SCIENTIFIC ABSTRACT KLOTSMAN, M.I. - KLOUB, J.

GIMMIXO# likoUw Xobort&rlobl ZWMQF, Al*ksor fitepsmorlob; blutull vlabs#tlysl SCIIWo APo What ZRIMM4 I.As 121hol TQZMWj Aolagluthol MWALINt r4A,# lusb, XIMMINTO TOP40 ksvA~t*khu*%&*# rotmossout; MAMMOT, 8,P.9 IrAbot rets"soutt SAlmn, A.4,, tusba, retseimut, ZALCZMW# Gala@ lusbo#' ret"osentl XZM # 112thes -99-m~l n1sousentl ICLNOOCROT.o ' 3,160 lusbog refs-"sentl WAWO ILXo lissh.# red.1 WGIVA, I;A.9 tekhar*d. [Yakloc o"olol Xodellms prols"dstvab 3, perer, Isd, Xeskyas Ws4lso 1961, 295 p, (XIRA 14M) (Wglnoorlvg models) (Noldite (ftuMlog)-ikutpwout &M m"lles)  1~ L --- tj -: , M c % S VA V\ ) .> 126-2-24/35 AUTHORSi Arkharov$ V* lot Xlotsman1__S, U,-and Timoteyevi A* No TITM Autoradiographic investigation of the influence of small additions of antimony on the diffusion of silver in ol orystalline,oopper, (Avtoradiograficheekoy'a ssledovaniya4liyanlya malykh dobavok surlmy na I .diffuziyu serebra,v polikristallichaskuyu med'). PERIODICAM Fizika Vetal2ov iletallovedeniye, 195?1 V01.51 NO.29 pp. 367-368 (USSR) ABSTRACTt The influenes of small additions of antimony on the character,of the diffusion of silver in polrorystalline copper was studied qualitatively by microstructu" methods in a V~por by Golldebtayn, T. Yu.,and one of the authors in earlier work ,(Ref,l), The seition was studied of the diffusion sone parallel to the direction of the diffusion- the diffusion zone was exposed by means of etching o14 out by,a specially selected reagent. It was found that during'diffusion of silver in copper a uniform diffusion frout.forms and in the copper alloy containing 0-3~to.0.4% antimony the diffusion front has projections along -the grain lboundaries, Due to the absence of,speoial tests for elucidating the influence Card 1/4 of antimony, idditions on the possibility of revealing the  126-2-24/35 ,Autoradiographic investigation of the influence of small additions of antimony on the diffusion of silver in polycrystalline copper. show the autoradiograms of arose sections at equal depth from the active surface (0.1 mm). It can be seen that in the pure copper there are "sections" of projections of the diffusion front; along the grain boundary which were not revealed by microstructural methods in the earlier work (Ref.1). However, in the alloy containing 0.4% 8b the "sections" of such projections are considerably more pronounced, If in the copper the silver is revealed on the investigated cross sections of the out only along certain boundaries, the distribution of active silver in the alloy completely surrounds the grain boundaries. This result confirms fully the qualitative observations made inilbe earlier work (Ref.1). Fig,1 shows the diffusion of Ag into pure copper at 65000 for a duration of fifty hours, a depth of out of O.l.mml magnification 20 times,, osure 150 hours. Fig.2 shows the diffusion of Ag 16vinto a copper a;loy containing 0,4% Ob as a result of annealing at 650 0 for fifty hours; depth of cut 0.1 mm, exposure time 150 hours, Card 3/4 magnification 20 timer.  If f -a2jjf Autoradiographic investigation of the influence of sma One of antimony on the diffusion of silver in polycrystalline copper, There are 2 figures aLd I reference (Arkharov V.I. Golldshteyn, T, Yu. Trudy IPM UFAIII 1950, No'lil P.R). (Note: This in a complete translation). SUEMITTED: February 12, 1957. ASSOCIATION: Tnstitute of Physics of Metals Ural Branch of the Ac, 30.U8SR (Institut Piziki Hetallov 6rallskozo Filiala All 888H) 1 AVAILABLE,-, Library of Congress. Card 4/4  AXMAMY* Y.I.; K WTSKAN# SA,: TIM)MV, AXt RUSAKDT. 1.1. Study of Intercrystalljoe diffusion In wtals and alloy@. leal. po sharopr, splav, 31111-118 ~ 58. Oan tim) (Diffusion) (Crystal lattices)  AFaMWT- V-1-1 OALIBM- T-S*: ZLOTSMAN, S.M.-, TINDMV, A.N. 7oasibilitY of autoradlogrspble detection of normalform cowgntretions of adsorption orlen. Isol. po sbaropr. $Play- 3t296-302 $ 58, (Alloys--getallograft) (Adsorption) OaRA IWO -004  AVMORS: Arkharov, Vol. &1agtacan. 9X. . Timfeyev. A.:7. ................. TITLE: The Employment of Radicaotive Tra.-*rz 'Acn 3olving Problem of Internal Adsorpt-ion in Solids (1'rLmeneniye mdic,&kti%-nykh Indikatorov k retheniyu problemy inutranney adoorbt3ii v tvardykh telakh) FMODICALs Atomnva'Energiya., 1958, Vol. 4, Ur 4, p-,. 36C-381 (USS R) ABSTRACTs One of the most Important factors influencing the physical properties of technical materials is the influence exercised by the internal adsorption of itTurities upon varimm structural inhomageneities. For a System OU + As vith slight Sb-Impurities it ms found by metallographic as won as by autorsdiograr-hic means that trith a diffusion of AS a non-uniform front with projections Is formed, which extends far into the interarystalline b _r,VM. Further- more, the fact va* established by mans of AS I that there is a linear dependene between 1n i (oharacteristio of volume dif- fusion) m0 y (depth of penetraticn of the diffusion)*. It Card 1/2 follows therefrom that the Sb-admixtures bring about an essential  The Mnployment of Ra4loactive Tracers dhen Solving Problem of Interral Adsorption in Solids change of the difftsion p*zueabillty of the intercrystalline sons, which to intlicative of ths erfeat produced by the in~- ternal diffusion of the admixture. There are 16 references, Wof which are Soviet. SMITTEM January 9# 1958 1. Copper-sllvei- Ir.~vters--Ad&orptIVrj propertles 2. Copper -silver systems--Autoradlogrup?W 3. AntImmy--Adsorption 4. Silver isotopes (Radioactive)--4)pIleations Card 2/2  BOY/126-6-2-8/34 AUTHORS: Arkharov, V* lot and Timofeyev, A. No "PIMS: The Effects of Trates of Impurities on the Diffusion Coefficients for rolyerystalline Uaterials (0 vliy=ii malykhllrimesey na koeffitsisenty diffuzil v poli- .krinta ichenkikh materialakh). 