-AUTHOR S zliitnt TITLE t Some Remarks concerning Methods of Analysis of Results, Nuclear Paramagnetic Absorption in Experiments iith , mmcc1mniya o priya o priyemakh obrabotti (Nekoto;yye , 1tatov v oksperimentakh po yadernomu par,amagnitnomu rezul - . ""Togl6shcheni YU PERIODICAL: Izvestiya Akademii Nauk, VXC, 119 1215-12199 Nov 1956,, (USSR).. Seriya fizicheekaya ABSTRACT s ~~ The.artiole.deals.with the use of nuclear paramagnetic ~.radiofrequenoy.reeonance for isotopic analysis on the basis of a formula derived by Bloch (1). This formula determines the magnitude of.nuclear paramagnetic resonance absorption under condition of slow transition through the resonance* The author points out that the magnitude of resonance absorption effect depends essentially on relaxation times, Card 1/3 which vary in wide ranges depending on the type of S71-11, 110 , If"' , H aga"; -1,44 f ~Wf Pi 104  TITLE, l'-'sone.lRemarks concerning Methods of Analysis of Results in Experiments, with Nuclear Paramagnetic Absorption (Nekotoryye zamechaniya o priya o priyemakh obrabotki re2ulltatov'y ekspertmentakh po yadernumu paramagni-tnomu- o ; oshoheniyu I'l p chamical compound, its composition, structurg state, te:aperature,;-admixtures,-. etc. -The-roforai it-is-desirable- -to exclude the -of relaxation -from ~the -revults.- The following,~!ay is suggested for,t is purpose. Experi- ~m6ntal methods-of investigating nuclear paramagnetic Ireqonance absorption make it, ossible to obtain the re- sconance curve on thd oscillograph screen (Ref 4,5) and, i S ok"tfiis__'rve,,its width at the dotermine the ar, a cu.] . half of its height and the value of niaximum absorption e.4fect. Then, certain quantities can be,forted of these data, which are used in-one -of- the- four-,-methodEr-pro-pased by the author. Analyzing these methods, the author concludes that the most advantageous one is the fourth methodo which con- Card.2/3 siste in.the-followingt all experimental data,are _Tj VT IF Ili It . ) i ~ri  TITLE t SomeRemarks concerning Methods of Analysis of Results in ExDerimeilta with Nuclear Paramagnetic Absorption. (Hekoto'ryye zamechaniya o priya o priyemakh obrabotki re~ul I tatov v . eksperimentakh-i po- ya-dernomu- pqramagnitnomu- pogloshche'n,,iyu) measured twicet at some initial value of radiofrequency ampl~itude.2k.and then A a value of frequency multiplied by a,factor of,p. Then formula ll,in the text determines A certain factor"D41'_iIiieb'does not'contain relaxation times and which can~be.used-to~find the-isotopic content- and the value,of.-nuolea' spin. This method can be applied onlyin cases when the Bloch fo=Ula is' applicable, that is, when the structure of lines is not affected by the quadrupole interaction and inter~6tiifi 0-f"nuclear spins,'and under the condition of slow transition'through the-resonance. There are-~9 -references, none- of which is Slavic. '.INSTITUZjON State Pedagogical Institute in Kazan'. PRESENTED BY: S1UBXITTED -s No date. AVAILLBLE t At:the Library of Congress C a,rd 3/3  OV Category USSR/Solid Stato~~hysics~- Vochaniap.1 FroportieD of E-9, Orystrls and Folyeryetallino Coi#ounds Abs Jour tRef Zhur ~Fizika; Wo 1 .3, 19571 No 6777, Author Stope v, 'A.V. :-Zhitnikov, no _ Inst c VZn~ al:Institute, USSR Title Optical ?- letho of. Inve tigttion of Averaged Stre:3sed Str..tcs in.Fine Grain Poly r I 'Frope .ation of Fine-Grp-in cryst lo. -Chloride 1olyc :silver ry_qtel Specimens. Orig Fub Zh. tekhn. fiziki- 1956 26, No 4, 772-778 Abstr act It is.pra-posed that silver chloride be used as a material suitabie,for the solution of various problems in elasticity and plasticity of, ~polycrystals by optical methods, for it has r considerable piezo-optical activity and its structure is siniler.-to that of netals, Fine-grain speciriens,- neces- sary for the study.of.,,if!croscopically averaged stressed ntallin6 nodia, were prepared by annealin atetes in p8lycry, 9 ~0 for 1- 5 hours at,150 bare -(or rods), pressed with various degrees of deform!Alon froia high grade hgGl ingot. The re- cr stallizad bars.with grain dinensions 0.1 0.3 rui were y  i-:- . ;T - t f ~i I . i Ilif t, 1 44.11 51 ;; ; I i i i. , . :1 - ; s. . _.I, ~ t, ; , ; I ! 6 ~ s i 4~ ~ ~ 1,4 1 , ~. L i . i . , . ~ ~ 1 M ~, ", 4i I'T 5117"I"IRIIII-I ~ I'll! I I "'TH, 1~ Ii i 1 . ., ~ ''. i~ ~,. 