SCIENTIFIC ABSTRACT NARBUTT, B. - NARCHUK, E.P.

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December 31, 1967
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SCIENTIFIC ABSTRACT
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NAFMTT, Boleslaw- doc..dr.; XUDLA , Teodor. Adrenocortical activity in the Chiari-Frommel's syndrome. En- dokr. Pol. 15 no.6:599-~09 N-D 164 1. Katedra i Zaklad Patologii Ogolnej Slasklej Akademii Me- dyoznej i Poradnia Endokrynolo iczna FSK I w Zabrzu (Kirownik.- doe. dr. B. Narbutt~; i Katedra i KlInika Poloz- nictwa i Chorob Kobiecych Slaskiej Akademil Medycznej w Zabrzu (Kierownikt prof. dr. M. Glowinaki). NARBUTT, Bolealaw, doc.,-k~j---ZYCH, Franciazek Tropic activity of the hypopbysis In some 'homon&Uy inactivag tumors of the glando bidokr, Pol, 16 noe3t217-231 My-Je'65. 1. Skklad Patologii Ogolnej i Donviadc=Llnej Slaskiej Akademii Modycznej (Kierownlkt doe. dr. B. Narbatt); Poradnia llhdokry- nologiczna Panetwovego Szpitala Klinicznego Nr.1 v ?abrzu (Kie- rownik: doe. dr. B. Narbutt) oraz I Klinika Chorob Wevnetrznych Sla3kiej Akadexii Modycznej, Pododdaial Ehdokrynologiczny (Kie- rownikt prof. dr. J. Japs)e oggg, NMUTT, Henryk., mp. inz. Schooling of rationalizora for the food industry. Przogl techn 85 no,8:10 23 F"64. MMT. K. Prices of meat products. Hias.ind.SBSR 31 no.2:39-41 l6o. (MIRA 13:8) 1. Dyuro teen pri Gomplane SSSR. (Meat--Prices) pr r, el r 1". Amd, Sd- U-S-5-S,- Cl, Sci. CbixL, INS, 71-7U.-Mit""t"L Fmalm are devekq*4 for the Structure of the K.abwxpbm edge. Rw cakebtiog the latemmity of On mWc I- liacs, sad for connecting thew liwe wft dorm of kmisation of the gas. There Is a emnexion twtwgra the stritcturr of The X-edge aml The at. w. of the clemmi. It. To. W~ l w o a 14 v 1 11 it goo at Is -4-- k-A- A -P- 1"). t I 1 -2 b- J.- b- P- p . - ji, a-l_si o0 A - -- - . .. -- A. -! -I.,--- v . 00 so 00 .0 k- k t i l fl "11111ol At in acin sus oy numnit uteriow sourfist'rof's ng zoo Cylituirr. In Ow, muter to shot crytal how" thrm. k lit. wited a ckcuUr vorvigg: fanning with the SoUllfACS! Sid OW ort"al a gap appross. 0.1 mm. which functions as the fir,t 041 0041 At of the ism-trograttle. The oqw"nvml)h (miavors t divornsing himoutt of wt-tAys. of vorgowr lrit4th X. too is Saint ' ' 1 1 i h f 0 l 7 goo 111 S O 1141" 41111 1 461t 0 t D Opl "ICAVAIth Wil ILAVitld 114 d6gloomv foam floor tvntfr at IN Crystal Skill, "W VC1.1- Y use film I - 14 but So wbm I in the distAMIST 11WflIkS l millow. R J, tjW fW&M of fbt Cyfio&kld Cfyg&l,L=l # Li the itallk- 0 I PhAldg4ndthEM'&Cting$Ur(ACrOf 'he vrr.-IAI owsmaml from The PtAnt al filtvi. A eletaik-d zoo sivill is simth. iflostrossitiotors of thor- %IwvlnWg;&jS1j Are lewbuk-d. It I. *ujonote.1 that x4ln, In ittleo.ity of 90 the 41WIM W0441titll lose W t0 It)II till" 111W-o' Owl tju~ okwAilwortl with rXiAtills I'mut4ing I%Miw I appl"limis lose diwit*wA. . it, Ifinkey 00 1:309 floe Slow % 8-2 1-, 1k 11plaw -.&I Oftio cat slits is A&I, - 0 F Poll 0 Sol 0 1 v P Al Or it to a of a It 0 00 0 w 0 94 be 0 go so 0 0* 0-0-2,9 it 000000 00 o oof,o P*O* ,&*goo. .*,* I . ~ . , - - 0.1 0 t x it U it 00 4 !L PROCISUS AID 010141-19 "19 00 14 04i x .00 A Now Tyjw of Xfty OWW" Cov" C 1" Z Z V i li 6e 00 a r4 fein 9 and X arbull, Repris of A* A ado U w 0f'3 c my of twee of V.S.S.R., 68 no. 8 1146 W-702 Ru p (I d . , , . , n s &L) Schematic drawing and dawription of a newly developed X-ra o i 40 cus y t ng vpft*poV&pb, which in. 90 Maim the Intessity of thi amtra obtained to. 100 times In com arf it h too M "n w h ot p er spectroffrophs, 0 soil 00 zoo moo :Woo use no o of 00 n alaill 40C a%. 41, am, Ogg 18 4 3 9 J~ Is-IT ~10 LIS .i 'a TV a Vivo a I IN 0 . o 16 goo 0-0 9~4 0 O.o * * 0 *1* *.o 0 0 0~9-0' 0 0 0 0 o o 0 0 O'o 0 k 00 0 0 0 0 0 0 0 0 0 0 All 0 0 0: 0 4 e e 0 it U a )d a 16 it 0 PF a .1 41 a 6 1-1. JL~ W-11 A.- P84M-4143 A. fth-im6mesily Causitm for II-fay SWYDW Of stru"Wit 15 -00 1111 fflowbrentalk rays. IC. F. vsln~htefn And K, 1. OW Narbytt- Zetw4sboys 1,4- 13. SK"flIP-17).-The x-rur 190 -fikiising sprctrograpb with a curved cmial (CA, 41. was ch&nVd Into a powedul focusing x1pp. for analysis of stmetum with monochrmulic rays, One variation of the cantem Is suitable (,w wotk involving small l1ragg augim. juArticularly in stuilvitig the %trurture 4 00 040141 And SISVI-10"Riuc Sulmanct-S.- anfithef vatiAtiou 14 ,r m4table for work lnvr?lvinK larce Draox ancli-5. It. Z. xamich too '40 400 !see VO too, Iwo bee %RIONJ a#( - ------ 411sti-dw-4*w Ail FPO U IS AT %C) At Ali L t 9 0 0 9 Ir 66 1 A 4 3 1 1 IT It Cox Kalts Ituff Not 40 a I * * 0 0 0 0 0 0 0 0 :10 0 1 001 0 0 0 0 0 * 0 0 0 0 1110111aW U R H. VdKAtdB IBM rT, N=n. lArd. Aisf. 'X.4. S.S.S.R.. 09d. XUsii7ft" 100. M-9.-Witt; the away abwWim vwmm cc Pam& IM mw their pr*T&MAY &,vdopd formak (C.A, $9. 817P). the bmd In this mol, Is c~W. to beap" .207#pokt. Since thw=olwwd"&h-* mptim Una causes an apparent d ament of the K sh- awplim ed4p kom Its true Position in many fight eh Impts, mathalswe winested to cAc. the sbourptinn carfi. in this tr&n. Cylus velil"14111 9A Sitivome 01 low it-royll io aim Arad. ~w Fig, 15, -Thr Zn valtow devrh4wil In avicid"I qnsiris fulov at 1471)" was irradiated with ii-rayii front it deninunlable ltjlw with Cu anticallmodr. lilk-fophitttograniii revealing new fine-struwturv details were obtaint-d. The and compari,till with tiplical glitictru W Ga I anti Ga I I Nm that there art, :.1 K-thint-ihcilik it( anif 2 -ai" it( line% vierv, "miling fit iirulral ;in(] Its kiniml Zn ol.mn%- MAlh. Irt-aluirtil sh.)%% limt #5% if The altan, arr eirtilril, 55% kinitril. Thr width of the x-p talr% of the ion, 1. -#1 r.v.. od ifir jlvin4 -:1 (-,%. the %Idlh of the ground stair 1wing tht. Pak'wrr ice-. -'Spec' roseqpy~- t Jul ~51, ;"Relation Betveem the Theory of Basic X-ray Ab-. 'sorption Boundary and. the Theory or irine stiu6 ture,", R. L. Bixinskiy, K.I. larbuttl Z-,Te ns 0 , Aca USSR ~ end Taitshteyn, I t of Geol 5 1' d~Scli -',Ixwt of Geochen iid-IMIA Cheia imeni V.I. Ver- vok Ak Ikuk SSSR" Vol Ao 1,,PP 49-52, Authors establish formdas defining lines of so- .1eitive absorption and.real.absorption boundary. Comp ison of theory and exptl results.is possible after frou exptl- mirve of absorption 2107!80 USSR/Physics Spectroscopy (Contd) 1 JU1 51. lines and boundary; center of letter should be OfLflUef taken as origin Ustions on energy Scale Presented.by Aced A. A. Lebedev 30 #pr 51. 21OP80 USSR/Physics - X-Ray Absorption Coefficient 11 Jul 51 11MAgnitude of the Jump in the Coefficient of X-Ray Absorption," E. Ye Vaynshteyn, R. L. Barinskiyj K. L Narbutt. Inst of Geochem and Analyt Chem imeni Vernadskiy and Inst of Geol Sci, Acad Sci USSR "Dok Ak Nauk SSSR11 Vol LXXIX, No 2, pp 225- 228 Study dependence of subject jump on atomic number; jump in the case of krypton; and jump of argon. States that Kramers' thoo~y Is not satisfactory for small Z starting at Z-25- State that the agreement of Jonsson's relation with data of expts is acci- :,dental. Khmiledge of the effective quantum number n* is necessary, Submitted 20 Apr 1951 by Aced A. A. Lebedev. PA 214T73 VAYNSHTEYN, Ye. Ye., BARINSKIY, R. L,, NAFJ3UTT, K. 1. .Absorption Spectra Compiltation of the structure of the principal X-ray absorption edge of atoms in molecules. Zhur. eksp. i teor. fiz. 23 no. 5. 