11 MRIODICAL: Fitika. Matallov J Metallovedeniye, 1958, Vol 6t Nr 2, pp 255-26008SH) 'ABSTRACT: Al-110 is used to study the diffusion of silver in pure copper, and in copper containinj3.0.1% Be withol4t WA with previous heat treatm8nt (100 hours at 863wC, or the some plus 50 bourn at 590,C). Figs. 1-4 represent the results for these cases, in the above order (radiation intensity in layer-by-layer electrolytic etcting vs.depth), in all canes for 100 hours' diffusion at 590 C. The effect of the Be is to increase intercrystallite diffusion and the magnitude depends on the treatment. The extent to which -the Be tends to concentrate in the zones between crystallites is discussed in a rather Card 1/2  SOV/126-6-2-8/34 The Efteots, of Traceo of Impurities on the Diffusion Coefficients for Folycrystallino Materials 11 general way in the light of the results, There are 5 figures* I table and 13 references, 10 of which are Soviet, 3 English. ASSOCIATION: Institut fialki metallov Urallskogo filiala AN SSSH (Institute of Metal Physical Ural Branch of the Ac.Sc.9 USSR) SUBMITTED: kuk-,ust 21, 1957 Card 2/2 1. copper alloys-Diffusion 2. Silver-Properties 3. Beryllium-Propertles  nVr%Mj S. M.0 0" IV$-Math Set (d1sS) "Investigation of the effect of small Impurities on the diffusion permeebtli-.y of the Intercrystallite junctions of polycrystals". 3verdlovsk, 1959* 11 pp (Min RIgher &n4 Inter 8pec Educ USM, Ural State U Is A. N. GoOkly), 120 copies (KL, No 10, 19600 125)  -"MN,M. DAM -AT -Soma% 41: 11w 162 -41 ts 16 lit  24(6) BOV/126-7-2-24/39 AUTHORS: Klotsman,-8. M., Timofeyev, A. I. and Trakhtenberg, I.Sh. TITLE.- On the Problex.of-Determination of Diffusion Coefficients Using an "Intd'e'P*rAtR6sidue" Method (K voprosu. ob olpredelenii 'kmrritsiy=toY diffuzii metodom "intograllnogo ostatka") PERIODICAL: Fizika Metallov i getallovedoniye, 1959, Vol ?, fir 21 pp 295-298 (USSR) ABSTRACTt Gruzin (Rat 1) proposed an "integral residue" method for measurement or diffusion coefficients in solids. The method Is based on a calculation of an integral (total) activity of eachof the layers of equal thicimesu which are cut off from a sample. This activity is deduced from the activities of the sample before and after cutting off the layer in question (the activity referred to may be, for example radioactivity of a tracer). Gruzin assumed that activity is uniformly distributed in the cut-off layer, The present note proposes a method for establishing whether this assumption is justified and describes an approximate procedure for the case when the non-uniform distribution of activity in the cut-off layer has to be allowed for. The paper Is entirely  /A /02 P0 sov/126-8-5-11/29 AOTHORS-. Arkharovl_=*, Qctsmauj SMej and Timofeyev, A,K, TITLEt On the Uffoot of Small Additions on the Diffusion Coefficients in Polyorystalline Materials. III - Iffeat of Thallium on the UU-Diffusion of Silver PERIODICALt Fizika metallov I metallovedonlys, Vol 8s 1959t Nr 51 pp 709-713 OUR) ABSTRACTs Silver (99,99X)q remelted in vacuum and chemically pure thallium were used as the raw materials in the investigation. 4g-T1 alloys were made In an argon atmosphere. Ingots of pure silver and of the alloy were cold forged into rods of 12 z 12 = cross-seation, All heat-treatment operations and diffusion annefling were carried out in a vacuum of the order of 10-1 to 10-2 mm Hg. The temperature was maintained with an accuracy of * 1 OC, After rging, all specimens were recrystallized for rhours at 900 OC. The grain size of all spsaimene was practically the same, being approxi- Card mately 1 mm, After rearystallization, the specimens of pure silver and of the alloy were subSeated to one of the following variants of heat treatments 1) annealing at 350 'OC for 200 hours; 2) annealing at 285 00 for  67759 SOV/126-8-5-11/29 On the Effect of Small Additions on -the Diffusion Coefficients in Polyorystallina Materials, III - Effect of Thallium, on the Self-Diffusion of Silver 200 hourej 3) annealing at 170 OC for 200 hours; and 4) annealing at 170 OC for 200 hours, followed by annealing at 350 00 for 100 hours. Radioactive silver was applied to the surface of the specimens by evaporation in vacuum, All specimens having undergone one of the above varlants of heat treatment were subjected simultaneously to diffusion annealing. The latter was carried out at 285 00 for 200 hours. The distribution of silver in the diffusion son* was determined by a layer analysis using tho integral residue method# Measurements of the activity and thickness of the removed layers were carried out employing a method described by Arkharov at al (Refs 11 2). Figs 1 and 2 are typical graphs for the dependence of the residual integral activity logarithm on the depth of diffusion in pure silver and in the alloy. In a table on page 711f Card values of diffusion permeability of intercrystalline 2/4 members of pol7crystals of pure silver and a silver all y containing 0.1% Tj are shown, As can be seen from the  67759 SOV/126-8-5-11/29 On the Effect of Small Additions On the Diffusion Coefficients in Polyarystalline Materials, III - Effect Of Th&llium On the Sqlf-Diffusion of Silver results obtained, the temperatures of maximum adsorption enrichment of the interorystalline members does Dot coincide Vith the temperature of mUi= volume solubility@ From the independence of the diffusion permeability, of the intercrystalline transition Zones in pure silver on r liminary beat treatment, It is concluded that t: structure of these zones remains unaltered In the InVelti ted temperature range. From data on the dependence orthe diffusion permeability of interarystalline members in the silver - 0.1% TI alloy on reliminary heat treatment, the adsor tion activity of 9 In Ag can be calculated, An experfmantal confirmation of Arkharov's hypothesis (Ref 8) on the existence of a temperature dependence of the degree of adsorption enrichment was obtained. The sign of the Card temperature dependence of the Interorystallins internal 3A adsorption of Tl in AS was derived. It is suggested that the excess energy in the interor stanine transition xones decreases during adsorption of ill mainly.due to  67759 BOV/126-8-5-11/29 On the Zffeat of Small Additiora on the Diffusion Coefficients in Polycrystallino Materials. III - Zffect of Thallium, on