SCIENTIFIC ABSTRACT STRIGANOV, A.N. - STRIGANOV, A.R.

.1 1- :)I i n I ?' . f I ! 1 . . Z' I . . s ./ o .: ~ / . . , , j 1~1 S"OrW"hk Amirds of Alvwh~ MW "* A4" 8dited by 1. a. viably"Clak an . ; A. M., 11 d =11 =d4- I.Ah alk"m Z&vq%lm. Obonngis. M~W' 1")~ w ed 94 pp Prkv K R Rev*wrd in Kk- Prfrral ZAur. 4 131 M (11"M Nf fin,  W Or W W W W A a a a a a a 4 a , - I v to it it W is to 1) 4 iff 0 V-N" a 11 u 13 Ida lest sma ll uAl"A'C9 A 00 At 1. a a P iA SpettroscollAc quallitlistillf 4"Y"A Of Alun"I"Us" "ad f I 8 -9 L .. its &Hays. bt. SU41likilf. a. ad. 1, 0. 1'. X N A 33 5 4. 144-N(IW); cf. C. A. 31. 4410d. , 07. V. - A' .he l,;cjpjscopk awn[yok of Al and its alloys (of Cu. Mg ~Puj -4. was nafried out Iq the ink-ornpho(oluellic lorthxi I tie lidirs of spectral lines uWJ for niftoutruienis well: A, wilik Cu - X.1;4 11 A . I-IS - jMj I A tl koksalana C-antow S! A. R.SU Y. AW1. eW. s4ri. U. . S. S., 4. 1(i C. A, 54. 37,781. R. 0 8 add " as Aid is quastitadve astril . Herbtvt Blumenthal. Madi a. Ers 37, 00 23.1-4(IM)4-11W Ides of Sn. Sb and As are easily volatkii" in IlBr voln.; this eliminate% their disturbins goo influence In many analytical sepas. The aruilylis of cum. 00 Sb, So, Cu-So alloys will Sn-Pb alloys is simplified. = In the artaillsis cdk4xn. alloys of So and St). 10 6. of more z0 0 00 j: of shavino is dissolved in a ida. of about 10 cc. of Bt in about 12cc. of HRr (op. gr. 1.49). The soln. itevapd. to dryor" on a water bath. the resillur moisteved wtt~ jkwne of the above solveni and evapd. lslain. The resWu4 is led for about I hr. at IW , is then Wren III (1-2). Ill. roln. again evapd. on the water W tb If ee both. and then oploratlow we then repealed. The tie 2 roe jurnts not voilitilised an left as nitrates. and can be woo Analyz~4 by the custornarv niethods. If. S Orris J woe ~ Al.-IL4 RETALLU.GKAL LITERATURE CLASUPKATIC. 92" bee 16 U ft 11 10 is AM I I a W 0 a v I w N I ~ 0 0 0 * 0 0 74:0 it Cf It 31 44 K It It 4 Or [at ?11 It IME M 1 94 0 0 0 0 0 0 0 0 0 0 0 a 0 0 df 000 * 0 v 0 0 9 0 0 0 0 0 0 0 0 0 0 0 0 G : ~ 0 0 0 0 ISO 0" 0 0 0 * a 0 0 0 0 0 0 0 0 0 0 a 0 0 0 0 0 a 0 0 0 e 0 a 0 0 0 0 0 0 0 -  0 0 9 6-0 w -V -w- w-V-Wo w 1 job If U is a Ua a a 41 U41 *OJOS 10 11 11 ti If is is it is I 1 AA MCC 0 U 41 j 1 t A-L -, A I L A L I a I ? a I . a L a __ _ - so A [ plot-Is of! A00 /VI 0 9 00 *Qualitative ftedmmpbk Analysis of Als"am Alloys with the As* 1. -00 0 tion of Objective Pbolondry. L A. It, Strittim-K (Amd- /,,h. Iwo, 0. : 1 if) IN I III Ittimstanj K indirairm thr ItI401111111 UlItking It.111litliscisI 0 .00 040 1-%j--nnwntx) fitr dw (Werminmetii,cl of CU.Nfir, %In Fr Si me 0 elm e 1l . . , =00 see so =00 go a gee to pig j 00 00 tie* ASS ILA .1 1ALLUPts(At LITIN-1601 CL.ISIFKAT.Cg 00 if T- an i Ia w 3 41,14 R 9 36 4( It 11 0 0 o go 0 g 0 0 00 Gooo 0 o o 0 0 o o 000 oe 0 0 0 0 0 9 000000 of 0 0 6 00 0 0 0 0 0 0  .111INCISS41 A.D P&OPON1.11 9 If M 0 Is LF AS OP a 41 a10 4!4 -&.-A I -I..$ - S L- 4 i r. woo 400 000 go sool woo woe woo AIM.SLA MITALLUKKAL WEIRATUOI CLAUVICATIMIS too", all-- 44-tav Idnalls -d 1181411-1 .11 04. got 4211114141 u a AT 10 M I i X1 L 3 a 04 a 0 0 1 v as -j a a 3 a T 'UK, X'Upa, lim- K  r , -t r, ~ i - t A I L 2 L 1, . k-a-1- -L-). 2 11 f r. X J1.0 Sp"U&S quantitative analysis o( aluminum alloys with a application of objoctive pbotome". 11. A. R. h v D. . SituakovAit. Zatodykayn lAk. 10, S lr o 00 ,I~ 71 ".V 1. -R ptq wrrr maile to find toptimism i-onili T 1 J 00 : I koti fiar the divin. of Cit. 164g. Mn, Fr. FA NI and Ti In ' 0 n.. Irmn 0.1 to Al alloys by spectral autalyi,is. Ca In "Z 00 I A`~ can tie drill. by intwul L4 the live Cu I X17N.11 add c 9, All=2.6A. At cterns. o12-0-6.0' , this Pair gilv. lr~% 00 u,"irate fvsulls~ but the pairs Cit =47.0-A1 =11,6 and Cu go' A-Al W15.1 A. cast be uw-l. The lioir Cu ""47.11- At ~M:111.d A. cart tie usvi for alloys conts. no Ni, bcvauve 00 t tic line Ni L1121.4 A. coincides with the line At 2321.0. In 00 dows. of Me be%( rv~ults am obtaiiied with the pairs Me I I . ' roe 17110.8-Al 11 25&;.U and %Is I -'VQ.I-AI I :NLT.I.6 A., the d i i i h li i h l h 00 00 un ng a cur%v w a gTrAter s an t rlt v t ope t e pa r g r pair. Mn can be detil. by means of the pair Ntn 11 ZKMA- 00 At It LOWAO.1 or the pair 34n It 25IA3.7-Al 11 25rA.0 A. Thepair IN 2W.7-AI2ZM.OA. is recommended for dclits. 00 of hundtedths of Mi. 71e [inn Mn 2WI9.3 anti 25-19.3 00 A. can also be used for detits. of Xfo. although the Ti lines 2M.7"2948.2A. may interim. Optimum conditions of the clipts. were: eirctradm with a splitriced end (diain. goo 5 mm.), XW]t d4tililke 2.5 film.. and 4it I)A4 flins. wide. to LO- is of Cu u is u th r c th a u l t t F 300 ,4 o oncr . e cc o racy a a eq 0 p - t * , 1 ,; fi 4 3 " f th g th i l * d l w . o j vom lis. ectro 11 o I le s e W ; a g y oo AcTuracy in somewhat lowet. W, It Ilfnfl.. yes boo b 0o -T 1 t I C~ a- - C o( 1 i,A 3 U 1% Av 10 0 Ant %vfWo v1vr a 'j a 4 3 0 o 901KAX)n I Js R 1 d, UN 1 ts tv tv 1. W" 011t 1 0 0 0 0 0 a 0 0 0 0 0 0 0 41 AN-Alk A- MAL-IM-MIL-A-A.0  Af 4~ --j'P ]'(;AIIOV A. R A I-Vhr~ Tnf I tionce of Ileat,-TroatinL., on the pnlu of AlurinUm Alloyall, Compt, -)-(in English). 0. A. VoL 37p Col, 595-9 Rosulto or Quantitative 4pon. Lra rond. acad. aci. U. R. S. 6. 31j 07-40 of duralimilnum variously troated. after caating were spoctrograph.- rmalyzod for 1,1&)j 11n, Fu and SI and the results compared. The of specimens were studied Tort (1) the.effect of storugo) analyses Immediately after canting, after 1,' 2 and 3 months and afiAr homo- ,--Alon and hardening; (2) bho influence of netural agingl analyses made I' ti-C, after homogenization and hardoning, after 1 month of indoor after 2 months and after homoUenitation. and hardeningj (3) the of arttficlal aging; analyses made on fresh castings, after home- 1,-v-,iAon nnd linrdoning, after lot annealing and after 2nd annoalingj (1j) of 2 nucconsive annonlingej nnalysos were made on Presh castings, homogonization and hardening., after, lot anneallng.and after.2nd ann.pa-li-nd,  0 0 0 -i teioo-eo 0 s a I I # is 11 U 11 U Is It L L-1 A-A .1-1-L A A P a I U, JA 0 A[I A "'. 111- 1, .71 -1 A a K A lot AND 1.U 010111 Leff! 4!1 P.o.as-141,-1! .01. L Q 0 - 1.00 0414161 0 * -40 90 SPFCTRUM ANALYSIsOF ALUMINUM ALLOYS. A.R. STRIGANOV AND K. A. 00 693-606), (In hussian) SUMENK0 AIZVEST. AKAD, VAUD* S.S.S.R., Reviews methods used for the routine analysis of alloys in many slumintum works, in whi6h approx. 300,000 quantitative determinations per it-onth are being carried out in about 30 factories. For high-speed analysis. spectra ta ken th,-rourh a steoppod wedge may be estivAted by *tsual interpolation, :0 0 and tables o, the lines uscd for this are given for Mg, Un, Cu, Si, Fe. Ti, Co, Sn. C.- . ... ... e and It- F- --n- pn-,im- worL. wit-nophounim-tric -mldrimin A ab atandani PjAr bit-twrat,)r and fior 4-r -imuit sapi do- eip-di-1A -J,-AAww dtawtAnl -anild- an- d-chl.,1. 4 "I'll, T vi.U. (~6111AIJAM Nitil 3 1XIIAM1119 MIA-1 Irtimor-r m- aim. I.- um,l in wine ram a. v.v4 A S A - S L AATALLVRfKAL LITEMAT01 CLAWPKATSOM r u A; -0 91, 0 Pt P ty 1P at K K a it W K U tt it 01 0 18T4011 0 0 : ot 0,0 09 0 0 0 0 0 0 log on 196 e CZ Pa.: 02.0, &1. LL* n 1 !14 0 a o , a a 0 0 0 0 0 0 0 0 004 a 11 2 a id a M U M P 0 A-0 -1 t- .00 ~66 .00 .00 g see gee 404 see nee 2 * 61  966999900000*69000 096900*90660909006 6 C 0 V a 0 A L A 0 0 PC I I T W 004 000 1 000 00% oft oft Gob so* fez 00. 00. 00, 00- 00. it, IT Cm AT To nO* Cb 00 p 00 -1 90 00 500 .700 0 ear  - - - - - - - - - - - rr, - i 0 0 rv fr rv c j 0 a W 0 0 r 1 a 1 I I la 11 It It so Is $6 11 , 6 1 U 1 , 11 0 1 0 !4p , a j, it . 1 I . 1 , A Aid ft Z OR 114 L 7! )II'D float.& It. 10.101 .0 4 0 v toorfalis .:IS Spectiral lines for tho AAMJYM of alummum MADYS by tkot photographic method with the applicatiorl, of a MICO. photometer A R Sillistal ... V L ., I d. 11. .111 I If 1111"0. vV CA 39. =1611~ If--- Mg 14 ... A,4141,11111.. lvjItr ifilhis - I,v thr 111, 111.4 111 .1 .111. Or-Aill, *..I AllAill"I ..III III, Itit 27.00.14 vott At A.. but till, ml,-i1v 0 'h- %I lilt 11111.1 Ise wrakelliril 1'. 1 1 r .,b1Al1kt,I,I .111, it'.. I.... I, " l and Al 11JULS 11 A . Witid NIj 1%6:0. 1 timl Al :-A V041 g i *00 III drin, 44 11 5 2 W. 14 Ni ill At it, I I. lilt- off .1111tilal,11 with III* p4to hil J116 1 4p.1 liI ji.4 I A thsit ' ., ,I , III t1w I'.1it %I 311VA ttt.l At ;Momj .1 A ill, J Ow Itr%r [.it Ns 3414_4 still At ;UIiIJ.j A. I, .,iv itle ittratel Witt-I, sit Sit ... coo &I v, intill ,Inc.ltlwi \1 list... illlssfi-l III fit, t -Alletcaunt -,I th, -4witium iNt 311KII -1 A I A a .*, with the lint, At ;Pkl,2 2 A i. [Isv livir \I 1,521 A. I goo .1.1 'M IW U.11 Ill -111 11IMII I "M It- '.1 114 , , A : pear. "Isl~u_lt-ht III, ---.,..I.'