1952. Monthly List of Russian Accessions., Library of Congress, April 953. U14CLASSIFIED. IIARBUTIT. K. I. USSR/Physics - Roentgenography 21 Jan 52 "Utilizing the Jump in the Coefficient of Roentgen Absorption For Calculating the Fine Structure of the Ground Region," R. L. Parinskiy, E. Ye. Vaynshteyn, K. I. Harbutt, Inst of Geol Sci and Inst of Geochem and Analyt Chem Imeni V. I. Vernadskiy, Acad Sci USSR "Dok Ak Nauk SSSRII Vol LMII, No 3, pp 354-358 Give the results of calans of the absorption spectra of gerranium compds GeC14. Submitted by Acad A. A. Lebedev 22 Nov 51. GeH4, Ge2H6, GeBrj FA 21JT98 7 739* *mtturr ut ha-ir X-R&Y Afl~Pdom Hands Of 19000- in SWNlkm. ( In k. 1, s.111,111t. 11, L. 0,4111"Iti. mol V. F, VAtAtrin. PtAbuly AG-treir-stT.Ujuk SSSR, to-w w-r, v 82. 1. 1912. p VC-57.11, %ou'*. Ni", (:13,*. ~1-1 Z11" PAII 'A. 9.- 11K1&191411 it$ II)%#-%fijjjfS1J;j do- A"or. ILI,, -is, di-n-A, u1mLitr4l.-Atmi chArte-41 M it.(. ~ :. I I 1 230T94 9 bi E-7 I NARBUTT, K. I, USSR/Physics - Trensitional Elements n Har 52 "Structure Governing the X-Ray Ground Limit of Absorption of the Transitional Elements When in Chemical Composition," R. L. BarinsIdy, E. Ye. Vaynshteynj K. I. Narbutt, Inst of.Geol Sci and Inst of Geochem and Analyt Chem imeni Vernadskiy, Acad Sci USSR I'Dok Ak Nauk SSSRII Vol LXY-XIII,, No 2,, pp 199-202 Considers the very important exptl facts that confirm the representations, expounded in in current article,, concerning the nature of tlie complex structure governing sub- ject absorption in the atoms of the transitional elements. Concludes that the X-ray absorption spectra of the atoms in metals and compds are qualitatively very similar, which similarity is so great that it is difficult to admit any great difference in the causes for.the appearance of the fine structure in both cases* Submitted by Acad A. F. Ioffe, 11 Jan 52, PA 214T85 r& USSR/PhYsii:s -.x4ay Sp~ct 21* 107:52. '"'The' Connection Between the Structure of Ground X-ray 1 Border of,'AbsorptiorL and the X-ray'Enission Spectra.."of It Atms in Molecules and Polar, Crystals,' K.I. Warbut.t.- E. Ye. Viynshteyn, and R. L.' Barinskiy, Inst-of Sci and Inst of Geochem and Analytical Chem. '~,imeni. Vernadskiy, Acad Sci USSR "DoIk Ak Nauk SSSR" Vol 87, Wo 3, PP 361-384 ~7Discuss the energy spectrum of KC1 crystal. Assert difficulty in measuring the wave lengths', 24 5TIO8 of it a lines, vhich accounts' for the discre-p- andies between the computed and experimental values. Submitted by Acad.j. I . Chernyayev 29 Sep 52. 245=8 1"BUTT, ie Dissertation: "The Nature of the Fine Structure of X-Ray Absorption Spectra." Cand Phys-Math Scis Inst of Crystallography$ Acad Sci U56H,, Moscow, 1953. (Referativnyy Zhurnal-Fisika-Hoscow,, Apr 54) SO: SUM 243, 19 Oct 1954 TL-,!-!Ir, K.J. I A-1 USSR/Physics - X-Rays Spectromw2ter "Short-:Kave Universal X-Ray S,-ectro.,:eter Witkh, Direct Imlicator o--:' WP-A-ie I_en~th sf S--ectral Lines," K.I. Naebutt, InA of Geo Sc-1, Acad Sci USSR Iz Ak Nalak SSSIR, Ser Fiz, Vol 17, No 2, pp 249-254 Attempts to construct an X-ray spectromelt-er cf great r~solvinrl power, which woald prad-uce initial and secondary excitation of x rays and which would facilitate detn of necessary spectral lines. Describes the instrume-L and the X-ray tube manuf-.,ctured In a plant of the InEt of Geol Sci. Received 17 Feb 53 262T101 NARBUTT, K. 1. USSR/Physics X-Hay.Sp6ctra, 11 Sep 53 ~,~"X-Ray Absorption Spectra of Zinc Contsined Within .,the Molecules of ZnC12, ZnBr2 and ZnS,k.0C. 1. Nar- :_",butt, nst of Geol Sci, Acad Sci USSR -275 4 DAN SSSR,.Vol 92, No,21 pp.273 Investigations of x-ray absorption spectra of free Zn atoms, started in 1z Ak Nauk, Ser Fiz 15, 2 (1951), ~:are continued and applied to mols containing Zn atoms, the investigated substance being in gaseous state. Results are illustrated in graphs. Indebted to A. 1. Yermilov. Presented by Acad A. A. Lebedev 10 Jan 53. 26qTlo8 wtaoUTT K !xSSRIPhysicr, ~7fty-Spectra Nov 53 :_-."nve6tigatjon:of X-Ray Absorption Spectr~t of Zinc and tromine Forming the,ZnDr2,MOlcCule,`(!k. I. Nar-. butt("Anst of Geologic Set, Acad Set USSR -PAN SS$R) Vol 93, No- 1, PP 21-24 Presents results of study of the,superfine structure.. of X-spectrum of absorption by Zn and Br in the -ZnBr2-molecul.e. Method applied was previously 'described by author (DAN 92, 2(1953)). Finds the ob- served spectra to be of H type. Sees each K-spectrum as superposition. of -two..series.9f., lines,, the primary', 2789~ :arid the.secondary..~_Indebted to R. L.-Barinskiy. 4r ~_eqented'by"AIcaId A.: Lebedev 10 Jun 53- USSR/Physics X-Ray Absorption Spectra FD-62i Card I/i Pub. 146-11/18 Author Narbutt, K., Title An investigation of x-ray absorption spectra of zinc in solutions Periodical Zhur. eksp. i teor. fiz. 26, 208-223, February 1954 Abstract Presents the results of an experimental investigation of absorption X-ray K-spectra of solutions. Studied the dependence of absorption K-spectra of zinc in solution on the following: the chemical com- position of the salt used in preparing the solution, the concentra- tion of the solution, and the nature of the solvent and the type of ion formed in the solution. The effect exerted by the freezing of the solvent was also studied. Institution : Institute of Geological Sciences, Acad Sci USSR Submitted, : July 6, 1.953 VAYNSHTSYN, M.Ye.; BARINSKIY, R.L.'; AMUTT, K.J. Theory of X-ray absorption spectra. (Remarks on A.I.Ibstarev's and I.Morovskil's article). Zhur.ekep. i teor.fiv. 2~ no.4;521-528 0 '54. (KLRA 7:12) 1. Institut geokhimii i analiticheskoy khimii Akademii nauk SSSR. (Aibsorption spectra) (X-rays) VATNSHTRYN, B.Te; BARINSKIT, R.L.; NMUTT, K.11. Regular patterns In the structure of principal X-ray K absorption limits for atoms in alkali metal halide crystals. Dokl.AN SSSR 105 ne.6:1196-1199 D 155. Mak 9:4) 1.InstItut gookhimil I analitiches)my Wail I Laboraterlya mine- ralogil I gookhImil raWkh elomqntov, Inatitut goologichoskikh neuk Akademil. nank SSSR. Predstavleno akademikem N.V.Belovym. (Alkali metal halides--Spectra) (I rays) USSR/Physical Chemistry, Molecitle. Chemieal Bond. B-4 Abs,Jour, R.eferat Zhur xhimiyal No,6).25 March 1957, 18192 u Author barb tt Title h~e-Stru=ture of X-R& EnissionLines of Ic;n.s in. Solution Orig Pub Z'Vl ''M _SSSR)' 1956 20),No 1, 13 6421' Abstract X-~ra`y 6miS'dion'K-,,s_pe,c,tra of"ibne- Zn2+and Br- in solu- tion's, znCl -, and- Z,nBr2 -are examined,'Forme.of lines Ka KO(z 'and ig were studied~ -for the ion Zn2+in ZnC12. dissolved-i'n w6t'6r, acetone, methyl alcohol, glycerin afid formic acid, and for'-ions Zn-2+ and Br- in aqueous solution of ZnBr2- For the sake of comparison were ob- tained emission K-spectra of metallic Zn and of solid compounds of Zn: ZnO, ZnS. Zn(CH3 COO)2) ZnC121 ZnBz2, ZnSO4.nff2o' Card: 1/2. 