SCIENTIFIC ABSTRACT YAROSLAVSKIY, A.P. - YAROSLAVSKIY, N.YE.

A, P. Role of cerebral cortex in mwdfasUtions of vestibular reflexas. Vast-tt*ftolar. 1224p jnIY-Aus. 50. p. 10-2 1. Of the LOR (Otor!dn*Ur7ngc)Agic&l) CLUde (H*M--Howred Worker in Solence Prof. K. L, nilov)) LenbWmd Swdt&M4bXtwdc Medical Institute. cum 19,9 50 Nov.,, 19,00  YAROSIAVSKIY,'A,.P. (Vyborg) PINOMT, - Unusual fore~p-bcdrof the Pharynx. Valt.oto-rin. 18 no.--'..-128 S-O"'i*36. ~"- (KLRA 9: 11) OURM-YORNIGN BODIES) I  Name: YAROSIAVSKIT, A. P. Dissertation: Study of the effective action of certain drugs on the degree :f manifestation of vestibulovegetative reflexes Degree: Cand Med Sci MiD Ik-alth P.SFSR, Leningrad Sanitatton and Hygiene Medical Inst Date,, Place: 1956, I/eningrad Source: &-j-izhnava Let-pols', Wo 2, 1957 E N D USJPRS/DC DUPONT 7-424o . . . . . .......... .- - - - - - - - - - ............  YAROSLAVSKIY, A.P., Cand Med Sci -- (diss) 11 Study of effectiveness ofAaction of certain pharmacological preparations7on the degree of pronouncement of the vestibulovegetative rellexes." Len 1958 12 pp. (min ofW ealth RSF5R- Len Sanitary HygienL-I Med Inst) 100 copies (KL, 39-58, 112) 77  YAROSL KIY. A.P. (Vyborg) The influence of autonomic poisons on the intensity off autonomic vestibular reflexes [with summary in EnglishJ. Yest.oto-rin. 20 no-5:32-36 S-0 158 (MMA 11:12) (?,FMRIIM. eff act a on degree & chnracteriatics of autonomic vestibular reflexes (Rua)) (BESERPM. eff ect a same (Rue)) (YESTOULAR APPARATUS, effect of drugs on ephedrine & reserpine on degree & characteristics of autonomic veatibulor reflexes (Rue))  YAROSLAVS A.Pe (Vyborg) Labyrinthine cormlinntions following intra-ruiral adnimistration of cocaine solution. Vest.oto-rin 20 n0-5:112 S-0 158 (MrRA 11:12) (LABYROTH, cauand by iritrn-ttural oocol.no Infuaion (Rua)) (COGAIM11, inj* eff. labyrintLne lesiona after intra-aural infusion (Rua)) -P  YAROSLAYSKIY, AsPe, R=Tq LoYao (Vyborg). Free skin graft myringoplasty with the aid of Kolokoltsev's glues' [with summary In Zngllsh]~ Veste*oto-rint 20 no.6-.36-38 N-D 138 (MIRA 11:32) (BAR, MIDDIR. surg; myringoplasty, free skin grrft using KolokoltsevIs glue (Rus)) (SKIN, TRANSPLANTATION, .same (Rua)) 3,  asilum YARGSIAVSKIY, A.F.t kandmed. nauk (g.Vyborg) Penic:Ulln treatnent of paratonsUlary abscesses* Zhure usbop nos. i gorl. bol. 23 no-067 Jl-Ag'63. (KIRA 16:10) (TONSIIS ABSCESS) (PENICIIL-RI)  YAROSLAVSKIY, G.T. The OML-12 and IML-7 macbines for cleaning and Insulating large-dlameter pipes. Biul.tekh.--ekon.inform. no-7: 62-65 16o. (MIRA 13:7) (Pipe--Cleaning) (Pipe-0jorrosion)  YAROSIAVSKIY, L. -Iand -1EV, -A. Yii-. "Criteria for Evaluating Tone-Telegraphy Systems," Vest. Svyazi, I;o.4. 1954 Translation M-644, 26 Jul 55 Assistant Professor, Odessa Electrical Engineering ftat Communication InBt. RZ-1. 4- N' 3  YAROSLA.VSKIT L.I.- YAKHINSON, B.I. 31~tablishment of frequency at the out-put of an ideal narrow-band filter with phase-frequency modalation. Radiotekhnika 15 no.7:44-50 J1 160. (KM 13:7) 1. Daystvitellnyye chlemy naucbno-tekhnicheskDgo Obahchestva radiotekhniki i elektroBVazi im. A.S.Popova. (39lectric filters) ff ff-MME."Llm  BOSYY, Nikolay Dmitriyevich, kand. tekhn. nauk. Prinimal uchastiye BYKHOVSKIY, Ya.L., kand. tekhn. nauk; Y L*I., A-2- kand. teklm. nauk; TKACHRIKO, L.N.p in .., red.izd-va; BEREZOVYY, VA.., tekhn, red. [commnication channels) Kanaly sviazi. Kiev Gostekhiz- dat USSR, 1963. 391 P. WRA 16-12) (Information tbeory) (Telecommmication) A-' T-v  SVERDLOV, M.P.; YETRIJKH114,, 11. N L.To ZUBOVSKIY, L.I,-, WROV, V.S., TARAKAIJOVA, M.S.; ctv. red.: DATRAKOVA, T.A~p red. (New TT-17P and OTX--2S vo-ice frequency telegraphy apparatus using transistor devl,~6s] Novaia apparatura tonallnogo te- legrafirovanila na pol-aprovodrilkovykh pribcrakh TT-17P i OTT--2S," infonnal.s4.:m-aT-; sborn`.k. M-,,skva, Svlazl, 1965. 125 P. (MIlU 19:7)  ACC NRi AP7004659 SOURCE CODE: UR/OWI/~66-/00000i/005-1-/0052---I sciences) (Candidate S.;'.Yaroalavskiy, of technical L. r. AUTHOR: Usov, 1. ORG: none TITLE: Device for measuring pulse noise and interruptions in telephone channels with variable integration time SOURCE: Mekhanizatsiya I avtomatizataiya upravleniya, no. 1, 1966, 51-52 TOPIC TAGS: telephone equipment, electronic test equipment, noise analyzer CV/)J/17r - 0-11 (Hr--C?AJ CJqrj&) X) E A- ABSTRACT: A device for measuring pulse noise and short-term interruptions in telephone channels used for voice-frequency carrier telegraphy and data transmission in the 300-3400 cps frequency range is described. The portable device, developed in the Kiev branch of the Central Scientific Research Institute of Communications, is designed for general field use. It operates by generating pulses whose number is proportional to the integrated value of the input pulse noise or interruption. Some characteristics of the device are: input power range, 2105 2 5.105 and 2:106 2 2-106 nw; range'of short-tern interruptions, 1.5-3.5 neper; integration time, 0.5-5 msec;accuracy of the integration time, 5Z; input impedance, 600 ohm or more than 7 kohm; maximum counting speedp 2000 cps; power consumption, 30 w; input voltage, 110/127/220 v ('13Z) at 50 cps; operating temperature, 5-40C; size, UM 621o391.17   ACC NRt AP7002669 ~AUTHQR: Yaroslavalkiyp Lo P. SOURCE COD3s--lft~/6'169/67'/012/ool/oll3/0114 iORG: none :TITLE: Distribution of combined phase of a Bum of angle-modulated oinUBoidal signal band narrow Gaussian noise !SOURCE: Radiotekhnika i elektronika, v. 12, no. 1, 1967, 113-114 TOPIC TAG!-. signal reception, signal noise separation ABSTRACT: J. Salz and S. Steinfs general formulas for distribution of combined phase of a Bum of arbitrary-modulated signal and narrow-band noise (IEEE Trans., 1964, IT-10, 4, 273) are too complicated for practical use. The present short note proves that if the signal is only angle-modulated (no AM), Bimplor formulas can be deduced from S. 0. Rice's results (BSTJ, 1948, 2-7, 1, 109). The distribution and mean frequency 16rTor formulas are derived. Orig. art. has: 13 formulas. SUB CODE: 09 SUBM DATE: 29Apr66 ORIG REFs 001 / OTH REF: 002 Card 1 Mgs 621,391.8226~ -Ll- 49  L 3oo4-66 :','WT(d)1FSS-2 ACCESSION NR: AP5020887 UR10106165100010081006210068 621.397-1:621-391.164-7 MUM: Lebedev, D. 8~.; YaroulavskV L. P TITIX s. Eff icioncy of some methods of facsimile transmission SOURCE: Elektrosvyazi, no. 8, 1965, 62-68 TOPIC TAGSt facsizile transmission ABSTRACT: The AM, PCM with and without correcting codes, and bl-orthogonal-Bignal methods of facsimile transmission are considered.Assuming certain characteristics of the human eye (vision) and a constant-parimotor channelf the mini= signal-to- noise ratio corresponding to still Invisible distortion-cauBed by a&utive normal white noise Is evaluated. This table is reportedt J__  C -to-noise average power Here; A. is the signal Method At AP AMI CAAt ratio; C r. Ig .. . AM . . . . . . I I ~ nal power and noise power# and P aro the sig P s n 7-digit pCM 2.7 7 3.5 respectively. The table shown that the AM method 8-digit PCM requires a channel with the lowest traffic (Wagner). 4,5 6 3,2 capacity (last column). Bi-orthogon 2 .64 6,5 signals ~ Theenergy efficianc:y of-the bi-orthogonal method iB found to be 0-0285 and that I of the AM methods 0,0048. Orig4-art, has: 13 formulas and -1 table. r1  POLYAKOV, V.G.-, PEREVETIZEV-ORLOV, V.S.; YAROSLAVSKIY, L.P,; LEVITIN, L.B. Conference of young specialists of the instLtute. ?robl, pered. inform. no.16:91-93 164. (MLA 17:12) 1, Inatitut problem peradachi Informatail AN SSM  _L 18864-63 BDS-- ACCESSION NR: AP3003714 S/0109/63/008/007/1139/1144' AUTHOR: Yaroslavskiy, L. P. -All TITLE: Problem of synthesis of parametric systems SOURCE: Radiotekhnika i elektronika, v. 8. no. 7. 