz. 0u the wholo the IpMat 6 gGiMdWhfit WO hCM'WY &Z MWO dOWkd IhOCULIg squ -7-7- 77 -77 i.7 Soviet Union gmbyzL Lu =4 wMe f,*V,   Kismur, A. Geophysical prospecting. and the petrolem, Industry In the 6-Year Plan and its future developmpnt. T). 17. (Nafta, Vol. 13, No. 1, Jan 1957, Krakow, Pola nd) SO: Montbly L-3tet of East European Accessions (EEAL) LCC, Vol. 6. No. 8, Aug 1957. Uncl.  TECHNOLOGY PERIODICAL: PREZGLAD Glz'.OLOGI(,ZNY. Vol. 6. no. 4. Apr! 1953. KISLCF9, A. The problem of selecting the mean velocity. p. 159 Monthly List of -i'~ast Eiropean Accessions (MAI) LC Vol. 3. no. 4 April 1959, Unclass.  KISLOW) A. The geologic interp-retation of rellectiori levels in the wedging and erosion zone of the foothills of the Carpathian Mountains. p.59 Nafta. (Instytut Naftowy) Krakow, Poland. W1.15, no-3, Mar-1959 Monthly List of East European Accessions Index, kEEAI) L", Vol.8, no.6 June 1950 Uncl.  KISLOW, A The problem of average velocities at interpreting seismic materials in the district aroun Tarnow. Nafte Fol 18 no.I:  'OuUlnea of t~& tectonic . structure of the base of the, Miocene of the Tarnov region as based on seismic data. Nafta 19 nol's.-=2717 63. 1. Instytut Niftowyl, Krakow,  KULOW, Afrykan, mgr inz. Outline of the deep sedimentary basin in the Rzenzow-Przemysl area based on geophysical data. Rafta Pal 20 no. 7:176-178 i1 164. 1. Petroleum Institute, Krakow.  Klsbg~( (translator] . 4-41- -* *- -m9r*RZI-- Testing petroleum and natural gas boreholes and improvements in their effectiveness. Nafta 20 no-11:307-308 N '64.  GOSSE, N.P., in-An.., inzh.; NIKOLISKIY, G.A.,, inzh.; POPOV, G.S., inzb.; SHMOVTSEV, V.I., nauebrqy red.; VACJM, A.A., red.; RUNOVA, A.P., red.; KOVAL'SKAYA, I.F., tekbn. red.; VIVOGRADOV, Ye.A., takhn. red.; ILIYUSHENK(YVA, T.P., tekbn. red. (Electric eq'uipment and devices of motor vehicles; catalog and reference book]-*Aotraktornoe elektro-oborudovanie i pribory; katalog- spravoobnik. Moskva.. TSentr.in-t nauchno-takhn.informateii mashino- stroeniia. Pt.l. 1961. 371 p. (MIRA .14:12) 1, Russia (1923- U.&S IR.) Gosudarstyenrq7 komitet po koordinataii na:uchno-iss1edovatel1FiY'kb rabot. 2. Nauchno-issledovatellski7 eksperimental'My institut avtotraktornogo alektrooborudavaniya i priborov (for Goose., Kislulchin.. Nikollskiy., Popov). 3. Direktor Nam- uchno-isslidovgt~ellskogo eksperimentalinogo instituta avtotraktornogo elaktrooborud ya i priborov (for Shakhov-tsew). 9~ r vehicles-Electric I equipment) (r40  GOSSE, N.P., inzh - KISLUKHIN S.V ' inzh.; NIKOLISKIY, G.A.., inzh.; POPOV, G. op inzhoj 0 SEV2 V.Ly naucbrqy red.; RUNOVA, A.P.., red.; VAGNER, A.A... red.; ALEK,'WEVA, TN.., tekhn. red. (Electrical equipment and instruments for automobiles and tractors; a reference catalog]Avtotraktornoe elektro- oborudovanie i pribory; katalog-spravochnik. Moskva TaINTIMH. Pt.2. 1962. 378 P. 5:9) (MA 1' 1. Russia (1923-. U.S.S.R.)Gosudarstvenryy komitet Po koordi- natsii nauchno-isaledovatellskikh rabot, 2. Nauchno-issledovatelf- skiy eksperimentallryy institut avtotraktornogo elektrooboru- davani7a i priborov (for Goose, Kislukhin Nikol'skiy, Popov). (Tractors-Electric equipmentj (Automobiles-Electric equipment)  XISLUKHIN, V. (g. Kirov). ui~'t'lle water power of small rivers. Sell. stroi. 11 no.4, 20 156 [i.e. (MM 10.-6) (Kirov Province-Hydroelectric PoWer)  KISLUrH 0 V.I. _-.Od4=ectr1c cars for sorting lumber. Lee. prom. 35 no.2:22&-22b F 157. (MUM 10: 4) l..Glavrj7 Inzhener Nyandouskogo lespromkhoza. (Irmber--Transportation) (Railroads--Cars)  Production of high-puritY amYlase preparations om the -,ubmerged cultures of Bacillus sub-tilis. FrJkI. bio-khim. i mIk-roblol. 1 no.3: 278-284 14y-Je 165. (.MTRA 18:7) 1. Vsenoyuznyy nauchno-Irsledowittellokly imsLItut rermon'.110y i spirtovoy pro-myshlennasti, Voskva.  