-.,.. ; ,I At 1"": Mil 2.-IND %.I ... I AI -*Nl'-' ~.' A 1'. Nlg ;--ol : -. w, ). M112ICLIA and.%[ ~Nlfi *_'A 1- Ill I ,.I , 1. goo Is :.', 1. 1. A 1, M., , I will" -SIO A 1, 0-.110 1 ',-1.7 and A; 110 0 J J AI ~Nlti 1! A 6-1 I's ill 16 11 1 ml Al . 1 POO *W 1 1 A I t-00 ~Wlllt 0 .1. It LIVIII&IL111 CLA%%IFKAIICU It too 110II. S -11$- t0 0 - Willi 0 u is 4, .0 It 11 6 1 a It -1 Is 1 of ill a It n I in 9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a 0 0 1111 0 0 0 1000 , IO9 O 0 1111 0 -2 All 0 O_e 0 0 0 0 0 00 0 : 600090000000 ::: N NV  -W W 11 13 w is 16 17 is IT t TT x 1-28- T. . . V 13 M A If I? V P 4 01 42 A) Ad 40 jee a Is o I L ; A 0 A f , ~ ~ . .5 A "tral method for Altai rapid analysis of aluminum alloys A. R Sit% zar ,..hkava LIA. 11, IF, P, Ilf III, l"ll-ki't pair. -4 It... ' 00 deid. viusuu- cletnint, its At allos% NIK err U.4,1 lie -00 J779.10 aski Al LM2 .1, A hir 0) 44) 2 W; .I Mm tit OW -00 ' a fcwtKv 4il F,: -~. 1 .11, ~-. Nis WVU44 ASO At L:-l0J A f,,i I ~ so ll , ; Io M Ms; Ms MWA asid At 26-1,315 A. f,-r 66 o.01 tit At; %is M.1 and At ~IsVvs) I A fin 111* O.Ul -- 0-40r, A At in the jsc~wi,rv 4 ,k , 11 J141'. . Nit. W49 2 anif At WSO. I A. fut 0. 10 -1 511"i 4A Xfn in ( lie .00 lirrwits-ir of \I < 0 Ntn 2WM I asul At -11CO11.1 A 1,4 go's J. 0.40-I.M1, III Mn in the pre%ewc, of M -, I J)'j. Mli Z A72.6 anct At :110).2 A. Its 0.40-I.MY, tA %Its. %lit oe a WWJ mW At 2iW,S A. list 0,111-1AW; 1-1 Mn, Fr 2749.2 and At XY2.S A. foe 0.10 tit Fr. St ;!Ml-i- iLnd AlAW.1 A. lot tA Si in thu Pfe-titi, -4 Ni < O.Wr~: ~A 2516.1 anti At 211,V-.3 A. for 11, 11, 1 W1, * A). I A. I - 41' of $1, -41)(11 J Cu 3111.0 &M At W, III the JIMMCFACt Of M < 0.20"~ (UVtf 2AI", 111 CU *0 zi ix-larinictrit-ally). M .1,114-14 asul At W11A.'_1 A. 1,,F it 02 goo of Si: Ti 3J49.4 mid At 30k).21 A. fix 01.1 J 1). ;:O0 Zu 3345J) and At :MM6.2 A. for OAYI- 0.50'. tit Zis. I lit 7 so 0 . elt-matti-l-, time required for curnplete Analy%ii bor IJ Itut ascred 16 min. W, k l('1111 ;Zogs wee tio 0 too AIN-SL* NET CLASSWiCAMN ALLURrKAL LITCOATI,011 bee 1 a 1w 0 st I Its S U U AT 00 1 ; 9 IT j a (I if ar" Kit Wff Nor X it Or MAO a ~Zd t 0 0 0 0 0 0 0 411 0 St 0 0 N to 0 0 0 0 0 0 00 00 so 0 0 a  T -- I I I - , * --- , , , I - ~ v ~ P w - .. ~ - - - - - 1 d b 00 Asa 0 a 0 0 4 0 0 0 0 _ s 0 T 1 0 u m 1, % 11 v It - M IV JV W-W-W W W W a 9 A p a to a u age rs L jL--JL.f Q-L a- ------- 00 so of A.R Scrig-simv 4mJ X, A, SuWaka, 4#WIba)v 14b. 11. IAI 0111015) 09 , - I. C.A. 40. 16211A.-A "virw ut thv wribmi.4 ptmot.i~ so 00 Illciric illitlIM461100. Ow alethud C113 .1mitlefiU11%, Alld file method of homll,"s pain for %imcIrM aiialy,t-t AIM- 0 Iuy% ajid a d6cu"iga of stK-ctruajWytu7AJ proldcm%. W. R. 11cull 00 0: .00 00 Zia 00 =00 00 ~3 000 i 300 A I aS L A ORTALLUNGKAL LITERATL411 _CLASSOPKATICO 11*0 00 S4108, .,v Ov 50C - -r- --7 9.1 111 u w iv mO Lf tv twal data PICIA! lix 311' IN D a a "On 1 14 2 1 F m 0 I . 0 0 0 0 0'o 0 0 0 0 0 0 0 e 0 0 0 0 0 0 0 0 0 *is 0 0 0 9 0 0 0 0 0 0 * 0 0 0 0 0 6 0 0 0 0 *is 0 0 0 0 0 0 * 0 6 0 0 a 0 0 0 0 0 We a 0 0 0 0 0 0 0 0 0 a 0 a 0 a 0 0  ~ n,:~ 1~- , " i ., .1 "-ov, ~. of Chcmistr:,~," Sovet.3ia..'a B0014:r,), ,., Pravda Publ. House, lC1152.  11-   TOLANSKIT. S.; STRIGANOV, A.R. [tranalatorl-, LAMSBERG, G.S., Akademik, redaktor.-"MMTr.IF-It-. redaktor; GBRASIYOVA, Ts.S., tokhnirhe- skiy redaktor [High resolution spectroscopy] Spektroskoptia vysokot razreshaiu- shchei sily. Per. A.R.Striganova, pod red. i a predialoviem G.S. Lands'herga. Koskva, Izd-vo inostrannoi lit-rv, i955- 436 p. (Spectrum analysis) (MIMA 8:7)  KOROSTYMA,L.A.; STRIGA-HOV,A.R.; YASHIN,H.M. I H erfine structure of spectral lines and the nuclear spine of 'm U 0 Izv. AN SSSR. Ser. fis. 19 no.1:31-34 Ja-F '55. (NLRA a:9) (Spectrum analysis) (Spectrometer)  F - STRIGANOV,A.R.; KOROSTY19VA,L.A.; DOWTSOV,Yu.P. Isotope shift in plutonium spectra. Izv. AN SSSR. Ser. 19 no.l: 34-35 Ja-11 '55. (MIRA 8:9) (Spectrum analysis) (Spectrometer)  5.p. of differ.,tit i*,tupts A corrvi-t cvatwati~v ,I (tic I C. );Klitc snu 5t olway> 1,, Imule. &,ulc otficr prLviaticill, for 'Aittli".ilig accur4lc rvwlts. w Lt. A Tile relation betweept tw-0-15-01'Op" C' lia"Es' / ,,ild tile rehitive conc~utrautin of the I-oto ws- A ' k Z;.vtJ,-biyG' Loh, 21, n4i 'I W,~s fuw~d i,- h~ rquiuM to tst~at,kiis tile t- r L'tioll txt%c~'Il tile It/1-1nd ilt'lwart'graplAic i ~,,Cojw 4014kly,is bucau5c tile rdtioll 111,3Y Lw conlides-"bly altmd evell ill file ab.-!We of millsoriiiiim by life Illutill!I sili-r- 1, 'iti'm of tile Nn~ the Black m1:131tirt-ill"Itti '011 III-IMIt e1wr the 'Ictil. 4 till eulpiri~.,l vll~ eflect Imly be aggrava" for liclit clememi by a D )Vpler ~idcaiug of tilt lincs from diffcrtta L-acpcs and Ilid diffiscuce in the mill. dii.wu. evergy 4 tile diffenml~c in  fin, struct .u18-Qi "trild lines ind nuclear Spills AV- uriallum-M and plutonium-239. L. A. Kotrntyl~va, eo , is USSR 11 Striganny, and N. M. Yashin. Zhur. Mspl. i I fell. is. 0 ~Ufknzl,955).-The spectra were excited in a d1wharge , a hollow A] cathode. The tube was filled with circulating Inert gas (Av Kr, He); prepris. were made of UrO, and PuOj. These are not excited. unless they are re- duced to metal by at. 11 in the discharge (produced by apply- ing a current of 0.3 amp. to Hs at 2 mm. pirtwate for 1-5 hrs.). The measurements wure made at 2 mm. A premre, 0.2amp.cuffent. The plates were photographed tOgether7 with Pabry-Pemot -tandard, plates for 30 into. Notimble hyperfine structure was ob%erved on 12 lines of UM ..d . 6 component structure was completely me"ured 'on lines 68M.93, 5976.34. 6016.40. 451528, and 4171.69 A Aj the hyperline structure is composed of 6 thics, the nt;cl.r spin of U111 - 5/2 and I < J. From the mtIos of intervals between the components it Is concluded thst t1w. UM nuck-us has a quadrupole moment anu that its nisiguetic, moratnt. I pos. and 1.5 times larger than that of U20, ~kventy lines Put* am split into 2 con ponents. This can be explaine-1 by assuming the nut - zr moment equal to O.B. The width of the superfine structure is tabulated for all TO lines; it varies from 0.04 to 0.2 cm.-' The data lead to the value.% of quantum numbw I - 1, P, - I& Fs - 1/t. Isotopic dis- placement In the pluto'-dum Spectrum. A. R. Striganov, L, A. Korostyleva, and Yu. P. Dontsov. DR. 4.W-91~ The authors introduced a inixt. cif Flu" und PuItt oxides into theirdischargetubc. cm.-I wag obscrved oil 10 lines 13 of %videts shmved pitrely isotopic displacement and 6 isotopic displavemoill and 4oper- fine structure. VIC li"rs call beekis'-A-d into .1 grfnlpsvorr~-  :of na) fvxd~-duloj  535.338.333'6 2 -69M. Isotope shift In the spectnan of 96stoolum A. R. STWGAmv, L A. K(masrftEvA AND Yu. P.t., bwr~- lk4w. teor. 17z., A No. 4, 490-4 (1955) In Russian. U S S R A ixtn: of Pu-- sknd Pum Is Investigated with high woJvingpoN%vrbetwccn4lOO450DA. Ninctmlines exhibit an isotope shift; some of these, hyperfine structure. Schemes of trawitions are propos,-& 0. L DROW'4~  r r,\ H r"J f-, V U 'j S"'R/Ruclear Physics - Uranium's jpectrum Card J/ I Author Title Periodical Abstract Pub. 140- - 1/19 Striganov, A. R.; Korostyleva, L. A. Investigation of the isotopic effect in the spectrum of Uranium Zhur. ej~sp. i teor- fiz., 29, October 1955, 393-405 The authors measure the isotopic displacement in the spectrum of Uranium between the components of the isotopes U-238 and U-235 dfor 346 lines. They use the obtained regularities in the isotopic is- placement for the extension of the classification of the spectrum of Uranium and for the establishment of the isotopic displacement in certain t rMs 0 U I and U JI. Proceeding from the displacement of the terms 5f47s 19/2 and 5f37s2 1912 the authors find that the lowest electron configuration for U II is 5f47s. Nine references, all Western. Institution Submitted May 10, 1955 &ZL /V 0 V V Us".11V Nuclear 1)hy:3i(:13 - IBOWPic effect Card 112 Pub. 118 - 3/8 Authors Striganovj A. R.p and Dontsov, V. A. hawam" Title I Isotopic effect on atomic spectra Periodical : Usp. fiz. nauk 55/3, 315-390, Mar 1955 Abstract t The isotopic effect on the atomic spectra (optical) is discussed. The discussion is conducted separately for the light, medium and heavy elements. The isotopic effect was studied completely for 33 out of 57 stable elements$ with the number of isotopes larger than 2, and 4 out of 17 radioactive elements. Seven elements of the first group and thirteen elements of the second group were not studied at all. Seventeen elements of the first Institution : Submitted :  Card 2/2 Pub. 118 - 318 Periodical Usp. fiz. nauk 55/3, 315-390, Mar 1955 Abstract group were studied only partially. In the case of heavy elements, the so- called volume effect, a new concept, was introduced for the better inter- pretation of the isotopic effect on spectra of elements. The volume effect is based on the quantum mechanical theory. The importance of the isotopic effect is the fact that it helps in understanding the structure of atomic nuclei. However, the knowledge of an isotopic effect alonelis aometime not enough for the complete understanding of atomic nuclei and an apprecation of quantum mechanigal analysis is necessary. Mechanical, magnetic ane, quadrapole moments together with spins of nuclear particles should also be considered. Two-hundred and fourteen references (1918-1954). Tables; diagrams; grapha.  