the Self-Diffusion of Silver itscisometrical structure and not due to interatomic rea ions. There are 2 figures 1 table and 8references, of vhich 6 are Goviet and 2 Inglish. ASSOCIATIONs ;bstitut fiziki metalloy AN SSOR Unstitute of Physics of Mstalsq Academy of Sciences USSR) SUBMITTSD: May 20t 1959 Card 4A  66351 Translation froms Referatlynyy thurnal. KhIslya, 1959. Nr 19. p 76 (UNFO AUTHORSt Kjotsman, S.M., Timotelev, A.M. #---------- TITLEt The Methodical Possibilities of Studying the Inner Adsorption wA Some Problem of Diffusion by Means of Labeled Atoms PERIODICAM Tr, In-ta fit. metallov. AS USSR, 1959, Hr 22, pp 77 - 91 ABSTRACT: Various methods are arttloally revlewod for dotootlng and measuring concentration non-uniformity of adsorption origin in metals and alloys and for the study of diffusion permeability of metal oxides at high temperatures by means of labeled &tws. In t1w method of slit counter the non-uniformity of concentration Is doUrminod by the difference of radiation from two different sections of,the sample separated by a diaphragm looatod.between the ample and the counter tube. For the qualitative detection of the non-uniformity of concentration caused by Inner adsorption (A) an Interarystall1te transition zones, the diaphragm should have a width of 4 0.05 mm and a heiaht of 0. 2 Wn, r the lowth of the sectlons of the rectilinear bound*r1as of ee Individual. crystals Card 1A in the Investigated sanples ,- 1 mm. The sample should save In two q00"  66351 SOV/81-"-29-67422 The Methodical Possibilities of Studying the Inner Adsorption and Swe Problem of Diffusion by Means of Labeled Atoms mutually perpendicular directions In & horizontal plane with an accuracy of recording A4 0.01 mm. The method of the atmaysis of samples in based on the radiamotrio analysis of the quantity of the labeled component Wid can be carried out In -two variantat a) electrolytic stahing'af the bar* sections of the sample, control of the weight of the samples according to the current, b) removal of chips from various sections of the out, colorimetrIo or spectral determination of the w*1ght OUVW samples. The Inner A on the InterarystallIts transitlonal zones can be dateotef at a specific activity of the Alloy ^0 200 mOurIalks, a also of the chip of (2-10 JjQ*10-3) om2 and at changes In the concentration of the labeled component tw a factor of 10 - 100 times. The error of the method to usually ^o, 10%. In the autoradlographla mthod of recording of the distribution of the radioactive indicator cuts are prepared which an exposed on fine-grained emulslons sensitive to ~ -radiation. For studybW the Inner A this method still has only a limited application in view of the insufficient resolution power and sensitivity. For studying the parameters of diffusion (D) in multi-laygr natural scales It is expedient to study the diffusion characteristics of slatered pressed powders of synthetic phase mixtures, which are formed In the reaction process during diffusion and the effect of porosity an the parameters of D. Card 2/2 S. Sancyloy  MV/58-59-10-22A5 Translation froms Referativayy Zhurnal.Fialka, 1%9, Mr 10, p 122 (V33R). AUTHORS Klauman, S,M. TITM: 3EV-of-=h*JCff*ot of Adsorptlon-ActIve Impurities an the Structure of Intercrystall1te Couplings PERIODICAL: Tr. In-ta fin. wtallov. AN OW, 1959, Nr 22, PP 93 - 100 ABSTRACT: Thin article reviews the results of radlotracer studies of the Internal k1sorption phoncemon, and Its effect an the properties of later- arystallite transition zaame, MKparimeatal "U available at prevent concerning the structure of Interarystallit* couplings mid mplariti" In Internal adsorption pem1t the rerinment of existing conceptions, " weU as the contesiplation, of some possibilities of Aufter research In this problm area. The b1b11*grap1W contains 21 t1tles, The aut1w's r&sum6 Card 1/1  85967 3/126/60/010/005/015/030 till/9452 AUTHORS: Klotsmant- 5,M,, Timof*Xln A.N. and Trakhtenborg, zah. Diffusion Coofficlegts In Oxide Phase* TITL93 Mossuremon metallovodontyo,"61960, Vol.10, No,3, PERIODICALt Fisika motallov I pp-732-735 TEXTs ~ The authors point out that investigations of diffusion In scale aro difficult and are, therefore, Orton (R*t.l to 6) carried out on sintored compacts. The present investigation was on single crystals of magnetite as well as such compacts of the crushed single crystals. Compression was at 3000 k6/c=2 and zinterIng was at 1100*C for 60 hours in purified argon. Diffusion annealing was *ff*cted.in the some atmosphere with specimens In pairs (I tablet with I single crystal) and their active sides (deposit of Iron containing V*35) inwards. The diffusion coefficient was determined to + 15%. Corrocti*n was made for the concentration distribution of the diffusing element in removed layers, as previously described by the authors (Rof.8). Wf- diffusion coefficient valuealfor iron at 836 1075*C were found to be represented by Card 1/3  S/126/60/010/005/015/030 Measurement of Diffusion Coefficients in Oxide Phases 5 kcal c=2 6 x io *XP(84.0 5.9) n=o / RT - for single crystals and see I X 104 OXP(74 -7 4-0 ke&l / RT cm2 for compacts, mol see The activation energies differ from some published values (Ref,9) whom* experimental points are represented in FIX.1 with those of the present work. The difference between values for the two types of specimen used tend to decrease as temperature rises (annealing at 1300% eliminates significant differences). Fig.2 shows plots of a value proportional to specific activity of the diffusing element against the square of the depth below the active layer (Curves I and 2 for compact and single crystal respectively)t the anomalously sharp fall in the activity parameter close toAho active layer makes it Impossible to determine the "volumetric" diffusion coefficient of compacts from the initial part of the concentration curve, There are 2 figures, I table and 11 referoncost 5 Soviet and 6 Non-Soviet* Card 2/3  $067 5/126/6o/610/005/015/030 Measurement of Diffusion Coefficients in Oxide Phase& ASSOCIATIONs Institut