1 i : - . :, , ,i : 0 ;- I . I I I I, - , . I I . . . F f i~  ---- - --------- .. Category :- -mechanical Properties of -9 USSR/Solid StatePhysics.- E - Crystals md'Folyciystelline Compounds Jour': Rof Zhur F~ 44e, No, 3, 19571 No,6778 -Author ZhitniWv, R.'A. Stepanov,~ A.-Y. Inst Tcnin-g-r'iT~e F~gogical 'Institute USSR ''Title Optical Ziethod of Investigation. of Averaged Stressed States in Fine Grain Folycrystals. II. Photoelastic Effects in. Crystals of the Cubic.Systam in-tho Casa of Plano Loading. Orig Pub s -fiziki, 1956 26, m. 4, 779-76.5 M.,Aakhn. Abstract % On the basis of the Fockels theory. and Frasnov a work on piezo-optical phenomena .in crystels, the authors examine the photo'elastic behavior of a plano-parellel plate, cut in,pn c - rystcl of the cubic syste er'bitrary dire tion from a c m end plecod in V. no loodol stato. Tho resultant relationchip plr botwocn tho optical path difforoncon of two plano-polarized beemas end tho principal stresses makes it possiblo in nerty partiouler cases to obtain puroly-opticel solutions to the problem' of the, plane.- 1 o ad od stctei na-moly; to find the C d ar ~1/2    APT110i Zbithikov J1. ~"A -11 1 T L' 7 u ~ti c a 1 - ~Ii e to~ 7do:7: Investigating tile A 'z in Finely Grained,Polycrystals (Opticheskiy motod issledovan4, usrednenny1ch-.napryazhennykh sostoyaniy v melkozernietykh IV. The~Ejffect of a Point, Load Upon Anisotropic ft stalline,plf; Dp,,-t-,rbr.- insrodotoc~-n- ' " (TWchil ted)P*ory teloto (IV. - . ikr!,!-,tqI noy sily nA:enizotropnyye tokoturirovann -01 11- YyO o cheskilie pla6tinki Y.RIODICIAL: /V01 /Zhurnal tekhnichesk fiziki, -1 ~ir r'pp. 2o04-20 OY 9513 lo A B ST It K I CT a point load upon Thi3 is an investigation of the effect o'L unisotropic.polycrystalline silver chloride plateletu. -.9 e platelets-with, a:rolling and a pressing textuna were Bub- * loads jected to point- applied in different directions with. r02peCt to the.axis. of rolling or prasaing: 1) The forne act.~i upon a surface parrill I to the oin 2) Th,.- force 6 axis of pres 0 acts unon a Sturface at an an6~le of 45 tovards the Pressinz axis. The evidence presented shows that when a point load acts unon polycryat6lline silver claloriie platelets, the anizo- tropy of the elastic:and o,-,^ the piezo optica, Pro-lertief! of Card 1,14 these plP. teleb3 e-Xerta a considerable influence uuon the StreF-~  )V/57-a9-'a-21/ 3 sc 3 'Otical Method of Investigating the Averaged Stressed State in Finely Grained-Polycrystals IV. The Effect of a Point Load Upon, ',nisotropic(TO[t=ted) Polycry~~talline Platelets, distribution and.,,~upon the optical effects. The symmetry of, the. icochrcmatic lines and of the stress distribution confirm the assumption'that the orientations parallel and vertical to the axis of-pressing conntitue the axis of elastic symmetry. This implies that the silver chloride platelets with a rol- ling or pressing structure are either orthogonal isotropic or orthotropic (Ref 6). ThereAs reason to believe that the radial and,~sector-shape nature of the ~soclines substantiates the assumption of a radial-character of the stresses produced in 11texturated" polycrystalline silver chloride platelets by the action of a point loade In those cases where 'he Dolari- U zation plane is neRr the axis of pressing the optical iso- Cline is wideo'-washod out, and covera the major pnrt of the sample. An investigation of the effects of a point load polycrystalline silver chloride platelets with a pressing and rolling structure shows, that when the stresses are cone centrat ed the averaging process, is alloteed in auch platelets up to higher stresses than in the case of homogeneous dilats;- Card 2/4 tion. The pictures obtained-by polarized light clue to the fii  501r/~--2 1-)-21133 t 4 "1 1 -of Inventigating the Ave Optical Method ragod Streened ,G ained Polycrystals M.The fffe6t of a Point Load Upon Ani.,G'I'ropi C~Textzuted) 4 01 Ycrystalline Platele-b residual stresses ef 7) remaining after e:re,%t plautic de- ar"e'cha acterized by the fact that. '_ h e irterlerena formations r color-, reach their maximum Intensity not immediately at the noint Y.,here - th~~orce~ i_- and where the maximum. strezzec load occur, butirx~aPUce below the loaded. contour. An Investigation. w , a3do ctiirried out of the effectz o~ a point a,. Load upon a hot-pre_---sed platelet o1 pure --ilver bromide (wilh JL X. 2 . 