noblt-'..J!aajA: 'I" 'Nf. N. 0 Zt-* P, ' 11'~': allv (A. tri -r, I ";T T.S. , . f77;= nT of the A spectrurn svere obtained ut 0.1-185 trun. Ill; with app- con.,~isting of Light source (rascous high-frcquericy disl- ,charge in a capillary glams tube), condcvs~!r, rotating sector OUX) rotation/min.), interferometer, sptctrngraph, and 'inicrnphotorneter. The width of the bands iticre-vied with he increaw in pressure and was 0.397, 0.498, 0.612 cTn.-' for 4510.7 A. and 0.41", 0.471, 0.594 cm.-I for -1333.5 A. at 0.1, 46.7, and 107 Im. Hg, resp. Tliesc bands are related to the IT, - 3'Ps and 11P.- 31P, transitioa levels. The 4300.1, 42M.1, 4-000.6, 4181.8. and 41&13.6 A. bands aJso exhibitLd an inacase in width, though to a fesser dc- gree. Calens. showed that the resonance lelmls, i.e., the ICVel3 from which dipoletransitionsto the ground state occur, are subjected to the greatest increase in the hand width. J'h width of resonance levchi (in wave numbers) is expresied a~ -3fw:7JV/rmcw,; where c! and m are the charge and mass of quency, f is inten-ity of ascilta, (ion ')f electron, ~, ii cycl;c fee . the re-sonance band, N Ji number of atonts/unit vul., and C, ~9'vdocity of light. A, P. Koflob -4 AID IMM~Ikpmw"'j SIM  .17~ -lrj, !-t 'h~ ~T~, 4r~.i 1 ~uq of W10 -A- Atomic spectrum of N- -nov A. I-. L5~ j2y~ and VU. P~fble~y itta i iglkt I ~111 kM7*1"7v-rs6).--TE7c -~pzaruw a6f. was investigated ia --it therrgkafyom25V0to77lOOA. A totalof 1044 fin" have been measured of which 917 are reported for the Ist (Ime. The positim of each line was weasund with an accu=7 of *0.0015 mm. The av. expti. error was :f-0.05-0.1. The method Is described A. P. Katloby  , -I - : ~ 4 ~ J--f~utope effect-ill . I ~"- ~hlllg- 19 VC!2i-_,V mitl L. A. Kt)n,it5 fe%a. p. , Jr -,":m ~~ tr~m-htjon).-Stc C.A. 50, 8,677J. .. .. 11  N OV) ~s iii 1,h, r~ Vol. 5,F 11~0. Enrch, 195t.') fu tntol., of the metlb')6 of thu , ac, accoreliz-V to of "ml-v orl jcmtor),~ the lest four ycz~r~- connid,~vc,bl(~ aclvinccs vr.,re in ~nd ~jpplic-Aion of itlotou,~ annlyzis. cm jater, lithim. and umniurmi 21-lic cffcctiv~:,n .~s rilt-, of llycli-oi-,13n, he;~,-r, C nO for nrctical , nplico t ions is cl-~,;,onotrctocl. It proved roscibip- quantitatively th,-~ isotope coraTir)sition bf the above elo-monto for c-,,Tirc-ntr:~tions between 1 are, O'Cr), with a highcr accurvey, (an crror bc,10~.l IY,) ...:a t1trit of ordinary 3pecti-al 'iraly:!iz- of n0mixturcs in elomonts ane, allcyc. :inortiint aclvnntage of thc gpecti-,i], in,-Abnd, of CoterrAn.-Ainf, of t--, co- -:)sition Is tha, iii~ :ir.-lycis. on th, of in U, Z: C;!--!)t a' fr)r; ny :r~t,tv-lrt to otber mctbod3 , V-1.3  18otope spactral analysis. confirm the theoretical relations derived by the author of this paper relative to the intensity'of the isotope lings arxi the relative concentraiians of Jontopfio. for light one heavy elementsi It also con-fJrms the character of the Cn7lnpo ~f this dependence in presence of self-nbsorrtion, background and 7r,ut,a;1 super-position of lines. This ineicates that in 'he develop-mentu of sooctral-analytical motroes of isotone onalysi3 calibration by the method staneards for determining the real eependance of the relative Intensity of tho i6qtope lines froin the relative concentration of isotopes is vory impnrtant. Py ~.. R. Sti ~.,,:inov.  -,,,tireo c-! V1:111 :-,!vI Cie!, of 111-,im~ij ilm~llfrvtl c~ir,,fjv:, of ;rvln A pti,;L,!J ~~'Oi Llij 0~'2 vll!ll '77-; hca pt, und'-'r v 1"w;r;l, -,Ct~ Ll:c I, id;-,L,~d f~x 1~1 c It 1-.Z. i:l a 1" v.,-Ct-2v 1.,-iz It a flux vi 2x Mi-, -1~ cj!-,~!vr the~(~ c,-,n-r-i6j:y; tht 0411-,11. ~A Ilg!." 3. 15 Ll -)", Au"' 4 119 tile ~vvrQz-- :1.4 on tile wall-,i durilir thc r-%!tillg ilA :I fqlt:crt:!~mi: iu thu intQn~ity (,f the qnclrimi. Thi; (MOC', c;l-l b"! uv1,'0'j;t! by w~'re't;h1h :M 0-- di.~):jrj,] tul"IL ;lwi irl,~11 rv- I;', the ex. iltb-% clk:~iriizg tfi~-, -f tilt '. rt;c ;f li;~41 cvx~d,:tl Z~a 0' p ;13 -A 0!L: /.~A -A. 11-O'C!1Z it A. lln,i Tir !;c.0 1, ,Tt4., t~~t;o ("I Cr-, I-OO.Y  AUTHOR STRIGANOV A.R., GAVRILOV F.r., YEFREMOV S.P. FA - 2721 TITLE "-A-X6t1T0-d--f-6t__Uhe Qualitative Sportral Analysis of Isotope Compositions of Enriched Uranium. (Metod spetrallnogo kolic hestvennogo analiza izotopnogo soatva obogashchennogo uxana.- Russian.) PERIODICAL Atomnaia Energiia 1957, Vol 2, Nr 4., pp 337 - 344 (USSR). Received: 5/1957 Reviewed: 6/1957 ABSTRACT The authors developed a photographic method for the spectral analysis of the isotope composition of enriched uranium at concentrations of from 2 to 90 % U 35 and higher. The possibilities of this method and Its advantage compared with other methods are shown here by the example of uranium. Besides, the present work carries out an experimental examinatian of the calibration curves used for the analysis of theisotopes of heavy elements. Experiment: The glass three-prism spectrograph ISP-51 with the autocollimation chamber UF-85 (F - 1300 mm) served as speotros- cope. An alternating current arc served as a light source. Liquid samples in form of an aqueous solution of nitric acid uranium salt was best suited. Solutions of the salts of natural as well as of enriched uranium were used for the composition of the two-isotope standars U235 i U238. CARD 1/2  A Method for the Qualitative Spectral A~1-i,i'VSiJ3 ill' ISOtOpe Compositions of Enriched Uranium. Selection of the spectral line; For isotope analysis of uranium the line 42~4,,37- the uranium is best suited 4 A of because it belongs to the group of the most sensitive lines and has a high isotope shift. Besides, this line is located in a domain that is free from cyanogen bands. A photograph shows the well separated components cf this line corresponding to the isoto es U235 and U1-9 . The scheme of transitiona and the isotope structure of this line are shown in form of a diagram. A formula is given and discussed for the calibration curves. Microphotographs of the spectra of three uranium samples enriched with 2,82, 9,.52 and 50~ are added. The results found here determine sufficiently well tile general deliberations concerning the course of the calibration curves in the case of the existence of a background and the re^.iprocal location of the isotope lines. In conclusion, carrying out of the analysis and the accuraoy of the method are discussed. This method is at least as accurate and essentially quicker than the other methods. Total CARD 2/2 analysis of a.sample does not take longer than 1 hour. (8 illustrations and 2 tables.) ASSOCIATION: not given. PRESENTED BY: - SUBMITTED: 2 AVAILABLE: Lhr'ary"b&C.ngr....  89-3-5/26 OGANOV, M.N., STRIC'ANOV A AUTHOR 3 TITLE Quantitative spectroscopic Analysis of a Gaseous Mixture of hydrogen, Deuterium and Tritium (Spektrallw kolichestvermvy analiz izatopnogo sostava gazoobraznykh smesey vodoroda. dayteriya I tritVa. Russian) PERIODICAL Atomnayq Energiyis 1957, Vol 3. Nr 8, pp 112 - 120 (U*5*S,Re) ABSTRACT A gaseous mixture of H,, and D2. and H and T respectively can be dis- solved into its compongnts by meals 01 a 3 giass prism spectrograph (IOSIP, - 51: dispersion at 6500 9o5 Pm~* f of the condenser 1200 mm, light source: quartz capillary as gas discharge tube, dirscharge taking place by high frequency), this can: be- donw. quaiTtitatively on the basis Of lidr DalTs-lines. For a number of samples the gauging curves are gi- ven: H2-content;Af 0.7 - 3P5 0/os 3t5 - 25 0/00 25 - 75 0/oo 75 - 97 O/o. It was established experimentally, that the intensity ratio VID depends upon the gas pressure In the discharge tube. With a concentration of 10,2 O/o the ratio IH/1D remains constant in the case of any modifica- tion of gas pressure.-In the case of a higher or lower concentration it grows with increasing gas pressure. Also for a sample that contains all three gases H29 D2 and T2, quantitative separation is possible, (With Card 1/2 2 tables, 8 illustrations and 4 Slavic references). quantitative spectroscopic Analysis .&,-.?-5126 Deuterium and Tritium of a Gaseous ilixture Of .HYdrogen, ASSOCIATIOU Not given MMENM By SUBMITTED AVAILABLE 20-7.1956 Library of Congress Card 2/2  4 -Z .f A ,1266 A IME-1-110D FORTIJI: Q1J-%TT1-ATPvF .'N'NI.