1963, 1139-1144 i TOPIC TAGS: parametric system AtSTRACT: At variance with conventional formulations of the problem, the author tries to find the law of parameter variation and the system structure on the basis of a specified response y(t) of the system to a disturbing force f(t) that belongs to a spocified class. - An approximate solution is found for the problem of synthesizing a parametric system responsewise equivalent to a harmonic resona- tor; also, the problem of (re)tuning such a system by varying the pumping fre- quency is solved. The single-equation synthesis problem, however, does not always have a general solution based on the specified class of force. The results !Card T  18864-63 ;ACCESSION NR: AP3003714 show that: (1) a definite combination of two parametric amplifiers may have the characteristics of the conventional resonant amplifier, and (2) to (re)tune the parametric system so that it would retain all of Its characteristics within a fre- .,,j,quency band, it is necessary to also (re)tune the corresponding nonregenerated system. "In conclusion,. the author wishes to thank F. V. Bunkin, Yu. Ye. D 9yakov, E. 0. )Airzabeklyan, and S. M. Rytov for their attention, interest, and !valuable comments made in discussing the present work." Orig. art. has: 25 formulas. ASSOCIATION: none SUBMITTED: 30.Tun6Z DATE ACQ: 02Aug63 ENCL: 00 SUB CODE: CO, GE NO REF SOV: 004 OTHER: 003 ;ord  USSR/Electronics Telegraphy FD-532 Card 1/1 : Pub. 90-8/13 Author : Yaroslavskiy, L. I., and Lev, A. Yu., Active Members, VNORiE Title : Frequency spectr a of tone-frequency telegraph systems with amplitude and phase keying Periodical : Radiotekhnika 9, 64-71, May/Jun 1954 Abstract : Article analyzes frequency of oscillations spectra amplitude- and phase-keyed by periodic telegraph signals. When the frequency of the carrier oscillation is near the keying frequency, additional oscilla- tions (besides carrier, upper and lower sidebands) appear in the line spectrum. The amplitude and frequency of these oscillations depend on the ratio between keying and carrier frequency and on the phase angle of the carrier oscillation relative to the telegraph pulses. States the tone-frequericy telegraph system with phase keying was suggested by A. A. Pistollkors in 1931. Three references: 3 USSR. Institution All-Union Scientific and Technical Society of Radio Engineering and Electric Communications imeni A. S. Popov (VNORiE)  1. 04 5 6,-7 1 W'1'(d)/FSS-2 ACC NRs AP6033681 souRcE ooDE: uR/olo6/66/00/010/0026/0030 17 AV511OR: Yaroolavskly, L. I.; Vollfben,-AL.P.; qsov, 1. S. ORG: none TITLE! A method for increasing the transmission speed of discrete information SOLME: Elektrosvy&z', no. lo, 1966, 26-30 TOPIC TAGS.: binary code, data transmission, encoding th--ory ABSTRACT- Tile authors review variaticns in the duobinary technique for improving the transmission of binary coded data. The technique treats a binary signal train to a second binary encoding, which permits higher information transmission rates and gives better resistance to transient noise effects. A direct form of duobinary coding is seen in Fig, 1, wht~re (a) is the input binary signal. This signalis transformed i -such *that its negative -going zero crossings yield (+l), 'but' it's positive-going zero crossin&3 do not (0) , resulting in the duobinary singal of (b) The 3.963 papers of Lender and Dramhall on the subject are cited, and -their findings on the advantages of duobinary coding are confirmed. The cited authors credit tile increased transmission speed to the fact that the energy spectrum of the duobinary signal is only half that of the original; however, the present authors deny that this  045--67 ACC NR., AP6033681 (b) L-j urig. 1. Duob inary encoding can be the reason, since a case can be shown where a doubled speed is achieved even though the energy spectrum id unchanged, Another hypothetical example of duobinary coding is given which would increase transmission speed by 1 1/2 times. Orig. art. has: 6 formulas and 6 figures. SUB CODE: 091 SUBM DATE: 2ojul65/ OTH REF: 003/ ATD PMSS: 5100  YAROSLAVSKIY;!L.%-. 652 Posobiye po proeyktitovaniyu kavalou stWazi po sinnerrichnym - liniyam. Odessa, 1954. 20 Sm. (M-vo suyazi SSSR. Odes, Blektortekhn. in-t suyazi. Kareora dallney suyazi). B,. ts. - Sosr. ukazany v kovtse teksra. Ch'...1. Csobennosti proyeKircrvaniya kanolov suyazi po simetrichnyr, kabelt-iym liniyam. 32s a chert. 300 ekz. - (54-55371) 621.39.o52.0012 SO: Knizhnaya Letopis, Vol lp 1955  VILIKHER,M.M.; YAROSLAVSKIIY, L.S. (Vinnitsa) Clinical aspects and treatment of cholesteatomas and leptopachy- meningorayelitis. Vrach.delo no-49 90-94 Apt63. (MnU .16:7) 1. Otdeleniye dlya bollnykh meningitom (zavo-Ye.A.ParetBkaya) Vinniskogo oblestnogo tuberkuleznogo dispansera i neyrokhirur- gichaskoye otdolaniye (zav.-L.S.Yaroslavokiy) Vinnitskoy oblast- noy psikhonevrologicheskoy bollnitsy; naucbn-yy rukavoditelt raboty - zwr. kafedroy nervnykh bolezney Vinnitskof;o moditainskogo institata prof.P.M.Allperovieli.  YAROSLAVSKIT, M,, podpolkDvaik; LOGINOV, A., kapitan; VOIMIYJWO V., kapitan. r-,-~=adla~~Ion and cheizical reconnaissance in a tank company. SLnkist no*4:35-36 AP '58' (Tank warfare! (chemical warfare) (Radioactive fallout)  f tj V , T.I KORITDORF, S.F.; BERNSHTEIN, A.S.; YAROBLAYSXIY, H.I. (Radio measurements] R&dioi2marenila. Moskva. Goo. anorg. izd-vo, 1933. 464 p. (MLRA 7:6) (Radio measurements)  KOMORY, Bergey Fordinandovich, BERNSUTM, ArkadLy Sargayovich; YAROSrAVSKIY, Mikhail losifovich; RUBGRINSKIY, A.V., redaktor; A" 'r~"ktor F N. A.M..- teWhfahiA y CRadio'measurements] Radiotakhnichaskie izmereniia. Izd. 2-oe, perer* Moskva, Gos,energ. izd-vo, 1956- 399 P- (KLPA10:1) (Radio measurements)  24(6) SOVI 112-59-4-7892 Translation from:. . Referativnyy zhurnal. Elektrotekhnika, 1959, Nr 14,. p 21 %fTJSSR) AUTHOR: Yaroslavskiv, M. I. TITLE: Investigations of Piezoelectric Resonators With Plates Made From Untwined Quartz Crystals PERIODICAL: V sb.: Plyezooptich. kristallosyr'ye, Nr 1, M., 1956, pp 131-138 ABSTRACT: Information is given about a method of building-up the monocrystal range in quartz crystals by torsion. The outfit comprises a massive angle- iron frame on which a movable muffle furnace is mounted. Rods are provided; one of them is fixed, and the other can rotate and move along its axis in an aperture of special caatilevers. The movable rod carries two adjustable couplings (which serve to fix its position) and an ebony disk. A leather tape with a suspcx%ded weight is placedalong the perimeter of the disk; the weight produces an appropriate torsion-P.1 moment applied to the plate. The treatment temperature is 500-5500C. Four illustrations. Bibliography: 7 items. 0. K. R. Card I /I . .... _T~.~ f-M  f) A ic~; F2,  YHT~65Z,47 V5X-Y I- 1 ~7 / /_77 USSR / Electricity Abs JOur : Ref Zhur - Fizika, No 4, 1957, No 9660 Author I Yaroslavskiy, M.I. Inst : Not given Title : Piezoelectric Resonators With Crystals that have Structural Defects Orig Pub : Izv. AN SSM, ser. fiz., 19560 20, No 2, 268-272 Abstract I Investigations were carried out on the parameters of quartz resonators with crystals of X-, AT-, and BT-cuts to prove whether it is possible to use in such resonators crystals with internal defects. The results obtained were compared with the paramtters of the resonators with defectless crys- tals. It is shown that if bars of X cuts (+ 50 and -18-50) or plates of the AT cut contain accumulations of gas-liquid or solid inclusions, not exceeding 0.2 - 0.3 mm, does not affect the parataters of resonators with such crystals. On Card 1/2 G  USSR /KLectricity G Abs Jour Ref Zhur - Fizika, No 4., 1957, No 966o Abstract 2 the other hand, the presence of cracks or twins does not deteriorate the parameters considerably, The inclusions start influencing the parameters of high-frequency plates at a thickness less than 0-3 - 0.4 mm. Resonators with plates that are twinned in accordance with the Doffinet law can have satisfactory equivalent and working parame- ters, but a considerably higher temperature coefficient of frequency. Resonators with plates that are tontaminated by "azure needles" are not inferior in their pai-ameters to reson& ors with defectless quartz. Card 2/2  YARDSLAVSKIT, M.-I.; LYUTMXRG, R.M.; CHEWSHOV, T.N. Instrument for the analysis of the piezoelectric properties of crystals. Zhur.takh.fis.26:439-441 Ir 156. (KwA 9:6) (Piesoolectricit.r--Xe&ourement) i~4 ~;n-  X .YAROBLAVSYJY, Cand Tech Sci-(disf3) "Physical prig iples and methods of increasing the stability of quartz resonators." ~706, 195 8 pp (Acad Sci USSR. Inst of Crystallography), 1'.'0 CoPior, (KIL,30-58, 129)  SOV/?073-6-24/25 'AUTHORS., yaroslavskiy, M.I., Pozdnyakov, P.G. and Vasin, I.Ge TITIE: the Form of the Oscillations of Doubly-convex Quartz Lenses of the AT Cut (0 forme kolebaniy dvoyakovypuklykh kvartsevykh linz sreza AT) PERIODICAL: Kristallografii, 1958, Vol 3, Dr 6, pp ?63.4 +1 plate (USSR) ABSTRACT: A quartz lens cut from an AT-cut slice of quartz was used as a piezo-electric resonator. The radius of curvature was 250 mm (each face),, the axial thickness 8.7 mm and the square of side 82.5 mm was further trimmed by a circle of diameter 89 mm. The fundamental frequency was 212.6 kels and excitation was by electrodes applied simply to the curved surfaces. The lens was su]gported by four wires soldered to the edge at points 45 away from the X and Z' axes. Dust figures (Chladny figures) formed in lycopodium powder were examined. There was always a nodal line perpendicular to the X-axis and as a first approximation oscillations were pure shear waves propagated along