KISLUKHIM, Taugeniya. Our economy Is Improving. Rab-1. sial. 32 no-7:11 JI '56. (KLRA 9:8) 1. Starshynya kmagass, ivqa Dzimitrava, Kirskl rayen, Grodsensk"a voblaste',. (Mir DistrIct-Collective farms)   29062 S/179/61/000/004/004/019 E031/E135 AUTHOR~, Kislyagin, N.N. (Moscow) TITLE* Rotational derivatives for the downwash of a wing in unsteady motion PERIODICAL: Akademiya nauk SSSR. Izvestiya, Otdeleniye tekhnicheskikh nauk. Mekhanika i mashinostroyeniye, NoA, jL961, pp.20-25 TEXT-. A wing and tailplane configuration which is deforming is considered. Linear theory is applied, the aerodynamic characteristics of the lifting surface being represented by rotational derivatives. The medium is ideal and without vortices. There are no external forces. The concept of rotational derivatives for the region of the downwash is introduced. The wing is replaced by a vortex sheet; it is assumed that the intensity of the vortices may vary with the time4 and that the velocity of the downwash of the free vortices is constant in magnitude and direction, the vortex strip being situated in the plane of the wings In unsteady motion the vortex strip behind the wing is represented by two systems of free vortices; one with axes parallel to the Card 1/3  29o62 Rotational derivativen.for,the _04 S/179/61/ooo/oP4/oo4/ol9I E031L/EI35 free stream,and the other with axes perpendicular to it, To simplify the calculations it in assumed that the downwash is constant across the-span-.and in the antisymmetric case it varies linearly across the span of the tailplane. Expressions for the derivatives of the wing-tailplane configuration are obtained from a knowledge of the rotational force and moment derivatives for the isolated wing and tail. To determine the rotational derivatives of the downwash caused by a wing of finite dimensions at subsonic velocities, the wing is replaced by a system of horse-shoe vortices distributed over the span and chord. The intensity varies harmonically with time, The effect on the tail of the disturbed flow is equivalent to a change in the intensities of the attached vortices. Knowing the changes, it is easy to calculate the rotational force and moment derivatives for the tail, taking account of the downwash created by the wing. Downwash derivatives for rigid triangular, rectangular and two swept wings at small velocities are presented graphically, the results compare favourably with experiment on models. Card 2/3  Unsteady supersonic downwashes at. ~e trailing wing edge. Izv.A.V Mekh-' Inaahl-nostr. no.l,,70-147 04 (MI.RA 17:4)  ACCESSION NR: AP4018434 5/0179/64/000/001/0143/0147 AUTHOR: Kislyagin, N. N. (Moscow) TITLE: Unsteady supersonic downdraft at the trailing edges of an airfoil SOURCE: AN SM. Izv. Otd. tekh. nauk. Mekhanika I mashinostroyonlye, no. 1, 1964, 143-147 TOPIC TAGS: supersonic, flow, jbt plafie, airfoil design, airfoil, aerodynamics, rectangu- lar airfoil, delta airfoil, delta wing ABSTRACT: Formulas are given for calculating the coefficients of the rotntional derivatives of the downdraft directly behind the trailing edges of harmonically oscillating rectangular and delta wings. A slightly bent,- thin airfoil of arbitrary-shape at small angle of attack is first considered. The forward motion of the wing Is considered to be rectilinear at con- stant. velocity. It is also considered that the airfoil surface may be deflected. A formula Is given for the velocities appearing at the airfoil. Equations are then derived for the density and velocity of development of the surface of discontinuity, and formulas for the coefficients of the rotational derivatives are obtained by transformations. The equations derived make possible the calculation of the changes In the components of the perturbation' 'i:;-irA/2  ACCESSION NR: AP4018434 velocity when passing through the supersonic part at the trailing edge of the airfoil, asI well as at points along the edge. Equations for the coefficients of the rotational deriva- tives of a rectangular airfoil are then evolved. Finally, equations are derived for a delta wing with supersonic leading edges. The analytical results obtained agree with the results: obtained by other methods. Orig. art. has: 9 figures and 18 formulas. ASSOCIATION: none A SUBMITTED: 31May63 ENCL:* 00 BUD CODE: MFP NO REIF SOV: 006 OTHER: 001  AU THOR t1rilya1c, G.M. TITLE - On the Dependence of the Excited-Stato Lifetime of Orranic Phosphors en the Exciting Light Wavelongth (0 zavisimcsti vranenl zhi%ni votbuchionnoge dostoyanipa organolyuminoforov ot dliny volny Vaztushdayashchego sveta~ PSUODIC&L.