SCIENTIFIC ABSTRACT SINELNIKOV, I.D. - SINELNIKOV, K.D.

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CIA-RDP86-00513R001550730001-9
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December 31, 1967
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SCIENTIFIC ABSTRACT
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-SINIVNIKOV.4 I,D. Production of table S-'Irups, Sakh.prom. A no.5:52-55 fly 160. (MIRA 14:5) (Sirupe) Silmilaymv, I.D. Organizing the production of pudd-.nr powders (concentrate) at starch factories. Sakh.pro-1. 34 no.9:62-64 S 160. (MIRA 13:9) (Flour) (Starch industry) MARKER, V.E.; MILYUTIN, A.A.;, SINELINIKOV, I.D.; SHTYWXOVA, Ye.l., MUiUSHEVA, 0.1., red.; KISINAp Ye.I., tekhn. red. fMamLfacturing starch products from potatoesl Proizvodstvo knakl=alo- produktov iz kartofelia. By V.E.Marker i dr. Moskva, Pishcheprom- izdat., 1961. 147 P. (MIRA 14:3-1) (Starch) (Potatoes) ZIPJSIY,AN, Anatoliy Ivanovich; SILELINIKOV,_ Ivan Dmitriyevich; SlHTlYRKC~-'A, Yevgeniya Aleksandro-vna; KRAVCHRIKO, S.F.y retsenzent; TREXi3OV, retsenzent; BUWAN, M.Ye., red.; VOYEOVA, A.A.,, red.; SATAROVA, A.I.I., tekhn. red. [Manufacture of starch products from corn; cornstarchy sago from conrnstarch, pudding starch, and powder starch] Proizvodstvo krakhmaloproduktov iz kukuruzy; raioor;i ';:rakhmal, sago iz r.;aiso- vogo krnkl-xala, pudingovye kraklmal i porosbAli. !.',oskva, Fishche- promizdat, 1962. 187 p. (Cornstarch) (MIRA .15:6) SINELINIK(V, I.D. Preparing calculations for raw starch production i mase of a complex method of potato processing. Sakh.prom. ~ no.2: 62(142)-66(146) F 163. XRA 16:5) (Starch) 09 red. of t lie ra, -L 17539-66 0dT(3_)/EWA(_4)_ ALL NK, llr'W1943 9_0URCE_ AUTHOR: Yakovlev, V. N.; Sinel'nikov, I. S. ORG: none 27 TITLE: Resistive -capacitive FM oscillator th multiloop feedback SOURCE: IVUZ. Radiotekhnika, v. 8, no. 6, 1965, 736-738 TOPIC TAGS: FM oscillator, oscillator feedback ABSTRACT: The spurious AM has been one of the I -rincipal shortcomings of modern RC FM-oscil lators; a f re quency deviation of 50% with a negligible AM has been vury difficult to achieve. Hence$ the use of RC FM-oacillators having a number of parallel Z selective RC feedback cir,-aits is suggested. Such an oscillator (see fiXure) con.prises amplifier 1, RC-circuits 2 v 3 n # and surrmiAim device 1: . Simple fornmlas n' for calculating such an EC oscillator are developed. Experiments with a Z-feedback-loop oscillator exhibited them possibility of obtaining a 50fe frequency deviation with only FM oscillator with about 2% spurious AM. Orig. art. has; 3 figures and multiloop feedback I I formulas. SUB CODE: 09 / SUBM DATE: 05May65 / ORIG REF: 002 o 0 0 so 0 0 j a 1 0 Aa L A-L-J-4 4 Dll~l *Of sea 00 a 0 * 0 0 1 , , -1 '14 IL-A-,&, J.a""P QA I I v 1-.1 1 L OA 0 Q W U d P. 4_6 Ph "'"'do llln& AL LL MMMLWMIV A%lo A. V. WAA.Tlijmj~ 1raM. ye rw&' tab., La's'all'"d- N- k _12-WIWA0--rbL stualy w bd lb. emmaw. o" d M-*r 4d dw- humm w" an )swig.