fixikimetalloy AN SSSR (Institute of Physics of Metal* AS USSR) SUBMITTED% may 3, ig6o Card 3/3  3/137/61/000/011/045/123 A060/AlOI AVIMRS: Klotsman, S. M., Xuranov, A. A., Ponomareva. V. D., Timofeyev. A, N, TITLE: Utilization of radioactive isotopes for the homogeneity-control of metallo-ceramic standards used In spectral analysis of noble Wale PERIODICALt ReferativnyN., zhurnal. Metallurgiya, no. 11, 1961, 27 - 28, abstract 110185 ("Radioact. izotopy L yadern. tzlucheniya v nar. kh-ve MS. v. 3", Moscow, Oostoptekhizdat, 1161, 1W - 190) TEXT: Stand" specimens fabricated by the methods of powder metallurgy are used for the spectral analysis of noble metals for impurity content In the amounts of 10-2 - 10-6%. Silver was used as the object Investigated. Two ex- treme cases were analy md-. a) complete solubility of the Impurity in the ty (Fe In AS). Nwilers of radioactive An_ to (Ag In Ag) and a very lcw solubt g (obtained by electrolysis) and FeB (with spherical particle shape) were used, with particle size 20 - 63106. ,Mixtures were prepared from Inactive AS with 0.01% AgIlO and with 0.03% Fe59, After 14 hra of mixing briquets were pressed from ea,,I,oi mIxture (diam. 20 mm, weight 20 - 25 g) at a pressure of 8W kg/cm2. The speelmens were sintered In a H2 stream at varlous temperatures w-id baking tImes, Cam 1/2  Utilization of radioactive Isotopes for.., 3/137/61/000/011/045/123 A060/AlOI Autoradl*Srsphy was used for the quwititative estimation of the diffusion procl~its. 1"he or3mal mixing duration was established. Por the case of tdqal solubility (Ag self-difflusion) it was demonstrated that the annealing time, suffi-olent to ob- tsin 4,he required uniformity, constituted 6 hours at 700 - C)OOOC. 1. BrokhIn (Abstracter's notet Conplate translation] Card 2/2  EWTWANp S.H.1 TIMOPSM,, A.U.j TRAMMNMMGp 1. Sh. YftaibiUt7 of d*teraining the thickneen of ipter"talUne boWs on oemiconductor bicrystalm. rim. astj PetanoTed. n noo6s951-952 Jo 161. (KM WO 2a Inatitut fisiki astalloy AY WM. Semiconductors) ystal 2atticed) t  KLMHAN,, S.14.1 TIMPSISVp A.R.1 TRAKIMNMW, I.Sh.; Prinf-al --tclWaViyes MMM=Y., L.A., student Invqntig&tUW the diffusion iropertiss of monochaloogenides of transition metaU. Pvt Is, Self diffusion of nickel and sulfur in single nIcJ4 monowilfide crystals M, not. i motallm-A. 12 no;N40~4464 9 161. iKIM 14:9) I Institut fisiki matallor AN SM. 2. Urallskly gosudar- stvannyy wiiversitot (for Hiroshnikov), Wokel) (Stafur) (Diffusion)  S/126/62/014/001/006/028 2071/9135 AUTHORS: Arkharov, Vol-s X10tsman, S.M. Timof*y*vl A*N~ and Trakhtenberg, 135IN7 TITLE: An investigation of diffusion properties of monochalcogenidoo of transitionary metals* 11. Self-diffusion in polycrystals PERIODICALt Fizika motallov i metallovedeniye, v*14, noel, 1962g 68-74 TEXT: Since no results of investigations of the laws of intercrystalline diffusion in chemical compounds have-been' published and study of these laws on polycrystalline chemical compounds and their comparison with the laws for 'elementary substances would give a basis for modelling the structure of intercrystalline linkages in chemical compounds, solf-diffusion. of Ni in mono- and polycrystals of nickel monosulphide in the temperature range 400-800 *C was studied radiometrically and by autoradiography. Both compounds were obtained by reaction between the individual components in evacuated and sealed ampules, subsequent melting and homogenatione Chemical and X-ray Card 1/2  S/126/62/014/001/006/018 An investigation of diffusion 9071/9135 diffraction anWlyzas confirmed that the specimens were single phased with a structure of the NiAs typo. The diffusion was measured on specimens 3-4 mm in diameter and 10 mm thick, one face of which was cgvorod with the diffusion source by vacuo sprayings using N03, COOO And T9125m as diffusing elements. Unlike pure IjA metals, predominant self-diffusion in polycrystals along the grain andmosaic block boundaries occurs at temperatures considerably above 0.6-0.7 of the malting temperature and the ratio of inter- crystalline diffusion permeability to the "volume" coefficient of self-diffusion amounts to 10-1 - 10-2 cm3/sec. In single crystals of nickel monosulphide predominant diffusion along the grain and -nosaic block boundaries occurs at.evon 0.6 times the melting temperature* The mechanism of scale formation during the process of reaction.4iffusion ca.n be be4t studied by measuring the parameters qr',rvolume and boundary diffusion of phases entering the composition of the scales There are 4 figuroso ASSOCIATIONi Institut fisiki motallov AN SSSR Card 2/2 (Inotttut* of Physics of Metals, AS USSR) sunmITTEDs November 10, 1961* '  B/i26/62/014/003/012/022 9021/9%35 foyov, A.N,, Trakhtonberg, 1,13h, AUTHORSt Klotsman, SoM#, Timo TITLEs Investigation of the diffusion propertios of chalcogefiidez of Transition metals. 111. Self-diffusion of nickel in nickel oxide i,PERIODICAL: rizika metallov I metallovedeniye, v.14, no.3, 1962, 428-433 TEXT: The coefficient was determined,of self-diffusion of nickel in the scale growing during oxidation of electrolytic nickel (99.9%,;) samples, (15 x 15 x 3 mm)#, The source'of diffusi n was a 10 mm diameter, oa v thick spot or nickel, labelled by mj939 vacuum-sprayed on the polished surface of the sample. The samples were heated in air In a rurnace cbntrolled to + 3*C- After diffusion, parallel 10 + 2 p thick layers wore removed mechanically from the surface and then the total activity ofthe samples was measured. For calculating the coefficient of diffusion the relation log I a f(x2) was.constructed ( I - lnt*gml activity and x - depth)* it was found that the temperature relationship of the coodiciont of solf-diffuiion of nickel in Card 1/2  A* S/126/62/014/003/012/022 Investigation.of the diffusion E021/9435 nickel oxide In the range 1190 to 1400% in x 10-4 2 (axp; (48..4 + 2.0) x 103/RT] cm /sec, It is proposed that tile divergence In absolute values of the coefficient or seir-diffusion from the data In '.the literature is connected with differences in purity of the samples. The results showed absence of any marked contribution by Intercrystallino diffusion of nickel In nitkel oxide to the total diffusion# In the investigated temperature interval, diffusion of the metal through the scale plays a preferential role in the oxidation of nickel. There are 2 figures and I table. ASSOCIATIONi Institut finiki metalloy AN SSSR (Institute of Physics of Metals,AS USSR) SUBMITTED! January 12, 1962 Card 2/2  AFWAROV# Mel nRM-A-S-X; TDIONZMj, A.N.; TRAXMNBERO.. I.She lnmtigating,the diffusion properties of U%wition motal monoobalchogenides. Fis. not. i metalloyed. 