- YSIS (if' THE fEOTC)V!C, T1,0 ---j (IF yu, D,%Uicr; "rd A. ll~ Awlht. Xhim. I,, A spectral welho,f and etpitaratu.4i fur anal- y5iji cf small. aujountq of h.~~,y %ater are dericr!btA. The calibration graph h4s ti~en (;rawn tip. for the 1-iturval cf concentration 2 to 0 t VIO 1.1 INO. Tim rel.itlvc error changes In dependerre io the coiLLntratiun fr,,-ii 4t to 11r-juth)  rR .1. 4 VC, V i Tr X q 'I AUTHOR: Mandell shtani, S.L. , Doctor of Physical-Mathematical 30--8-9/37 Sciences, Striganov, A.R.1- Doctor of Physical-'Mathemitical Sciences TITLE: A Sym posium. on Spectrography at Chicago (Simpozium po spe7t';~obkoa;L-v -Wkago) PERIODICAL: Vestnik Akademii Nauk SSSR, 1957, Vol. 27, Nr 8, pp.60-62 (USSR) ABSTRACT: The authors of this ort attended the above mentioned sympo- s ium ( 29.Apr11 - 1 -MZ7. More than half of the reports was d e- voted to the various problems concerning the practical applica- tion of the emission spectral analysis; the corresponding de- vices and exhibits were demonstrated. The works on the deter- mination of P, S, C in steel were of special interest. In his report N. Launami (' Si4edeh ') panted out the possibility to determine P in steels by means of a quantemeter. E. Lushera (Switzerland) dealt with the problem of the immediate re- gistering in the ultraviolet of the vacuum. Special interest was caused by the reports on the application of the method of transmission in spectroanalysis which was applied for the first Card 1/2  DMONOSOVA, Idya Simono* ULIKOVA, Ollga Borioovna; J97RIGA CffL,, A. P. 9 doktor fiz.-mat. nauk, red.; BIRLIN, Ye.N., red. izd-va; MAW, A. I., tekhn. red. [Spectrum analysial Spektrallny-i analiz. Pod red. A.R. StriganoTa. Vask7a, Gos. innuchno-tekhn. izd-vo lit-ry po chernoi i tovetuol metallurgii, 1958. 420 p. (Spectrum sirmlysis) (Nnu ll.-q) ,  DONTSOV, Yu.P.; STRIVIANOV, A.P. Monoisotopic mercury source of light and determination of the cross section for the capture ~f thermal neutrons by AU198. Fiz.abor. np.4:11-12 '58. (HIRL 12:5) 1. laboratoriya izmeritel'nykh priborov AN SSSR. (Gold--Iaotopes) (MercurIy--Isotopes) (Neutrona--capture)  BOLOTIN, V.F.; ZAVOYSKIY, Ye.K.; OGANOV, M.N.; SMOLKIV, G.Ye.; STRIMOV., A.R.t, (Use of electron-optical light amplifiers for spectroscopic studies of a weakly radiating plasma) 0 primenenii elektronw- opticheskikli usilitelei sveta dlia spektroskopicheskikh is- sledovanii slaboavotiashcheisia plazu7. Moskva In-t atomnoi energil, 1960. 11 p. NIRA 17t2)  AI'114ATOV, A.P.; BLENOV, F.I.; BOLOTIE, V.F.; BORODIN, A.V.; GAWRL'il P.P.; ZAVOYSKIY, Ye.K.; KOVAN, I.A.; OGANQV, M.N.; FATHUSIEV, B.I.; FISKA.-iEV, Ye.V.; RUSANOV, V.D.; G.Ye.; Kfqgppy., A.R.; FRANK-KAMOETSKU, D.A.; CHEREIMM, P.A.; CHIM, R.V. (14agnetoacoustic resonance in a plasma] Magnito-zvukovoi rezonans v plazme. I-oskva) In-t atomnoi energii, 1960. 23 P. (MIRA 17:2)  l or) A',JTI'ilORS rTTTLE: PERIODICAL: ABSTRACT. Card 1/5 ~nn I d 0 l . ' J Lj, . - I -ij : ~ ~' ~ -, j, J- - . . - Editor ' S Or lo' I I USSR) ( AtUill-ta AS s n a r 111~1 he- cla ro n ' of thc, 'lit d 't ~' ~' ~ 'I f i Glllll - the a'a r, nI Q 5%, 0 - , 4 )I-Lta cc - , . SSSR . c , , , , ,; lit ~"rc'3e ' 0 eldo 111) a d I " ,,-Or t- r 0  ~7 V Rf 101110 v Jill 2 0 OJ v v to Ry to v .9,:~ 1, :-'1- 7, 600 a .. h I - - ,T I.P"r F Card 2/5  21 2 '09 Stlidlr- of an I011 lolirce lf,-dro.~-ert SOVIb p,rop(,)rt-lonal Lo Intr.-nsity of' lines 6,031.90 A , I ! " " 4 -1 r I '11thors in- ;~s`Uratred the ion and V nol.;i1ral part-1cle- rat"los a~:, f~11-iu-t10,12 of the ps flovl, dischar~-e current, and discharre notential. Figure -~j sho,...3 tl~-_ varia".-.11.ons o~ ~--e absoi,,,,te val.-les oil ion currents and spectral Intensities as ll_-nc,~ions -- he -ral --e intensities .--re oro- _)l 4 --as Spect 'Lt. L I - portional to the neiltral part.'Lcle concentration since, accordin,,n-, to Ornstein and Lindjrrtian, the excitation cro~,s sect-!un3 are fair!- cot-istan' In the re-ion ol 'i L, u L, -1 uc;ed i-n 't.h[.9 -,ource. Points on the corre~3p!-)Ild 1c) Lt fri:-,i Clo,,,: t1o the catho~i - r g t- I c e _Jon, and :,,ros_,?es are d;-,,!-- to a -,,as Clo~;T strai~-ht to the dis- chl-3ye ohannel. The shnpe the dissociation '1!1-d loni.,"alJon cuvvr,s ind,Lc-alo, that the ion production di~;.:o(.iatlon o!' ff,-3, and The 'n, t'-er U Id In the 'A 1, t~ be 1:!-Ji~~_ in-, in r, t:~),_;_rlted o~ K--ithol  c L 7 2 Variation of absolute values of Inn cl.,rrents and ~;pectral line in- tens_'Ities as functions of gas flo,,-., at, dis- I "a and d Ud = ibO Ca-rd  p-ic ai Studies O~ an Ion Source lij-droGen 4- the Editor ischarge. ter to D Leu and Ornstelin, di-le tO There are 5 figures; C3 German, 1 Dutch, 1 U-S, Li,,,in.gston, R. Jones, (1954). 27, 1.950 sUBMITTED' 2 123 6/29 SOV/89-'; 0 I ectrons. with "aste-r 2 Soviet, d references) an D eference is: R. The U,S. r 25, 552 R scAent. Instr'tu Card 5/5  80~L- S/051/60/008/06/001/*024 3201/2691 AUTHORSs Dontsov, Yu.P., Morozov, VA, and Striganoirs A#R. ft-OMMON TITLEs Isotopic Shift in the Spoctrumt~cf Neadymium FERIODICALtOptika i spoictrookopiya, 1960, Vol 8, Nr 6, pp 741-745 (USSR) Aj3S TRACT -. The isotopic shift in the atomic spectrum of noodymium was investigated by several workers (Refs 1-5); Table 1 lists the results obtained by X61deko and Stoudel (Refs 3, 4). As in ap-rium, an anomalous shift was observed between the Ndl48 and Ndl5O components (it occurs on addition of the forty-fifth pair of neutrons to the nucleus). The present paper reports a now investigation of the isotopic shift of noodymium. In contrast to previous work the samples used consisted of separated isotopes% Hd142 Ndl44, K4146, Ndl48, Ndl5O (Table 2). A Fabry--Forot Intoriermoter and a hollom-cathode discharge tube wore employed. The following isotopic shifts were measured for 16 lines lying between 4689 and 6486 Is AX142-144). &0(144-146), A-v(146-148). &y(148-150) (Table 3). It was found that the relative shifts of the Nd I and Ga rd 1/2 Nd II lines more practically identical and that the relative anomalous  80540 S/051/60/006/06/001/ 024 9201/1691 Isotopic Shift in the Spectrum of Noodymium shift was practically independent of wavelength (Tabl* 4). The mean relative shifts were: 1.00 0.87 (144-146). 1.04 (146-148), 1.42 (148-lEO) (of. Table 4 and a figure on p 744). The inequality of the relative shifts of neodymium isotopes whose nuclei do not possess static deformation, may be due to non-aniform variations of the amplitudes of zero vibrations of the nuclear quadrupole moment. There are 1 figure, 4 tables " 9 references, of which 5 are Soviet, 2 English, 2 Dutch and 2 German. SUEMITTIDs November 5, 1959 Card 2/2  83757 3/056/60/059/00)/002/045 B004/3060 AUTHOR3; kkh..t.,. A. P.. Mo.'. P. I.. Beloit-, P. 7. -.1 - .4molk-, G. T ... ..... A. -Ch.r ... ykh. e. T'.TLX. ILa,notoscoustic Remon-co in the Pl%.=^ 1~ PUZODIUL: Z,hureja *ksporinental'o0y I toorstichookay ftsiki, 1960. Val- 39, No- 3 M- Pp- - 44 T=T: Th. ant -a "twd to stool the p.o.trutL.. Of -1 ll&ti..o Into the pla- %&ki ,Cpl an.tran see really to . t.ti. .. M. ft 'Id . Pro. tkW physical po4at 1** his process has a courafsLOil- to ,.:f .. ,t~ I acoustic ..CiILt Ibe dIff ... e.. that %b. X2/8w. and he b*r%." I " . r..c.anc! . a _.,. . number absracterizing the type of oscillations, go the strength of the C.rd 1/4 static magnetic field- ? in* d6O-itY Of the Ple.me, IJ the cyclic frequency. &04 1 the ra4luz of the plan cylinder. The following is written down for the radial ~plitu4o of the P14- motion velocity: Tr01iopb,/ROmtvVf4 f (S - stroogtbi of the wag~nvttc alternating field. 07h - phase velocity of the aa~"otlc field). The Interaction of an electromagnetic high-frequency field I with a cold plasma .. *Xp rimeatallj, Investigated in a cylinder In the prQRW-Q of - ..I., =ietatic magnetic fists R, PLC. I Shows the scheme f %h4 mpp&ratus used for the a or,:. I hIt.r..ti.g fr:pori onto. 1A one much exp4rimental 4 : . field he 4 qu...y of 12.5 Itc/sec, while In another sort the 50 me - I.,- glow as recorded by soxz~ of an =TI9) ". r -4 an OK-17M(OK-17H) 1111. the penetration of ... 11t.t1c.2 I.%. the ple... and in radial amplitude distribution Of the magnetic altornatift4 field #re t:di*d with the aid of a =&.,-%1c prob- The experiment -orrl-Acte-I ..:Z:re with hydrog.., bell-. mrC.., -d air at - initial of Card 2/4 10-4 - 6.10-3 torr. Th. osolll.g~. of Figs. 2,3 be. that r ' p*,r to the rang between 300 aerated. and 5 , r .C... .he: rig he off. t Of on the p..tral It... of hTd T tud. El bar. I. . dependence of b* so pit r Of the magnetic resonance field on the ZILI.. of the 1-fl .Id. Fig. 5 he.