10 MM). The point load acted upon a a cross-section ~,of surface parallel:to the pressing axis. It was found that in silver, bromldeo.as in silver chloride the rota4ion o' the isocline2 proceeds in an opposite direction. (*rf' the dis-, placed polaroida are mnde to rotate, the rcidial or the. sec- c t.L tor isoclinic line will remain in a radial dirf, -on and it 'will rotate in a-d4reetion opposite to that of the polaroide. Such an inverse rotation of the radial ieoclinic JAne only occurs if the narameters of the elactic and the ontical iso-~ clinic line ahoz- an opposite 2ign). it iEt assumed that silver Ca r .1 3/d chloride and silver bromide !1ave a roll'iji~, texturo of  Lill HI 'i ],I.;  4UTHOR: Zhitnikov RO''A S 0-22/33 07/ 57-0 37 , T I T LE' t f :Investigating the Averaged Ctressed States In Fin4ly Grainked,Polycry-4tals (Opticheskiy metod iasledo- vaniyu uarednennykh napryazhennykh sostoyaniy v malkozernistykh ' volikritallakh) V~. Stress at the Free Boundaries of Aniso-,. . tropic ("Texturated") Polyeryotalline Platele~'s (V. Napryazhe-w iiiya na ovobodn,)rkh konturakh anizotropnykh (tokutur irovann kh) polik-ristallicheskikh plastinok) /Vol 28, FIRTODICAL: Zhurnal tek-hnicheakoy fiziki, 16 (USSR) 1958, Hr 9, pp. 2oll-2o ABSTRACT: tion of the stress distribution at,-the This Is an Investiga free boundaries of plane:anisotropic pollcryptalline,models of silver chloride with holeo and grooves and of the.strelad ~ rieing fromla stretching of the samples. poly'- concentration a " . cryatall ine,-;q trips ..of silver chloride, 2 e 10 mm vhich were Obtaine*y-Compressing d ers (PO f I finely &rained cylin served as test material. 1) Stretchina of an arisotropic polycrystal l4ne platelet, with a airexilar drill hole, a dis-. -ing applied at the hole cireumferen stress ce . The 'l isochromatio curves were produced at the ends of the horizon- .-Card 1/3 tai bor'e' hole diamater under load, that is to say at the  " f 0" 57 33 tiptical U, e t h od of rnvestigating the,jiveraged Stressed :Itutes ini -Finely G~rain6d Polycystals. V. Stress.,at the Free Boundaries of Anisotropic Folycrystalline :Platelets places with the.'-greatest stress concentration. The-darkest places wer f I e ound tear, the.ends of the vertical hole diameter. The isochromatic curves produced in this material are similar to those originating in the stretching of bored platelets of 4 P_YI Lootroi)ic matorial~(celluloldq bakL-lite etc.). The pheno- menon described In reference 4, the inverse rotation of the optical isoclinic line, was also found in the atretching of a plateltit* When~a load is applied after a plastic deformation the isochromatic.curves do not start out from the Dlaces with the maximum~stre.ss.concentration, but from places which are a good distance removed from these places. 2) Concentration of stress at a deep groove on both sides in the "texturrAted" polycrystalline platelet in stretching. Le was found already in relperence.4 the residual stress distributions in silver chloride And in Amorphous substances (celluloid, bakelite) rom after an equal plantic deformution considerab y differ f each other. This i3 due to the different mechanisms of plastic Card 2/31, deformation and to the capability of silver chloride to solidity?  CIV C!, ti a u 11-0 t hod Of Divestlgatinv the c rn i n t- cl 1'o 11,~? t 3v:4 v '; al V .Stroof, at fAv., ~,roc ~uur,,d.,?.vAef; ofia ~M-0,Ixttwate'l ol tall ine PI-itclets in nr't':foupd in amorphou.9 vubutance,,i. Compres:~ion dlamo.4,al diraction o" a Tlarto 3~ing wl th a ?"e xturated" 1~0' n po Te no stl-uctur c V e. The compi int' loads a -.1 k~'; 411 the szmo flivertion vith rcili-,tact 'o t! e ~nxk'~: a's !~44 dozl~- in 4-he work, JT. rcftt~rence 4in the m s iVe (not '3rilled ) preaced eil,;er chloride plate- F_ ;_j a L~te. 111-ader conditionE! the -T eo in both 10 C11rr wl'c~ 401j U t o nrl made- , vr~luable to the au'ithwr. ThGre are. 4 t"', 1 table, and v-'e~7' 05~ Of, ~t. h ar~. 7", i'1 ON - mA.