* Wet. L)W'"m QW,0,6, firld I-Ir dirkV Ion" fntn IN--- wwripul"I I,w J,wIr'% h~Al aw.bw to Ow 1,K"rr"t 1twill-A el"utu"(11Y uull G-9 Ille -irtn -4 r,,wnv,,J dwi-virw, Thl. nwfb,*J 'I'v-* DOt tAkr into nwju.h-rstxaj th, C,%gntrr v m 1 44 IxAvnirruAthM OfUl tlWfVf.We the "Jt% q4ttAitk4j lov the uw -4 it air wning A wa, nwth4al was drvt~l ads VIV, 00 04 t &IS ILA ffitlALiLVWLAL WIRATOt Ct&VAlfKA?lCN 001, to %A W,*.,&,Ai $fewa 4 1 w 0 o 9 0 0 0 0 0 0 0 0 0 0 0 zoo see i; so 00 wee t; 00 0 0 0 4 9 0 s 0 0 0 0 0 0 0 0 0 a 0 Vo 6 0 0 0 a 0 0 9 4 0 0 0 0 . '000 0 0 0 0 00 0 0 00 0 00 0 0 0 0 0 I v a of a , 1 , " 1 , - I 4 8 ., I ft I I a 1 4 ? a # * -, 11 11 mis it it it4 #I u it 01 ago m 1 . 0 U . 1 . i A L a L I A A- A k k a q '09 .40 mackesim of latem,11119 cuffsal "969kaboa to several saltAL P _60 Kt.NLIIAFIIV AMC) K. Q4MRLMjj94iV. J INIS P41YI (*A," 5~, MVI Pt, 61, 4.10 7~. -00 Om)-- -71W tarcm4flam of a. r. rmtdcatkm Was S(Lkfwd to$ the curn-nt dow (hr CuvS and CuS. while different electrodes we" uwd the Prom" t,( redification Is con4itioned by the, fumutitm of pmAly c%rnductinig IAV%.t 4 S at the siumle and by the appearance ul qkudnLes (fine snetal thrrAd*1 At the CA01,014. too 00 Joe 0 KOO 60. a%. St. ITALLLPGKAL LITIN&TURE CLAtSWKAIIC% ! too 00 too is ; 0A I a of 0 0 1 IV a- 13 &1 4 " P t? to 91, so Ou Od e' OW 6" OU 1111~ 4,a 0 0 0 0 0 d"4 a 0.0 0 9 0 0 0 * 0 0 0 '0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a * 0 0 #1s 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 us ur1w A6, it 049 ~L'q get Olpf" AL clue% ILO" u n It .11 00 00 00: 00. 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K. 1) 8111131A ILOW AMU St 110alftolf 164 2 A tie lusil wave h,ngth limit and varOux chAracter 1ks 4 !;e lkirwr film ptKito. i, zoo Is. w, ,r -I whm rite hwarithms of NO the rr-i-f rwrasid thr r m f fif harrirr. 1 00 virlk Ar, f."awl I., give Alint"t partilld ifrot, ht hv%-~ wh,io pb,tfrd alcamet it I;ww." 00 00 00 -.06 100 Is it A Wits"'Kik t111461"t CLAWPKAIK- 00 00 to tell. 1,, .111. fps V--st-1 ,-lie 43 4 % ar If Is if a Of it a 1w a It 00 00 0 6 4 0 0 0 0 0 0 :J: 0 N 64-4 614 0 0 0 0 - 0 0 * 0 0 0 0 q 0 1 0 4 0 0 4 0 0 6 0 0 I I I 1 0 is 1. 1) IJ W t$ 16 Is Is "A)POAMANDS A 11 A? Ii v a a v 1. 0 IV #j a a 11 4 I I Ah 0 a 0 U Al .-ad M& nk wd tb* br"kdoim I V 91 RL HA I I IV. - 3 TaArm~wMv& Am . WALTM522. PbYjA Z 1, Xr, - . all Alon).-Wben an ebt. cormt inea peased dirank a rock-4ilt crv~tAl at vlevated a tove-like dendrUk 0awkwe W-d SIONS the -U eds" Inm the j-vint calludr piate anode. The Imm the tenip. of the cr"tal. the higher wa% thir 0 d " quitcd to fornt this striticbme. At 130% 20M v, pts cm. of crystal thiclint" 6 118-Mill Cry, 13O' u q t it tt t v i d d lf d b d d of a e% u~r (p tt ure a mr . no "i r w.otw . a w ojo tajsotjrGtRdh&vqp MliosttucturtomLqbtsotnwfaftNawbkbdiRuwathn,ughthrMstAI