the X-axis (electric axis). It is deduced that the supporting wires should be fastened at two points at opposite ends of the nodal line lying along Oardl/2 the ZI-axis. "Outline" oscillations at 53.8 kc/s can also  SOV/~O-3-6-24/25 On the Form of the Oscillations of Doubly-convex Quartz Lenses of the At Cut be easily excited. Here the nodal lines form a right- angled cross along the X- and ZI-axes. Oscillators operating in such a mode may have considerable (unstated) advantages. Acknowledgments to Ye.D. Novgorodov, I.S. Zheludev and A.I. Tiranov. There are 4 figures and 1 Soviet references. SUBMITTED: July 23, 1958 Card 2/2 USC0101-Dc-60.609  AUTHORS: Vasin, I. G., Pozdnyakov, P. G., Yaroslavskiy, M. I. 20-119-3-22/65 TITLE: A Precision Quartz Resonator of High quality and Small Temperature Dependence of Prequency (Pretsizionnyy kvartsevyy rezonator s vysokoy dobrotnostlyu i maloy temperatuxnoy zavisimostlyu. chastoty) PERIODICAL: Doklady Akademii Nauk SSSR, 1958, Vol- 119, Nr 3, PP. 481-483 (USSR) ABSTRACT: In the USSRjn recent years resonators with very high (until 17.1 ) were developed, the quartz element of which consisted of a biconvex polished nonmetallized lens in a holder with air interspace (refs- 5-8). These resonators, however, have only a very low mechanical stability. A further particularity of these resonators in the quite high equivalent active resistance Rq (at least 100 ohm). This complicaten their application in such generators, which are installed in a circuit with low-frequency bridge. In the precision quartz resonator, which was developed by the authors, a bi- convex lens with AT-cut was used. For the increase of the Card 1/3 resistance of the resonator against external mechanical  A Precision Quartz Resonator of High Quality and Small 20-119-3-22/065 Temperature Dependence of Frequency Card 2/3 influences the crystal was fixed by wire strings (which in two points were soldered on to the front faces of the lens). The electric voltage was conducted to electrodes, which directly were applied upon the surface of the quartz element. The wire strings simultaneously served as lead-in wires. The gold electrode was applied by sublimation in vacuum upon a chromium base, which was applied in the same way. Such a construction made possible a reduction of the eq-jivalent active resistance of the resonator to from 2 to 6 ohm. By means of several experiments the following was found: Very high electric parameters can be obtained? if lenses with 31.5 mm diameter and with 150 mm radius of curvature are used. In this case no limitation to circular lenses is necessary. By application of square lenses valuable quartz material can be saved and by a correat choice of the para.- meters a constancy of the parameters of the resonator in a given temperature interval can be obtained. In most resonators of the here described type no polished, but only out crystals were used. Already with such a treatment resonators with a factor of merit of at least 2.106 were obtained and in some cases values of (5 to 6).106 were reached. By polishing the  A Precision Quartz Resonator of High Quality and Small 20-119-3-22/61; Temperature Dependence of Frequency quartz elements values of (7 to 9).10 6 were reached. The lowest'temperature coefficients of the frequency were obtained in resonators with quartz elements, which have a certain here given shape and here given dimensions, whereby the cut angles are YX1/350031 to YX1/35004'. The typical temperature frequency characteristics of the resonators of the here described tyre are illustrated by a diagram. The thus constructed resonators were encased in helium filled glass flasks (rV5 torr). The concrete valuee of the parameters of some resonators are composed in a table. A more exact investigation of the aging of the resonators still lies ahead. There are 3 figures, 1 table, and 7 references, 4 of which are Soviet. PRESENTED: November 15, 1957, by A. V. Shubnikov, Member, Academy of Sciences, USSR .SUBMITTED: November 5,1957 AVAILABLE: Library of Congress Card 3/3 AV T'r  8 24 S10701601OO510O,')1V-Le-rUl7 o0 E132/E36o AUTHORS: Lhramov, L.V. and Yaroslavskiy, M.I. TITLE: The Frequency Coefficients of Quartz Bars for Bending Oscillations PERIODICAL: Kristallografiya, 1960, Vol- 5, No- 5, pp. 807 - 8o8 TEXT: A rectangular quartz bar, nearly square in the XZ' cross- section and elongated in the Y' direction, undergoes bending oscillation in the XY' plane. -It is excited by applying the voltage between pairs-of electrodes parallel to the Y'Z1 and XY, planes. It has a small temperature coefficient given-by: A f/f c(T 0 _*T)2_10-6 6 where c (0.02 0.045)x 10- The frequency is given by a k (2) 2 a y Card 1/3  84M S/070/60/005/005/oi2'/01-7 E132/E36o The Frequency Coefficients of Quartz Bars for Bending Oscillations Where a and a are the dimensions along the X and Y axes,,and x y k is the frequency coefficient. Published work has been almost exclusively concerned with the cut at +50X(XYt/+50) . The values of k given vary between 5740 and 5790 ke/s.mm. The value of k has been found experimentally by the present authors for values of ax/ayup to 0.20 and tilts of -20x to +14ox . The change in Young:s modulus with angle and with ax/ayIs also plotted. This was calculated from a formula given by Mason (J. Acoust. Soc. Amer. vol. 6, 246-9: 1935): 2 2 2 m ax Y (2n + 1.) a f 43 fr-.2- y y Card 2/3  84M S/07o/60/005/005/012/017 E132/E560 The Frequency Coefficients of Quartz Bars for Bending Oscillations where () is the density, n the number of the harmonic (here n = 1) and Y is Young's modulus. A line giving the calculated variation of Y compares well 'with what is observed. It was calculated from the well-known formula: 12 2 2 10 /Y 1.269 - o.841 cos 0 + 0-543cos E) - o.862s!n cose sin3y. Acknowledgments are expressed to P.G. Pozdnyakov and I.G. Vasin. There are 3 figures and 5 references: 1 German and 4 English. SUBMITTED: December 30, 1959 'Card 3/3  34734 S/07o/62/007/001/020/022 0 6 E192/E382 AUTHORS: Vasin, I.G., Poz)nyakov, P,G., Khramov, L.V. and YaroslavskAj M.I. TITLE: Quartz resonators with slotted piezo-elements PERIODICAL: Kristallografiya, V-7, no. 1, 1962, 150 - 152 TEXr: At audio and ultrasonic frequencies it istoften necessary to employ quartz resonators having a low temperature- frequency coefficient, a high quality factor, a low resonance impedance and, in some cases, a wide resonance range which can be achieved at comparatively small values of the capacitance ratio C0 /CK. Such resonators are required, in effect, to combine the merits of the resonators with rod-type piezo- elements and the resonators with twin (bimorphous) elements without having-their disadvantages. The authors designed (Reif. 3: Author's Certificate no.;123573, July-28, 1959), prepared and investigated a piezo-element of this type satisfying the above requirements. This is achieved by cutting narrow cavities (slots) in resonator plates or rods, the surface of the slots being parallel to the edges of the plates or the Card 1/3 -5-  S/07o/62/007/001/020/022 Quartz resonators .... E192/F,383 rods. Thin metal coatings, used as electrodes, can be deposited on the surface of the slots. In this way,-the problem of producing a crystal piezo-element with one or several internal electrodes is solved. The electric field applied between the internal and external electrodes has opposite directions, so that linear deformations of opposite signs are induced in the element. These result in its bending-in the plane parallel to Ic the edges. In this case, the piezo-element with a slot is analogous to a twin element and, consequently, it has a low electrical impedance. On the-other hand, by using rods of the XYt/ao cut, whose temperature-frequency characteristics are in the shape of parabolas whose apex can easily be controlled by changing the angle a 0 of the cut and by suitably arranging the slots (as shown in the figure), the disadvantages of the rod-type resonators can be eliminated (I.e. the inherent high values of R K and L K are reduced). Further, due to the large reduction in the equivalent inductance of the resonator, its resonance range is significantly increased. It is also Card 2/4  S/07o/62/007/001/020/022 Quartz resonators .... E192/E382 pointed out that the frequency coefficients of a slotted piezo- element are slightly reduced due to the fact that its bending strength is decreased. Due to the low resonance impedance of slotted resonators their oscillatory jendencyls greatly, increased in comparison with the solid piezo-elements of the same dimensions. There are I figure, I table and 4 references: 2 Soviet-bloc afid 2 non-Soviet-bloc. SUBMITTED: June 8, 1960 (initially) July 31, 1961 (after revision) Card 3/1  YAROSUVSKI I. Piezoelectric resonators vith crystals having structural defects. Izv.AN SSSR.Ser.fiz. ~O no.2:268-272 7 156. (NLRA 9.8) 1. Vnesoyusnyy nauchpo-issledovatel'skly institut plyesooptiche- skogo minerallnogo syrIya. (Piezoelectricity) (Electric resonators) ZX M t .......... .I  a 6 6 a a 11 0 6 is Is I I U M a Ill V H a ,A 00 A _osT &.0 )No MOM_ a P&OCLS 911111 Tke morood of a ,XtirrinAW apedra i 7errijbi and N. (1-.1'arobovskil, D&M. arsd. jji. l"R.S.S., we,. Phyi.