-ro-ic"L1c-_riy -institut i iAztan t f i z I C. A.ri.ut-;'tu4,  24(6) :AUTHORBj Zbitnikov,,, R~A'. ~-Stepanov, A.V. SOV/57-49-10-19/40 TITLEs' -Comparison Vith Theory, of ...the 'Experimental Results Obtained by Optical--Methods-of Stressed'State Investigation of Polycrystale (Sr4wniye-a teoriyey,oksperimentallnykh rezal'tatovq davayezykh opti6heakim metodom iseledovaniya napryazhennykh sostoyaniy v polikristallakh). PERIODICALs Zhurnal tekhnichookoy fizikijVWP' 2236 (USSR)- Nr 10g pp 2228-~ ABSTRAM This~paper.~ pregeniq the information gained by the methods of the theory of elasticity of an.anisotropic, 'body in the investigation bf-.the.stresedistribution at the circumference of a hole in a olyarystalline silver chloride platelet under tension stress the platelet being produced by pressing or rolling) (Ref 1). t This paper gives also an account of the determination of the stressed-state produoed in such platelets under the action of a , single load.'The streas distribution determined by theoretical considerations-are ompared with-experimental experience. The methoda,used in.this work are-reported in references 4 atd 5- It appeare,that the experimental information is essentially not at variance with theoretical data. In most cases the insufficient Card 1/2 accuracy of-the experimental resulte.offers a satisfactory ex-   24(6) AUTHORSs Zhitnikov, R.A., Stepanov, A.Y. SOV/57-23-10-20/40 TITLE: e'Linear Stressed States in Polycrystalline silver Chloride by Means.of Optical Methods (Issledovaniy'e liney- i nykh na pryazhennykh boatoyanly v polikrietallichaskom khloristom serebre opticheskim metodom) PERIODICALz ,Zhurnal tekhnicheskoy fiziki,Vol Nr 10, pp 2237-2247 (USSR) ABSTRACTt Thi's is. an.invedtig'*ation of the particular features of the,piezo-' -electric behaviour of finely grained quasi-isotropic polycrystal- line silver chloride*-samples under uniform tension stress and under purely elastic and plastic bending stress. It was ascertain- that itliSPOSAM0 to determine the averaged stressed states. by-means.of optical methods if such a crystal is subjected to elaatic. deformations not exceeding certain limits This method renderd-visible the stresses caused by elastic an; by elastic- plastiodeformations,such investigations yielding correct results. The fact is substantiated that the quasi-isotropic polycrystalline silver chloride is a particularly convenient material for the stu- dy of th4,,residual stresses remaining in polycrystals of such R structureafter plastic deformations. The inf*rmation gained Card 11A in the investigation.of the elastic-plastic bending of finely  Investigation of the Linear Stressed States in Poly- SOV/57-23-10-20/40 Crystalline Silver Chloride by_Means of,Optical Methods ..grain'ed,polyckystalline-texture.,platelets of silver chloride indicates'that,:such samples canbe used for an exact investiga- tion by optical methods of the stresses produced in such-plate- lets under elautio.and underconsiderable plastic deformations., It is also:poeoible :to determine accurately the reaidusl~otreea Aiatributionafter &.plastic deformation. Mere banding results in a simple linear.stress for which the,character of stress di- stribution in isotropic and anisotropic platelets can be pro- dicted for elastic-and for elastic-plastic deformation. There is no necessity of investigating the elastic and mechanical properties.ofthe quasi-isotropic or of the anisotropic material for the purpose of predicting these states,for mere bending. The information presented in thiQ paper bearing on the investigation of mere bendimg of platelets of polycrystalline silver chloride by meanslof optioal-methods and a comparison of-this information with calculated data validate the correctness of the values ob- by optical.methods for elastic and for plastic deformation of polycrystalline silver chloride of different structure. There Card 21?r are 5 figures and 6.references, 6 of which are Soviet.~.   6/051/60/008/03/001/038 1201/E191 AUTHORS i Buka G.M and Zhitnikov T.ITLE: On the Hype rfine. atructur6 %f ~ManY- eatrork toms PERIODICAL: OPtika i-spektroskopiyas 1960t Vol 8t Nr 3, :_r--'.PPI:285-~293~ (USSR) ABSTRAM ~The hyperfine'intera ction, i.e.,the interaction of magnetic and electric moments of atomic nuclei with electron shells, inatoms with several valence electrons was dealt with i n a number of-papers (Refs 3, 4). Racah (Refs. 5, 6): and Trees (Ref 4) described calculation of , the magnetic--dip-ole-'' d'alectric-quadrupole interactions an of nuclei with eldetron shells, containing s-, p- and : d-electrons, in :the.e.entral field and LB-coupling - , approximation,*.