$ t n. p.ti.1 dl sooaOc9 fI " hy4regan and tribution 'f the amplitude 3r Of the r Id : , t : , .y be *.on fro. Fig. 6. he r. onano. h . ri no tru ~t r.. e This effect I. being forther invo.tigeted. A g.. Of 2.5 we use calculated free the Zoppler broalening cf the Ela 14ne (Pigs corresponding to 0.5 A. Xxperi.wotaa data for 3, confirmed the ,.O Is *,* In f --ilob periment. th a.rg.n at fr q, b byI :I ! . : fro, y I d'ff.' I ., I' of'. c * : , : op, c ~:n 4 so .. b with -11- df b th. rI hyh o hot the opp_;ng Wil l&tI* propAg%6*d obi1q..1y. n to Ro. This ..a ... fir d by ..... -.oot of the : r. I..k Malwathal cosponent of the sarnotic field 3~ (Fig. auth I I V II 1- 1or Int d 1n %b- ork. Thor* *r,* dipI.y u=t 1C,1wmI ~;. . l .. , r.f r 2 So U G rman. % d . , Card 3/4 SUBXrrTLD: April 2, 1960  KIMEV, Petr Semeno-vich; ZAGORYANSKAYA, Yelizaveta Vasillyevna; STRIGANOV, A.R. red.; PEHKOVSKAYA, T.Ye., red. izd-va; -- J, PAVI,Wk-, V.A.J. tekhn. red. [Molecular spectrum analysis) Flolekuliarnyi spektralInyi analiv.. Moskva, Gos. izd-vo "Vysshaia shkola," 1961. 142 p. (MIRA 15:1) (Spectrum, Molecular)  BAZHULINI P.A.; MANDELISHTA149 S.L.;.STRIGAIICV, A.R. Conference on optics and spectroscopy. Vest. AN SSSR 31 no.2:91- '92 F 161,, (MIRA 14:2) (Optics-Congresses)  fMI14111, Serge,; Ksenofontovich; FAYN, Einill Yefraiinovich; -_ STRIGAIM, A.R., doktor fiziko-ratem. nauk, prof., otv. red.; RZHOTTDM=KAYA, -L.S~J. red.; ALFEROVA, P.F., tekhn. red. [Spectrum analysis of raw minerals] SpektralInyi analiz minerall- nogo syrlia. Alma-Ata, Izd-vo Akad. nauk Kazakhskoi SSR, 1962. 238 p. (MIRA 15:7) (Minerals--Analysis) (Spectrum analysis)  BABUSHKIN, Aleksandr Afanaslyevich, dots.; BAZHULIN, Pavel Alekseyevich, prof.; KOROLEV, Fedor Andreyevich, prof.; LEVSHIN, Leonid Vadimovich, prof.; PROKOFIYEV, Vladimir Konstantinovich, prof.; STRIGA vich, doktor fiziko-matem. nauk; ITUrDEMERG, G.S., red.-,--GWMIYEVA, G.I., tekhn. red. (Spectrum analysis methods]Metody spektrallnogo analiza. (By] A.A.Babushkin i dr. Pod red. V.L.Levshina. Moskva, Izd-vo Mosk. Univ., 1962. 508 P. (MIRA 16:2) (Spectrum analysis)  s/or,ii/62/012/002/003/020 E032/E511, "UTHORS: Striganov, A.R. , Kattilin, V.A. and Yeliseyev, V.V. TITLE: Properties of isotopic Shift in the spectrum of sama ri um %1,: optilca i spektrosicopiya, v.12, no.2, 1962, 1?1-177 'r 1.1, XT. The authors report new experimental results oil tilt! isotopic shift in the spectrum of samarium. In distinction to other workers they have used separated isotopes. A hol. Low cathode dischar-ge titbe was employed as the source of light and the vorkiris gas iras argon at a vressill- o' 0-5 mill fig. The high i-e~olutioii instrument was a j,';xbry-Perot interferometer with multi-Layer dielectric mirrors (reflection coefficient = 9 Q, The .4aniariuni specimens (even-even isotopes) were taken i n tfi e form of' Stn.)O 3- Three isotope samples were prepared From them by r1lixilig .Trie samples were then converted into SmCl and dissolved in distilled water. The water solution was introdaced into the hollow aluminium cathode an(] was evaporated therein. Th e isotopic structure was examined with the 03A-2 (IZA-2) comparator in 8-12 orders. In each case three spectrograms were obtained Card 1/2  Properties of isotopic shift ... S/051/62/012/002/003/020 E032/E514 with different separations between interferometer plates. A numerical table is given summarizing the datit for 59 lines of Still. For 50 of these the full isotopic structure is nolir reported for tile first time. 31 of the Lines have a negative shift and the remaitider a positive one. It is shown that effects associated With Chi-111gCS in the deformation parameter and the amplitude of nuclear surface vibrations are responsible for the observed departure from the equidistant disposition of the components of the even-even samarium isotopes. It is also reported that lities with negative and positive shifts are shifted in somewhat different ways (lines with positive shift have shifts which are on the average greater than those of the negative shift lines). This is ascribed to tile dependence of the relative isotopic shift on tile properties of the atomic electrons. There are 2 figures and 7 tables. SUBMITTE,I) March 1, 1961 Card 2/2  GOLOVIN, '-F-; �IRIGANOVI, GmASI140VA, 14.P. Isotopic effect in the spectrum of dysprosium, Opt. i spektr. 14 ni~.1:7-11 Ja 163. (lUFA 16:5) (Dysprosium-Spectra)  L 17870-63 . ENrT(1)/E7,,*(k)/BDS/EEC (b)-21ES(w)-2 AFFTC/ASD/ESD-3/AFWUI IJP(C)/SSD Pz-4/Pi-4/Po-4/Pab-4 AT A,CCESSION ": AP300370") /,04,/,3/0.7/,07/,,.,/O...rV A.U1111011: Bolotin,V.F.; Zavoyskiy,Ye.K.; Oganov,Ll.i.; Smolkin,G.Ye.; Striganov,A.R_,__ TITLE: Use of image intensifier tubes for spectrometric investigation of weakly 2.umino /report of the Fourteenth Conferenne on Atomic and Molecular J Spectr= ~ helCin Gorlkiy from 5 to 12 Jully 19A2j SOURCL: Ali SISSR, Izv.S(,riya fizichoshaya, v.27, no.7, 1933, 0,16-900 TOPIC TAGS: image intensifier , plasma spectroscopy, photographic spectroscopy U AXSTRACT: The present paper is a general discussion, based on the literature and some proliminary and tentative experiments, of the feasibility of using electron- optical image intensifiers for spectroscopic purposes. The results of the authoizl: preliminary experiments, involving pulse discharges in hydrogen and other gases, show that lines too weak, to be recorded by the conventional photographic procedure can be detected with the aid of an tmage intensifier. Comparison with line widths determined in other ways indicates that the image intensifier technique does not introduce significant line broadening. It is noted that use of high amplification factors involves special problems as regards processing of the photographic nega- Card /2  L 17870-63 ACCESSION NR: AP3003708 tives and subsequent microphotometry. /71stracter's note: A bloc% diagram of the set-up is given, but the paper does not- describe the intensifier tuba or give any quantitative details.7 Orig.art.lias: 3 figures. ASSOC.V,Tl0N; Institut atomnoy ener.-ii im I.V.Xurchatova Akademii nauk SSSR ~Insti-_' tute of Atomic Ener7y, Academy of Sciences, SSIS111) SUBMITTLD: 00 DATE ACQ.: 0'->Iug(33 ENCL.: 00 SUD CODI.: SD, PII NO REF SOV: 009 OTHER: 000 Card 2/2  ~ACCESSION NR: AP4039700 S/0051/64/016/006/0936/0940 'AUTHORS: Striganov, A. R.,- Kulazhenkova, N. A. iTITLE: The isotopic shift in the spectrum of the singly ionized !samarium atom I ;SOURCE: Optika i spektroskopiya, v. 16, no. 6, 1964, 936-940 TOPIC TAGS: samarium, atomic spectrum, isotopic shift, electron. :configuration, level transition, ionization phenomena ;ABftRACT: On the basis of earlier results by one)of the authors I ~(A. R. Striganov, V. A. Katulin, V. V. Yeliseyev, Opt. i spektr., I ;v. 12, 171, 1962), which disclosed new interesting features in the isotopic shift of SmI, a more detailed measurement was madi3p with thel aid of separated isotopes, of the isotopic shift between the compo- ,nents of even-even samarium isotopes on eight lines of Smll* The apparatus and the enriched samarium.isotopeo-were the same aB in the Card  ACCESSION NR: AP4039700 iearlier investigation. A hollow-cathode discharge tube was used as the light source. The relative isotopic shift was shown to be dif- ferent on lines with positive and negative displacements.' It was bstablished that the isotopic shift in the levels of the electron configuration 4f55d6s is double that for the 4f66s levels, owing to :peculiarities in the screening of the 69-electron.s. The electron !configurations of 28 upper levels were obtained from the isotopic shift data. "The authors are grateful to student D. A. Volkov for ;participating in the measurements of several spectrograms.* Orig. art. has: 2 figures and 2 tables. jASSOCIATIONt None 1SUBMITTEDs 04Apr63 DATE ACQ: 24Jun64 ENCL: 03 :SUB CODE: NP NR REP SM 003 OTHERs 007 Card 2/Z-  ACCFZSION NRs AP4039700 Isard 3/5 EN.CLOSURF.: 01 allepruff HIMMEW"Oe c"Cu"We. 10- co-$ A I mepim" y 2 (M-150) to-lu) 1 O-rpmam-reabnme CAMirst 4 4424.34 4/56#aFIF 41!6pW,,I. "to 26-'M6 81.4 52.2' 65l- 33 4434.32 4l66ja9F,,Il 4/56p43!1, .25.59H .79.2 47.5 "1 65.2 32.0 265M 96.7 55.0 77.2:'.' 40.6 IlOnO~UIMWIUO cAnmrj4 ' 4403.36 4jtGsaQF,,, ~/V)0;208,1, 24222 78.7 50.2, .75.7 2&4 4499.49 4160saflFs,, 4/&5d6s2OPl,' 24222 63.7 4V 63.8 26.1 4505.05 41s6saffFj, 4165d6#190% 24194 loo. --65.9 '95.8 45.4:,.. 4537-9.5 4106sallA.19 4165d6s460..11 24040 83.1 57.3 84.3., 30.5- 6569.31 4/05dagll,,,; 41&5d6s75*,, 27263 .0 H4.6 -162.8- 84.71 ,, . . V  Acawiw NRt AP4039700 ENCUSME: 0~. Isotopic shifts for 'i 8 lines* of SmIl 1;2 Transition 2 7 upper level energy, cm 3 '.isotoo'ic shift 4 positive shifts., begative shifts Card 4/5 L  ACCZSSICN NRt AP40397eo maostut cP3 Odd."