Thriminf- go 8 Umoldiffliskievisispboorab the choW In dittvtjun of grwitth it lien the curTt III was ~ ,A;. stopped and statUd vilow. S '. tk dradritIrs reach ffum tair drctr,41114? the 44ber d the coed. iommm ow tw No torka, rimahime in bersiluluarn, When thr liomt r1rdf-Ir *as uvil as am amick the phtnomences drpmded on the electrule material With Cu. .06 C or Fe wp structurt was 14wmrd and the cr"tal bivanir 6,udY With Pl, a white d"Writic stnictun was funned ohich hecame darluti. Tlu% i, ii(ttifnifeil to A change If= MCI, to Pb F I Roon-4sAva goo v 000 age i too 1 0 1 k A OffAkit.040CAt L0146441 CLOWK&IOCO a I be* I DID 41 ~ . ____ too I it I * IF-41- i si-a - , 3 0 0 0 0 0 0 0 0 0 0 0 so 00 000 0 0 0 0 *1 so* sees 000 0 * I 0 v, u are 11 U U 11 0 11 V a (x w it 1 1 j A A go 4 -00 ,sit -00 breakdown phimsommossis at rock Gaff. I V KI a, TNAYMMIRI-VA AMP AxT. WALTUDS. Ploysib. Z. Avejolamosom 3. X%3-7lkJ!kV, The l4ralooklown of nwh welt cryortolls am& lelgh-tornakin rkv currents tof vrgv 4f.4f amm-,, 01,11. tehlbell Wtwu a crystal was phemol tiortoweell lonoloof Agaill-I 1-W, ~t- to-.1. - A."I A 41iffickultv loop norwrot was passed lommilromm diwbator Ivili, %to. .4-v %,J . M. 1, 1. It -Whir tioure- This, dki mol allmill The lowakdown In a 91rady tkv firl-i basis-ite illunlinatkou causes a follmootim~ that drpvwg on the toste 'd &%th.1micrit ,I the f .00 04 diwbarp tram wW Me a man. wbm the Wave length at the inciolo-rot fijth( is 414111 A U. 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It. wim "-; mL% -00 0 A rat uum a . A-mis 41111-1 IV, dia- d'pt thr 7 turtal air 1-mit-A --ul A.Ivo- i- it-u L" &JvAnt&Svs t sit 'Irts. the Mir of Pumping, for c1m,luts, lot InW, -00 automatic control app. which i0flik-MACS IrSLAgt%. 111- i mull cient water prewurv. c1c., Im coomfucling alit, and Vic. It f,u&a coo =00 0 coo 00 0 S' 00 go: ( Ae too it A. K) As I It st 'I 0000000060000000000 0 0 0 0 9 o 0 o o 0 9 0 0 0 0 0 0 a 0 0 0 0 0 0 00 oorgovesogotooo SINELINIKOV, K. D. Threshnid valu !he tLi of e of _2taj2dSg A- beryllium. K. D. stnel'tta _v_ Va tg~ ar?tF Y, [1). S. 1~.) 0i.__,_. ~Rr 11. R" S. S.. 0,7w sri. ptinth. Hni., Mr. thys. 1938, VU- I.- Fa~t vkoron-i ig)tained by neceleration in a diwharizp tsibe fed by an clectro~01i(- penctntor wvre used to pro- (!lIrv X-ray, wit(IM-MicTM7 =imi 717lic-'midear photoOfect war, dttd. TItv limifilig ('11crrv W.15 folind try bc 1.7W WINTI Ill. v. V. 'I he ;1110,n, t1clicvi. thu tile Hville-Ilciell, fli(Ilty flir till' d(AllCrittol pIlOtIX_(IlCt is not applivable to the otmoin di-miccration of Ile. U.1thmantl 91! 11 N b 111 V a A all vu on *0 spam-40d 6 tl j L L a 9 r s t u I 'a CC goU 6 A 1 0 1 & to..