-'Buoh.a,treAtment is.insufficient in the aase.of rare-earth atoms, whose partly filled shells equivalent electrons with an orbital quantum. mimber t =. 3. The present paper describes.a calculation of the.electron matrix elements which appear Card in the hyp6rfine structure constants of atoms.with 1/2 several equivalent electrons in a partly filled shall, The authors discuss-LEI- and jj-couplings. "Genealoglea J  :~ i i I il; ,t , T ,I : I t 1 14. ~ TAIllit f! I U, 1UPF" Ill!': I   IT  N 11,41; -7,  0, 7 -41128 S10561010431004101 11061 1h U 102/BlOO AUTHORSt Zhi~nikov,__ ..Kolesnikov, If., V. Kosyakov, V. 1. TITLI-4 nce'in free silver atoms trapped in non_,~ Paramagnetic recona - tr media t 77 K poll a PERIODICALs. i tooretic Zhurnal eksperimen a noy heskoy fiziki, 'no 4(10), 1962,~ 1 it36 1196 -UT i T L The . of paramagnetic resonance has hitherto been,u ad only for method 1 , tyapped hydrogen or niirol!en atoms. The measurements were made with a 3-cm bqnd'radios pectroscope wilth rf modulation (975 ko) of the permanent magn e tic field,a cy lindrical H resonator~and an automatic r1ecording.device. The il o specimens wereprepared in the radlospectroscope cavity* by vacuum evapora- tion of.the silver from a molybdenum coil and a paraffin from a glass -heater with condensation-on the bottom ho of a 770K quartz Dewar flask. T 107 1 A' log Ag g ratio was 51-9148-1. The experimental results are given in Table .11 .-H 1 'and 11 - are the ma natic field strenLrths for the first and sea- 2 ar  8/056/62/043/004/011/061 Paramapnotic rosonance 13102/B180 d transition. These values were used to calculate 4v and the Land' on e -f actor gj by t glo v AV H V AV + xI_ + X2) 2. X, gi) X2 (9j 9i).PHj hAv; nortional to the magnetic X (g -gj)PH/,dw~is a dimensionless quantity pro, field, 9 311, the nuclear gyromaenetic ratio,,A is the hyperfine inte,v- h1l. action constant, IAI the nuclear magnetic moment, and,60 (21+1)A, the Y2 hyperfine splitting of the atoado ground state enerpy level for H-0, is, Bohr I s magneton. 'A a there is little dift~erence between the 6-0 and V a lues 91 for.trappod 'and f ree silver atoms, the trrt~,),ped- atoms can be treated as free ones with slightly perturbed electron shellu. The die material has little effecton the spectrum. The two different tyi;ies of spectra 'of the trapped 0 silver atoms show that at 77 X they are in two different places in theparaffin structure. At room temperature they withdraw and the paramagnetic resonance vanishes.completely and irreversibly. There are 4 figures and 2 tables. Card 202: A  S/056/62/643/004/011/061 ParamH(rnctj.c resonance.... 3102/BlOO -ASSOCIATIONs LeninCtrads ~fi7ik kiy P-tekhnipheskiy inatitut Akademii.nauk 333R-tLeningrad Phl,sicoteclinical. In my of sfitute of tbe- Acade sciences Mia) jUJJMITTEDi Way 0j 1962 11 eirend to the iabless (1) Die m 'torial;.(2) CoiwPorcial purraffin; (3) iy'p'e'~of DPOctrum'. B); (5)"Mc/sec. Table 1. sit. Iff-ffs, A .00 To MATpvtxA neur. H1. 06 00 H, IT Aglol A 9600,0�0,5 396.0�0.3 3710,3�0,3 623.4�0.6 C- To A': OKOD,01-.0.5 3M.5�0.3 3750,1�0,3 721 (1�0.8 Av'O' 0000, 010, 5 3107,2�0.7 3flq4,6�0,0 587 4�1,3 AgId p * B -1,0 6811,8�1,9 Agin v w B OrM,0�0,5 3(L51,2�1.2 37:1 -.t0 7 Agm C1,M41 A~ 0.%*,9�O,5 M2.10.3 3G75 8�0:6 1123.7�0.9 A9109 "Ho A M3,0�0 5 2003.8�0,3 3715,7�0.3 721,9�0.6 A0101 C, H -A. 0509,6�0:5 3081,6.t0,3 3712,8;t0 5 625,2�0.8 A~ 0500.0.t0,5 3028J.0,5 3752,6�0 5 723,0�1,0 bard' 314  S/056/63/C;44/004/016/044 3102113 166 AUTHORSs Kolesnikov, N. V., Koeyakov, V. 1. TITLEs Paramagnetic resonance of silver atoas trapped in polar media ! at 770K FERIODIC4,4k, Zhurnal eksperimentaloncy i teareticheakoy fiziki, T. 44, no. 4, 1963, 1204 - 1210 74M Previous investigations (ZhF.TF, 45, 1186, 1962) on the paramagnetic r8sonance of silver atoms trapped in non-polar media vere continued; the V method of measurement was the same. The difference consisted in the media used: first nonpolar media (solid at rcom temperaturej were uaed,and then polar ones (liquid at room temperature)t distilled wst~r and absolute ethy alcohol. The measurements were made with a radiospeatr)soope (5-cm band) with h-f modulation of the magnetic field. The constan. magnetic field wa s measured with an accuracy of 10-4 by the nuclear nagnat c rejonancie aiethod. For each of the silver isotopes (Ag, 070 kg log , I . 