14 no.1:60-74 i1 162. (KIRA 2527) 1. b2stitut fisiki mta.Uoy AN SM. (Metal wpt&U) (Diffusion)  3/126/62/oi4/006/015/020 9073/9420 AUTHORSt Klotsman, S&M#, Timofoyev, A.Ma, Trakhtenbtrg, X.Sh, TITLEs On tile m4chonism' of diffusion of impurities in germanium PERIODICAL: Fittkamiltallov I metallovodeniye, v.14, no.6, 1962, 925-927 TEXTs In earlier cork it was found that "rapidly diffust nfk irn urities have a low degree or solubifity in germanium (10 to 175 cm,3 at 8oooc), whilot the solubility of "slowly diffusing" it~puritias is largor~by three to five orders of magnitude According to Nose ,nko "slowly diffunJng" impurities (zinc indium) have a lornmt1l component. nnit cosivernely for Ag and Fe. For "fast'! diffusing" Impurities tile solubi ity in the range of.11slow's diffusion is of tits order of 101~cm-3. i.e. in the range of olubility or "slowly diffusing" impuritiese The ratio or the oefiriciants of "fast'$ and "slow" diffusion in germanium of Ago : re, In, Zn and To at 800 *C is 104 to 105 and-the solubility ratios are respectively 102 to 104# The abgvo-mentioned relations governing the diffuslon of Impurities In germanium are explained by Card 1/3  S/126/62/014/006/015/020 On the mechanism too 9073/9420 *the fact that the Impurities diffuse simultaneously in accordance. with two mothanismst along1the vacant lastice points and interstitially, tha.latter-vausing "fast" diffusion* All. Ow"', available experimental -data confirm the aecopted-view that Olsi diffusion is through tho.vacancy mechanism., According to published data, most of the investigated tmpurities, with the possible exception of lithium move An the regular Sormanium lattice along thermally excitid vacancies. -.In the presence of .structural nonuniformities of the type of single dislocatiods or dislocation walls, there will be a flow along these nonuniformItleso !.o;l The"fast diffusing" impurities differ from those of groups III and.,. V by the fact that they are particularly prone to diffusion along, structural nonuniformitios..~Those impurities which have a low solubility in S*rm&nium (AS Cu, Mi, Fe. Co) are apparently adsorption-active and enrich the structural nonunifor*itios.- The, behaviour of Cu and as shows that this conclusion is valide Tho.", .-problem of interaction between the structural nonunifox itles-in Go will be the subject of'& separate papers Card 2/3.  KIMMAX# SAI 7DOYETEV9 A.M.1 TRAKHTENMG, I.Sh. Investigating the diffusive properties of transition metal chalcogenides, Part,3t Solf-diffusion of nickel in nickel oxides Fit, MOtq i astallmd., IA no.3428-433 3 062. (MI" 1589) 1. Inatitut fisiki metalloy AN SM. (Diffusion) (Nickel)  KLOTSMAls-S.M.1-TIMPEM,# A#N.j TRAIRTERNERG, I.Sh. Self-diffusion of electron transfer in intnot7stalUto JoInIng silver# 'FissestA matalloved. 2.4 no,5M3-795 N 162. OaRA l5s22) 1, Institut fidki astallov &N SSSR, . (812*04odlectria properties) (Diffusion)  I'MMUO-Uhj TDOftyrit I.S., TMIHTESMO., I.Sh. MeChanism or,the diffiWIM of InywItles In gerawdumi. ?Is. metol, matalAived. U'ao.6tW5-JM D 162. (KMA 16 W 0 1, Institut ftsiki mistallov AN SSBR, (Oarommium-MetaUagraphy) (Diffusion)  KtftTSM. S.,M.1 TIMMYEVp A.M.1 TRAKMNBZRGj I.Sh. Intercrystal1ine solr-d1ftwolon of silver In an electric field. Fiss tvar, talA 5 nn,,1113276-3281 N, 163, (MIRA l6tl2) 16 Inatitut fialki metallov AN SSSR, Sverdlovsk.  KLODTSMAN, S#M,; TIMOFEM9 A@N.; THAKHTENBMg I.Sh. .- Intercrystallits electric transfer of silver in copper, ris. mt, L metalloved. 16 no.4t6ll-612 0 163. (jaRA l6sl2) 1, Inatitut MAI, wtalloy AN SM,  TIMOPEYEV, A.M.; TRAKHTENMM,, I.Sh. Investigating the diffusion proportion of transition metal chalco. genides. Part 41 Temperature dependence of the wdsotropy or the, self diffusim of nickel and sulfur In nickel sonosulfide. Fis. met. 1. metn1loved. 16 no.5s?43-750 N 163, ()aRA l7t2) 1. Inatitut filiki metallov AN SM.  XtUrSMAN. 9.M.; TIMOMYEV, A.M,; TRAKHTENBOG, I.Sh. Diffusion In polyarystals. Fis. adt., i metalloved. 16 no.6t$95-903 I ~ D #63. (KIRA 17t2) 1. Institut tiaiki metallov AN SM.  KWT IMYSM# Afoot 7RMTEREN 0 Las Investigating tho diffusion processes or monochAlcogenides of transiUou metals. Part, 51 Mechnnim of the diffusion of Mckel &W sulfUr in nickel monoAulflde. Fis, mot, i motallmd, 17 no.ltl32-IN Ja 164, (mrn 17:2) 1, Institut fixiki metalley AN SSM.  AC'=MN XRs AP4M383 SIMW63101004""10903 AvTm t notsuan, a, me timfeyevt A. X. jTftMtenberg, Z* She TrMI On the problem of diffusion In polyaptals SOMUs Mika ustallov I settIle"donlyi; yo 16* no& 1963# 095-M Tone TAw, volumetrie 4iffuslon, Intoreqatalline Affution, difftutat #teraystallize junotionO nickelt chramium,, silver, betwvdlfl~wlont electric :trawports ferric oxl&, self diffusions reaction diffusion, face centered lattice AMUM TIw authors studied the law of difthnics In polycrystals and the contribution of interwotd'14 difftion to the total diffus),on currout, The fou,owing ssiou we obtained for the eancoutration Qir Of the diffusate due to interorystallins diffusion and for Qob &M the concentration do to van- ,metrio diffusion, at a point distance y.frm the source 19 "Q X ant ob  ACCESS109 VR# AUM393 Here X and KI are tims-depandant coefficients governing the volumetrio diffusion and the intarcrystalliris diffusion respeotivelyl Bob,, &W D are the car spond- gr ing diffusion coofficientaq S Is the. effective width of the intercrystall I Junction, and t the diffusion tims. The experimental