$ Welt. Abswpdm 401 Point RhelPme IN U, C, Al. Cot sod ft. K.ftNftftff,A.WmllbW9A.TmMWWW,AA M MdV.G"Nwh*. ~41411 of Esp. OW Thror. Ph""A. U.S.S.R. a & Pp. 117-141. lm. to .00 wassludmd 00 in I.A. C. A). Cu. and M, mW (mm Ow timporAmics of 0w tajW on Ow . mwywy. the ralmif" timtron kma was delensined. in the rss~ of the 00 hot simimmu L.4 smid C. Use nwp &W - dKI& bak eamd wait obemy. For On bmvy slememmim there was a domppawy beta thm expermental and tbearctiesd vahm of - 4E,14m. wbkb it divided by the nmber of l 6 ; Ow &mthors cuncluile that the aumm ppr cm . was propodumial so 9 I i l i D S d t tt . . ue tu m" e Watta ne. thwropency is coo goo , ZVI Zoe . '00 '*G t2so 00 )U C S 1. .1 o "i I s a (W 9 0 0 1 W ft I a 0 3 0 0 T C n It 13 ft 1 14 O 3INa,1111KOV, K. D. "Concerning the optimum shape of conductors of electrostatic generators," Iz. ak. Nauk., SSM Ser Fiz., 4, No 2, 1940. highJoltage Laborlatory, Ukrainian Fhysico-Technical Insitu'te, Kharkov, -1940-. 0 0 AID illy 0 0 0 0 0 4 0 A IIIc a JIL I is 4 of 4 ft X 8 Is 11 v a be a as If a 0 4 41 U 4 A 4 1 is a a I I Q is a - 1 4 _ L a It I A I I AO Of CC 0 U j I I Al I v is ~ 1 1. suits _! of this 10431413YO @aptly 8 10,M8 for jam itlectroas in food k. it. R vallci and A. V. I wail- -',ad - A' - f, - K 00 . -n lite III,*- jje,. nr* Isirih-I I Illemenu Of TS&tj%r J.-C, ta-C je, frost, IA, Ism.01 -m V-4101 'If thr Itrat I,NAAI,mriA1 lit i the I II, a intmok Art 4 U and Pill irrOdialed allcriAdi, Iv AfFmAtic Itlectron beem with the tnffgy l_,* "I. v,v Th. i 1 000 , t) itwee. withill th~ . valkw- Im the fadialiviv Itteirs in t rfrm-. with thV valtir, Siver, hv llethe jktI,I noll I IVA I Irv I flecir T. go* 00 '00 00 100 If Igoe 'go* see 00 .00 is ILA 81161,160rK.L "'t"T"'t C%L-%UOKAIIOft "lo to oo too Is A. Solos) -I- a... I., lots$. ~w fA r is As 4 m0 1 4 0 0 0 0 9 * 0 0 41 a of 0 0 00 o o 0 0000 0 0 0 0 19111, V1,1 - 11, IT 1, PP J;3-59 it - #1 -0 Ing 8 -00 A. K. Val'ow. 1). X. VC.M...; J. Tgrif. Pkyv, (11. S. S. M.) It. JIM VVILHI V -A cyst dk A h o R f i W tv~ w o w M T e pbw l * ud amamp . j : larval is dew. Com""Orlwasill ti= of I; s details I I frm w pwmp we given: AM. 0d l t o Almagembes, tom-m rmal 4 wt 1 7lMM t 1 . . Is .p 1 le- ndin i m with **let v astid a tin : it t ualn; 17 t a m d a y Mos pw g, g all&& mwtw pomp swilb 5 I./sme. caperilp. musawrosass 800 0* explis. an given in the alket ad lorr-rammum an ' W tb it f W t d h S c - r e putr on p-p # Wres pu Man y o , t *00 1;1 Invilre tow. m pumpim opmd we Amittaird for tbr wV- God 11 (1 M 4 d K V 1.0 views. . , 0P. AIWA we given in awlimma ftimeiisme, A" is as @m Of lownwomab ms" t Ge . Waltem, a. IA*o, Lao Frind land 0. T. ftagerdat. led. oo 0 Name. clow. J4. &up due to 0 16411 in cond"No of "Worm cram terokm can tw mAM. by Missing of an iffleformst"t Isarnmid *cut -1 rhatt hsmd 48 do NW&u& mail Painting aqvisatioiss. Arruvatry see Of 11W MKOW III SWAlt4d amir by mmM vassimsticum in vis- (.A*Y MA kkdm Isactor. T1W awbod is compwrd with noompirs, Ow the r1wivst 40V of Itilawtir-emsm SO 4000 4116-SLA of TaLtunicat Lfff*Atom CLAWMATON j 80 - too. .0 W. it- -- Ise" 1"&AV "0 SASOW .40 "Is off l1via It ME a" li.