112) there are four Zee- man fine structure levels between which two resonanoe lavels are possible in strong fieldsi (]?u 1', mom 1 )---KFa 0, ma 0) a nd (F. Im- 0)--" F. IM. IFor both Card 1/2 N ~ '11 1 W1M  S/056/63/044/004/016/044 Paramagnetic resonance of silver... B102/B166 Isotopes Av and gj (Land6 factor) were measured in several series. AW/h, &W being the energy of hyperfine splitting of the ground state 2 S,/,) at H.O. The results (Table) proved very sensitive to the purity of the matrix substance. There are 2 figures and 1 table. ASSOCILTIONs Fiziko-tekhniaheakiy institut im. L. F. Ioffe hkademii nauk SSSH (Physicotechnical Institute imeni A. F. loffe of the Academy of Sciences USSR) $UBMITTEDs December 1, 1962 Atom matrix a -. Al 44 J., frae_.~at 146-Ot 2,00224�0,OMW AM (4 A9147 OM 2,06224 t (W26 AgIN free atom i976,94�0,(M A91*7 HjO 1736,9 t3.1 4-1.42 2.W21 t' IgAw,') AgIft HjO 2(YA, 7 t: 2, 9 1.4,, 1,1*4Q..'t .41wi AgIal C~HsOH t5rg),3 t2,4 -U1.311 2. (4) 1 M W-18 Alit" rH,011 1711. f) t 2.1 1 .1".11; 2jioLi lxf)i) 2/2 '4EJ R 1111MI,  ACCESSION NR, AP4041050 S/0120/64/000[66S/6189_/0l9Z- AUTHOR: Zhitnikov, R% 'A.#, Holeanikovi N. V. TITLE: Methods f6r ca rious media at the liquid-nitrogeh pturing free atoms by va -resonanc ~i- temperature in Paramagnetic a studies SOURCE: Pribory* i tekhnika eksperimenta, no..'3, 1964. 189-19Z. TOPIC TAGS:, pararmgnetic resonance, atom capture, radiospectros cope. atorn capture by.conde'noation ABSTRACT: The capture and. stabilization of free Ag atoms in both nonpolar '(paraffins) and polar -a -(water and ethyl alcohol) matrices, -at the liquid itrogen ramagnetic-resonance spectra of thena, temperature, were etudied Alao, tho pa 'recaptured atoms were investigated. :Tbma condensation method was used for the capture, and the specimens were, produced directly in the resonator of a radid- spectroscope. Two -outfite (sketches supplied) are described: with heating and 11Z -- --------   I I t : . ;; I ; 11' , 't i 'j t ; , i.  ~Ijppp- - . ~ - 1--: Illilipw : , . - r~ ~ - :- 7 1 - %- - - f -   ~CV 5t ;Vi 1, L2ij! 'fi: t ~-ACC-NRt--_-_-Ap6Oj8542-- ----.-------SOURCE:-CODE_:- --UBIOIB 1T :AUTHOR: Zhitnikov,, R. As; Paugurt, As Pi ORO: Pb7alcortechnical. Institute im. A. 1?. loffe, AN SSSR (Fiziko-tekhnl hskiy btitut AN SSSR); Leningrad Polytechnic Institute im. M. 1. Kalinin (Lenj kiy politekhnicheskiy institut) TITLE: Yaramagnetic resonance of free silver atoms stabilized on solid surfaces SOURCE: 'Fizika tverdogo tela,, i,.. 8p- no. 6P 1966, 1796-3B06 -A TOPIC TAGS:, silverp freeelectron,, X' ray irradiation, silica gelp atomic propertyp adsorptiony-surface propertyp epr spectrum,, hyperfine structure t 'ABSTRACT:,,This.is a.continustion of.earlier work (M v. 7o 1926,, 1965) on the pro- duction and stabilization'.of free silver atoms by x-irradiation of frozen silver-salt solutions at 77K. In the prisent study the authors obtained similar atoms by X_ irradiationat 77K of silica gels with silver ions Ladsorbed on their surfacesp and stabilized these atoms on thV surfaceso The teat procedure and the types of silica gels are briefly described. The properties of the atoms were investigated by para- A~magnet ic resonance using aLstandard.30-cm. radio spectroscope (RE-lNl). The stabili-, ~zation of the silver atoms'vas evidenced by the fact that the shifts of their byper_ Tine splitting (4o.6 to +1.8%) differed greatly from the shifts observed in frozen I aqueous and alcohol solutions (-12 to -24%). It is proposed that the atoms are stiL.