35 Category ; USSR/optics - X-rays Abs Jour : Ref Zhur - Fizika, No 1, 195 No 2562 K-8 Author : Narbutt, K.I., Fridman, Ye.M. InA : Inst. of Geological Sciences, Academy of Sciences USSR Title : High-Power Sealed X-Ray tube for Spectral Analysis Orig Pub : Izv. AN SSSR, ser. fiz., 1956, 20, No 1, 136-141 Abstract : Description of poVerful, sealed X-ray tube BFH-70 for X-ray spectral an 1- ysis. The anode part of thl tube is a massive copper body with dr'illed ducts,for water c~olin ,g. The cathode, located in the rectangular shamber of the body, has a linear tungsten spiral. The anode is hard-soldered into the body and has a tungsten rectangular mirror, set at an angle of 600 to the tube axis. Cut in the wall of the body, parallel to the major axis of the mirror, is an output window for the emergence of the X rays, measuring 56 x 14 mm, covered with a filter in the form of a plate made of vacuum- packedberyllium 1 mm thick. The tube has a broad focus measuring 38 x 5 mm and permits the'dissipation Of high power by the anode (200 ma at 50 kv or 150 ma at 70 kv). The maximu, permissible anode voltage of the tube for prow- longed continuous op Ieiiation is 70 kv. The filament current does not exceed 7'4 a' the filament voltage Is 13 v. The sensitivity in the case of fluor- escent X-ray spectral analysis is 0.01%. Card 1/1 ~USSR/Fitting Out of Iaboratories Instruments) Their Theory, Construction, and: use) H Abst Journal: Referat Zhur - 1(himiya., No 19, 1956., 61963 Author: HAr_butt, K. I., Vaynshteyn., E. Ye.p Gillvarg.. A. B.Y Belyayev,, Institution: None Title: New Vacuum X-Ray Spectrograph RSD-2 Original Periodical: Izv. AN SSSRJ, ser. fiz., 1956, 20, No 2., 152-16o Abstract: X-ray spectrometer RSD-2 is designed for X-ray spectra investiga- tions of K-series elements from K to Cu and L-series elements from Ag to TAY and also for the study of minute structure of emission lines and boundary absorption. Spectrograph parts, high voltage equipment, vacuum assembly and measurement instruments are set up as a single unit. The dismountable, cooled X-ray tube is made as a separate component connected to the central chamber by a bellows and mounted or- an arm that rotates around the vertical axis of the .11 )r Card 1/2 4)t .1-t/ ,,tot RZ USSR/Fitting Out of Iaboratories - Instruments, Their Theory, Construction, and Use, H Abst Journalt Referat Zhur - Khimiya,, No 19., 1956, 61963 Abstract: central chamber. Angle range of arm rotation and actuation of the tube swinging mechanism are effected by 2 stops with Hg-contacts. Shape of the eccentric of the swinging mechanism is selected in such a manner as to ensure attainment of uniform sensitivity scale on roentgenoscopy. Focussing is effected in RM-2 by a quartz crystal-ground on both sides to a 1,,000 mm radius and set in op- tical contact with cylindrical surface of the glass segment of crystal-holder (radius 500 mm). Discussions of effective surface of reflecting curved crystal 10 x 50 mm. Recording of X-ray spectra is done on motion picture film sensitive to wave length region 2,000-5,000 XE. To facilitate reading of spectra a wave length scale is printed on the film. Card 2/2 MDUTT, 1. 1. Characteristics of the fine structure of the K-absorptIon edge of germanium halide uolecules. Isy. All SSM.Ser.fis.20 no-7: 780-783 J1 136. (Km 9: 11) 1. Institut geologicheskikh nank Akodmili nank (Germnium haltdoa-9pectra) ---------- b T_ OJI Al g Out of Laboratories Category; U~SR/Fittin Instruwnts. Their Theory, H. ons c iruction and Use Abs" Joui Referat Zhur-I(hiiiyi,*No 9, 1957, 31133 ~Author L'.' M.,"Itirbutt Stolyarova Ye. L., Konstantinov I. Ye.,.,Alekseyev V. A., Gillvarg A. B., Sairnova I. S. ademy,'of Sciences USSR; Ac title Xrz~6k~~en se.of~Luminezcent Counter.for'Registering X-Ray Orig Pub: Izv. AN SM Ser..fiz.j,1956, 20y No 7, 801-"- Abstract: Use,was made of a luminescent counter consisting of NaI(Tl) cry- Biai' FEU-19 with necking-in, for registering primary and flu- orescence x-ray spectra, and for the study of fine structure of x-ray spectra. The electrical-hookup consists of a preamplifier, viae-band amplifier, scaler attachment (16:1), Ps-64 and electro- mechanical counter. Use of the counter enhances sensitivity of x-ray spectrum analysis by one order and lowers the exposure by 4 times, in comparison with a gas counter. Card 1/1 .6- 41~ A ~ 171, AUTHOR: Barinskiy, R.L. , Vaynshteyn, E.Ye., Narbutt, K.I. 48-10-4/20 TITLE: The Dependence of X-Ray Spectra of Atomic Absorption in Compounds that have the Character of Chemical Compounds (Zavisimost' rent- genovskikh spektrov pogloshcheniya atomov v soyedineniyakh ot kharaktera khimicheakoy svyazi) PERIODICAL: IzvestVa Akad.Nauk SSSR, Ser.Fiz., 1957, Vol. 21, Nr 10, PP- 1351-1361 (USSR) ABSTRACT: In the course of the present theoretical representation the pre- viously (ZhETF, 23, 593, 1952, DAN SSSR, 82, 355, 1952, and 82, 701, 1952) found empirical rules found by the authors can be ex- plained and connected with one another. This applies to the rules governing the structure of atom-absorption-X-ray-edges in multi- atom compounds in which polar connection plays a predominant part. For the case of di-atomic compounds the following may be said: 1.) The extension of the basic absorption line series in the cation spectrum must always be less than that of the satellite series in the same spectrum; with the anion the opposite is the case. 2.) The ~relative intensity of the satellite series of absorption lines in the cation spectrum must always be greater than the corresponding Card 1/2 quantity in the absorption spectrum of the anion in the same compound. The Dependence of X-Ray Spectra of Atomic Absorption in Compounds that have the Character of Chemical Compounds M The shape of the selection lines of absorption within the domain of each series in the cation- ana anion spectra in compounds with marked ion character of the compound must be near the form of dis- persion. With a weakening of the ion character of the connecting forces, the shape of the lines is bound to deviate ever more from the theoretical one. 4.) The reciprocal position of the basic and of the satellite series of the absorption lines is determined by that state which, of the two utmost states in the case of the polar- ization of the molecule, has the minirmim energy. 5.) The anisotropy of the polarizability of multi-atom molecules (e.g. of the halide salts of some metals such as Zn, Ge, etc.) depends upon their struc- ture and therefore (in contrast to diatomic compounds) is in no direct connection with the polarizability of the ions forming the compound. The conclusions drawn here are quantitatively confirmed by the experiments. There are 12 figures and 12 references, 11 of which are Slavic. ASSOCIATION: IHGRE, GBOKM, IGER, AS USSR (BIGRE, GEOKhl, IGER Akademii nauk SSSR) AVAIMLE: Library of Congress Card 212 AUTHOR: TITLEt PERIODICAL: ABSTRACT: cird 1/2 Narbutt, K.I., Smirnova, I.S. 48-10-6/20 --------------- On the Influence Exercised by the Activator on the X-Ray Ab- sorption Spectrum of a Luminescence Crystal (0 v1iyanii aktivatora na rentganovskiy spektr pogloshoheniya lyuminestsentnogo kristalla) IzvestiA Akad.Nauk SSSR, Ser.Fiz., 1957, Vol. 21, Nr 10, PP 1367-1374 (USSR), The following iri stated b.y the present paper. 