results available in liteft- ture were analyzed$ and a criterion was obtained for ostimting the tempirature range in uhich the diffusion umdd be mainly volumstrie or intercrystaUl"S it was found that. the temperature range for silver'was about 100-15M and for nickel :it was 150-28M. The authors analyzed the available results on heterodiffusion and electrical transport in nickel& They discuss the possibility of Improving the accuracy of diffusion w4surementse Nom an analysis of the data obtained In the electrical transport in chromium in &'temperature range of 950-UOOO and in silver in a range of 950-135M - it was f*md tMt the lower limit for tbe'rooove:7 of pc4ary*Uas was about 0#85 U Osq'Umas the malting point of the metal (in ~the ease of metals with taos-osater" lattices)$ In the case of nickelt ibi to*-., perature for self-diffusion was found to be about 2250-13OWo The authors tha& -V, Is ArWuuw for his uluable disoussLonse Orige arte hasi I famolas andA, tables AWWUTMN s Institut tiLM mstiUov AX SM (Insf4tsio at ft"i" of Metau'l AN IM) card 2/:s.."--  - " - - - ~- 5~"fAPMVK IAAlilrP-IILIT IT.1.11 ", - I. : - ;. ~ ~ I.] - : , - S lee , ~ ~ z  p;i- igj 410 /W IM/W tnt/0126/65/020/00 7 It. j Tr&"tv _Sh.~ 'TITLE: Effect ofilov -cone sntrftlo~ tiouritles oiD Alf Ainion coefficients of ly- ~crystalllne materials.* IV* Meat of cadmium on Inteverystallins self-dif I cof silver SOURM Mika asta,11" j! tallit'jo -ve 20- no. 1, 196% 78-93 ~TOPIC TAM: datme petiieabi lity "Moureft"t i 1 ility# metal beat tr nt,,4d&orptIoa :molecular interaction, matil diffull It ABSTMCT: *lk "trisoabill. _of -,yatallino junctl Is y tlvl~" I t measured 1* Ow 8-Ining -It ca6dum, Thi ~d%mls " -ad. sorption -actfv_affnj-__FmpurI7... the temperature dependen-tw of the bulk solid- solubt- jity and degree of adsorption samt. The effect of cadmium on .bulk self-diffusiou and iwercnotoULne juvction pemeability are atomic Anteraction-in is no dif on ftre"t from th*1 atomic interaction In the iul~ -of Afie' Allby. The Interection-snorgy of cAamium witt ithe Intercrystaillne junat:.`onsjs_not.l4ss than 10 x 1010 joules. "The authors tbank' COM 1/2  i 7-- L 62!" AOMSSIi DU MRS 'Aft Yur4 A A An t'10 arov the i"A' GIA , valuable dis(Awsloo.01 orig. rt has I table, 4 . . pros 4 foruuW. ;ASSOCIATIONS A sswUni. tituta of milic-s Of metsIs-, .SUBMITTEDI l4jujG# ENCtst 00 SUB COVE imo Acr sov, .009 1003 VI  AMHIPOVAj N*K,,l UOTSMS, S#Mo) TIXOM9Vj AXI TURNSNURGt 1.3b. Interorystallins electrio transfer of silver in Cold. he* mt. kaotallaw*d. 20 n6.1&159-160 JI #65. (xiRA, is,n) 1, Institut fisiki ostallov AN SSSR,  .. I-- -11, -- ~ '11- 1 - - KLOISK4N. S.M.1 AMIPOVI, VA.; TIMYZM,, A#X,l TRAKUTIMMOt 1,Sb, Stlyer diftualon in polyarystalline gold. Fis. mt. i wtallo"d, 20 no,,31390-395 8 165, (VI RA 18112) 1. Institut fisW satalloy AN SSSR.  TIMGFKM, A.W## TRAIW&hW?4, I.Sb. Effect of sdua imparWoo sa the a6efficieAts of diffuslan in paprystallime matarials. Part 4t Eff4tt of ea4sium an the interarys tall U* self-41tfuslon of silver. FIz. wt. L mwtallov*4. 20 no.106,4~ Jl 165, (MIRA ISM) 1. Inatitut fisiki metallov AN SSSR.   "', ~ ~-L I- ~~ - ~ i . -1- , ~:v ~ ~ - -: : - ~,- ~ ;  AP60277,107 SOURCE CODE: GE/0030/66/016/002/0729/0736 AUTHOR Archipgva N K. - Klotsman A IM, Trakhtenberg, 1. Sh. ORG: Institute of Metal Physics, AcadSTZ pf Sciences SSSR, Sverdlovsk TITLE: Effect of a d-c field on the lattice diffusion of silver-110 in copper and '7 gold SOURCE: Physica status solidi, v. 16, no. 2, 1066, 729-736 TOPIC TAGS: direct current field, lattice diffusion. allver 110, copper, gold, electron drag. matrix conductivity. electromigration ABSTRACT: A study in nwde of the effect of direct current, yith a density of about 100 to 150 amp/mm2, on the diffusion of 4LVq-r-:)jjjjjn1 gold (99. 99%) and high purity grade coppim, at temperatures above 800C. Diffusion of a. ilver- 110 to measured by the residual activity method. The direction of the electromigration and the magnitude of the activated tons "effective charge" is clear Indication of electron drag. The "effective charge" decreases linearly witli an increase In Card I  " I -As 1 i)- ~, () I . - - . - - ~ . - , ACC NRt AP6027757 , , __ I - I - - 'f temperature. The temperature coefficient of the "effective charge" of silver in gold and copper Is higher than the temperature coefficient of the matrix conductiv- ity. Orig. art. has: 7 figures, 3 tables, and 10 formulas. (Authors' abstract) IKS) SUB CODE: 20/ SUBM DATE: 18Apr66/ ORIG REF: 011/ OTH REF: 006/ 2 v1T  KATSO V.I.,, doktor okon. naukl KIRICHWO, V,H., kamd. ekon. nauk; IVANOV, Ye..A.; SAIMALMV, X.G.; LUXIYAROV, E.B.; MUUTOVA,, V.A.1 PLY6HZVSKIYj B.P.# kand. akon. sauk; STOKAXHIN, V.I.; KLRPUKHIN, D.N.,, kand. ekon. sauki KIRICHOW, N.Ya.1 ZHIDIOVA,, M.V.p kand. ekon. nauk; ANCHISHKIN, A.I.1 KLIXSIIYp A. 1. 0 kand. skon. sauki SOLOVI YET, M.S. L Slim- 1M. 2- N_; VSYAKIgHt S.P.1 LAOUTIN, N.S., kand.okon, sauk; IJXMHEV,, N.Ya.p kando selOkbovenauk; KORMNOT, YU.T.p k&W, okon, sauki SATIN# V.A.; TZMHDVp Y.F.1 PTDROTO V.H.j kand. okon. saukl ALITZR, L.B., doktor okon, sank, red*; KRYLOV, P.O.j kand. okon. maukj LAPINKOVA# Ye., red.; KOKOSHKINA, Lt aladshly rod.; UIANOVAL., takhn. red. [Growth otthe social product and the proportions of the national economy of the U.S.S.P.)Rost obehebeetyeanogo pro- izvodstva i proportail sarodnogo kh*zlalstva SSS114 Hoskvay 1962. 453 P. (MIRA l6s2) (Russia-Economic policy)  ROXAJOTA, A.Mo, W4.tekbn.u&,uk: KU)TSIDOO X*F.O Inzho Inar"vina the comb productivity of combing macbluses Takuto prom, la no*9120-22 8 l5as (KRA UsIO) (Combing machines)  i io rl rem, r::f Uri  Kim i I,------ A-LL- ietulaticna (,n dlsch-qrjln$, irdustrial WS9tCS And SeWpt-e "litX, "te!p4ertj. . ) 376 (Gaz) W(da I Tcci;n..kv SanAarna., Vol, 31., n, - ID, Oct, YI-7, Warsuvi-w, 1cland) r Monthly Index (~f East D:rcp-gn Acces3ions (LTAI) 1C. liol. 71 m. 2p February 199  MLIZI, Jerzy; KIPTT, Jerzy Trends of tachnulmleoll progress in the Po:lsh ship Induatry. ProbleaW proj hut massyn 12 no.1001D-313 V 164, 1. Proxameto rAmnsk.  