-L. bilized as a result of adsorption of part of the silverionn from,the solution on the   NRz ~L -1/0162/ol66 SOM69 CODE: UR/O181/6VO09/C,?j AU' Zhitnikav, R. ft A.; Kole;nikov, V. ,O'.RG: Physicotachnical Institute im. A F. Ioffe., AN-:SSSPp, loininerad (Fiziko- :,-~tekhnicheskly.institut AN SSSR) TITIE: Theoretical analysis of the matri: ngs of the hyper K shifts 0) plt6i fine i-structure:for the,atoms CuP Ag~ a'nd.Au-, stabilized i~nl~ pblar matrix (H20) SOURCE: Fizika tverdo6o t-ela., V. ~9# no. i) 1967,j62-166 OPIC TAGS: copper) silver$'.goldp hyperfi ne structure,, line splitting, polar molecule,' ground ~ state' i-ABSTRACT: This is a con inuation e r 7 1710~ 19 of arlie work (FTT v 65.and earlier) ',where,experimexital,data,were-obtained on the hyperfine structure of the ground states of atoms stabilized in polar'mat icei r . s, The present investigation is devoted to a -theor6t 4: ical. inuerpretation.6f. these data for the atoms Cu, Ag, and Au. captured in a matrix of polar H20 molecules.- and:to theoreticalestimates of the variation of the hy ine structure for atoms of the-same r perf elements) but.stabilized in a nonpola t ,.~pmo ecular matrii, (CoRa), alsd~ 6 o arried out by the authors earlier. The present cal- :,4,culations'are based on the'results-of formulas. derived in~the earlier work. The com- p6rison of the theoretical, calculation with the experimental data shows that the ,-~!-Vmatrix shifts in a: liLr matrix for the Ag and Au atoms can be catisfactorily:ex- PO plained on;the basis of theoretical ideas advanced by E. J. Adrian (J. Chem. Phys. Card -1/2  IT-    i i il -'r I I I i, i~ !- 11i V, t~ , ~ I ii S... "l1 ~ ~ . I  . ... .. ......... ..  JR, MR  . - - --l. ~ " f  -itl  L Fizlko-tekbnicheskly#stitut AN SSSR.  . ..... .......  OR E fuI  I . m-7- -77:    .~__ACCESSM NR: iiP4012527 1 :polar,,matrices~'(ZhETF v. 42,'~ 1186, 1962 and v. 44, .1204 po, ar and :-1963) The paramagnetic res-onance of gold atoms tra ed by 'conden- Pp a -nitrogen te eritur- a on,~at liquid, mp a e n polar media (ordinary and ...heavy water, othyl alcobol)'and in.a.nonpolar one (undecane) is in- n." v t ate .'.Paramagnetic'resonan es ig d ce of-silver in undecane is also i vestigat d for.comparison. It is concluded that neither saturatio e n, lattice'telaxation,~,roplacement-of protons,by deuterons, nor 5-hyp fi- i io f or ne~ nteract n o -tho trapped atoms with.the nuclear moments," .,':of-tbe'matrix make a,consider 14" able.contribution to the line widths, which 'are ~Aetezmdhed in practice bk-the inbomogeneity and anisotropy,-, .,..-:of.tbe Interaction-forcese- It is also concluded that, of all the' X;matrices~investigatedt mater.produces:the'smallest disturbance of ~11 .the-shells'.of.the trapped 4toms.and ethyl:alcohol-the largest.:.-: Orig'.'-',: art.' has t, 3 gures 2 formulas, and 2 tables ~P_ q.ASSOCrATXOHr ~,'F zk6 tekhnicheskiy institut im.;A. F. Xof&AN SSSR F cotechnic,al Institute: AN -S Physi SSR) -Card -2 :X:  L ",~ V., r, -, ~ c m" 1 # X 1. , 4 ,l 1,1%r I `~Jtl , - '. r ~, -~ ~ .1 11 t  7z  Vk, IBM'  . ...... -------   Al_~.; NKs AP5027044 SOURCE CODE: UR/0120/65/000/005/0236/0237 AUTHOR, Zhitnikov, R.A.; Kolesnikov.- N.V." A Instih A., Wit ORG- -Phi0j~s4ngincering, Ae, -166nlngrad (FlzIko4ekhnich~sW1WtItUt ~'AN SSSR) TrrLE:- A. method, -for tethpbratuie lavd-AtIgitions uriag the study of the p4ramagne tic resonance of-free',athms stabilhed: lit varidds -media SOURCE: P rY aentas,, no.. .0J965, 236-237 ribo 1. tekhalka ekspeirin 5 ~TOPICTAGS: low tem0erature vZ4nb m e no np~raiiiakrieic resonance,., atom, atomic physics ABSTRACT: n earl er study of, free' atoms stabilized it liquid rq!t-o eu-tianvp -was perature :c led -an coEr ucted de arr out utilizini-a speclall~-deslgfied d-- vice (PTE, 1964, No 3, 189). buir-ing-t'he increase In temperature above acertain value, the stabilized atoms begid to dis-_ appear as a result of diffusion and reaction with the substance of the matrix. To ohdiiuch maximum temperatures at.which the atablllzed~ atoms tire still able to exist, the studs of paramagnetic resonance spectra must be carried out in a wide range of temperatures. The present note describes a method for the cooling and. smooth temperature control In. a device for the paramagnetic resonance-invesUkati6n'of stabilized atoms. The coolbig in the 20 to 100K region is carried out by helium vapors,' and in the 95-300K region by nitrogen vapors. The device Is capable of maintaining these temperatures within +2K. Orig. art. has; 2 figures. UDC: 636,48   6%(M9_~ - BOURCg 66bp r3 ~2 Z-75 5 P AUTHORSt Zhitnikov, R. A.; Orbeli, A. L. ORM-Physi cotecfinica_Ylfi6~ittita Im. -A. P. roffe AN 333R. looningr6d" TITLE; Paramagnetic resonance of.,hydrogg atoms produced In rrozen acids- irradiated at 77K SOURCE: Fizika tvqrdogo.telas~v- 7,,,-no. 120 1965, 3522-3r-29 110 --TAGS:.. e lee troh paramagn t c resonance, hydrogen., x ray irradia PIC e I ti on, ,uv IrradiatIon, inorganic acid, hyperfine structure, line 8~litting ABSTRAOT: This is_a..continuation of earlier work by the authors (PTT v-. 