1,) The influence exercised by the activator on the X-ray absorption spectrum of a luminescence crystal is determined on the basis of the examples of N&T and CsJ crystals activated by thallium. 2.) On the long wave sideof,the absorption discontinuity in I spectra of iodine and cesium absorption in the CsJ(Tl) crystal 'tie occurrence of additional absorption~maximA,the position of whioh~oorreaponds to the'transitions of electrons in the local levels, was discovered. 3.) On the strength of the analysis of the longwave branch of the LIJ spectrum of the iodine absorption in NaJ(Tl) crystal the values of length of wave bands in the optical domain were computed. These valuesagree with those wavelengths of the absorption bands found experimentally in o ties, especially with the wavelength of the F- band of the N&J(Tl)porystal. 4.) The changes on the shortwave side -of the aboorption discontinuity in IqjI speotra of iodine and cesium AUTHOR: Smirnova, I.S., Nartutt, K. 1. 48-10- TPO TITLI: The Investigation of the Fine Structure of Absorption-X-Ray Spectra of Halide-Alkaline Compounds (Issledovaniye tonkoy struktury rentgenovskikh spektrov pogloshcheniya shcheloohno- galoidnykh soyedineniy) PERIODICAL: Izvestiya Akad.Nauk SSSR, Ser.Fiz., 1957, Vol. 21, Nr 10, PP- 1375-1380 (USSR) ABSTRACT: On the strength of the investigations carTied out here the follow- ing may be said; 1.) The L11, edges of the absorption of cesium halides and the III, edges of the absorption of iodine in all al- kaLli iodides was investigated. 2.) An analysis of the structure of the LIII edge of cesium and of the LIJI edge of iodine in the CsJ crystal was carried out on the basis of the assumption that the LIJI spectrum is a result of the superposition of four series of lines of selective absorption and of continuous absorption. 3.) The LjjI spectra of cesium in the cesium halides are character- ized by an intense first absorption maximum and a weak second maxi- mum. With the LjjI 7ectra of iodine in the iodide group it is the other way round. 4. The variation of the structure of the LIII Card 1/2 spectra of cesium- and iodine absorption in transition from one 48-1 O-Tj2p The Investigation of the Fine Structure of Absorption-X-Ray Spectra of Halide- Alkaline Compounds compound to another is essentially due to the change of intensity and form of the second maximum of absorption, of which it is assumed that they are connected Yrith the 2p --) ns transitions. 5.) The wavelength of the first maximum remains unchanged in the LIII spectra of cesium for all halides. The wavelength of the first maximum, in the L11I SPECTRA. OF IODME VARIES in the domain 0,65 XE (1,4 eV). It is concluded that the energetic position of the lines of selective absorption does not depend on the chemical bond. The latter influences only the intensity ratio of the lines of the basic- and the satellite series, which leads to the observed shift- ing of the mwcim=, which is a sum of the basic- and satellite series. There are 1 table, 2 figures and 13 references, 9 of which are Slavic. ASSOCIATION: IGIK AS USSR (IGB& Akaaemii nauk SSSR) AVWUM LE: Library of Congress Card 2/2 I 6QWmag NARBUN' X I ... It Present-d&7 state of Z-ray speotrum analysis. Zav. lab. 24 no.5: 604-613 1580- (MM 11:6) (X,-,ray spectroscopy) BWPALOVAq I.D. pectrun analysis for the 4paitatija Z~rayj flioresicen 8 elements us Zr, y and ~r_ Zav. lab. 24 !%. p *5:617 Tknih 11W n o. -619 A (X-;W spectroscopy) ObtgLIG-Aa&IYBLN) 240) SOV/48-23-5-5/31 r 'AUTHORSs Narbutt, K. I., Smirnova, I. S. TITLEt On the Influence of Weak Impurities and ioentgenization on the X-ray Absorption Spectrum,*gf,the KCI Crys~al (0 vliyanii malykh *_2vnt**nwskj~!'i' spektr pogloshcheniya primesey i rentgenizatsiL.A. '% kristalla KCl) PERIODICALs~ Izvestiya Akademii nauk SSSR. Seriya fizioheskaya, 1959, Vol 23, Nr 5, PP 558 - 563 (USSR) ABSTRACTs Card 1/2 -In~continuation of earlier investigations carried out by the authors (Ref 1) concerning the influence of weak impurities on the structure of the,X-ray absorption spectrum, further results are reported in:t9e."'present paper. The experimental system used --~ppsisted of a spectrograph with a quartz in the present case, . crystal analyzer. The'dispersion in the range investigated amounted to 5.14 ev/mm and the spectrum was taken with a micro- photometer. The K-spectrum of the absorption of potassium in the KC1 crystal with silver impurities of from 0.001% to 5% Was investigated. Measuring results are shown in a diagram from which it may be seen that the displacement of the principal maximum of the absorption spectrum rapidly increases in the beginning with increasing impurity of silver, ' I . V I . ~ - . On the Influence of Weak Impurities and Roentgenization SOV/48-23-5-5/31 on the X-ray Absorption Spectrum of the K01 Crystal ....--and at 5% the displacement attains a value of 0.9 ev. Invest'igations were also made of the influence exerted by tellurium admixtures to the CsJ crystal on the L III absorption spectrum, and the jame in the case of NaJ. Four diagrams are then given showing the measuring results of the potassium ab- sorption with different impurities of silver and zinc compounds. The increasing displacement of the maxima of absorption with larger impurities may be clearly observed from them. Table I summarizes the defect'levels'occurring in the absorption spectrum of the crystals and finally, the results obtained hitherto are compared with the known ultraviolet absorption spectrum of the KC1 crystal with silver impurities. There are 5 figuresp 2 tables, and 10 references, 6 of which are Soviet. Card 2/2 J~RpqTT,_K.I.; LAPUTINA, I.P.; SHUBA, I.D.; KLBI=V, K.A.; SAHOYMV, G.P, Isotopic composition of ore lead and age of minerals con- taining U, Th, and Fb according to the data of mass spectro- metry and X-ray spectrum. Trudy IGIN no.28:122-137 '59, (KM 13:4) (Ioad-Isotopen) (Geological time) (X rays) S/048,/60/024/04/01/009 B006/BO17 AUTHORSa Narbutt, K. I. Barinskiy, R.'L.0 Smirnova, I. S. WMWW~ - I TITLEs A Nuclear X-Ray Generat4for Fluorescence Spectrum Analysis PERIODICALs Izvestiya Akademii nauk SSSR. Seriya fizicheakaya, 1960, Vol. 24, No. 49 pp. 354-361 TEXTs The present article is a reproduction of a lecture delivered at the 4th All-Union Conference on X-Ray Speotrosco2y (Rostov-na-Donu, June 29 - July 6, 1959)- Iv the introduction some suggestions made in non-Soviet periodicals on possibilities of replacing the X-ray tube by artificially radioactive sources, are discussed. The authors themselves used the gamma- and X-ray emission of Tu170 for fluorescent excitation of the(X-ray) K-radiation of the elements from 30Zn to 92 U. In Tu170 radiation (Tu170 decays due . to beta-gamma decay) the following occures 9,68-kev and 884-kev beta radiationo 84-kev gamma radiation, X-radiation of ytterbium and thulium (Yb-K Tu-K 61 52 kev)q and 1,2 1,2 Card 1/3 A Nuclear X-Ray-Generator for 8/048/60/024/04/01/009 Fluorescence Spectrum Analysis B006/BO17 bremsstrahlung (in slowing down the beta particles). The preparation of the Tu source is described. Fig. 1 shows a picture of the partly dismount,. ed container so that also the internal part which houses the source can be seen. Fig. 