- V J'Sd 144 /*8 150 152' U# too ISO fit 083 M 08 (So ,, _ve In Even q, .ml 4 r65d v f '5d 00 00 1.93 -04 'P, A F. 0,H SP, . O"q B.F Relative isotopic sbif t. 40 V 6s a - lines wJL th negative shif t IF, JC b lines..with . positive a hIf t Level scheme of Sm+ and' is0topic level shift ara C  0-6 Ba(d)/FSS-2/SiT(I.)/3iT(m)/z-W-VEWP(J)/FM(t)/UC(b)-2/EWA(h) . Pc-4/ Pn- /F~p-14/Pac-4 ss~/MiiVi3~D/AEM(b)/RAEM(,%)/APGr,(b)/RA.EK(i)/ASD('(I)/ASD(a)-5/ AFEM/ESD(ga)/ESD(t)/RAE24(t)/F,SD(P,) 1314/JXT(CZ) S/0020/64/157/006/1332/1334 ACCESSION NR: AP4044876 AUTHORS: Balakhanov, V. Ya.;. Zhivotov, V. K.; TITLE: Diffraction losses and resonance type oscillations in open resonators with cylindrical mirrors SOURCE: AN SSSR. Doklady*, v. 157, no. 6, 1964, 1332-1334 TOPIC TAGS: quantum generator, resonator,. interferometer, electro- magnetic wave reflection, microwave conwinication ABSTRACT: In view of the interest in open resonators with differenti types of reflector for use in quantum generators, the authors at- tempted an experimental realization of an open resonator with cylin-, drical mirrors. To this end a set-up was assembled consisting of a Fabry-Perot interfergmeter, a millimeter-wave generator, and a radi-'. ation receiver. The_,1-'k1ygtron7qenerated 8-mm electromagnetic wave was transformed by a polystyrene lens and a horn into a plane wave Card 1/3  L 6730-65 ACCESSION NRt AP4044876 0 exciting the resonator. Multiple reflection of the electromagnetic wave from the mirrors produced an interference, as a result of which~. one of the normal modes was established at a fixed distance between mirrors. The wave passing through the resonator was guided by a second polystyrene lens and a horn to a detector and was subsequent- ly recorded. Different modes were recorded by displacing one of the interferometer mirrors. For large Fresnel numbers the curvature of the mirrors has practically no effect, but the diffraction losses are about half those of an interferometer with flat mirrors. For a h Fresnel number less than unity, the diffraction losses increase wit increasing radius of curvature, but are still half those of an in- terferometer with a plane mirror. The intensity of the excited fundamental mode is about 20--50 times higher than that of the higher modes. The test results agree well with the theoretical de- ductions of.L. A. Vaynshteyn (ZhtF v. 34, 205, 1964). This report was presented by A. P. Aleksandrov. Orig. art. has: 2.figures, 2 formulas, and I table,. Card. 2/3  L 6730-65 ACCESSION NR: AP4044876 ASSOCIATION: None SUBMITTED: 13Apr64 ENCL: 00 SUB CODEs EC UR REF SOVt 001 OTHERs 003 Card  ITW -,r T 4 a - i~ r. i T r~ V 1" i T.TP A T ACC NR: AP5026317 UR/0368/65/003/004/0311/0319 .-543.46 1y",(. e.~; L, q AUTHOR: j3_aIaM_AnA1V,_3L Ya.; Striganov, A. R_ TITLE: Use of the Fabry-Perot Interferometer in the crowave spectral:region and for plasma diagnostics -Y SOURCE: Zhurnal prikladnoy spektroskopii, v. 3, no 4, 1965) 311-319 TOPIC TAGS: particle collision, multibeam interferometer, microwave spectroscopy, plasma density, electron, heavy particle, electron collision / Fabry-Perot Interferometer ABSTRACT: In view of the increased need for the application of optical methods in the milli- meter spectral range, the authors carried out Investigations of the possible uses of multibeam interferometers. Following the presentation of the general interferometer characteristics, tho paper describes experiments carried out with mirrors having 0. 75, 0. 875, 0. 935, and 0. 985 reflection coefficients. Results cover the diffraction losses, interferometer transmission, resonant type oscillations in plane interferometers, and electron concentration determination in a hydrogen plasma. An analysis of the data shows that the only change in interferometer operation in the microwave spectral region is caused by diffraction losses on the mirror aper,~ tures which must be added to the usual reflection and absorption losses. The instrument may be used for plasma electron concentration determination. Since the plasma index of refraction contains also an imaginary part which depends on the frequency of electron-heavy particle 0  ACC NRI AP5026317 13 collisions (V. Ya. Balakhanov, V. D. Rusanov, A. R. Striganov, ZhTF, 34, 1270 1965), at- tempts will be made in the future to determine the frequency of these collisions from the widening of the interference maximum. "The authors thank F., A. Korolev for useful dis- cussions and valuable advice. 11 Orig. art. has: 15 formulas,/5 figures, and 1 table. -- 41 ASSOCIATION: None SUBMITTED: 04Jan65 ENCL: 00 SUB CODE: OPP ME NO REF BOV: 006 OTHER: 001   L 13001-b6 MP2(m)/E!-IP(t)/E,-IP(b)/EVIA(h) IJP(c) JD1JG ACC NR: AP6001631 SOURCE CODE: UR/0051/65/019/006/0837/0842 AUTHOR: Golovin, A. r.; Striganov, A. R. 2 ? ORG: none 2- 8 TITLE: Isotope shift and deformations of Ytterbium nuclei SOURCE: Optika i spektroskopiya, v. 19, no. 6, 1965, 837-8112 TOPIC TAGS: ftterbium, isotope, deformed nucleus ABSTRACT: This work was done to obtain more complete data on the isotope shift in the spectrum of ytterbium and to use these data for calculating the static deforma- tion and internal quadrupole moment in the nucleus of the rare yb168 isotope. Five mixtures of isotopes were used in the study. Each of these mixtures was used for measuring one of the following intervals: Av(176-172), Av(176-170), Av(174-170) and Av(174-168). The isotopic composition of these mixtures is shown in the table. The direction of the isotope shift was determined from the relative intensity of the isotope copgponents in mixture A or E. The isotopic structure was studied in the 2900-6800 A region. The experimental equipment aiid procedure are described. The Card 1/3 UDC: 535.338.333 : 546.668  L 13001-b6 ACC NR: AP6001631 ,isotope shift was measured on 6 lines of a neutral ytterbium atom and on 4 lines of a singly ionized ytterbium atom. The intervals between components of the given iso- tope pairs are tabulated together with the rms error for each interval. It is found that the relative isotope shift is equal to Av(176-174):Avl7ti-172):Av(172-170):Av (170-168)=1.00:(l.lOtO.011):1.37'0.004):(l.LIBtO.006). These data are used as a basis for calculating the parameters of deformation and integral quadrupole moments of ytterbium nuclei. It is found that the parameter of static deformation a=0.286:k .0.02, the internal quadrupole moment Qo=(7.33+0.56).l0-24cm2 and the reduced proba- bility of electric quadrupole transitions from the ground state to the first excited level is (5.34'0.80)*10-48CM4 for the nucleus of the rare isotope YbI68. The au- thors thank V. S. Zolotarev and his associate for preparing the enriched ytterbium isotopes. Card 2/3  L 13001-66 ACC NR: AP6001631 Table I Mi~Qre 1-168 Natural UfmpoAxem OA4 A . . . . . . . . 0.1 B . . . . . . . . 0.1 c . . . . . . . . 0.1 D . . . . . . . . 2-3A E . . . . . . . . 2&7 179 171 1 Ir- 1 173 174 3.03 1" n.1 0.7 47.3 3.2 47.0 3.1 11.7 14.0 7.2 9.1 21.88 40.0 1.5 L5 11.8 9.0 16.18 0.9 0.8 1.3 7.0 5.0 31.77 12.65 Z8 55.5 2.7 44.5 46.8 0.3 29.0 3.1 37.8 2.6 SUB CODE- 18/ SUBM DATE: 31Aug64/ ORIG REFs Oo?,/ OTH RM 007 jrn ,Card 3/3 WON"  V.Ya.; PUSANW!, V.D.; ST.RIG-',TIOV, A.R. rostics. 7h- . llp,-,Itiple-ray radio interferometer for plasma diag ar ttk'%. fiz. 35 no.1:127-131 Ja 165. (141RA 18:3)  T TIJ ACC HP.. SOURCE CODE: V~ I I E: 1,-lakhanov, V. Ya.; StriE ~anov, A. P. none UR/0368/66/oo4/003/0213/0221 TITU': InLerference filters for millimeter arid submillimeter regions of the spectrum SUIMM Zhurnal prikladnoy spektroskopii, v. 4, no. 3, 1966, 2-13-221 T 0 111 C TA C, optic filter interferorneter, diffraction grating, reflector diffraction grating A 1, PA CT : 'Aie po~-,cibility of creating intcrference filters for millinieter and silb- 1~'iillim"Aer 1-cf-'lon-, Of the !!as bcen exazain~,d. The c0hortcomirigz3 and aJvantages "r~'yi_'jAioilo (JIL f-L-tt-ro wr-vo Thc r_-~~me to thecon- 'Alt. !r"'!v be ~t Interf!~rc!ncl,,r 'with 0--ter _1rrr)--S 1,1`1'!~ _L 11 1 rl -1, JU Q:1 J' (3- ~7 a (,-,rrv11F. 1r:'r C a 1. for hL~3 and 7. D. 21,,,isonov all 1~' 1. F". '!"IrDv 1%)1' w0'. fl, e 2.. ml L L-1 a $7, e dIDT! [NT suii coov;: ~1 j< TU 166/ oRif-, r~F-F: 0Y)W CITH FZEF- C) ou i  L 31506-66 EWT(m)/EWP(t)/ETI IJP(c) JD/&I/JG . ACC ITR: Ar6ol3ol6 SOURCE CODE: UR/0051/66/020/00VO545/0553 AUT71OR: -Korostyleva, L. A.; St ORG: none 13 TITLE: lWerfine and isotopic structure in the spectrum of plutonium and its classification SOURCE: Optika i spektroskopiya, v. 20, no. 4, 1966, 545-553 TOPIC TAGS: plutonium, hyperfine structure, isotope, optic spectrum, spectrum analysis, line shift ABSTRACT: This is a continuation of earlier work by one of the authors (Ko- rosl yleva, Opt. i spektr. v. 14, 177, 1963 and earlier) dealing with the invest!