-q, Rust6n).-The light coming fro", the source passes alteruatingly, with a !re4uencY of socyrrial hundred per sec., throuph two abscorb. ingobjectS.AftEriothit,h It loidecompt]. inan infrared mono. chromstor and then strikes a nunwieclive recriver of in. frared radiation connectirtl with an ax. amplifier isad a galvanometer. When the two ob -ts are feltatiml, the a witivarsometer 110C.4 1. wheresecir In the lZIZIL."It No objvti ffiffrr in their absorption. el I., &flmlool and thus registers a -41if. ferelitlill" spectro1cfain. If the spectrum of a single Libstance Is sought, a transparent traterisslorillierso empty 61fough Is intold as the t"wed object. Ab*orptk)n spectra a obtained ley this methtal show hbarp pralls rising above lit urn line. The setup L4 used for obtaining q"y !Pectra Of solid and liquid subsLaticts in the region front 00 w 2 u9p. The met btxl ii~ applied to bandit, enrre4ponding to fundamental vibration Irequenclor-ii, which can be dc- 00 a SnaLLWOVAL Lff�2&TVM CLAWICATM 0 6 a e a a 4 a a a 0 6 a a 0 It mitus law onati4i"io a A-0 Poloist 00 lot -90 911if V 0 01111101 .00 11111111110 :0 too Coo loe me ago goo lee lee 1110 1111 too We 0 tectvi with v,,ry somalt sonnt~. -f MAICTiAl. endrwic"60 Prn- vide thiclon"vi, of the voicirr rif 0.01 Inns. The reorrivrr in - chief" a chandier Orel %ill, raf1m)"IT"I verrtalfle fllwf%j whkh ulmorl, the infrarrd radiation nfntwf(vlivrl!f ILrelindnary r%pt), rri,olt, wt-re o1olaivird In thc study -, i hal-whiromy of at-nnatic eninjoil,. arel (it adm)rption, a4 he rxprc~ssrd in the %hill oil afewerplicies bands. Hymingini two (optical branche-, r-p-, the pore enenpmmilie and ilitirinioit.,11te nitifi,oil wai applied lei intryinol. isitriar- of 3011) of the NIll xrossil, a, st f"till let 111,11 inlrr. 1WI6111 ft-Uld thilit be 411)"VVII in the (UMIJUnriltAl A-441$- by troquinorse resultcd in the appearance of an absorption at ;W cm.-I; it f: interpreted m an intrease of the dipole rnornent in the of formation vilwatitinit (if the terminal carb(myl groups in quinone on account of hydrogen lgetiol. ing with the h fro%rigr(Rtp4uftiyilrtkittittime. Inansi%l. t of phenol a Tanil tic, hydroxcu-boud (orutatioson cauwi the Off band of the phenol to be shifted by S. 10; cin. -1. S. Thnn goodso Hit Oleew a- __4 1 -1 ; NJ U a a - K It 11 0 0 0 0 0 0 0 glass] 1111s Uses all i;LrrIA L IIWO 0613VUSAad 3 a T a I sa o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 9 0  PA 65T19 AROSLAVSKIYY N. G. USM/ChGMiStry - Phenol, Spectrum of mar 1948 Chemistry - Spectra "Application of the Method of Differential Spectra in the Near Infrared Field for the Detection of Inter- molecular Interaction in Several Aromatic Compounds," N. G. Yaroalavokiy, State Or& of Lenin Opt Inat, Leningrad, 9 pp "Zhur Fiz Xhiie Vol XXII,, No 3 Studies intermolecular interaction of aniline, phenol and their compounds in various solutions at various concentrations and temperatures by means of differen- t1al infrared spectra. Reproduces and.analyzes 8pee- trogram for the various solutions. Submitted 11 Apr 1947- 65T19 "M Walm e K~ j REP!,  P Id 111 It it It N is Is I? m 11 Is! Is M Ompolmit Also Us k U Allivisso di I 'I L A-- X _T _(L _1 -1 it st 1 A A 6 0 al " is " , . lit- A?.Cl t- cs~*Iilb I_t_ L 0 0 .4 A ca of the method of differ ential posictra In Ike of 10 Ill* doptsettion Of nIOIPCU1&I 1:11414ACtion Of some afommUc compounds. N. 4.. Var.o1o"kil 11 11.11vil "C ii-TWA 1 2 C ; t 141 . U.) . J. MY 1. Illo'. 1XIIIIINIUM. p ti -ps, . . 73(101N)sin Rtmiju); cf. 1. 40, PAW. I. III% Were noulle between 1.0 good 1.11 1., 1110 title IAl 0 e 4 lluilille (1). to vilwatiolm of N-11. in of v flit I rot lowald momller A fly, r. It voo 11-voliz-1violl _V9 o III (Tt'. Jimmie, 1,1106. avilmle. V.116. o1 411111,11 %hill 1. ovilivs,rd b% br-Ififlis 1111,01.1 1 1-0. r K., DO I'- The romfolps; voinjill. Ill fill% Ible (1, Vol, 1, 111,11, -t toy tile * The title 0) lit t1l'ole cleArl . .111. of 1. IAIIIM ivil'Imbamisle.-Il I's tile ollelt-114) illml 'AfIvelell I'v 00 It, 3141 .Ins of phr,o)"I (111 lit C0, have's Amlp I.-ak .I 1111 h I t ) 1 AI l - . tot. ta,il 40-sopti.al at I M . W o- It"stop. A 111,11- .81 1310 0; tile 141i'l 11- It'd Alleet-I I-Y 1-6-4--lamt .00 00 U the covorn. (,f 11, Not lite I-A k lost. 2 il.o . Islas. at 1. 15 anti LM p. SIni. of I wiih It or ji-totto. 00 00 11 phenol Ill CCli show, in ailtin. is) the linti of the comIxi. itrills, is lorakid 1.42j& which is doe rit [ter toa 11 looml Ise- twerit N wal Oil or lit voiluoirrinvot of tile lost, of Imm 1. Stifill. .4 1 wills (11 eel. how Zoo ' * ' tile LWI-m title at 111211 truill. oilly'.111.1 .,Ilm of I wills I'll-- 'I'licte is it(, wltvtivr als. how it t till d ho not i l i j ~ 4 . t s a t c a ustlithist lorlivren 1.2 unit 1.0 p its toollen I lipitoichlotitle, , 'I. ionlyatil"I Climillilles life villulthill't X-It. - - t-.L--A A L kU-R-C K A-L L ITV I-AV US I CA ASUFICATICK 1J.. u is AV NJ it: i- r-j I A --- 1--- 0 v Ilk hA 0 4 a I ill so -k 11 3 4 T m it 9 K rt Is It x A 1 1. 0 i 0000 Co to 11111 900 90 0 0 0 0 a 0 0 0  0 a 0 a a 0 0 0 0 0 0 0 a! 0 0 * 0 000ooe-60690604- It Jq-t f 1i I i Vt -11, A A A A-14 - 14 D 'A 36 40 it U it " Orit, 111.1-1 0o 00 00 00 g 0 go 040 All 00 3 go go 00 11,00 0 toe IU06 ALLUNGKAL LITERAT LASSAPICATION Lot C 11*0 I I I V ZA An L S 8 Flit 0 K a I it of 0 a a U 0 AV 00 LS 1 1 . . a a .1 ; i .1 1 Will -",4 0 0 0 0 0 0 9 0 0 6 0 0 0,0 Is 11111411,4110 0 0 0 *a**.** 0 0 0 00.0-009 0 40 0 0 0 0 0 HEM MW jr I a L _AA M a _I - IV. ------ 4~ -*o LD-r 1--l-L.-is U~ -i!i- '-oo Wf *4 absorption spectra of adsorbed molecules. atilt N -11 prsks of file aiNirl-l etw-fly, the S', G. Yor"vidii) anti A. N. Tere"its. DAkjv A disappotrance of flit- 0 -11 lit-As is title to tile IurjlI.itj,)jl'd -V411if -*-'T SI-S R-- 40, 165-800410).-Oll 9fAdUAl &dSQrP- It b9itils 0-11 ... N. At flit 34,ige ol greater suifice 0 flon of Cjl'e' und of toluene vapors, in reew, at room coircrit,,ts the N-11 pe4k lit 1.42 if Appe4r% shilte-I t'l Oil VitfMIS Si()i sell 1110161113M Inkally only 0-11 longer W4VCS, fly Mill 0 WAVC 10 tile )CA of assoLd. =: peaks corr"punding to the C-11 frequencies of Nit groups. *"If by WY-13 p rel-itive to file 1.014trtf Sit 00 the fins, and (in the Case. Of IZIUMC) to the CHS Smipsinthesoiji.ijilliN)IliiiCC)i. This deniunst r.at" loo appeAr prollmstively, in position Weatkal to those7up., the weakeningolvatcuce Inad%orption. ThcC-liti4nd me peaks in absorption fit CCJs soln., at the wmethrie, remjltts undisplAcol. The height of the N -11 peak, the narrow 0-11 peak bm-ontes himAsingly Ac;Akcr. [a relative to thAt of flit C-11 peall. Is Clecrnisr'l in flit 'W. go 0 144he Adsorption of blow on account of Its low vapor soctird state, which Is altrilintril to flat interm-litio IW- z 0 0 pressure at room truip., the grAduill d1uppe"ance of (tie tween tilt Nit gtoup lind tilt Oil groups of file sulfav 0 Al peA pets lit long oviore the apprittauct of the C If -, of tile adoorlictit. The effrcis oliwirved %fib I'liSialAre re 9yen more pronounced lit C.14N. In tile A.Iorpt of I'lloll. tilt 0-11 peak of tile AIIWWIICllt Milling narrow and d6ippe-irs inuch, most shkwly thin with I'liNils; the 0 peak at 1.4 1 N p belonging i o I fir 011 group of PhOl I Appear* cousiderably weikenetl an4l broidi-firtl lit longer w4vet. i-go This Indicates chat the Oil firimps of tile 3io; Xt-I gre not teadily ptfitittmi by flit Oil itioups, of 111011. 1. 11.1 100 rAnite of caltilliry conileimilion. there alipt-ar braid Coo niallium characteristic of j~-k:n. 14 Off xroupi. N~ T. six  YAnCOLAUXTY, N, G. PA 50/49T27 toga/ iiistry'- -Abserption SOCtra -Tun 49 Chemistry -,, Catalys.1s '"Irtrared Absorption Spectra of Adsorbed Molecules," N. G. Yaroolavskiy, Acad A. N. Teranin, 31 PP Nank SSSR".Vol LWI, No 5 Experimental-results cited predicate successful 'we..:of infraredspedtra in research on speciak .cases of adsorption. Theory should. be applied catalytic reactions. Submitted 19 Apr 49.  