- OptikbL J. Spe"-roskopiya, 1958, Vol 5, Nr 3, pp 2.97-301 (USSR) AM MjAQT; The author etidied -the effect of the excitation vavolength on the emVited-atate lifetimo and the phosphorescence spectram of organic dyea in various solvents. The effect of the dye concentration on the decay law and duration of phosphorescence in the anti-Stakes region -was also investigated. Solutions of trypafla-7ine (in acetic.acid, acetone, glycerin, methyl, iscamyl, ethyl and n-tutyl. alcohols), fluorescein -(in boric, sulpharic, formic and acetic acids, =ethyl and acidified ethyl alcohols), and rivanol (in ethyl alcohol) more used. All measurements were made at the liquid-oxygen temporalure, and for fluorescein in boric acid they were made also at room temperature. Sams of the results are given In Fig 1, 'which shows the Ga rd 1/,3 dependence of Ute excited-state lifetime *1 on *,a ax-cits.-.Ion wavelength.  On the Dependence of tho Exaltod-Statue Lifetim-3 of Organic Fhoa.phora an tho Exciting Light Wavelength Fig 1 dealz with six so-hations, s"A.Milar results were obtained for the other phoaphora. Fig 2 Gives the absorption (=.rvo 1) and lumines.eence- (marie 2) spectra of tryratlavine in acetic acid. Comparison of + . Figs 1 ami 2 shovis that the excited-state lifetime begins to decrease at wavelengths viftich correspond to the beginning of the anti-stolces region: i.e. the beginning of the zhort-mvelength part of the lb=ines cence arattram. The fall of the excitad-state lifetime of phosphorescenco YiUch ocours when the phosphor is. excited in the aniA-6tokes region auggest5that the probability of the tr&ns5tion of a molecule fran a metastable to a nozzal state Increases. The excited- state lifetims of fluorescein In sulphuric acid in the anti-Stokes region was found to increase slightly, after the inilial fall, and then to remain constant (Fir, 1, cur7e 3). Such a variation ofthe exv~ -ed-state lifetime may be due to an additional phoaphorescorce maximum, vhich is sho-m at 585-,1-90 m~b In Fig B. Fig 3 gives the phesphorescen-ae speatram of fl-acresceln in aulphuric acid-1, and the three bypos of dots used represent oxcitation produced by means of Card 2/3 three different light filterz. The results seem to show that the  SOV/.51-5-3-12/21 On the Dopeadence -of the Excited-6tate Lifetime of Organic Placa pho re on the 3xciting Lignt Iffavalangth phosphorescence spectrum dooo not depend on the excitation wavelength. These reaults are not, hoseyer, very reliable since excitation was not monochrcmatic and each of the three filters use" ' (UFS-2, SS-5, SZS-I) tranavaits a barad andl nt,+ a line. It ,vias fcund that the dye concentration in solution doo3 not affect the dependence ofthe excited-state lifetime on the excitation wavelength. Thereare 3 figures and 13 references, 11 of which are Soviet.. ABSOCTATION. Foltavolciy pedagogicheskiy institut (Poltava Pedagogical Institute) SUBMTMD: October 10, 1957 Card .3/3 l.Phosphors--Excitation properties 2. Phosphors--Properties 3'.~ Phosphorescence--Life expectancy 4. Dyes--Spectra  SOV/51-6-2-15/39 AUTHOR Kislyak, G.M. TI ME On the'Phos phores conc* Deasy Law of Trypaflavine in Pormic Acid (0 zak6no talilkhaniya fos forests exits ii tripaflavina v muravoilloy kialota) PZRIODICAL-. Optike, i SpektroskoPiya,. 1959, Vol 6. Ir 2, pp 226-228 (USSR) ABSTRACT: The author found (Ref 2) that the excized-stato lifetimes of certain organic dyes (trypaflavino, fluorescein, rimnol) in various solvents depend on the Oxcitiur, lignt WaVelangb1i in the anti-Stokes region but are independent of Wavelength in the Stokes region. In all solutions, except that of trypaflavine in fomic acid, decay is exponential. The decay law of trypaflavine in formic acid was found to be complex and the rate of decay dependent on the exciting light vavelongth both in the Stokes and the anti-Stokes region. The present paper describes studies of the phosphorescence decay law of trypaflavine in formic acid and the effect of this acid on the absorption spectra of solutions or trypaflavine in water. The epparatus used to measure the decay curves vas similar to that described earlier by the author (Rof 2). Trypaflavine in 85, 50, 25, 10 and 5%aqueous solutions of fomic acid vas studied. 