- gation of the hyperfine and isotopic structure in the spectrum of plutonium, and a paper by Korostyleva (ibid. v. 17, 469, 1964) where further identification of the Pu I and Pu II lines made by exciting the spectrum in a hollow cathode at dif- ferent discharge conditions. The present paper is devoted to additional analysis of the hyperfine and isotopic structure, based on the totality of the experimental results. It is shown that all the 275 lines investigated can be classified with respect to the magnitude and direction of the isotopic shift into six groups, for Card 1/2 UW: 539.184.26: 546-799.4  L 31506-66 ACC NR: Ar6oi3o16 which the characteristics and the transitions are given. Level schemes for PU I and Pu II are presented and the transitions causing the main lines of Pu are identified on this basis. A complete table of the arc and spark lines of Pu is included. Orig. art. has: 2 figures and 2 tables. SUB CODE: 20/ SUB14 DATE: 30Nov64/ ORIG REF: 0061 OTH REF: 008 Card 2/2 rn c,  L 45924-66__ r~~n(j)ftiWP~' )/EVn(m)/EEC(k)-2/W(j)/T 1JP(c) AT/rl,%I/WH ACC NR1 AP6028610 SOURCE CODE: UR/0057/66/036/008/1383/1386 AUTHOR: BalakhanoviV.Ya.; Rusanov.V.D.; Striganov,A.R. ORG: none ,TITLE: Millimeter and submillimeter wavelength interference filters for investigation lof plasma radiations jSOURCE: Zhurnal 4ekhnicheskoy fiziki, v. 36, no. 8, 1966, 1383-1386 10PIC TAGS: interforometer, electromagnetic wave interference, interference filter, microwave, microwave filter, plasma radiation, plasma research !ABSTRACT: The authors have previously discussed a Fabry-Perot interferometei f or Imillimeter and submillimeter wavelengths, each of the two mirrors of whPh consists !of a number of parallel metal film bands on a Plexiglas'or fused.guartzl-substrate (ZhETF, 35, 1271 1965). In the present paper they discuss an interferometer in which ~two such mirrors are mounted with their planes parallel but with their respective !nctallic bands perpendicular to each other ("crossed Fabry-Perot interferometer'). Their !theory of the crossed interferometer is developed, and it is shown that the instrument scan serve as a band pass filter. Such a crossed interference filter, designed for a iwavelength of 8.4 mm, was constructed and tested. The mirrors were deposited on in a 1,9.5 cm diameter circle on 1.05 cm thick Plexiglas substrates. The filter passed 80% ,of the incident 8.4 mm radiation with a Q-factcr of 10, and passed less than 1% of the; j i Card 1/2 UDC. 533.9  AREFIYEV, A.S.; KRASAVTSSV, M.A.;,-STRIGANOV, I.M. Assembling on the ground and raising trihedral wooden signals. Good. i kart. no. 11:16-24 N 16o. (MMA 13:12) (Triangulation signal towers)  YERAKHT111, Dmitriy Dmitriyevich, dots., kand. tekhn. nauk; GOKHMAN, Shlema Molseyevich, kand. tekhn. nauk; DVINUNINOV, Vistor Nikolayevich, st. prepodavatell; ZAYTSEV, Pavel AlekBeyevich, inzh.; LOPATIN, Anton Venediktovieb, dots.; ORLOV, Nikolay 11likhaylovich, inzh.; STRATANOVICTI, Nikolay Nikolayevicb, inzh.; STRIGADOV) Nikalay 1grat'yeyjGh,,-inzb,; TIKHONOV, Nikolay Pr-oio-plyeVich, dots., kand. tekhn. nauk; RAYKHLIN, Zaliman Tanfilovich, st. prepodavatelt; BFJM, Aleksandr lemellnovich, dots.; RESHETNIKOV, N.S., dotsent, retsenzent; BABUMIN, I.N., red.; PITEWAN, Ye.L.,, red.izd-va; PARAKH111A, N.L., tekbn. red. (Repair of lumberlW-and forestry machinery] Remong leaozagoto- vitellzWkh i lesokhoziaistvenmykh mashin. By D.D.Erakhtin i dr. Moskva.. Goslesbumizdatp 1961, 436 P. (MIRA 15:2) 1. Kafedra remonta Moskovskogo losotekhnicheskogo instituta (for Reshetnikov). (Forests and forestry-Equipment and supplies) (Lumbering-Machinery)  - - ' I if it is 14 14 a t to , I , , : ; ~ AI CC W t Amm CC Am at 4f toI A A The faftence of sffy~Ts on the Pstrk "actift, -00 : loprormi Pimmyu fprob4-,w f A. R - t~- 0:% ~ 0 lvmlyfti~ T , % 3.3-44(1933). C". Z,"W. IM, . 11. 1481.-In dogs a single aditinistration of soybmu inaili produced a lowering of tite rcdel phase and the -00 of si- -4vretion of galitric jukv-. further dows, produced an in. errs-w. In grateral the pro"m of secretion resembles that -00 00 A It'r of nice? 1110 tnewe chMy than that for brced. It Is -60 ISO a concluded that say1wan ptotrin may to a certain extent , th. lift-A to rut-Lice Inest protrill. M. 0 %trvorr SO I : 00 X 64 zoo zoo goo, 60 zoo of J t--O 0 too I z A I % L A of TALLLF ~Klk OTFW~ME CLASSIFICA14" Go U H a of it 91 %1 It it 0 IS An A & fW W on Of 0 IS 0 S, a 0 0 see $ 0 0 0 0 0 0 0 0 000 0 0 0 0 0 0 6 0 0 0 0 0 0 0  -a ~_ _r, __ V_ ju~ _01 S- a SL -r- _91 -a- _91-S :0 a a w M 0 a a w 0 a , i -I-- i 44-tt-W a a a o 6 0 0 0 0 0 0 0 0 0 v 0 10 0 0 o 0 op 0 0 0 of 00 0 0 0, is It V zl 8 Ill A Ill it R P 2 11 u u m a is v Ill 4a $I A L 1. JL t 1. It 4 1, 1. A A I I it I I AL I 1 0 0 U OD U14 I I d I 1 41 IL I A; 7 wrtabobsirk &I Wound brallng P Rv%ksI&4 "IfISAIs'ne, 11*11 j",4 ", I . N. .% . %,, - T 7 ils high%ll, 4AA fils 01111110 wl"11vt TT 1039 M 1 , .11114. OW I IAI-111-111 11 IltAll " IM I ~d -11. lowhild 111 4. 1.411 IFNI.Aw III 64klidlalk , 411.1, ash. p"13.6. 14% oil hillivi'll,mial ~4 , , - ,, 11'.0, %tilh. 'Mill : moo _,:1 U1 ktIA11114 IlYfO AW1 I so C jdt.1114t 00 moo 00 00 coo AID 6 9 , !.so 4 go 00 "go t1 A t-11.11111 L11l1I,,A1itk woo of !too i go M l 43 W o 0 0 0 0 0 0 a 0 0 a a a a 0 0 a 0 TM*, 0 so 0 o 0 go 0 00 a so 0 a 0 We 0 00 * a 0 0 a 0 dad  All -0 0-6 0- 401-0-4-4 . I ~ ~ ~ ~ - , Oda s I 1 A a A f a L--J. I 10 it 14 is a 34 a a V a M a 11 2 u 14 a Ro m x 30 Is at a t9 I A - I- t it IF I - IL -M 0 cc A L A 1 a a) ad 620 S - - - Is, .!.o 1.!p "via$ )SO ..o or. coot$ FOCCMIS A.0 F~CP1*I it ..Vt. Local and general ilikilgell in pratealysis during W 00 proEA,"Ofjogentration ritan organ. V. L. lty~ktnAand h -00 k"1. c nova. BmU. 040d. i(i. V, A, S. S., Sir. '40 %(in English, 7!Yj).-Thv initial %tale of %lu- -00 -1 the blastcuta. in A-12-itionth-uht azoluds i~ - 0 0 0 9 ized by a t1cmase in ljrotcolytk~ activity. At , e 1 - l 9 ~ of the laying down of the organ thcre is a niarkrd 1 . l 4100 0 j increase. A dectcaw xcms at the %tage of intvnsiv, i -ver, I it organs lot-ated at a -list ance froo, I fW gr,,wth howt 0 0 I. of rt-purrafion therr i~. a J"-Wrd incr-1-- C side Koo 0 see 0 001 see 0 00 400 0 0 goo ON 0,010 be* tree A S M - S L A - PU at T4tLUWGKAL LITERATURE CLASSIFKATtem 0 S: Ali- P s tam, t, , W041 T u u 4, 10 LS MC., 4K a.. 194 A 00 O I rratDOMM saws Kfftt It* I I I Od 0 0 0 1 W Be 2 A a 7 1 I A V 0 0 411 0 0:0 do 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 * o 0 0 0 0 0 0 0 0 0 0 0 : 0 0 0 0 0 41104411 0 0 0 41 0 0 0 0 0 0 do 0 0 do 0 ;q 0 0 0 s 0 0 0 0 ISO 0 0 0  f $? it 1) it At AA N tj W a A, ~ changes in cathtpsin activity during normal and Patho -00 I jr l4cal regeurstion in Axalads. A R Strigano,t.- ' l-31,1n HuH. acad. sci. V- R. S. S., VF~ biol. 1939. ft Frigli-h.411-Al Ifirslagr of ti-mir diffrrintiAtitm f.hvrr 11 rpakrff ino-rraw in--athelmin activity. Them-tivitv falVlwlcyw notmall during the petitmi of inirmive growth LA ,rganvi dimant ff,.ni the pla" of frs,-nrrpfi.,n tht-tv i, 00 'At first an analogous in"t-am and then a retarn to normaj. 00 In P211101. regeneration there i., an initial incmAe. In fi~suc% (it the new growth there is a subsrquint drcrva~- Llvrr tiswms, howt Vcf, *howa C0115iderabic increAw'd Mich see so C. jan)wski see coo see j see No* ties S L A 1"t WALLUAGICAL UYISATURI CLASSWACATICS, Igoe et 0 At ! C, ts isado ne,., o to a 0 0 0 0 0 0 0 *no ol  0 v W v : a, a M I a a 0 0 0 #1,, 00 409- 0 41# 4- i '114A ftl?nn .'re C, L 1 AA N M UP U 4 f tor Now L-1 6 4 . '-Alto .,q A I FoycleolyliC ScUtoily of fisgue of fegengrlticig OfJODS under different easdItIons. A. Sittiffaftove. f-M. 06 ro,"J.,zedd.mi. 11. R. S. S. 27..U&-7(I940) (in Get man I.- Tile protelc4ittic activity of resenctstins azolod limits to greater than that of tic"nal limbs. The difference Is : 111mv pronounced at pil 4 :1 thall it is at PH WO. Thr'llf. -90 0 1 as tile fr9encrult'lK Slow 01,1,f. ,vmn.b,r4 0 =00 0 r r 99 zoo 00 ;;o0 00 600 00 zoo 00-1 11094 I " t:oo .00 1 Its $I A -tTALk1,FrK.1 LITEO.T60f CL&SSIFKATIC^ CZ- voo 00 S too 0t q., o* U t% IV 4) it 0 If 5 g (F 17 to Do d K it R an ff ft if PoU3 n I Is owe 0 0 0 0 0 0 96 0 0 0 0 a 0 0 0 0 o v 0 0 0 0 0 00 . 0,0 0 0 0 0 0 0 0 0 0 0 0 0 0; '  I u cril n 312 it a a v At 31 a 41 41 43 Ad 4 C 0 IV 6 0 X L & IS 0 PU a I I IN IT ad AT It n 0 I-CLIM9 so* ..p 41. 