2 gives a total view. In the followingg the determination of the radiant energy is diaousned. The inatrument used for-this pur- pose, which consisted essentially of a scintillation counter and an amplitude analyzer, is schematically shown in Fig. 3, and its details are described. Nextq the author describes the background and possibilities of its reduction. Some details on the excitation of K-series of Go (excitation energy 11.1 kv), Ag (excitation energy 25-5 kv), Eu (excita- tion energy 48.6 kv), 05 (excitation energy 78-1 kv), and of U (excita- ,tion energy 115 kv) are then given. Fig- 5 shows the curves of pulue- amplitude distribution. Fig. 6 shows the Z-dependence of the excitation efficiency of K-emisgion of the elements from Z-30 to Z-92 by X-ray and gamma emission of Tu"70. It is shown that this excitation is the most effective in the range from Z-47 to Z-64. Further results on character- istic radiations, studied by means of a scintillation spectrometer (its characteristic dispersion D(E) and resolution 6E/E are shown in Fig. 8), are disdussed, and the amplitude distribution curves in recording the Card 2/3 A Nuclear X-Ray Generator for S/048/60/024/04/01/009 Fluorescence Spectrum Analysis Boo6/BoI7 characteristic emission of tantalum, niobium, rare earths, and various minerals are reproduced. As may be seen from Fig. 11, each of the minerals investigated has its own characteristic amplitude distribution function corresponding to the spectral composition of the K-series. Hencev this method allows the determination of minerals. In a table'the results of quantitative determinations of rare-earth groups by means of a nuclear generator and a scintillation spectrometer are compared with those obtained by means of an X-ray tube and the crystal diffraction method. Agreement is good. Analysis by means of a nuclear generator takes about one hour (measurement alone and the.evaluation of results take only 20 minuteep the remaining time is used for preparing the sample). A. L. Yakabovich is mentioned. There are 11 figures, I table, and 14 refer- enoesg 5 Soviet, 7 American, and 2 Scandinavian. ASSOCIATION3-IGYeN Akademii nauk SSSR (IGY*X of the Academy of Sciencesp USSR). INGRE Akademii nauk SSSR tINGRE of the Academy of Sciences, USSR) L.I~c Card 3/3 67359 SOV/20-130-2-13/69 AUTHORSj Narbutt, K. I., Barinskiyp R. L., Smirnova, I. S. TITLEt X-Ray Spectroscopi Fluorescence Analysis With a Nuclear Source of Primary Radiation PERIODICALt Doklady Akademii nauk SSSR, 1960, Vol 130, Nr 2, pp 291 - 294 (USSR) ABSTRACT: The authors attempted to carry out an X-ray spectroscopic fluorescence analysis by replacing the X-ray tube by the artificially radioactive isotope Tu 170.MThe X-ray and r-emission of this source were used for the fluorescen 38Zn excitation of the K-radiation of the elements between and 92 U. Because of the low intensity of the excited fluor- escence X-ray emission it was not necessary to investigate the spectral composition by the crystal-diffraction method and to use a scintillation counter with an amplitude analyzer. Pressed, hard tabloids were used. The Tu170 source (initial activityt 12 c) consisted of pulverulent Tu20 3which Card A was pressed into an aluminum-foil vessel, and was intensely 67559 X-Ray Spectroscopic Fluorescence Analysis With a Nuclear SOV120-130-2-13169 Source of Primary Radiation irradiated with neutrons. This TU170 source emits the following radiations: 1) A-radiation with an energy of 968 and 884 kev; 2) r-radiation with an energy of 64 key; 3) the characteristic X-ray emission of ytterbium and thulium (primarily YbKa 1,2 and TuKa 1,2 -, 52 kev)l 4) a bremastrahlung occurring in the slowing down of A-particles in the substance, of the source. Figure 1 shows the lines produced by the K-series of several elements under various conditions of excitation. The K-series of Ag (excitation energy of 25-5 kv) is found between the respective values of Ge and Eu. The K-series of Eu (excitation energy of 48.6 kv) is best excited by a 52-kev radiation. The i-radiation and the bromestrahlung also participate in its excitation* The X-radiation of Os (excitation energy of 78-1 kv) is excited by an 84-key radiation and a bremastrahlung, but not by a 52-key radiation. The K-series of U is excited only by the bremostrahlung. Figure 2 illustrates the dependence of the efficiency of excitation of the X-radiation of elements (from Card 2/4 Z w 30 to Z - 92) by the X-ray emission and the r-radiation Lr-'_ 67559 X-Ray Spectroscopic Fluorescence Analysis With a Nuclear BOY/20-130-2-13/69 Source of Primary Radiation of the Tu170 source upon Z. This nuclear generator is the most efficient for elements from Z - 50 to Z - 63. The ' occurrence of false maxima is pointed out. The dispersion curve of the scintillation spectrometer is a broken line consisting of two straight sections. Despite the low resolution of the scintillation spectrometer used it is possible to solve some analytical problems. This method is employed to analyze the element pairs Ta - Nb and Hf - Zr, for example. The authors tested the above-described nuclear generator first in a qualitative determination of the total amount of rare earths in various minerals. The results ob- tained were in close agreement with those found by ordinary fluorescence X-ray spectroscopic analysis and the crystal- diffraction method. The method described is further suited for a rapid determination of mineralsp and the small size of the apparatus is advantageous for investigations in the open fair. There are 4 figures, I tableg and 11 references, 2 of which are Soviet. Card 3/4 67j59 X-Ray Spectroscopic Fluorescence Analysis With a Nuclear SOV/20-130-2-13/69 Source of Primary Radiation ASSOCIATION: Institut geologii rudnykh mestorozhdeniyg petrografii, mineralogii i geokhimii Akademii nauk SSSR (Institute for the Geology of Ore Deposits, Petrography, Mineralogy, and Geo- chemistry of the Academy of Sciences of the USSR). Institut mineralogii i geokhimii redkikh elementov Akademii nauk SSSR (Institute for the Mineralogy and Geochemistry of Rare Elements of the AcademX of Sciences of the USSR PRESENTEDt July 25, 1959# by H. V. Belov, Academician SUBMITTEDs July 24, 1959 Card 4/4 S/061/62/000/002/028/107 B151/B108 AUTHORS: Narbutt, K. I., Barinskiy, R. L., Smirnova, 1. S. TITLE; Application of nuclear radiation in X-ray spectral analysis PERIODICAL: Referativnyy zhurnal. Khimiya, no. 2, 1962, 137, abstract 2D15 (Sb. "Radioakt. izotopy i yadern. izlucheniya v nar. kh-ve SSSR. v, 4. M., Gostoptekhizdat, 1961, 198-200) TEXT: The construction of an PC%-l (RSYa-1) X-ray spectrometer with a radioactive source instead of an X-ray tube is described. The 170 characteristic radiation of the analyzed element is excited by a Tu source, of about 300 pcuries activity, and is registered by a scintilla- tion counter with a differential pulse height analyzer at its output. The apparatus can be used for the separate determination of such pairs of elements as Ta and Nb, Hf and Zr, Sr and Ba, for determination of the overall contenL in rare-earth elements (REE) (Ce and Y groups separately),' and also for the determination of the content of any element from As to Au when the sample contains no neighbouring (with regard to atomic number) elements. The sensitivity of determination of the total of Ce-group REE Card Y2 Ems= S10811621000100210281107 Application of nuclear radiation... B150108 is 0-5 %; with an REE content of 5-100 % the relative error of the determination is 5 %. The apparatus can also be used for the analysis of minerals containing heavy elements (Z >33) as their basic components and differing in their contents of these elements. The form of the curve at the spectrometer output is determined by the chemical composition of the mineral. It is called the characteristic curve by the authors. The minerals can be identified from the shape of this curve. The apparatus is suitable for work in field conditions. [Abstracter's note: Complete translation.] 