- -,r--, TZ~411_1 T w -&, , , a ft 0 . 0 1 0 a , v 30 4 I l o a w : 0 e e 00*000001 400:1040*66*94106*40 0 e e l 0 0 0 0 0 0 dh a a a a e 0 0 0 0 s " 0 0 0 0 e 0 SINELIN'TKOV K. D- SYNBLIMOV;-K-.D., diyor*,y chlen. Superconductors with frequency of 3.5--4.5-1010 hertz. Dop.Aff UM no.6:453- 454 152. MRA 6:10) 1. Akademiya nauk Ukrayinelkoyi RSR (for Synel'nykov). 2. Fizlko-tekhnichnyy inat:rtut Akademiyi nauk Ukrayinslkoyi RSR (for Halkin). (Electric conluctivity) U53h (6(ju) T 10 ,!1 7. lritrc,~iuctlon of thn Lnmin mathod among linemen ii: all branches 71 "lo. 4, 19')3- of corr-lin'Lention work, Sov. Sviaz.p ~p 9. Mnnthl List of Russian Accessions, Library of Congress, A,-,ri 1 1953, Uncl. USSR Optics Abs Jour.~ Referai Zhar-Fi!lka, iQ57, tjc~ ~1(1340 ,kathcr Sine1_LaLkQxa._hK-EI.., Shklyarerskly, I.N.. Skorobogatov, B.S. Inst Not Given Title Deter-minat-Ion of r,*Ii-~ Opti~31 Cx-tz"n-:7 of Orig Pub; Uch. zap. Kharkovsk. vn-ta, 1955.. 6, Abstract: The index of -efra~tior.,,4, of thin 9!!Tmanvam fil-~ wa'7 meacur'EJ tv the germanium-wedge method, coa+ed 4-r. va-_-_xr' 6,L ala~_z or on 5i_lver. The average valuF~,r, in th,~- givf~n r--~Sion Df t.he -isn~ was ol~tained from ttr, *quaticn,,T, i:: -Itc r,,Lx" -berg ~Wy~ a'e t --Df ':n-~ ;~ , 'i ~. -- i n 'bF, 1';k Triin anl t, 'r' r -..rm&- Lm ve-11cr,. lz)cations of the k't,h ir_tzrference rai.~.inrim a.:_d maxilmlm f:)r a aiven the val,,ie ~D~A- i-, -av~~length- For A ~ 590 - ___ .1 11 ~. all the way -.ip to t or. the ~,rdo~r -~f 4 x ic c- a_-A eTialz 3 IS Th!~~ shows 'hat ttl~e_ strar--.ir-~ cf ,h-? fiir- n,:, -Iiaag'~! wi'a thickn~-.-.-s- Fcr >\ ~ 690 ar.-_ 5-~1~0 ~F#44, .YT Card l/ USSR Optics K Abs Jolar; Referat Mur-FI~Iika, 19'7, fit, 10,4LO Author . Sinellnikov, K.L.., Shklyarerski y;~ r.1,1.; Skorobogatov, B.S. respectively, and f.-L Qf of thl,:k germwii,iff, fiLm.:, that are cqnaq~-~, deter-'ftnc-d from meazuremeats 'kkrery, D G_ Proceedings Ppysical 5,.- - i~ 952, B65, "25) 65o, val'ue SfA i,~- 5 !L7 I 600 and '.50 a I 1.8, 121-1, ard 2.3. In relzior f r -:-v "400 t: 11"C' +~ht valu ~f .1 - z; of --.e of Ah was ("-termine~~ from the transmi5sio.-- the n- w arr-2t:rFr,,I. by the mett-.!s j=-Bcrit~~d aa~- -i-h jaa For X = ?00 &n5 r~CO vaP--,s :)r'A! ar- cf -~h- temperatur,,~ in ~h#:~ -ange f--,,m --0 lo a-.~i for A 7 j t, 1100 there I- n 1 ir~-a , i,, Card -9 (3) SOV/1 1 !-57-5-10953 Translation from: Referativnyy zhurnal. Elektrotekhnika, 1957, Nr 5. pp 199-200 (USSR) AUTHOR: Sinel'nikov, K. D., Berkhoyer, L. D. TITLE: Principal Features of the Phenomenon of the Increased Positive Thermionic Emission From Metals in the Presence of Halogens (0b osnovnykh kharakteristikakh yavleniya uvelicheniya polozhitel,noy termoionnoy emissii metallov v prisutstvii galoidov) PERIODICAL: Uch. zap. Khar'k. un-t, 1955, Vol 64, pp 103-115 ABSTRACT: Emission of positive ions from an incandescent -metal