KUYMI Martat KUCZ90 1. Stanislaw Therapy of tubarotdosis of Orel cavity, phazym am larynx With Isonicatinjo &aid hydreside. Gruslics. 23 no*6:409-426 JUMS '55. 1. Z It Oddalsau ftpjatryasup Iustytutu Oruslicyslisrowalki dr. S.Knosborskil Dyraktariprof, dr. J, Hisfewics, Waresaws, Flocks 26. (EWTINIC ACID ISDN=# tbarouse Isoul"Id In tuberoo of laryno pharyn oral cavity) (MBUMSIS LUMULO theralpy IsoulasIdl (TOMM10818 of phary= & month, tberelsoulasid) (11DUS0 dIss'"as tuberosAbtralsonisald) (PHARMs diseases tubero,, there Isosdas1d)  LIM, Kartat MUOROVSK16 Antooll LACROWICZ, 1knuta Respiratory disorders in artificial pneumothoraxo t. Respiratory disorders during fornation of paousothoram and after early interruption, Oruslica 24 n*.4,.247-264 Apr 56, 1, Z Instytutu Gruslley# Dyraktor: prof. dr. Jo Mislevics, Warszawa, Plocks 26, (PXNMOTMRAI. ARVIICIAL, complications, rasp. divards (Pol)) (REFIRATION, disord, in.artif. pnounothorat (Pol))  OSINSIA, Krystynal UJACUDMA, Jadvigs; ZDCRAWVICS, Jan; LAOMWICZ, Danutal USIAM, Halina Results of tho treatment of pulmonm7 tuberculosis with 2 grans of streptomyels weekly associated with PAS, Gruslics, 24 no,5s 341-348 Key 564 1, 2 Oddstolow (tysjatryovarch Instytutu Oruslicy DIrekton prof, dr. 4, Misiewless Isetytut gruslicy, Warssava, ul. noeka 26. (STRIMRICIN, therapeutic use, pule. tubard., with PAS (Pol)) (PARAMMOSLIMIC ACID. therapeutic use# pule* tuberce, with streptomycin (Pol))  ZAJACZXDWSIA, Jadwlp: HUz $ 1"Islersl ~UW ..,_"&j_PtAZMnLA, Paw*11 LAIGN, Jadvigal PINAMAX, Irympl'n. altn, jmuj.~.jsv Indic:tions for pasumotharas Iffect of chavotherapy on the treatment and on early enspliestions. Gruslica, 24 no.8007- 718 Aug 56. 1. Z Oddstalow ftysjatrycstWch lnstytutu Oruslicy Klerowulki lot, dr, We Jarossevies, Dyrektort prof. dr, Janina Kistewles, (TUB1RCUW6tS* PUUONW9 there chemotheros off, an India, for artif. paeumothar" & an 4&rlr do-VIO NUOTIFORAZI ARTUICIAL off# of abovothers on Indic* for pnouvottiorax)  SMAKA. Malgorsatal EDIT$ Karl KAM# Jan 1. 1 -M-2-1jal Immediate and romote effect of preguncy on the course of pulmonary tuberculosise Oruslics, 24 w.lOtIO25-1038 Oct 56. 1. 1 Instytut Groslicy, 14rottors prof o dr. J. Mislowles W-WA. al., ?looks 26. (MERMSIS, PMVART, In progsawy, immediate & remote off* of progs, on course of diet (POM (PUGUM0 to various diseases# tubero, puts Imodlato & remote off. of proCn., os course of die: Pol))  XURTP Karla (Warssaws. ul. Plockm 26.) Case of tuberculcus exudative pericarditiso plouritis and medlostinal lymphadonits trooted with AM Omollos 26 no.6141"23 Key 58 le I Oddsislu X1 Inotybitu, Ormilloy Kisrowniki doo. dr P. Krzkowks, Dyraktort prof* dr Ja Nislowlass (TUMCUUXI$p CANDIOTASCUUR, ther AM In exudative porloArditte with pleurisy & modiststinal lysphadoultim (Pal)) MURMLIMISO PUIMART* ther. ACTH IN pleurisy with ortidAtlys poricarMle & modiastInal lrophadenitis (Pol)) (UMMOUIMISs LYWH IMMS, ther, AM, In madlastinal IMbAdeattis with exudative Porlear- ditto & pleurisy (Pol)) (AOTH, ther, use. tuberes exudative pericarditis with pleurisy & madimstinal I m hadoulto (Poi))  OASIOROWUI,VUtor; KLO?7,lkria ; ICUOSA-MICOU #Rosa A a&@* of idlq*tbla pulmonary bemos Usros is, Polski tygod. lok. 15 no.19s?A-?26 9 Ps 160. 1. Z III KlInW Chorob V4nmetrs*yoh A.Me w Varesawle; kisrownik: prof. dro So todejesim I s X1 Odds lalu lassytutu GmIlay; klarovalk: doc * dr, Po Irtkowlao MUC811MOSIS aas~ reports) II= DISXMW case reports) I  KLMT, Maria; KOUKOW, gelem,, GRYKINUIP James DI#4postlo difficulties inaases of "slaphille Infiltrations of the lungso Gruslida 28 no*312Ol-209 Mr 160. 1e S Od4sialm X1 Instytutu Gruslicy. Kisrowniki doc.dr nod. P. Zrakowlas. Dyrektort prof.dr mod. W. Jaromsevics. (USFYWIS SY)WROM disco)  MWNSKIp Janusz; XLOW. Maria A case of severe soultivity to FASp SH and M vith manifestations of the tnvolvemen-L.of various organs. Orullca 29 no.P281-M NO 162. 1. Z Oddztalu I Instytutu (Irmlicy Klerovnlk: do*. dr m4. P. Krakowlta Dynkt6r! p"f. dr med. W. Jaros"wies. PA&UMOSAUCY11C ACID taxleol) STRBPTOMIN t=lool) ISOIIWID tollool) ~  Pawel; (;HWKOWJKA# Stefanial KLOrT, Maria; KOCIWi(YdICZp Jan 2 Cases of AspergUlus funigIatu3 Wection of pleural empywa, in patients with pulmonary tuberculosis. Gruslics 30 no.3s259-267 162, lo Z Praoowni Mykologioznoj i x Oddsialu Grualloy Pluc Kisrownik: doo. dr mod. P. Krakowska Z Z&U&dU Patologli Kierowniki prof. dr. bed. S. Cbodkowska Z Oddsialu Oruslicy Pluc Kierownik: prof. dr mod, Wiwa Jarowsewics Instytutu Gruslicy Oyraktor: prof. dr. mod. Viwa Jarossevics. (ASPEMIU,WIS came reports) (WWU microbiol) (TUBERCULOBIS PMXWXY compl)  XWMU, Paweli CHM904MAt Stsfanial MOTTO MariAl FALINOMIt Wealawl NOWIC110 Jan A case of pulmonary Aspergillue mWoosis (aspergillosis) in the pleural space in a patient with pulmonw7 tuberculosis. Gruslioa 28 nos6s471&476 is 960a lo Z Oddsialow Instytutu Cruslicyt Z Odd&Wu I I a Pracowni Wkologicznej Kisrowniks doe. dr P.Krakowks. Z Oddzialu PatologU lierowniks prof,, dr SeChodkovskso Z OddsUlu Chirurgictnego Kisrowniki prof, dr L.Mantauffel Dyroktors prof. dr W.Jaroazovies, oras z Sanatoriva in@ FoDziersynakiego w Otwocku Kierownik Misialus dr Malinowski Dyrektors dr Solonar TUBMtCMMS PULMMM coWl) ASPERMUMIS cowl) ~LUNO MSWA oft*l)  w - - - - -- - -- -- -- - - - - - - --- - - --- ---- - -- - - - - ZICH9 Dobloolaw; NOCH)SCW=o Jan; PIZXARNUI, Kryspin; IMM,, Varla Tuborftlosls of the breast. &wlica 30 no.7t667-673 162, 1, Z lmtytutu Crullay Z Oddsialu n Klarmaiki prof. dr mod. Wo Jarcesevics I s Oddslalu I Kierovniki doe. dr mod. P, bakowlm~ Dy"kt"s prof. dr mod. W. Taroosevics. (MUMT D=ASSS) (TMWUL4513)  ELOTT Marl PAWLICKAq U.U& A o"s of brmobo-osophapal fistaU in a wcma vith pulsawkry tubsrouloolso G=Woa 30 noo].IsIQ43-1030 162. 