A RGMAII Tih? tyi - N WM/Chemistry - Acridine, Alsiiro hg 49 Absorption .1pectra "Problem of Structure of 9-Aminoacridine," A. Karyakin, A. M. Grigorovskdy, N. G. Yarosla-eskiy, I+ pp I'Dok Ak Naul: SSSRtI Vol LXVII, No 4 Unkike, other aminoacridines, 9-aminoacridine and. its derivatives, arivanol and acrichine, possess great bacterial activity. Previous efforts to show that their characteristics were 'related to their atfmcttre and that they did not have the usual amino structure (A) but the tautomeric structure of acridonimine (B) were unsuccessful. Study of absopp'tyion spectra in ultraviolet and visual spectral fields makes the latter hypothesis reasonable. Data on infnared absorption spectra confirm the assumption tha-i a 9-aminoacridine molecule has the structure of (B). Submitted by Acad A. N. Terenin 2 Ju~ 49. PA 3/50T13  (I--LI 4 11 1 S I I I., "l-'T'no" "f awl .rg ""n p(h 11-1 1~~ --f It gll.~i M-t 9t t1div, 'ierv m;,,Il I. I III ~ 2 r, " r, ~n with a 'peclal illit,41i'll jj)UrrFOt?k4'II I ~ ith I 1'1-~i It-f-tor StwOrn were tahctl af lemp'. up I" IMO , T-i". ,f th" Ml harmonic III thc slI,-ctr;i of tho, 04-at, at thrie high trmjri~ indicated that Ixotth rI-,uIf holn the tirlsorption of %~alcr. The nbrorption 13-1-d~ ~Aulfi~ll, all which c0:1clu- slolv; Were "A, were asnigned wi fnfInw.%: )..365 p. 2r, (frtt (1-11); la, 2,,;J(0-11 . . Y.Oforbedl, 1.48 ;., 2v,( 0-11 1.00 14, P., + 6f(O--fl . )adsorbedj: + I G--H , . .); 2.21 p, 241;i0i), The ~and!i at I.W and 1.98 p were combination frcq-nnd:s, where the two &Is were deformation mtA,!.i of tht silimite. R. D. Kmss  0l the silk P, Pil. hist.. Lunilliffull). Mar. FIS. Khom. 24. (19 81 (VINI). - 11it shurptim spectruns Owl-een I and 2.4 .1 of porous StAm (lit'rMity - 27'.~J vl;i% deld. after different treat- '"ent of the ILtnt. 'rhe very shrp line 1.1141 s %at given fly glaoi healed in a vartmen; it. i,itm.1ty Ulleff file 11C.411119 frIllp. 41111 it diklillptAff'.1 At T - 111W and oil keeping the Rub,i In "loW air. This line i. a higher hannonle of the vidency vibralloot of the Oil groups clitnikkily bound to the glass surface (itil FA-011). A line 139-1.441 s, appeared when the glass was blixed ill air and disappeared an lumting, it helmat to (fit till I the lul*wbed fill). The lint 1.4d"' "" 11"""llyt #Lus uld. with 11#0 and Ill. . kept in vWcuum at room itself$.); A4 it il Pfr%cllt al"J ill liquid HgO, it inust belong to copilLLry coudemcd 1110. A lint 1.101 is behaved like L.W-1.411 ;&till almi is Attributed to LIAmmIlIml 11,0. The line 2.21 jA %m Ism AfTected fly heemins or mc4litt-Wrigand inopt Im -11ir 1-1 Sit),; il Ilmy 1~ state of 1110 in Ad"Alcilts call be dchl. fly '-pt6vt IneAS34. J. J. 11111cfInAll  and 1-670"). tii,;- Storm at ~11- wit 3 Ilia%. 1,47 (MV). 1.405(M77). and L&14(41M), unit at 6 tits hYd 06" name at lit's tFFF30 "utfatetif orft6w., Y Ait, sharp bands. 2 of which (belonging to the Nill #Mips) N. N 4h"". Its "Ild N. fl.. vart"141v 1W trolarldal, with the altove Ist final, and the i-thrr :1 lie at y AlItial. Nook XX N.M. ". Will, it I'll* I &J((MmI alld I ANniAll, 'the fine atillic. M ISICIP of the 1114111"1 111-tat"111111111 blind 0- 11 - I" the Ingkill an of Law, Irmps. fit tile livill miltulao,r. vial. atollo.1 IWMI rots. (lot lidinionk- sit the 1110dollitubal Va. lellear viblaillain fivillitill-Y C-11) ivan hivraillifutrail III the -.1 the o-11. banal to hister fircillencles anti is Mlistill'u- +201and -11111".1n 16frOll, Hart of the Intertaillef of the Coniponenis of the band. The RioH, DoOll. laillyvinyl air.. slymol, reivierlotal beet abill is gmtnt (IW200 cm.-I) for the mks. MeOll. taticar, phlit".11010 fralts, oind efirst. Urea iin the latter. t.*tnlt, nuvii. and x1yearol. to amorphruis wirrose. the law tile If flood N-If ... 0). Fair the low-temp. cletris.. structure cal the 0-11 ... don not change appreciably be- it- W44 tilit'le of the athattervallon that ficittid air In a layer a I,een -.xj- and _ISD- as the disordered structure a the firvar em. thick it(%-% not allsoill It, the levit'" so; &M 11 dious scalld Is KiW by the matalloki It bonds: the name Floe do" Its abilanclokin spectrum In the range 00--2.0 " " in glaltryinrl sit!. and the pbmW.IICIIO redo. For P". MILsk the higher ovetloo"of the Yllwallocis 0-11. 0-41. . .. I&he tter . the sand do" arlitinge at higher temps bv- .q_JI C__II (*-I). jIld llittir etiniblitalknis. Clyal. Sinn jig frotts +A0 &mat +601 owilig to dionlivilon of 16 it MIC44 at 20' -hows a taburr banal 1.44 p, (0044 call- I) I -via s, Absenre of the man, M 1.45 s Its amorphous sts. (itillairfluttwal 0, - 111 0,141 2 Illiantaiml bland h4tillft will' mar. prourvinol. gly"tol land tilt alm Indicates Ilia I large- tvilirfs at I'Al 0 Wn'.ro vol. ' 1) ittilt LAX I& (Mr-41 ran. ' 1) Via- tically all Oil gra"Ilas are 11-biondod. fit tile Frain. I here are fenpondlot [it 0-11 .. ': as the Intensity of thew hand" both free Oil (sharp max at IAU a) and If-bonded Off chanIC with the lictildoo of the plims, of polaritallon. it (I.M a). as in eysl. picrow. The ot"W"ed do, , at Of the may asiturned that IIFF7 lawkitiff to p"11114IId Oil 91MUP-51 intensity of the sh&M bands. from 211 to - 1801, In tilt rtsin with different orientations In the crylital. At one and In crinit. suctow. Is thile to superfamiltion, of the shoet. 6n.1% 5 sharp prikka I.1W) it (W7 elo.'), 1-51011M). LA2 ways part of the 0-11... bond on the pftk of free 011. (M7111, I.M(Mill), .41111 LARIUM). F41110411Y. III IVAIW, vincil, tile 2 mail. at Z)*, I.&%M20) still 1 07 k.*4kMI Sit it I, v.-f lwiftl with the shift ad the broad hand 10 1 ef *live$ 1.P412(62141). 1 WWII), 1-050M on Into 4 sharp billifill. wit I'll"Ing temp. If Thnn  YAROSLAVSKrf, N. G. - ----- -- USSR/Chemistry - Spectroscopy, 3mission "Infra Red Enission Spectra of Heated Liquid and Solid Organic Films,". X. G. Yaroslavskiy and A. N. Aleksandrov, Leningrad Zhur Fiz Khim, Vol 26, No 9, pp 1278-1283 With the aid of sensitive USSR equipment, the authors obtained discrete iafra red emission spectra ;n the range of 1-5 U from liquid, molten, and solid org compda heated to 150-200 #G. The emission spectra represented a reversal of the absorption spectra of the compda considered'. These emission spectra also showed the expediency of applying the method to the mol azialysis of liquid, molten, and solid org compds. q~umt comparison of the infra red emission and absorption spectra will enable detn of the equil or non equil character of phenomena connected with emission. 263 T 17  USSR/Che.mistry - Adsorption Aug 52 "The Change in the Infrared Absorption Band of OR in Microporous Glass During Low-Temperature Adsorption of Oxygen and Nitrogen," N. G. Yarosl- avskiy and A. V. Karyakin "DAN SSSR" Vol 85, No 5, PP 1103-1106 The presence of OH groups on the surface structurt of adsorbents dets the adsorption activity of the-, surface. A piece of microporous glass was placed under vacuum in a glass of vater and the absorp-, tion spectra-measured after either 0 or N were 239T30 admitted to the vacuum. Cooling t6 -1800 shrinks the OH group'band at 1.365 microns. On admission of N, the intensity starts to decrease at the usual absorption peak of 1.365 microns, and increases at 1.378 microns. On admission of 0, the usual OR peak immediately disappears. Sub- Mitted,by Acad A. N. Terenin 26 May 52,  oj I g1 .4 r" 1. 1 7" ~.j 7 1;,;(, ,- %-- - m "N' lik i I"I". ....... I Y _L~ ~37%c, toc d-- of fh~ Imm 60 A.. -i-1 11tv ill ~tjrfart: I(X) lq. ni. , i;. AI-it j~ --- I Spectra %vtrt: (nounur(d ill We r4,f:lfjll I to ::.h 14 witil ri I'US cril 4oth ht, dircet witom.,Iic ri,:ordh,f,- wid by the I%--- VartjAw4kil, CA. -.10, tv"W). li - was thitt trw surface of the nutt "FW -f- WyerLd Will, (Arl Mv!i- urellwilts were 111;1,11.4 ill Itir Hil'i Ill vitcuum alt(~r !1MAtlaf at tcuip, 11m)- HIM". A %mrsow may. pt IAW. 1 .4 tit but(A go 011 - Ad~,O-A If,C) 1.40A, ~1"fj if C) I., Ill,. po,vl; h~- 'rho din"p, " . ' "C' ti the m:.1, ill t,ll 4,01, 1 fmwtioll of t ...... ( 1,1,,,r pti.... 13 k o I (crtmbianti-, , 0 r;tt,-~ A ( )! 1 ;-4 11 .0 ) t -d I At g,,~,tcr wav, If-, .,,c 1,; ... 4, 4 61,wrorrmn.- i,-t, moo, frinn w:licit wr,, .%,I -,:~ .1 1~ -q-, 1 .1 ... ... pheont, rold 11,C) ki and lot'j, ill,- 1-'k p,r,ki, oid m ~ij p-, , ~1. -.1j. t''i I-Al. ('- 1 1, 1, ~.. ~ CH mid NII Lpj,,:.a Nif Y jv.,t i wwi 1 11 groupr to furin I i - londs 0 --it. N. Smid i, appear Ili pyridhw. Ad t .... k o( ph,: .. .... t greatly clistlirb tbe Oil groups. Adzivrptiun of I,., will 0, at -leg? urakcs the Oli penk disdripcar. N, Is de,orbcd U;!V)lg return to mtin temp., hut 01 Is ffcsor;m_~I only by hC41111; to 160- , (W. Agii,g of nflcjoporoo~ gj;,~'j on swraga cuotfifi" tfi,~ ch,,ructcr of the (Al juroup5. S. 11. Z P,  LVSK T and 0. Structure of Aromatic Nitramines. Il. Infrared Absorption Spectra and Structure of AryInitramines (Aryl "Ittraminic Pcids), ragle 13?5, Sborn-Lk st~!