263 2LI ~L13 0 12-27, 4901, 2-607 S/048 6~1/025/008/00.-/009 B104~B202 AUTHORS; Narbutt, K. 1.9 Fridman, Ye. M., Nikolayenkog G. i1j. TITLE: X-ray tube with constant vacuum for a long-wave X-ray spectrometer PERIODICAL; Akademiya nauk SSSR. Izvestiva. Seriya fizicheskaya, v. 25, no. 8, 1961, 936-938 TEXT: The present paper was the subject of a lecture deliv,~-rerl %~ the 5th Conference on X-ray Spectroscopy at Khartkov, January 30 fn FebruarY 4,1961. When studying the long-wave range of the Y-rrty Tpoctrum, ucually, detaohable X-ray tubes have to be used in the evacuated space of the X-ray tube is connected with the evacuatel ~lpace of the X-ray spectrometer. Evacuation of this system encountor:3 ;Ireal. difficulties in X-ray spectrum analysis. Sincep howevert a varjum of about 10- 2 mm Hg is sufficient to prevent absorption of the X-rayt3 tip to a wavelength of about 3-5 R it has been attempted several times, to nobleve a oo-called separation of the vacuum. The authorn don-,ri~e 11 Card 1/4 S 04 -'ul 25/008/005/009 Xvray tube with constant 'vacuum B1 04~B202 long-wave fluorescence spectrometer with a specialized X-ray tube with constant vaouum. In the construction of this spectrometer the authors attempted to meet the following demands: 1) The X-ray tube must be con- otructed such that the part of the tube with the window for the outlet of the rays can be inserted into the vacuum part of thn spectrometer; 2) the window should be transparent to soft X-radiation; 3) the focus of the X-ray tube should be such that an Iogann type X-ray optical a-:1heme has minimum dimensions; 4) the tube should operate at a 50-kv anode voltage with an anode current of 100 ma. Pig. 1 shows the 3CIiome of the X-ray tube developed from these points of view. With the aid of the steel- flange 2 and the sealing ring 3 the part I of the tube is hermotically attached to the part 4 of the vacuum spectrometer. The glass cylinder 7 is attached to the part 1 with the aid of the ring 6. The part Is water- oooled, the water being supplied by 0. The beryllium diso 9 with a thickness smaller than 0.3 mm serves as window for the X-rays. The anode 10 consists of copper, tungsten, molybdenum or chromium. The cylindrical cathode 11 has a tantalum focusing head 12. Tho cylinder is faotened to the cross-shaped glass base 13 by means of a steel collar. The cathode is produced from thorium - tungsten carbide. 14 is a lead cover which is Card 2/4 26 (6~ 3 321 S1 416~61/025/008/005/009- X, -ray tube. with constant vacuum BlO.YB202 attached to the body by means of the brass jacket 15. The X-ray tube.t, N e _6 5(BKhV5). Tests proved that described here is of the type with ;.aid of'the spectrometer described,.it is possible to,excite the fluorescence X-ray spectra of the L-eeries of.rare earth elements. The' .,authors compared the effectiveness of the excitation of the L-spectrum 'of lanthanum (line I! La ) with the long-wave X-ray epectrometer'of the .,.type,APS(-3 (DRUS-3) which is produced by.the research depbLrtment of Rostovskiy universitet (Rostov University).and the spectrometer described here. It*was found thitt using the X-ray tube described herep a threefold' excitation intensity of the fluorescence o~ the-L-spectrum.of lanthanVm can be reached. Thus, the sensitivity of the X-ray spectrum analysis~ to elements of the group of the rare earths can be improved. There are .3, figures and 2 Soviet-blog references. Fig.1; section.of.the X-ray tube for a loni-rave spectrometer. Legend: 1) atmosphere; 2) oil; 3) vacuum. The meagures are given in mm.-. Card- 3A V WOO AUTH OHS: TITLE: PERIODICAL: 9'/04,3/62/026/CO3/012/015 B102/B104 Narbutt, K. I., and Laputina, I. P. A possibility of determining the extent of uranium oxidation from X-ray emission spectra Akademiya nauk SSSR. Izvestiya. Seriya fizicheskaya, v. 26, no. 3, 1962, 409 - 411 TEXT.- Experiments were made with a longwave X-ray fluorescence spectrome- ter of the type A,NC-2 (DRUS-2) to determine the spectral characteristics of different uranium oxides. The X-ray tube used operated xith 20 kv and 40 ma, and the electrodes were well cooled. A bent quartz plate (radius of curvature: 500 mm) of 10-65 mm was used as crystal analyzer, a-gas counter with a 20-).,- Lavsan window served as.recorder. The valence effects on the X-ray emission M-spectrum were studied with UO 21 UO 3 and U308* The last emission lines of the V -spectrum were found to be most sensitive to a change in valence. These lines are due to electron transitions from filled uranium levels to deeper 141V-levels. The range most sensitive to Card 1/2 5/048/62/026/003/012/015 A possibility of detertmining... B102/B104 the uranium valence was between the M -line at 3-473 2 and the line of the NIV-M III transition at 3.514 2. The intensity ratio, i.e. the ratio of the line.areas for UO 3 and UO2 was 1.6, a value which is in quite good agree- ment with the valence ratio 6j4. The shortwave edge of the U-IV amiBsion band is shifted to lower energies by 2 ev, whichis possibly due to the lattice extension when the U6+ion is replaced by the larger U4+ion. The U 0 intensity spectrum is located between those of UO and UO and shows 3 8 2 3 an energy shift toward the latter. R. L. Barinskiy is thanked for dis- cussions. There are 2 figures and 1 Soviet reference. Card 2/2 S/048/62/026/003/015/015 B102/B104 AUTHOR: Varbutt, K. I. TITLE: X-ray spectroscopic fluorescence micro-analyzer PERIODICAL: Akademiya nauk SSSR. Izvestiya. Seriya fizicheskaya, v. 26, no. 3, 1962, 423 - 428 TEXT: A simple apparatus is described, which is designed for X-ray 2 spectrum analysis of mineralogical microaections. An area of 0.2 mm is covered by one analysis which requires 0.1 mg of substance. The minimum content of the element to be determined is 2,vg. The sensitivity qf the analyzer is 2~~. The apparatus was tested with a polished microse6tion consisting mainly of Fe, Ni, and As. For different minerals different characteristic curves are obtained, which can be used to identify the minerals. There are 6 figures and 22 references: 6 Soviet and 16 non- Soviet. The four most recent references to English-language publications' read as followas Analyt. Chem., No. 8, 31, 1960; D. A. Melford, New Scientist, 6, No. 153, 746, 1959; R. M. Dolby, Proc. Phys. Soc., 2i, Nos 10 81, 1959; P. Duncumb, Brit. J. Appl. Phys., 109 420f 1959. Card 1/3, ----- - S10481621026100310151015 X-ray spectroscopic ... B102/B104 Fig. 1. X-ray fluorescence.micro-analyzer. Legend: (1) specimen; (2) microscope; (3) 11- GXB(11-BKhV) X-ray tube; (4) proportional counter; (5) pre-amplifier; (6) amplifier; (7) pulse- height analyzer. t 0 4 Card-0-- S10461621026100310151015 X-ray spectroscopic ... B102/B104 Fig. 4. Spectral re*solution of micro-analyzer. Abscissas thresholds of pulse-height analyzer.. Cr Zn Nb, N Rb 19 JO L.