surface in air and also in the presence of halogens has been studied. Preliminary experi- ments have established that the nature of the metal and halogen compound has no effect on the qualitative aspect of the phenomenon. Therefore, the investi- gation has been conducted with one pair only, Ni -- CC14. A description is given of the device and the electric connection diagram that permitted Card 1/3 SOV/1 I Z-57-5-1095 3 Principal Features of the Phenomenon ad the Increased Positive Thermionic . . . . determining the ionic current from electrically -heated Ni-tubing with a surface of about 2 cm2' the current flowing to a Ni cylindrical collector. The device construction permits blowing air through it, adding CC14, and exhausting. With emitter heated up to 4000C, a positive thermionic emission 10-12 affip. can be observed in the air. The current grows rapidly with the increase in temperature obeying the formula of the type i = ioe-A. IT up to 3000C. Later, the emission droops increasingly rapidly with temperature. Introduction of a small amount Of CC14 considerably increases the positive-ion emission. Afte,- blowing pure air through the device, the emission current does not return to its initial value but exceeds it by an amount depending on CC14 concentration. This effect is most pronounced with a fresh surface never previously treated with halogen. Quantitative influence of CC14 concentration, temperature, applied voltage, and time period upon the positive thermionic emission has been investigated. The interaction of the hot Ni surface and CC14 results in Card 2/3 SOV/1 12-:5--5- logs, Principal Features of the Phenomenon of the Increased Positive Thern-lionic the formation of a blooming, on the bulb walls, whose compositior, found by a!m analysis corresponds to NiCI2. X-ray diffraction study of the surface filin revealed the formation of MCI? - 2H?O of a few microns thicknes-i. Tfo fil d out what part the air has taken in the chemical processes, the effect of air pressure on the thermionic current has been studied. It has been found that within 760-5 mm, of mercury column, the surplus current depends only on the amount of CC14; however, with a further decrease in air pressure the effect becomes weaker. In the absence of air, the effect of CC14 on the thermionic emission is very little (1. 5 -2 times) as compared with the effect of GG14 mixed with air (10 times and more). Thus, not only the metal -and -halogen combina- tion is responsible for the increase in thermionic current; the mechanism of this phenomenon could be determined only from the composition of the positive ionic current that could be most conveniently determined by a mass- spectroscopic analysis. Ye. S.S. Card 3/3 137-58-1-1529 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 1, p 203 (USSR) AU MORS: Sinel'nikov, K. D., Berkhoyer, L. D. TITLE: Mass- spectrometric Study of the Duration of Thermionic Emis- sion by Nickel in the Presence of Carbon Tetrachloride Vapors (Mass- spektrometricheskoye izucheniye polozhitel'noy termoion- noy emisaii nikelya v prisutstvii parov chetyrekhkhloristogo ugleroda) PERIODICAL: Uch. zap. Khar'kovsk. un-t. 1955. Vol 64, pp 117-123 ABSTRACT: Mass- spectrometric analysis of the positive ion flux emitted by red-hot Ni.