~ey ro obshchzq khimll (Collection of Papers on General Chr-mintry), 71ol 11, -o,!3csw- Leningrad, 1?53, nages 1680-1686. State Inst of Applied Chemistry  i4l  USSR/Optics K Abs Jour: Referat Zhur-Fizika, 1957, No 4, 10517 Author Zheludov,, B.A., Stanevich, A.E. Tnst : Not Given Title : Recording Spectrometsr for the Long-Waye Infrared Region Orig Pub; Optika i spektroskopiya, 1956, 1, No 4. 507-515 Abstract: The authors consider the features of the procedures in long,-wave infrared spectroscopy and describe a high intensity spectrometer, with diffraction gratings, intended for automatic recording of spectra in the region from 20 to 100 microns and above. In the instrument, constructed in accordance with the Pfund auto-collima- tion scheme with a relative aperture of the collimating mirror of 1:2.2, there are employed two interchangeable r--c-lielett~.:: of 12 and 6 lines per millimz_ter, measuring 250 x 250 mm, ope-Yating in the first order. The scattered short-wave radiation and of the superimposed spectra of the higher orders are eliminated by using Card 1/2  USSR/optics K Abs Jour: Referat Zhur-Fizika, 1957, No 4, 10517 ,reflecting (matted mirrors, crystal plates, and echelettes working in the zero order) and trantmitting (quartz, polyethyleae covered with lampblack, eta.) filters. Provision is male foi. the possibility of employing the method of eelectiv'~ modulation. and producing vacunm in the inF-trumert. Using a silite r3d at 14WO and a standard radiation thermocouple with a FEOU-17 Phatc- electronic optical multiplier fed f=om the IKS-11 apparatus, re- cords are made of ths =otation .5pe&.--a of abi=ption of vapors of atmospheric water in the region from 19 to 100 microne with a maximum resolution of 1.2 1.5 cm-1 and acauracY = 0-3 CM-1. These results are consie-sred by the authox-a to be pr~51iminary. Card 2/2  Y.AP Ilk Optics In the German Democratic Republic. Opt. I speldr. 1 no.8-.1025-1027 D '56.. (KLRA 10:2) (Germany, East--Optics)  Yesorov, Yu. P., and Ye. A. Chamyshav. Speatra of 3illooorganla Compoun6a Vith an Aromatic RIAS 390 Garsalmvi r,X., I.A. Taltavaidy, S.V. Neemlov, wd V P e . Ishalletas in the RAAC* Prom 2 5 ;a . 3% KI-lov, B.A. Doable MOU04hrmator Vith Diffraction (Iratinga 397 YarmalavakiT X.G. B.A. Zheludav, AM A. Yo. Stamovlob. MGW6WIA32i;~"U. for Rglsitratlon of 14ag-wavip rnfrared apeatris 399 Card 25'JO PRIKIiWAO. A-F' 24 (T) 3 . PHASE I BOOX UPLOITATION SOV/1365 T-1yov. VnIvoraltet MGtokJtIY I V4040yum2go movashchanlyA p9 spektrosicopil. t. It molokul7mrsAya spektrosk.~,plya (Papers of the 10th A.11-Unlon Conference an Spectr*acopy. Val. Is Mlectslar Spectroscopy) 1L'vov) Iza-vo L-YoY3 Ardv-ts, 195T. 499 p. 4 1 copies printed. (Serl#st ft:910 Picychnyy zblrny1C' m. Additional Sponsoring Agstw7t Akadvalym nauX SSSR. KoadesLys. po spektrookopil. X4.t 'Jaxer, S.L.1 Tech. Ed.s Saranyuk, T.V.; Editorial Boards tavlaterg, O.S., Aaadesdalan (Reap. Ed., Deceased), Reporent, B.S., Doctor of Physical and rAthematical Soleness, Fabelinskiy, X.L., Doctor of Physical and Kithazzatical Sciences, Yaba4kavto V.A., Doctor of Physical and Mathematlaal Sciences, Xaxm1ta1,lj, V.Q., Cs--A--date of Tla.~%;-Aosl Sciences, Ulakiy, S.M., Candidate of Physical ani Kathersatical Salmnass, Klizovskly, L.K., CWidate of Physical And Mat"cAtical Solanalkli, M1117ftnchuk, V-S-, Candidate or Phjai%ial " FAtharAtical. Sciences and Glassbarmano A. Ye., Candidate of Physical FAthexatical Llamas. CAM 2/30 Postoyakly, r. Ya., L.F. Trefilova, Yu. N. Sheynker, AW S.O. Bogomlov. Copl&a&ftty or Phertol Nuclei in DlPhonrl Derivatives 388  c L (7, AUTHORt YAROSLAVSKIY,N.G. 53-2-6/9 TITLEt Ifeth)-Z'sand Devices of Infrared Spectroscopy (Longwave Range). (metodika i apparatura, dlinnovolnovoy infrakrasnoy spektroskopii? Russian). PERIODICAL: Uspekhi Fiz. Nauk, 1957, Vol 62, Nr 29 PP 159 - 186 (U.S.S.R.) ABSTRACT: In the following survey, which was compiled after the study of 78 published articles, the longwave part (50 P-to more than 1000 I-A-) is taken out from the total infrared range and the methods and devices are described which are necessary in order to be able to carry out measurements within this range. The following methods and devices are dealt witht 11 Method with a quartz lens 2 Method of total reflection 3 Method of selective reflection on crystals 4 Use of a diffraction lattice as monochromator. SDectrometers for the lont-wave infrared ranze and 1) The particular features of infrared spectrometers 2~ Radiation sources 3 Radiation measuring devices 4 Description of spectrometers Card 1/2 a) according to Randall  Methods and Devices of Infrared Speotroscopy. bl according to Me Cubbint Sinton a according to Bohn, Freeman, d according to Meier e according to Yaroslavskii Zheludov. ASSOCIATION: Not given 'PRESENTED BYt SUBMITTEDt AVAILABLEt Library of Congress Card 2/2 53-2-6/9  SOV/51-5-4-G/21 AV THORS Yaroslavskiy, N.G. and Stanevich, A.Ye- TITLE; Rotational Spectrum of 1r2Q in the Long -71avel ength Infrared Region _ 50-1500~L (200-7 e m 1 ). (Washchatelonly spektrZ20 v d linnovolnovoy l infrakraunoy oblasti 50-1600~4 (200-7 em- FZRIODICLL- Optika I Spektroskopiya, 1958, Vol 6, Nr 4, pp 384-392 (USSR) ABSTR>: A vacuum spectrometer DIKS-1, described In Refs 11. 12, Yjas usod~ Aix optioo--accustieal receivar, developed by Pankratov (Ref 13), was used instead of a thermo-element. The beat resolution was 0 12-0.3 am- - . The and the mean error in vqve-number determination was 0.02 cm intensities were measured to within 10%. Five interchangeable echelette gratings were used s three of them were prepared in F.L.. Gerasimov's laboratory and had constants of 0.0833, 0.1666 and 0.5 Lua k12, 6 and 21. lines per mu) and the other two,vith 1.5 and 2.5 aun constanta,were v~~t using a precision lathe. The light sources were a platinum ribbon covered -with thoriumoxide and heated electrically to 15300K (for 50-100 fx wavelengths) and a mercury lamp FRK-4 (for 100-1500 p. waveleDgtb.-~;' Figs 1 and 2 show the B20 vapour spectra in the 50-1500 p. region, obtained'at pressures from 1 to 750 mm Hg, relative humidity of 80% Card 1/3 and at room temperature. 105 absorption bands wore recorded in the  SOV/51-5-4--6/21 )Rotational Spectrum of HO in the Long-Wave length Infrared Region 50-1500f4 (200-7 am-1). 50-15OOtL spectral region. 94 of them were interpreted as fundamental frequencies of the rotational spectrum and 11 of them as acme of the fundamental frequencieu which appeared in the second order of the spect=m. The table on pp 387-8 gives complete interpretation of all the observed absorption bands. -r~o viavo-numbers of these bands are compared with the wave-numbers calculated from the values of rotational energies given in Ref 6. The difference between the experimentally observed and calculated vave-numbers is about 0.02 cm-l, i.e. it lies within the experimental error. K6 3 6ives the rotational Spectnua of H20 in the region 50-160014 kZOO-7 em-1). The 34 bands recorded or resolved for vie first time are marked with the Ca rd 2/3  SOV/51-5-4-6/21 Rotational Spectrum of Ho in the Long-11avelength. infrared Region 50-15001A. (200-7 cm-1). plus sign The authors thank TIA. Fankratov anJ I'LL. Veyngerov for supply of optico-acoustical receivers. There are 3 figures, 1 table and 16 references, 7 of -which are American, 6 Soviet and 3 Goxuian. ASSOCIATION: Gosudars tve=yy optichaskiy institut im. S.I. Vavilova (State Optical Institute imeni 3.1. Vavilov) SUBMTTED; December 23, 1957 1. Water--Spectra 2. Spectrum analyzers--Equipment Card 3/3  YAROSLAVSKIT, N.G.; STAMICH. A.Ye. gimplified spectrometers for long-wave infrared region from 20 to 180 Inzh .-fiz. zhur. z2a. 6:50-55 Je '58. (MIRA 11:7) (Spectrometer)  STANEVICH, A.Ye.--YAROSIAVSKIY, W.G. ll~~ Comparative study of the radiation capacity of some infrared radiation sources in the 20-110 wave range. Inzh.-ftz-.zhur. no-7:49~-53 -Tl 158. (MM 11:8) (Infrared rays) (spectrometry) w-M -~-P-- 4 i .i-L  AUTHORS: Yaroslavskiy, N. G., Stanevich, A. Ye. S07/48-22-9-38/4o TITLE: R tation Spectrum of H 20 Vapor in the Range of 50 1500P (20U 7 cm-1)(Vrashchatellnyy spektr parov H20 v oblasti 5C 1500V (200 - 7 cm-1)) PERIODICAL: Izvestiya Akademii nauk SSSR. Seriya fizicheskaya, 1958, Vol 22, Nr 9, PP 1145 - 1149 (USSR) ABSTRACT: This report presents the results for the investigation of the rotation spectrum of H 20 in the range of 50 ' 1500 p at varying steam pressure and under optimum recording conditions. The absorption spectra of the H20 vapors in room atmosphere were recorded with the long-wave vacuum spectrometer D1M,-1 (Refs 11,12). The thermocouple and the photoelectron optical multiplier was replaced by an optic-acoustical radiation receiver. This device was recently developed by N.A.Pankratov (Ref 13). It permits to measure the absorption spectra 6 of different objects in the range of 50 -, 1500 with Card 1/2 a maximum resolution of 0,2 0,3 cm an avera&re accuracy  Rotation Spectrum of H 20 Vapor in t*,,e Range of SOV/48-22-9-38/40 50 1500 ~,(200 -.