01~165 F. GROUPS uf.ca ..Vt. 77 Oll "OlIV31MIM3 all"0113111 lW31DOMslyll. w I II 000 Boles a. Os it 00 *011 .00 on 00 C, 00 00 10 41AMN Stp egs"g4w~."W on *0 Ag" :66 00 00- G0-, , , . , I Ir of I K vw yw--j -4 -w- v v ool ai~ 0 IT it if0 of to a t It* &A"-aA AL 1641" m III a  Parathyrold Normoft liar/Apr 49 Medicine Albumin Metabolisr" t (71, "Effect of Parathyrold. Rormone on the Albumin! Metabolism of the Bone Tissue," A. P. Striganova, Lab of Histogenesis, Inst of Evolutionary Korph, Acad Sci USSR, 6 pp "ArkhIv Patologii" No 2 Tabulates data on subject efft..ot of para- thyroid hormone. IntrazuBcular injection of large doses of this hormone causes a sharp Increase in the proteolytic activity of bone tissue, a significant disruption in the equilibrium of nitrogen exchange of the.bonei 59/49767 USSR/Modicine - Parathyroid (Contd) Mar/Apr 49 Hormone decrease in percent of general nitrogen, in-~' crease in concentration of albuminous by- groduct, but the percent of amino-N barely deviates from normal. Trend of the albumin metabolism of the bone is toward sharp * activitation of hydrolytic processes. After repeated injections, nitrogen exchange returr3 to normal, only the proteolytic activity of bone is increased, and the predominant shift In the albumin metabolism toward proteolytic processes occurs only in the Initial stage. Dir, Iab of Histogenesis: Prof A. V. Rumyantsev (deceased). 59/49T67  UM/Nediolne - No"Ous System my 49 Medicine - Organs, Degeneration and Regeneration "Importance of the Nervous System In the Process ;f Organic Regeneration," A. Striganova, Inst of XT01ut1 ar Mo h imeni A. 1. Severtsov, Aced so I Na" 9 'p, "P.,k Ak Nauk SSSR" Vol LVI., No 3 U.ording to collected data, in abjence of inner- vation first period of regeneration after amputa- tions is prolonged and formation of blastema inhibited. This Is a local process. Further M q:>11LQW1 - UM/MediAne - Nervous System (Contd) k,i May 49 regene7ation shovS an Interconnection betvaen local tissue chanigee and metabolizz of the vhOls organism. Hence, various substances used as stimuli are effective only during initial period. Submitted by Acad K. 1. SkrYabin, 28 Mar 49. 52/49T71  USSR/Medicine Regeneration 21 Nov 49 Morphology "Data on the Study of Conditions Governing Regen- erative Processes," A. Striganova, Inst of Animal Morph imeni Severtsov, 3 PP 0 "Dok Ak Nauk SSSR" Vol LXIX, No 3 Conducted tests after amputation of hind legs of axolotls, on the hypothesis that regeneration is an adaptive process of animals and takes differ- ent forms according to its development. Intro- duced cytotoxic serum, obtained from rabbits immunized with tissue suspension prepared from fresh axolotl muscle, into axolotl at certain 158T65 USSR/Medicine - Regeneraticn 21 Nov 49 (Contd) dates after amputation. Compared results with normal regenerative processes. Injections of large doses of serum exerted specific influence on muscular tissue) disturbing normal relation of regenerative processes in the stump, which led to inhibition of growth of in- jured muscular fiber without direct effect on skeletal proliferation or vascular growth. Normal processes were resumed when injections were discontinued. Data obtained confirmed the initial hypothesis, and proved specific cytotoxic serum is valuable medium for ex- perimental interference in study of regenerative con- ditions. Submitted 22 Sep 49 by Acad K. I. Skryabin. 158T65  A. .,-Z. -ind -, TT - -,* 'N ~ "..), t%. I . "Restorative Froces-les in the 3keleton -Illusculature," lublished by the Fublishing Fouse, Acade:,V of 3--4ences USSR, 171 pp, 1951. Institute of Aninal lorpholoV i..,ieni A. N. Severtsov  STRIGANOVA, A. R. Functional condition of the regeneratine miscle. Doklady Akad. nauk SSSR. 81 no. 2:305-308 11 Nov. 1951 (CIJIL 21:3) 1. Presented by Academician A. I. Oparin 18 September 1951. 2. Institute of Animal Morphology imeni A. N. Severtsov, Academy of Sciences USSIR.  STRIGANOVA, A.R. __ WAOMMAMNOwed- Sir,nificance of the nervous system in the development of restorative process in the muscle. Doklady Akad. nauk SSSR 89 no.4:749-752 I Apr 1953. (GIRL 24:4) 1. Presented by Academician Te. N. Pavlovskiy 6 Yebruary 1953. 2. In- stitute of Animal Morphology imeni A. N. Severtsov of the Academy of Sciences MR.  STRIGANOVA, A.R. ~ _~ --- - 111-7, Restoration of neuro-muscular Junction in denervated muscle. Doklady Aked. nauk SSSR 90 no.1:113-116 1 MaY 1953. (CIXL 24:5) 1. Presented by Academician Ye. N. Pavlovakiy 14 February 1953. 2. Institute of Animal Morphology imeai A. N. Severtaov of the Academy of Sciences USSR.  1. '3TRIGANUA, A. R. 2. USSR (600) 4. Nerves 7. Conditions of reaeneration of the nerve-muscle connection. Dokl. AN SSSR 90, No. 2, 1953. Inst. Animal Morphology im. Severtsov, AS USSR In adult animals,, close contact between a damaged nerve and a muscle, with consequent formation of a contact between them and regeneration of the nerve, is established only when the innervation of the muscle has been impaired, i.e.., the muscle wholly or partly denervated. Furthermore, damage to the denervated muscle expedites formation of the nerve-muscle connection. Presented by Acad Ye. No Pavlovskiy 3 Mar 53. 260T15 9. Monthl List of Russian Accessions, Library of Congress, Apri.1 1953, Uncl.  STRIGANOVA. A.P. Renultn of using m7ocvtotoxic serum in the restoration of muscles. Trudy, Inst.morf.zhiv. n0-11:288-295 154. (MLEL4, 8:2) (Musele)(Serum therapy)(Regeaeral-ion (Biology))  STRIGANOVA, A.P. Changes in the function of injured and regenerated muscles. Trudy Inst.morf.zhiv, no.11:296-321 154. (MIaA 8:2) (muscle,'  S Ing p1. 404~0,1;-io X.;-Wil 1- Regeneration of denervated muscles. Trud7 Inst.morf.zhiv. no.11: 322-355 154. (MLRA 8:2) (*ascle--Innervation)  STRIGANOVA, A.R. on the regeneration of atrophied muscle in rats. Dokl-AN SM Ill no.4;903-906 D 156. (KLRL 10:2) 1. Institut morfologil zhivotnoch imeni A.N.Severteova Akademii nauk SSSR. Predstavieno akademikom N.N.Anichkovym. (MUSCLIC) (REONNUTION (BIOIA)GY))  .,_jTRIGAVOVA, A.R. (Mosk7a) Reactive changes of the intact muscle follwing the atrophy &n& restoration of the opposite denervated muscle in rats [vith summary in English]. Arkh.pat. 20 no.9:11-17 S158 (MIRA 11:10) 1. Iz Instituta morfologii zhivotnykh imeni A.R. Severteova AN SSSR (dir. - chlen-korrespondent AN SSSR G.K. Ehrushchov). (MUSCLE.-physiology, eff. of atrophy & restoration of denervated muse. on reactive properties of opposite muse. in rate (Rus))  STRIGANOVA, A.R. Reactivity of denervated muscles in the process of restoration. Izv. AN SSSR. Ser. biol. no.3:409-418 MY--Je 160. (MIRA 13:7) 1. Instituteof AnimAl Morphologyp Academy of Sciences of the U.S.S.R., Moscow. (MUSCLE--INIiEitVATION) (AGETYLCIIOLM)  STRIGPWOVA, Aleksandra Romanoyna; KHRUSHCHOV, G.K., otv, red.; - --- - NOLPAKOVA, Ye.A., red.izd-va; RCIWIOV, G.N., tekhn. red, [Reactivity and regenerative ability of denervated muscle at various stages of atrophy) Reaktivnost' i vosstanovitelInaia sposobnost' denervirovannoi myshtsy na raznykh stadiiakh atrofii. Moskva, Izd-vo Akad.nauk SSSR, 1961. 1" p. WIRA 15:1) 1. Chlen-korrespondent AN SSSR (for Khrushchov). (MUSCLE)  L 269~0-6~ Pi-4 IJP(c) AT ACCESSION NR: AP5003246 S/0057/6 AUMOR:,Balakhanov, V.Ya.1 Rusanov V.D./ Stripanov. A.R. TITLE: A multiple beam radiointerferometer for plasma dingnosticsk 1# SOURCE: Zhurnal tekhnicheskoy fiziki, v.35, no.1, 1965, 127-131 TOPIC TAGS: plasma diagnostics, interferometer, microwave plasma ABSTRACT: A multiple beam microwave interferometer of the Fabry-Perot type is pro-, posed for plasma diagnostics. The multiple beam instrument should have the advan- tage over the usual two-beam interforometer of greater sensitivity, and it should also permit the measurement of the electron collision frequency. A schematic draw- Ing of the proposed instr=,ent is shown in Enclosure 01. The partially reflecting sur-faces would consist of silvered mica sheets from which the silver has been re- moved in parallel strips to provide the requisite transparency. The theory of the instrument is discussed briefly and it is concluded that It should be possible to measure electron concentrations as low a3 1.7 x 109 cm-3. By observing the change in the Q of the instrument due to the introduction of the plasma , it should be pos- sible to measure electron collision frequencies as low as 1.4 x 106 see-1. Either  L 2698o-65 ACCESSION NR: AP5003246 a reflector may be moved as in the usual Fabry-Perot interferometer or the excit- ing frequency may be modulated. In the latter case it would be possible to follow the time development of processes in a pulsed plasma. The use of the confocal Fa- bry-Perot interferometer is also briefly discussed. This should have some advan- tages in the case of a cylindrically or spherically symmetric plasma. "In conclu- sion, the authors express their gratitLAe to Ye.K.Zavoyski for his interest and attention to the work, and also to F.A.Korolev. V.I.Gridnev and O.A.Zinovlyev for discussing it," Orig.art.has: 9 formulas and 2 figures. ASSOCIATION- none SUBMIMM: 03Dec63 EXCL: 01 sun ccos.. '10 NR REF SOV: 002 01WR: 003 Card 2/3  Card 3/3