(RzhMet 19S8, Nr 1, abstract IS28) was performed with a special magnetic mass spectrometer permitting analysis of ions with masses ranging to 200 mass units. In an air atmos- phere the ionic flux consisted chiefly of K and Na ions, and, to a considerably smaller extent, of ions of other alkali metals. When CC14 v;aVors are introduced into the emitter chamber, the emission of and Na+ diminished, and a maximum appeared corresponding to mass 32. The latter is identified with 02+ ions. In addition, ions of mass 18, considered to be H?O+', appeared Card 1/Z in considerable numbers, and sometimes the C4,.N+~ CN~i a Mass- spectrometric Study (cont. and various other combinations of C, N and perhaps 0 and H were present. It is held that the emitting surface is a layer of NiCIZ on a Ni backing, in which atomic Cl, O,and other elements have been absorbed. As a result of reaction between 0? and Cl, formation of 04- and Cl- occurs. After con- version Of ;Lll the Cl atoms to Cl-, further formation of 0_+* ceases. This 2 state corresponds to the "poisoning" of the emitting surface. If t~e NiC12 layer is thin, the ionization process may continue, thanks to the neutralizaticr, of Cl- by the metallic backing. This explains the fact that the effect is highly sensitive to small amounts of halides. 1. D. J_ jCk01_..TCgj ardm3lort 2. Carbou r ppi C Card 2/2 USSR/Fitting Out of laboratories - Instruments, Their Theory, Construction, and Use, H Abst Journal: Referat Zhur - Khimiya, No 19, 1956, 61950 Author: SinellnikGv, K. D., Nikishova, G. D. Institution: None Title; Use of Wed6e Interferometer as an Interference Monochromator Original Periodical: Uch. zap. Kharlkovsk. un-ta, 1955, 64, 125-126 Abstract: Description of a method of utilizing a wedge interferometer with multiple layer dielectric coatings for the seeregation of individual components of ultrafine structure of complex spectrum lines. In- dividual components are segregated by slits formed by foil strips which are cemented to the wedge of the interferameter. The low il- luminating power cf a wedge interferometer renders this method s."itable for use with scurces of high luminosity. Card 1/1 SIMINIKOV. - K.D.; SHKLYAMSM, I.N.; UNR, B.A. - I Onnowmamm I Interference of light In thin silver foils. Uch. ZSp. EMU 64 no.6:127-134 '55. (NLRA 10:7) (Interference (Light)) (Metallic films--Optieftl prapertles) SINKLINIKOV. K.D.; SUKLYAREVSKIT, I.N.; SKOROBOGATOV, B.S. Detemination of the opticftl conatqnts of gerannium. Uch.zap. KHGu 64 no.6:135-140 '55. (XLRA 10:7) (Germnium-Optical properties)