- 7 cm-1 ) Card 2/2 of the wave numbers of 0,02 cm- 1 and an error of the intensities less than 10~4. The readings are recorded on an automatic recorder. In order to cover the entire spectral range 5 interchangeable gratings were used: three of these with constants equaling 0,0833, o,1666 and 0,5 were produced in the laboratory of F.',,.Gerasimov and two, with the constants 1,5 and 2,5 were produced on a precision milling cutter. A thorium. oxide coated platinum band heated to 15600 was used as a source of radiation in the range of 50 100 V . In the range 100 -~-- 1500 p a mercury lamp 'MK-4 was used. In order to exclude the spectra of higner order and that of the diffuse ohort-wave radiation, a selective modulation at a frequency of 9 c and reflex filters and pass filters were used. 105 absorytion bands were recordedin the entire range investi~;ated. 84 were interpreted to be ground frequencies of the rotation spectrum and 11 to be second order frequencies (Table). The scheme of the rotation spectrum is given in figure 2. There -are 2 figures, 1 table, and 13 references, 3 of which are Soviet. -J  .24(7) SOV/51-6-6-15/,34 AUTHORS Yaroslavskly, N.G. and Stanovich, A.Ye. TITIE: Rotational Spectma of H20 Vapour and Absorption by Moist Air in the Wavelength Region from 40 to 2500 Microns (Vrashchateltnyy spektr parov H?O I porloshcheniye vlathnogo vozdukha v oblasti dlin voln ot 40 do 2500 mikron) PERIODIGAL:Optika I spektroskoplya, 1959, Vol 6, Nr 6, pp 799-801 (USSR) ABS TRACT: No experimental data have yet been publisned on the rotational infrared spectrum Of H20 vapour at wavelengths longer than 1400 It (for the rotational spectr= of H20 below 1400 -~L see an earlier paper by the present authors, Ref 1). The present paper reports experimental resultz obtained in measurement of the infrared spectrum Of H20 vapour particularly in the region 1400-21500 -p (7.15-4.0 cm-1) a ad absorption by atmospheric air in the region frcm 40 to 2500 ji. The spectra were recorded by means of a vacu-um Infrared spectrometer DIKS-1 developed earlier (Refs 5-7). To cover the whole region from 40 to 2500 ji the auihor-i used six echelettes of 270 x 270 mm dimensions and the following constants -. 0.083(3) , 0.166(6), 0.50, 1.50, 21. 50 and 5.00 mm. A mercury lamp FRK-4 was used as the source and an optico-acoustic receiver O&P-1 with a crystall1ne quartz window 7ms employed. The spectrawere ca rd 1/3  SOV/51-6-6-15/34 Rotational Spoctrum of H20 Vapour and Absor-ption by Moist Air ir, the Wavelength Region from 40 to 2500 Microns recorded by means of an electronic potentiomater EPP-09. Tho spectra of higher ordor6 than the first and scattered short-mvelength radiation vere removed by selective modulation and by various combinations of reflection and transmisnion filters. Fir, 1 shows the 1000-2500 Ii absorption curve (II) of a columu of air 7.5 = long at ZOOG and 60~9 reltitiva humidity. Curve I in Fig 1 raprosents the eminsion spectrum of the mercury lamp FU-4 recorded uader tne ssuaa conditions as curve 11. Comparison of the curves I and 11 shows clearly an absorption band of atmospheric air at 1634 IL. This band is due to water vayourn present in air and corresponds to the transition 2270 3-2 (6-12 cm-1) between rotationai levels of'R20 whose energies were calculated by Benedict at al (Ref 2). This band vas observed using microradiowaves at ion It (6.14, em-1) by King and Gordy (Ref 3). Fig 1 shows that, apart from tue band at 1634 MIL, atmospheric air absorbs very little between 1200 and 2500 IL. Fig 2 gives the spectrum. of the optical density D In the region 40-25C0 It for a column of air of length 10 m at 200C, 760 mm Eg ana b0% relative humidity. Ca rd 2/3  A V151 - 6-'j-1 5/34 Rotational Spectrum of H20 Vapour and Aheorp-tion by Uol5t Air in the ifareleng-th Region frwi 40 to 2500 Microns Fig 2 shows that thore are three rogione or high transparon::ys at 3,17AD IL, 1300 -ji and from 1700 i~t to 2500 IL ( and pro',Ably beyond). The authora point out that the errors in dotemination of the optical aensity in the last two reglow of transparency were sevoral timeD higher tnan tne quantity measured. Thore are 2 fiKuros and 7 references, 4 of wnich are Soviet and 3 Enr.Lish. Card ~4/3  3 10 66583 SOV/51-7 -5-7/21 AUTHOM Yaroslavskiy, N.G. and Stanovich, A. Ye. TIT LE The Long-" Navelon&th Infrared Spectrum of H20 Vapours aM ~%bsorotion in Ataospheric Air in the Ro,-,ion 20-2500 IL (500-4 cm-1). P3RIODIML; Optika I spoktroskopiya, 1959, Vol 7, Wr 5, pp 626-631 (USSR) ABSTRACT: The authors reDort a study of the rotational spectrun of H20 at wava- lengths from 1400 to 2500 IL and of transparency of atnospheric air in a closed room at wavelengths from 20 to 2500 IL (transparency of air between 18 and 2500 ji is governed by absorption of water vapour present in air). A DIKS-1 infrared spectrometer was used in the first order -with six echelettes of 270 x 270 mm dimensions. Three echelettes with 122 6 and 2 lines/mr, were :~7ade on a precision ruling machine in F.M. Gerasimov's labor--IDry. The other three achelettes vith 1.5, 2.5 and 5.0 mm constants and a blaze angle of about 100 were zr~do using an ordinary milling rimchine. The following sources wero used: a platinum ribbon, -covered -nith yttrium oxide and heated to 120000 (it was used in the 20-50 1,. ragion) and a morcury lamp IPRK-4 (in the 50-2500 IL region). Optico-acoustic receivers with hermetically sealed chambers, fitted -~;ith caesium iodide and quartz windows, -were employed. The spectra were recorded autom%tically with an electronic potentiometer C-i rd 1/3 EPP-09. The wean error in determination of wave numbers amounted d2u ]FAR-M ~ -- --7--T 7~ -F,  66583 SOV/51-7-5-7/21 The Long-Wavelength Infrared Spectrum of H20 Vapours and'Abaorption in Atnospheric Air in the Region 20-2500 ji (500-4 cm-1) to 0.02 cm-1 and the error in determination of transmission varied fron 3 to 57~ The spectra of higher orders and scattered short- wavelength radiation were practically eliminated by the use of coalpensated selective modulation of the light beam, achisted by means of various combinations of reflection and absorption filters. In this way the short-wave scattered radiation was reduced to 3-5%. The results are shown in Pigs 1-3. Curve I in Fig 26 represents the energy distribution in the spectrum of the mercury lamp FRK-4, which was continuously pumped to Iceap the pressure at about 1 mm Hg;, curve II of the sane figure rapresentA the spectrum of the same lamg when It was filled with air, which contained 10.5 g- of water per 1 m (relative humidity 60/%*) at 20OG and 760 mm Hg. Comparison of curves I and II shows a clear absorption band at 1634 ji (V - 6.12 cm-1) -which is due to E20 vapours and represents a transition between the rotational levels with quantum numbers J.~" = 22 and J~ = 3-2, whose energies were calculated by Binedikt, Masson and Shaw (Ref 6). The wava-number of this band (6.12 cm-1) agrees, within_the experimental error (0.02 am-1), with the -wave-number of 6.14 cm 1 (1628 ji). determined by microwave Card 2/3 spactroscopy (Ref 6). The absorption by air in a closed room at 20-2500 )1 is shown in Figs 1 and 2, -where curves I represent the results  66583 SOV/51-7-5-7/21 The Long-Iftvalength Infrared Spectrun Of H20 Vapours and Absorption in Atmospheric Air in the Region 20-2600 Ii (500-4 cm-1) obtained at 1 ma H& and curves II represent results obtained in a 7.6 a long column of air at 760 mm Eg pressure, 2000 temperature and absolute humidity of 9.5-10.5 &3. The deep minimum on curve I (Fig ld) at 78.5 It (125.5 cm-1) is due to absorption by crystalline quartz of which the windows In optico-acoustic receivers were made. Fig 3 shows the results obtained, re-calculated in the form of optical densities D10 for a column of air 10 a long with 10.5 g/m3 of water. The authors point out that the precision of measurements of the optical density of atmospheric air in the regions -where it is highly transparent is comparatively low due to the small absolute values of absorption. Fig 4 shown that in the regicm of very low absorption (1200-1500 ji and 1700-2500 ji) the error is several times greater than the measured absorption. Consequently when absorption is measured in these regions the length of the absorbing column of air should be made as long as possible. TbKe are 4 figures and 15 references, 5 of which are Soviet, 8 English, 1 French and 1 