'The absorption spectra wore measured only for the 85% formic acid Card 1/3 solution. it was found that addition of formic acid to aqueous  SOV/51-G-2-1-5/39 On the Phosphorescence Decay Law of Trypaflavine in Formic --cid solutions of trypatlavine produces marked changes in the absorption spectrum. Fig 1 (curve I) shors that tho absorption spectrum of formic acid solutions is displaced tomrdo shorter mavelengths, is more diffuse and the main absorption maximum lies at 400-405 mjL. In the long-wavelength region of the spectrum the characteristic sharp fall of absorption, normally observed for the three dyes, is absent and a second maximum near 448-450 Ii is observed. The two maxima suggest that there are two modifications of the dye in solution: trypaflavine in water qnd trypaflavine in fomic acid. The changes in the absorption spectrum of trypaflavine on addition of formic acid may be due to the effect of the acid on electron levels of the dye molecules, or due to chemical reactions of the acid with the dya ' Bxperimaars carried out do not indicate clearly which of the two mechanisms is responsible for the observed changes In the absorption spectrum. Decay of phosphorescence of trypaflavine in aqueous formic acid solutions may be reprosented by two oxponontials, with excitud-3tate lifetimes of 0.2 and 0.95 sec. The complex phosphorescencos decay law Is observed (under ultraviolet excitation) down to 5~,, formic acid solutions and the decay constants have practically tho same values for solutions from 85 to 5%. The two -a rd 2/3 values of the excited-rtats lifetimes are ascribed to two modifications  0 On the PhoGPhoresconce Decay Law of Try-~Rflavine in Formic Acid Sr)11151-,-2-15139 of the dyet trypaflavina in ,ater and trypaflavine in formic acid. ,,,he author studied also the effect of formic acid concentrations on tho.dapandenca of the excit3a-atate lifetime t on the -.;Rvelength of exciting light. The rest.,Its obtained are given in Fig 3, -which shows a mqrked cnan!,a with dezroase of formic acid concentration from 85% to 10X. For lO/'Q solutionp, the V-1 curve Is of the same form as for - trypaflavine in other so!vants and the phosphorescence decay law is exponential again. Thir; indicates that at low formic acid concentrations one of the two types of emission coutres, disappears. The author concludes that trypaflavino itself has only one type of contre resDonsible for long-duration -,mission, but two types of contras are present in formic acid solutiona. Acituowledgements aro made to M.A. Lobedev -who directed vhir. -work. There are 3 figures and 3 Soviet references. SUMEETTEED February 22, 1958 .,a rd 3/3  24(7) SOV148-23-1-26136 ACTHOR: Kislyak, G. M. TITLE: On the Dependence o-r-the Life-Timo of the Excited State of Organoluminophores on the Wave Length of the Exciting Light.II (0 zavisimosti vremeni zhizni vozbuzhdennogo sostoyaniya or- ganolyuminoforov ot dliny volny vozbuzhdayushchego sveta.II) PERIODICAL: Izvestiya Akademii nauk SSSR. Seriya fizicheakaya, 1959, Vol 23, Nr 1, pp,119 - 121 (USSR) ABSTRACT: In this paperthe influence exercised by the wave length of, the exciting light on the law of extinction and the duration of the fluoresc Ience of organic pigments is investigated. In- vestigations were carried out of trypaflftvin in various.al- coholic solutions, acetone, glycerin, acetic- and formic acidy fluorescein in various alcohols, sulfuric-, acetic- and'boric acid, and of rivanol~in ethyl alcohol. The investigations were carried out at the temperature of liquid oxygen, those-of fluorescein in boric acid also at room temperature. Measure- ments of the life timee of the excited state and of phosphores- cence were begun after freezing the solution for half an hour Card 1/2 in liquid oxygen# The following is shown by figures: The de-  On the Dependence of the Life-Time of the Excited State of SOV/4-8-23-1-26/36 Orgnnoluminophores on the Wave Length of the Exciting Light.II pendence of fluorescence duration on the wave length of the excitine light for the three aforementioned substances in alcoholic solutions (Pig 1), the absorption- and luminescence spectra and the dependence of t on the wave length of the exciting light for trypaflavin in isoamyl alcohol (Fig 2), and the dependence of'V1 on the wave length of the exciting light for trypaflavin in a Wo formic acid (Fig 3). Figure I shows that the duration of phosphorescence remains constant up to a certain.wave length, after which it decreases. This wave length differs with various substances and with various solvents. An exception is formed by trypaflavin in a 85% formic acid (Fig 3), in wbich case the duration of phosphorescence at first increases with an increase of the wave length, after which, like in the other cases mentioned, it diminished at the ,beginning of the anti-stokes domain. There are 3 figures and 6 Soviet references. .Card 2/2