7.,-1926, J-965) a~hd:i6 devoted to an investigation of frozen acids and,alkalis exposed to x-rays and ultraviolet 77K. A large yield of Btabilized hydrogen atoms was obtained In 11F and HC3 and was inveBti- gated by the method of paramagnetle resonane`J,~4~ur,:? aqueous solutions of varying concentratf-ons were tested. In th 'case of acids which could be obtained In large concentrations (H 2s04 and 1~ P04)' It was observed that the splitting of the hyperfine structure of the stabilized 1/2 Card 2 2 iU i'~ clof~dvm  SUB CqDR: 2,P/-.--; SUB14 -DATE: 1y, _00~/ OTH, REP 29m;__6 ORIO REF: Card~:  - . I ~ - ~ I ~11 ~ ~; ~ ~ M I I I .I I . - . , 0 lp T w 1 1 r 1 -   -N ;-I. I : ti. k~. 1 ~ . J,. ; " I ~f~t   , M.50, doktor khim.nauk; GOLIDI~kX, A.M., kazd.rAuk; OLUSKIT,   ~ ;1; ~ rk~~ i ~'.'   -" l'ifli".4 ~!.!, i P ;." , 1 , t   BOROVINSKIY, Boris Aleksandrovich; AVSYUK, G.A., otv. red.; ZHITNIKOVA, S.A., red.j MATYUKHIIIA,'L.I., tekhn. red. (Collection of articles) Sbornik otateis. Moskvao Izd-vo AN SSSR, Nos.10, 5.(Exploration of the Trans-Ili Alatau. by geophysical methods] Isuchenie lednikov Zaililskogo Alatau geofizicheskimi metodami. .1963. Ill p. (KRA 16:10) 1, Akademiya nauk S33R. Mezhduvedomstvennyy kamitet po pro- vedeniyu Mezhdunarodhogo geofizicheakogo goda. ix i xii razdaly WIG: Glyatefalogiya i saytmolotiya.- 2. Chlen- AM OCCO tP--  KRASOVSK.TY, V.I.# doktor fiz.-matem.-nsuks otv, red.; BAGARYATSKIY, B.A.,, kand. fiz,-4ateml, nauk, oty. red.; ZHITNIKOMAS.A., red.; DOROKHINA, I.N.., tekhn. red.; MATYUKRINA, L,,I.p tekhn. red. [collection of.articles of the Intergovernmental Committee for the Execution of the 1niternational Geophysical Year] Sbornik.statei Mezhduvedometyennogo komiteta po pi-ovedeniiu Mezhdunarodnogo geofizicheskogo goda. 14oskvaj, Izd-vo M SSSR. No*10. 1963. 153 P. (MIRA 17:2) 10 Akademiya. nauk'SM.:M'ezbduvedomstvennyy komitet po pro- vadenivu MezhdunarodnoLm Lyaofizichaskoeo Lroda. TV razdal nrn,7-   vt J!! - I 1.~ t 1-,51 -. ! I I , " . ~ 1 i. I p I,     I , 1~ ~ 1 .11 ". t 11 "It I I ~ - -, 4: - I , .i " F ;~ ;.! ~FT PI-I _i I i 1H ;, H I ~- I : ;! . .   - I- T-9 ~ 0 jl 1, 1 a w ;~ , if ii .7. - 14 , ..- , ., , 1 11 ~ i ". ; ! 'i . I N '. 1, ; r w " " I , ;-*.. -- I I iid] I II  124-58-9-10543D Translation from.: Referativ.nyy zhurnal, Mekhanika, 1958, Nr 9, p 157 (USSR) AUTHOR: 2hitnitska a, E. L. Y TIT LE: lnv~esti8a`tion 6~cceintric~ally Compressed Reinforced-concrete 'Columns With Stressed Shaped-profile Reinforcement, When the. Eccentricity is Small ~(Issledavaniye vnetsentrenno-szhatykh zhelezobetonnykh kolonn s nisushchey profill noy a rmaturoy pr t malykh ekstsentritsitetakh) ,ABSTRACT: Bibliographic entr y,on the author's dissertation for the degree Pf Candidate of Technical Sciences, -presented to the N. -i. in-t betona i zhelezobetona Akad. str-va i arkfiitektury SSSR (Scien7 tific Research Institute for Concrete and Reinforced Concrete, Academy of Construction and Architecture; USSR), Moscow, 1958-. ASSOCIATION: N. 1. jji-t betona 1, zhelezobe'tona Akad. str. -va i arkhitektury SSSR._(Scientif ic, Research Institute for Concrete and Reinforced Con6rete, Academy of Construction and Architecture, USSR), Moscow ~.-l Siructures--Analysis 2. Reinforced concrete--Applications ....Card 1/1 A      ZATSEPINI S.T., kand. mad& nauk (Moskva, G-19, Gogolevok-iy bultvar, d.29, I!rr,, 0   ~'! i ~-:~ 2. :- - i~ , ~ ': : '.1~jV1111 - If I ", " I p I I ~ 11 r i ? ~ i 111r, 1H I Id I I - :~ . 1 . I ~ I I I ,"-. r. -~ f I 6!;!;f i 1' 31 : I I!- -, 1 1 - I - i v - ~ 11 ~II i F:!!~-`*2 I . . it, . . I .. .  Kl, 1 f. ~ '1~~ t ~~ II] ~i!~ I I', [j, I~,!i, i I i~;,- 1 " i. i~ ",-, F~ !~ ; !.,. . , 11 ~, : 1 i - --., -. F[ --tL -L--- , 1, -, - I ;,~.1. li . !- I, ! !~;l -1 -tL---  Me-1 Al. - -11 NO 1. IN RE H IH 11  -A iii ~ ; . If ~ I I ~ I F I ~ 'T'I'l Al ~; f, 11 F r7`111 . I . I    1,1k NJ   P,-, Oil I ID   TAN, 11,14-9 -149'rV ~ . i, 1~ Illill ml ME-