German. B'UBMI TTED i March 24, 1958 Card 3/3  20727 s/o5l/61/010/004/005/007 E032/E314 AUTHORS: Stanevich, A.Ye. and Yaroslavskiy, N.G. TITLE: Absorption by Liquid Water in the Long Wavelength Region of the Infrared Spectrum (42 - 2 000 ji) PERIODICAL: Optika i spektroskopiya, 1961, Vol. 10, No. 4, PP. 538 - 540 TEXTs The aim of this work was to investignte tho absorption by liquid water of 42-2 000 1i radiation and to check on the data reported by Rubens and Ladenburg (Refs. 13, 14) and Cartwright and Errera (Refs. 15-18) in the region up to 300 IL. The measurements were taken with the vacuum long- wavelength spectrometer AVK'--', (DIKS-1) described by Yaroslavskiy, Zheludov and Stanevich in Refs. 20-22. Fig. I shows the transmittance T and the optical density D of ordinary water in a 13 4 layer at room temperature. The dashed curve in this figure shows the absorption constant calculated from the formulas Card 1/4  20727 S/051/6i/olo/oo4/005/007 Absorption by .... E032/E314 1 1n - T k 41Td where T is the transmittance in relative units, X is the wavelength in p, and d is the thickness of the absorbing layer in 1L. The analogous results for heavy water are shown in Fig. 2, In thesB figures, S is the spectral alit width6 -L- . v is the time constant (sec) multiplied by the rate of recording (cm/sec). Comparison of these data with those reported by Rubens et al (Refs. 13-18) shows good agreement at X = 52, 152 and 313 ji,. The wave numbers of the absorption maxima shown in Fig. 1 are, respectively, 232, 210, 191, 175, 160 and 145 cm -1 while those in Fig. 2 are 221, 196, Card 2/4 -P  zu s/o3l/61/010/004/003/007 Absorption by .... E032/E314 181, 166, 156 and 140 cm- 1. There are 2 figures and 23 references: 4 Soviet and 19 non-Soviet. SUBMITTED: September 24, 196o 4 (6 AW Fig, -1 MV 4. so NO 200 .500 IVOO ZOOO 230 200 *0 100 50 zo 15 10 5 VOCAI-I) No. 1. 11ponywcanwe (T), onrx4e~Hnn anoTuoe?i. (D) H VOH8ZdTenb norjYou4e- 313111 (k) MHAROR DOAIJ DPH TOnUMIG Uton 0.01111 uv,.,B o6narTif 42-2M wx. CUCHTpall"Aff MjfVjMA Weall (8 Clt~): I - V - nPOTV8D.'AeHH6* DOCTORHI109 OveXCIVIt (8 Celt.) nPilemlloycluIRTeAsmoro YCTpOOCTRO un atopam pemcTpatum (a ew-Icen.). z0 OACm ta T.U 0.2CM-1  20727 s/o5l/61/010/004/005/007 Absorption by .... E032/E314 Fig. 2: Tax) B 40 50 100 zoo 300 YOOO ze too 250 zoo IJO 100 50 20 f5 10 Pitc. 2. flpoaycitauue (T) OUTWIeCttan tMOTHOM (D) a UOHMTenh norno- inettart (k) IXUAKOR *TgmeroA* BOAunpa Torugime enoit 0.013 mtc n oftam Card 4/4  STA14EVICHY A.Ye.; YAHOSLAVSKIYP N.G. . Transmission of organic solvents in the long-wave infrared spectral region. OptA spektr. 11 no.1:61-66 il 161. j OUU 14: 10) (Solvents) (Molecular spectra)  ST,'~!~ZVIGJ!v A.Yue; - 7'0 '61'Iy T' G .~L J44 d lnfr~-rad L.-cr;.tion voctixum ~,f the 'qCro~;,jn '-ond in V,.a lilitit' ard in hydrat3p, DokJ. T'T 15-1 no. Er-kp 161. (:.:IRA 1/,:2) Teranirrym. -c, un bo-.4ing-Spoctm) R-MI,  ___ -M  FRISH, S.E., otv. red.; BOB3VICH, U.S., kand. -fiz.-matem. nauk, red.; VOLIKENSHTEYN, M.V., doktor fiz.-matem. nauk, red.: GALANIN, M.D., doktor fiz.-mtem. nauk., red.; DRUKAREV, G.F., doktor fiz.-matem. naukq red.; YEL'YASHEVICH, M.A., akademik, red.; KALITEYEVSKIY, N.I.,, doktor fiz.-matem. nauk, red.; KUSAKOV, M.M.,, doktor khim. nauk, red.; LIPIS, L.V., doktor tekhn.nauk, red.; PEKAR, S.I., doktor fiz.-matem. nauk.. red.; PROKOFIYEV, V.K., doktor fiz.-matem. nAuk, red.; SOKOLOV, N.D., doktor fiz.-matem. naukp red.; FEOFILOV, P.P., doktor fiz.-matem. nauk, red.; CHULANOVSKIY, V.M., doktor fiz.-matem. nauk, red.; SHPOLISKIY, E.V., doktor fiz.-matem. nauk, red.; YARDSLAVSKIY, ,; LEKSINA, I.Ye., red. izd _I.G,.-kand. fiz.-matem. nauk, red, va; PENKINA, N.V., red. izd-va; NOVIGHKOVA, N.D.g tekhn. red.; KASHINA~ P.S.p tekhn. red. (Physical.problems in spectroscopy]Fizicheskie problemy spektro- skopii; materialy. Moskva, Izd-vo Akad. nauk SSSR. Vol.l. 1962. :2) 471+ P. (MIRA 16. 1. Soveshchaniye po spektroskopii 13th, Lmingrad, 1960. 2. Chlen- korrespondent Akademii nauk SSSR ifor Frish). 3. Akademiya nauk Belurusakoy LSR (for Yellyashevich). (Spectrum analysis)  YAROSLAVSKIY, N,G. Analytical applications of long-wave infrared spectroscopy (survey). Zav.lab. 28 no 8:%4-949 162. (MIRA 15811) ispecitrum, Infrared) (Spectrochemistry)  FILIPPOV., O.K.; YAROSLAVSKIY, N.G. Transmission of long-wave infrared radiation (40-200A) by heated crystalline and molten quartz. Opt. i spaktr. 15 n04-- 58-561 0 163e (IL 16:11)  EFSHTSYN, L.,M.; TAROSLAVSKII, N.G. Long-wave infrared'ispectra'(400-20 am-1) of diphenyl i0donium Balta. Dokl. AN SSSR 149 ncW865-868 AP 163. (MM 16:3) I,, Moskovskiy gosudarstvennyy un iversitet im. Lomonosova. Predstavleno akademikom A.K.Nesmoyahovym. (Iodonium compounds-Absorption spectra)  MOM YAROSLAVSKIY, N.G.; KONOVALOV, L.V. 'Long-wave absorption spectra of complex compounds of aniline with metals. Dokl. AN SSSR 162 no.1:144-146~. My 165. (MIRA 180) 1. Submitted November 9, 1964. MET ------------ . . . . . . . . . . . . . .  L 05699-67 EWr (1)/EW7 (m) /90(t) /Fri IJP(c) GOAN-rAl') XCC NRt AF6W352 SOURCS CODEt-w6~67-16&166~loiij-loooi-lbooi~I AUTHORI Stanevichp A, To,; Taroslavokiy, N. G. ,OROS none TITLES Absolute emissive power of PRK-4 mercury lamp in the longwave infrared range (50-2000 4) SOURCES Optiko-mekhanichaskays. pro?tqshlennostlp no. 5p 1966p 1-4 TOPIC TAWS light eadesion, emissivity,, mercury lamp ABSTRACTt Masurements of the absolute emissive power of a PRK-4 mer lamp were I made under its normal operating conditions (current of 4 A) in the range of 50 to ~?qMjiwith a DIKS-1 spectrometer. -The emitted energy Ev was determined from the sig- ndl-to-noiae ratio measured at various points of the spectrumq and from the values ob- ta*nedv the spectral intensity rV was calculated. Comparison of the absolute emissi4e poker thus obtained with the emissive power of a black body shows that in the range I ab6,*vo 200 p the radiation intensity of PRK-4 surpasses that of a black body at 1500*p and~at 1000 A reaches a value corresponding to the radiation of a black body heated to approximate3,v 60000K. The spectral range for the most effective use of the mercury lamp and thermal sources of radiation was determined by comparing their relative radi- ation intensities: in the wavelength range above 130 pp the radiation intensity of the mercury lamp surpasses that of a thermal source (platinum strip coated with yttrium UDCS gum  ACC NRI AP6026352 oxide). However, since the Intensity of shortwave radiation of a mercury lamp is much lo,wer than that of thermal aources of radiation.. the use of mercury lamps in spectrom- store with schelette gratings can also be effective in a shorter spectral rangeo azt. h" t I figure and I table. ava G=9 13/ SUER DATER O1N*v65/ WM RUB 006/ GM, RUS 004 L PCtard ?12  CC NR3 AP7005651 SOURCE CODE: uR/o4l3/67/000/002/0100/0101 INVENTOR: Lobachev, M. V.; Sakoltskiy, N. N.; Stanevi~h, A. Ye; ~aroslavjkiy, 17. G. ORG: None TITLE: A double-beam spectrophoto*cter. Class 42, No,. 190615 (announced by the Leningrad Opticomechanical Society (Leningradskoye optiko-mekhanicheskoye ob"yed- ineniye)) 7r SOURCE: Izobreteniya, promyshlennyye o*6jraztsy, tovarnyye znaki, no. 2, 196T, 100-101 TOPIC TAGS., spectrophotometer, IR optic system, diffraction grating, optic instrument ABSTRACT: This Author's Certificate introduces: 1. A,double-beam spectrophotometer with diffraction (echelette) gratings for operation in the far infrared spectral region (50-1000 V). The luminosity of the instrument is increased by making the grat- ings 1.5 times longer in the direction of the lines than in the direction of disper- sion. 2. A modification of this spectrophotometer designed for measuring reflection spectra. A prism 'is mounted in the cell compartment with reflecting surfaces which break up the radiation flux with simultaneous displacement of the focusing elements. 1/2 UDC: 5:5-853-36  ACC NR.   YAROSLAVSKrY, N.Ye., inzh. Glass pipes and their use, &ergetik, 13 no,7:33-36 JI 165. (MIRA 18%8)  USSR /Zngineorlng B ilerp High Pressure 0 Scale Removal "Operation of a High-pressure 33~iler Unlt')' IP-1. Sipunov, X. Ye. YaroslavskV, Engineers, 4 pp "Blek Stanta". No 3 At present there are five boiler w7.J+.:; opersting at 80 atm and 5000 C. Discusses scale removal., operation'of superheaters and regalation'of .superheat, separation of steam, injury to s of the vater economizer, etc. XconmW of iw '38/*9T48 US.'Wingineering (Contd). these high-pressure units still does not exceed that of average-pressure stations. 49T48  YAROSLAVSKIY, N.Ye.9 inzh. Design of the heat supply system of the construction site of the Bratsk Hydroelectric Power Station. Elek. eta. 34 no.11:43-47 M 163. (KRA 17; 2)