-Card-3/3 -~7 3/046/63/02-7/003/093/025 `7- B106/B238. AUT Rs: Ito Ila utt x. I., P ere I I man S; :M.,'Prager, I.' A.9 rb V -A' TITLE. -proportio al aounler tubes for n-a to n A t eppt u , - X. -ray,ppeotral.analysis PERIODICAL Jzvestiya. -.Seriya fizioheakayap 4__ ademiya-nauk-,SSSR.' Ak . 3,'1963,'; -437 2 ~430 1EXT - Two - type a, -of proportiogiil"bounter.tubes were tested tv I with pe ts;-entry*wi ndm:in e i` - and -:-type ~r with'-.-a: window in the support of the ~sid 2 the'bcounter~ . ' Ali- the' windows;*'6re' made of hermetic~ beryllium 2 C.Or thiok. I- Type . 'I instrumerits.were.filled.with either argonp krypton or xenonp ard J n eve' ry' case 10-ot jo isopentane~wae.added as an extinguisher. The anode filaments, in I f ix ed: 6 t raight to the support in order torqduce 2 were yp e Ahe -'dead _epa oe..'and'_the"aotion. -':b undar -_effects~on_tho amplitude re- Of~ 0 + f solukion~:o the.oounter. The:filling isa krypton-isopentane mixture at a pressure'-.:o f mm Rg.,.-Me'deotronio o6unting-device is made up of a o.~ 400. Card- j ACCESSION NR: AP4038t78 8/0048/64/028/005/0857/0862 AUTHOR: Narbutt, X.I. -ray bean In local fluores- TITIX-. Excitation of the spectrum by a awmchromatic x icence analysis ffeport,'Seventh conference on X-Ray Spectroseopi hold In Yerevan .23 Sep to I Oct 19627 :$OURCE: AN SSSR. Xxvestlya. Seriya flzicheskaya, v.28, no.5, 1964, 857-862 ~TOPIC TAGS: x-ray mission, spectral analysis, microanalyals, x-ray spectrograph -~ABSTRACT: Amethod of local x-ray fluorescence anilysis is proposed in which the ..fluorescence is excited by a monochromatic x-ray beau with variable wavelength. In .this system one successively determines the concentrations of the elements present in order of increasing Ai~-MiC number by gradually decreasing the wavelength of the exciting radiation. When the threshold for exciting fluorescence in the element of .atomic number Z is reached, one subtracts from the total fluorescence intensity the contributions gram the lighter elements, the concentrations of which have been al- ready deterained, and determines the concentration of element Z.from the difference. ;This method has the advantage over the use of a polychromatic exciting bean, hither- Card IA T ACCE ION HR: AP4038778 ,to employed In.thome cases when excitation by an electron bean Is unsuitable, In :that it permits distinguishing elements with atomic numbers differing only by unity. This gain'In resolving power stem from the relative sharpness of the threshold for excitation of fluorescence compared with the width of the fluorescence band, and __;from the circumstance that th*-wavelongth analysis of the x-rays to performed in the monochromator, where the x-ray Intensity is adequate, rather than In the weak beam ~,*of fluorescence radiation. An experimental monochrouator for performing local fluo- -rescence analysis by the proposed method was constructed and its performance was Aested. The design of the nonochromator was based an that of a previously proposed ::.'axially symmetric x-ray spectrometer (E.Ye.Vaynshtsyn and X.I.Narbutt,Dokl.Au SSSR ,-'43,699,1946) and is illustrated in Fig.1 of the Enclosure. In this instrument the X-rays are produced on a ring-shaped target T, diffracted by a ring-shaped crystal ~K, and brought to a focus at F. The cicular bevelled edge screen D serves to prevent ~,-undiffracted x-rays from reaching the sample at F. The wavelength Is altered by so changing the positions of both the x-ray tube and the crystal by means of two screw of different pitch on the mass shaft as to keep the position of the focal point ..4ixod. Four different.types of ring-shaped crystals are described and were construcIp', ad and tested. The one which gave the greatest intensity and was employed In the subsequent experiments consisted Of two ZAP platen beat Into semicircle& o.1t 24 ma C.0/4 ACCESSION NR: AP4038779 railius and'held in an aluminum tram. Reflection was from the (200) planes. The ar- lea of the focal spot was 3 ma2s but It Is believed that a sharper focus can be achieved by nors careful construction. An artificial mixture of gallium,garmanium and arsenic was analyzed., and the analysis In described in detai; as an example of the application of the method. Theme adjacent elements were clearly separated, but ~the error of the analysis Is not given. Orig.art.has: 3 formulas and 7 figures. !AS60CIATION: Inatitut geologii rudny*kh nestorozhdeuiy, petrogrpfil, mineralogii I geo~himii Akademii nauk SSPR (Institute of Geology of Ore Dopgaits, Petrography, Mineralogy and Goochemistry, Academy of Sciences, SSSR) UMMITTED: 00 DATE ACQ: lWun64 ENCL: 01" SUB COW: OP MR R1W SOVt 003 0=R:OOl J ALWAS, Irena; DERLIKOWSKI, Jerzy-- NARBUTT-MERING, Alina-Barbara; PERKOWSKI, Edward; WEGIA)WS~I__~______ Use of paper iantophoresis for the separation of alkaloid mixtures. Acta, pol. pharm. 28 no.5:357-1;363 161. 1. Z Zak-ladu Chemii Analitycznej Instytutu Lekow Kierownik Zakladu: des..mgr inz.'Z. Margasinski. (AIY"IDS chem) (IONTOPHORESIS) DFRLIKOWSKT, Jerzy; NAnUML ~-arMraa PERKOWSKI, Edwani; WEGIDWSKA, Wanda; POTAJLO-GULTNSKA, Joarwa Usp of paper iontophoresis for the veparation ol' ao.-le dnig mixtures. Acta Pol pharm. 21 no.210-18 164. 1. Z Zakladu Chemii Analitymej Instytutu Lekaw (K.-lerown'.ki doe. mgr inz. Z. Margasinsk~). NPMUTT-MERING, Alina Barbara; WEGL-OTVSKA, Wanda Identification of 'ecomposition products of the thiopental derivatives. Acta Pol. pham. 22 no.103-20 165. 1. Z Takladu Chemil Abalitycznej Instytutu Lekow (Kieroumiki doe. mgr. inz. Z. Margasirski). NARCHAYEV, A. First boundary value problem for ellirt4c equations degeneate at thb domain boundary. Dokl. AN SSSR h56 no. 1:28-31 My 164. (MIRA 17:5) 1. Matematicheskiy institut im. V. A. Steklova AN SSSR. Predstavleno akademikom S. L. Solbolevym. !t 1;e% #-!,r ACCESSION NR:,AP4035802 S/P020/64/156/001/0028/Ob3l ,,AUTHOR: Narchayev, A, ~TITLE:' First-boundary-value problem foe elliptic equations degener~a- on the boundary of the region SOURCE,: AN SSSR. Doklady, Y. 156, no. i, 1964, 28-31 ,TOPIC TAGS: boundary value problem elliptic differential equation function space Given a regionQCR4~ lying in x > 0, with boundary r-, n 7; whe re r.'lies iin x = 0, the fourth-order elliptic equation n ;:'considered here degenerat6a into a "qudsi-parabolic" one on7.1. jThebq"tioniJs of the form 'Lu =.-Lgu + Au h (i), where alu + 1/3 - -----' ;ACCESSION NR:I~AP4035802 L;Au= ay. (x) IYU S>0. i>0 t'are in';tegers~- x-(~,....Jxj; i it ;+ DI - dx.1!ji; b the c,~efficients A (ij 1-1 oki. (x) are sufficiently smooth in land for arbitrary &,such All (x) > > 0 :!that i rI (2~ (x) < c',JxN.1 it, YJ t13+0; .~:~for some non-negative members e(Z. T,.io~,problems are-considered* D: find a solution u(x) of e (1) vanishing on 7, tog ther with;. (a) b) .;:its first PaFtial derivatives if -lid.arbitrary, or (b),. b = +J., un-9-1, Problem E: find a solution of (1) Vanishing on r, :,while,;Its f irst, order derivatives vanish onj'j, if b - -kl. waft,*.1. Exist- :.ence and uni4ueness of a "weak" solutf~n of Problem D and of a !"strong" solution of Problem E are moved under certain hypotheses. .The h~pothese`s and the definitions are given in terms of a number of'! C' '-is the Hilbert space obtained by For example eat ACCESSION NR:!'AP4035802 taking the closure of the set of functions in CtQ)which are zero near r,, with respect to the horm lu j All (3) A "weak" solution'of pr9blem D, ford.,2:1, is a function satisfying (h;v) - (u,Vv)' (4), for all! functions V(X)f 04(Q) -01 f7un6ti*ons in W.(Q) satisfyin8vj,~ "*I=O, for *,.- ll . . . siormal adjoint or L #lg%e results obtained hold for where is the tions of higher order. ffIn conclus'ion, I offer my sincere gr 'LtUde toady scientific.guide., . N.:,Maslenikova." Orig.~#rt. has; 12 eqi~~'tions.', ASSOCIATION: Matematicheskiy institut im.'V. A. Steklova Akademii. il nauk SSSR Wihematic3 I~stitute, Academy of Sciences,,SSSR) SUBMITTED: 24Dec63 ENCL: 00 SUB CO':DE: M NR R9F 4OV: 010 OTHER:.000 it it NARCHEMASHVILI, 0. V., Cand Geol-Min Sci -- (diss) IlUppor Cretaceous Phosphorites of Georgia." Mos, 1957 - 16 pp (State Sci Res Inst of Mining-Chemical Raw Materials GIGKhS), 150 copies-(KL, 49-57, 111) 17 XMHEMASHVILI O.V. (Tbilisi); SCXOIDV~ A.S. (Mookwa) Cave phosphorites of Java. Priroda 52 no.200-92 263. (MIRA 16t2) (Java-Phosphorites) NARCHBNKOO -G.Fww dotsent; RESUTANSKAYA, Ye.V., aesistent Fusariotoxicosis in mine in Stavropol Territory. Vaterinarila 36 no-9:70-72 6 159. OGRA 12:12) 1.8tavropollskly se1'skokho%yavetvenW institut. (Stavropol Territory-Swine--Dineases and pests) (Food and feeding stuffs--4gionic aspects) V U. W14 P-0 4690s Narchomashvili, A. N. komplokoneya makhanizataiya zhivotnovodxhoakikh form tbilini, izd-vO gmz, 5-kh in-ta, 1954. 8 s. azill. 20 am. (upr. sAh. propagrandy m-ya sovkhozov gruz. ser) 2,000 ekz. Bespl-naobl avt no ukazany ~td .W 1, MW eML VW ~, _ _n A NARCIICMASmLi, A. N. 4689 Nirchomashvili, A. F. kak m'el-hanizirovat' vodowmbzheniye vzzil-yotno.vodstve. tbilisi, isd-vo grus 9-kb. in-ta, 1954. 12 s. a M 20 am. (upr. a-kh propegandy miova sovkhosov gruz. oar) 2,000 ekz bespl.-na obl. syt. no ukazany.- ns gruz yaz.-/54-5675i/ 636.0025/628.18:636 Narchomnshvili A. N. 7762 Kak vvelichit' urozhay tltruacvy~h Vul'tur. tbili8j, izd-yo gruz. s.-kh in-ta, 15V1. 243. 19sm. (T,-Vo sovkhozov pruz. ssr. upr. s.-kh. propap-andy). 2.000 ek-z. bespl-no gruz. yaz.- (5/5-2578) 6.z4 15.(47 . 5 22 30. Knizhnaya Letopis', Vol. 7, 1955 nRCHUN, 31p0 Napagatlon rhyta and food p2anto of OweinelU pumilla Xg. tool. shur. 34 no.5:1080-1084 S-0 '155. (Km 9: 1) loxmfedra entomologli Nookovskago gosudaretveimogo universi- tot& Imul N.V.Lamonosava. (Frit flies) i ffarclnul-., E. P. : I'llatorial on the systematics and ecology of Ir,enus 03cinella.11 I-loscow Order of Lmin and Order of Iabor Red Ranner State U imcni 14. V. Lcm onosov. lloscow, 1956. (Diasertation for the Degree of Candiclatlo in Biological Science) SO: YuAzhn-s-ya lotoniall No 27, 1956.. Moscow. 1~,-gcs 94-109; M. HARCHUX, R.P. -Data on the fauna and ecology of frit flies (Dipterm, Chlorapidne) in the vicinity of Kurgftn. Nnt.obsz.33 no.1:132-138 156.(KW 9:10) 1*Kafedra antomologit Moskovokogo Gosudarstvonnogo unive,raitotm, Moskva. (IrurgRn--Frlt flies) NARCEMI, I.P. Dawe to corn shoots by the frit fly Oscisella pusills NeIg. Zool. shar; 35 ao,2:3n-332 ir 156o (KLRk 9:7) l.Kafedra extemolegii Mookov-sicago gesudarstvannoge univermiteta, imeal X.T.Iomeneseva. (Corn (Maime)--Dineases &ad pent@) (3prit files) URCH"I map* Species of the genus Oscinella Beck. (Diptera, Chloropid") In luropean Russia and their host plants [with awmary in German]. Bnt.obos.35 no.4:856-882 156. (WAA 10: 2) 1. Zooloilchookly inotitut Akedomil nauk SM, Leningrad. (Frit flies) (Grasees-Diseavoo and posts) T 1 -3 7- USSR General and Special Zoology. Insects Abs Jour: Ref Zhur-Biol., No 1, 1958, 2224. P Author E. P. Narchuk Inst Title On the Identification of the Larvae and Pupae of Herbaceous Gnats Oscinella frit L and those of Oscinella pusilla Meig. (Diptera, Chloropidae) Orig Pub: Zool. zh., 1956, 35,-.No 6, 868-873 Abstract: The various species of herbaceous gnats of the Oscinella family (particularly r, pusilla Mg. and 0. frit L.) are easily identified in accordance to the position and structure of the small thorns on the larvae age III as well as according to the pupae. General description, complete and detailed figures of the larvae age III of barley gnats and oat gnats. Determinative tables for the two above-mentioned species. Card 1/1 15 WAR HI Guests from the lorth. Priroda 45 no.11:125 N 156. (KIM 9:11) 1. Zoologichaskly Institut Akadeall nauk SM, Leningrad. (Birds-Migration alwlalz~VW-~ a&I ~, - -h.121&%~k4~4~--.Az!~-~X-1"-Vl%ZlN NLRCMM, Ye.P., kandidat biologicheskikh nauk. Ant lion. Prirocia 45 no.11:126-127 N 156. (au 9 1. Zoologichaskly institut Akademil nauk SM. Unlugrad- (Ant lions) URCHUIr, M.P. Phonological observations. Geog. Y shkole 20 no.2:42-44 Xr-4p '57. (Phopoloff) (KM 10: 4) ZARCHUX, X.Ps, kandidat biologicheakikh mauk, Wlater Insects. Piriroda 46 no.3:126 Mr 157. (KUU 10:3) 1. Soologichookiy institat Akademil nauk SS31.(Laningrad) (Insects) Two nev Palaearctic species a' Chloropidas (Dipters.). Trudr Zeal. inst. 24:99-IOz 158- 11110) (Frit flies) NARONK, X.P. ctic genus and species of Chloropldss (Diptera) [with summary in English]. Int. oboz. 38 no.2.,472-474 .159. (MIRA 12:7) (Kazakhstan-Prit flies) (Ryazan Province-34t flies)- NAWHUK, M. P. V %.-~' -,- ~-~7 ' ~'' Note on frit flies (Diptera, Chlorop1das) in the Oka botton lands. Zool.xhur. 38 no.8:1264-1267 Ag '59. (MIRA 12:11) 1. Zoological Institute of the Acadeqr of Sciences of the U.S.S.R., Leningrad. (Oka Valley-Frit flies) ARNOLIDI, L.T.; BCRKHSENIUS, N.S.; GURITETA, Te.L.; DMEIIETA, H.N.; TAMITAMOT, A.F.; KERZHM, I.M.; KUZNMTSOV. T.I.; LISINA, L.K.; HISHCHEMO, L.L.; NARCHUX, ZIP.; SWIRO, I.D.; SKAPOWNI- KOT, G.Xh.; SIMAMMOB16167, ~A.A.,-, PURAi'SKATA, L.F., red.izd-va; 1RUMIXOTA, N.A., takhn.red. (Ins'ect posts of corn in the U.S.S.R.; reference book] ffaseko- mys, vrediashAle kukuraze v SSSR; sprovochnik. Moskva$ 1960. 227 P. (MIRA 13:3) 1. Academlya nauk SSSR. ZDologichookiy institut. 2. Zoologi- cheakiy Inatitut AN SSSR (for Arnolldi. Borkhaenius, Gurlyeva, Derbenevaj Y6mellyanov. Xerzhner, Kuznetsov, Mishchenko, Narchuk. Shaposhnikov, Shtakellborg). 3. Toesoyuznyy institut zashchity rasteniy Taosoyuznoy akademli sel'skokhozyaystvennykh nauk imeni V.-I.Lanins (for Lisina, Mmpiro). (Gorn (Kaize)--Diseases and pasta) (Insects, InJurious and beneficial) (MGMM, Bjolog7 of flies of the genus Dicrasum (Diptera, Chloropidae) infesting grain crops. But. oboz. 39 no.3:585-593 160. (MA 13:9) 1. Zoologicheskiy institut Akademli nauk SSSR, leningrad. (Prit flies)