1. z imtqtutu ftusHoy-9 99slalu I.Kisrownlks doo, dr sod, Palrokoft i s Pftoowd PAdicaagiosmj , KlwwA%iki prof. dr xod. 9. O"awks Dyraktor butytutu Ord9loys -prof.lb mWe Ve Jarossnicso (ZWIU= FISTMA) (Bmscma naTou) mmmmis rmxmw)  KlMp Mitria, ZIEMBKI# Stefan Behavior of hearing in tuberculous patients previously treated and not-treated with stre in* Gruslica 31 no.61637--640 J9163. L Instytut OruslIcy, Warstawa  WAPMXAq IWAat KU)TT*M&rl,&j,,r=WXA-WCISAj lumnza I'- "-- , lka"tion of cyoloserine in @us# of ki4n*y 4isats", Ons- lica 31 no,W64-W 4*063, 1, lutyWt Oruslicyp Waresava, )p  fit r, v  KRAKOWKA# Pavel; ROWINSKA, Ewal WALWEG, Italina; KIDT-I, ~hrla; TRACZYK, KazWerz; CHRUSCIAK,, Elzbieta Pulmonary actinovqcosts with spectal rererence to diapostic and therapeutic difficulties, Gruzlica, 33 no.4013-322 Ap #65. 1. Z X-11niki Chorcb Me i Pracowni VqkaIogicznsj In4stytutu Grualley (Kierowniks doe. dr. P. Krakowka).  IZDkWKA-MAXM, Zusannai XI;Tr, -:WICZO Plalina; -Hmrlaj ROWINSKA, Ewa; KLI.,-%I: KOZIORMSKIO AntonI Diagnostic difficulties in the pulmonary fibrosis. Gruzlica 33 no.7t6O5-613 JI 065. 1, Z Kliniki Chorob Pluc (Kierownik: doo. dre Fe Frakowka)p z Zaklsdu Radiologil (Kisrowniks prof. dre Ke Ossawska) 1 z 24LkIAdu Fisjopatolegii (Kisrowniks dr. At Kosiorovski) InstytutL. Gruzlicy,  i oft4o-67 - SWIM lip(0- AT AGG- M APS033006 SOURCE COM UR/0371/66/000/004/0014/0021 (0 AUTHOR: Kenamanly, F. P. --Kesamanl Klo!tZnlah. E. 1. - 012 aledov, IF, N -Namledoveo 'D, I Talalakin, 0. N. --Talalak-I ORO*. Physicotechnical Institute Im. A. F. loffe (Fiziko-tekhnicheakiy lnstit~t)j' Institute of frower Engineering XN M ~ 9 it Unstitut energettki AN LatWR) ~rA TITLEt Transfer effects In p-typo gallium airsenidecrystals SOURCE: AN LatSSR. Isvestlya. Seriya fizicheski I tekhnicheskikh nank. no, 4, 1966, 14-21 'TOPIC TAGS: gallium arsenide, Hall mobility, Nernst effect, high temperafats effect, transfer effect, pn junction, p type gallium ABSTRACT: The authors Investigated the temperatur concentration rslati~n-` t %and ships of the HAU mobility and the transverse Nerns - inrobausen effect p-type gallium arsenide a1lo5*d with jjjCjW 4&dMiu ~JThe investigations hava been conducted at temperatures ranging from 90 to 800K tj crystals with the concentration of holes at 300K from 5.4 x 1016 to 7.7 x-10 9 cm,3. It is shown 112 16;Wd  L OBAO-67 that the experimental results could be consistently understood in terms of the theory for a semiconductor with an Isotropic and parabolic zone. It to shown thA the tons plq qn important role, in scattering holes below room temperature. The mechanisms of hot* scattering by the lattice oscillation are examined. The Suamrs. thank L G, fidorn (or submitting precision values of the thermal =t. 0, rigi- art. has 1 3 figur *a 6 formulas, 4nd I table. [Based an authors' abstract SUB CODNs 20/,'SVBU DAT31t 14S*$S/ ORiG RZFs 01-21 OTHMWs 003/- CWd  ACUSSIa! YRs AP4011750 0/02M/64/006M3A2302401 ArTPORSI Xosaffonly*, r. 7.1 x1o"Isht 1. 1.; Valstseve Yin. V.; wasleftyp I Ukhamov, Yu, 1, TITM 9trnst-minghauzon and ?a:rsdny effects In Indium phosphide VITRCEt Fitika tvor4ogo tolap v. 6, no. 1, 1964t 134-140 TO."TO TAOS$ Nernst Ittinghmusen effect# eirfective oleatr(m me". indium phosphidot Mdl constant,, specific electrical conftevivityp difftTm+Apl therval W, optical abs,irptiong poltrivitiong poln4zation rotation Arl P)V?: In o.-Jor to obtain supplementpry informtIon on the ceebantim of electron scattering ral the dapwidance of th6 eMietive electrcn vnso'on ter4wrnturo, the tiu-tbore investilatedl in large Mstallina 9&Mles of Indium phosphide, the tompers- ture dependence of the Hall oonstmi-9 the specific electrical ccm~uctivity, the resistance at-Anjou, In a magnotio field., the differential tbormoolectronotiv* forest the transverse Nomst-EttimgMmen. offooto the optical absorption, and tin rotwmcr the polarization plans for infrared light in a magnetic field. The results are au=arized in Pigs. 1-6 cc the Uo2qvu" The autbors found that In amplas with an electron concentration of 8.2-1046cel and a depression of tomporatuo below 200K Card  'ICaSSI(N NAt APA011750 the Hall constant and the obange in resistance In a mpetia field Increase notice- T - ~SUT- kt * 1cr-r ttiveratured tba mcmtUrlua of alectroas takes ploas by Impu4ty tons*' With Increase In te"ratureg olsotpac sO&ttarjrq by lvttice vibrationg, Incroases. ,The off octive mos of the elsotrons at room tenoraturo to 0.066 4 0-003 Ulm mesa of free electrms. Orig* art. Iasi 6 figures and I formamr. 'ASS OCIATICH IVisiko-tekbriiab"hy Institut In. A. F. loffe M MR, lmdngred 1bysicotedbulma Institute A SSSR); FislobasIdy institut M Asabs Mp '(Physics Ustitute M Aterb. SSP) 51PITTMi 17J~163 DAITZ 4CQt 10064 INCLI 08 ~SUB COM PH TO MF w7t 009 1 0131, Card  OFF-- ACCMIOX URI A4019873 I/9vtW003/0950M AUMORSo Kos&%fars to Pot Imatrn'sho So, *I LAVUWA# To S.j K"Isdays Do. 1 0 TITUt The Impkrity WA in crystaU of n tne W SOURCSs Fialka tv*2dogo telap To 6# noe 3P 296hp 958-960 TOPIC TAOSs crystal# Hall constants -electron concentrations semiconductor bod structure AWRACT i This Is a contitmation of investigation In support, of previous work (F. P. usammam so so IQ4 rue Ve Malftesvp Do He Madodorp and Ids Is m"wvo FrTt 6,o 23ho 10A # UndicabbW that the bwo"o SA Hall constant In n, type UP with deare"o In waperabure belaw RM is due to am A-tion in Un Impurity band, One of the consequenoes of an JmWurity band In a crystal In a made= on the curve shmIng tempmtore doperAme of Us Hall constant. Invostisation in the region of 2-30M of n4m MOP with electron concenkmation, of eo2sicA cm-3 ha's shmn that the 11all, constot Inm-eamem as T dealin" down to 40-SM ~ =A than rembee a m3d =4 wbJ oh It begins to dedline tM Me Cwd 2A N  ACCESSION MR1 AP4019873 temperature reaches 10K# Mw this toWerstuft tht Hall constant is &cmin independent of tgqW&turs. That this wjucimn is due to condwtion in thi iopirity bwd is indicated by the Zot that the sam maxlAm is observvd at sjWJ1 electron concentrations In n-type OsAmp for which this conduction in the impurity bwA has been, demnstratedo GoWisone with rmlts on Inbp Mj &M Oo also support this conclusiono IlThe authors thask Oe Vo Irendlymenim far lv&btable discussions of the resultsell Crig. arbe bass 2 fivwwe ASMIATIONt nsiko4mkhrd*hs#1dy institut Is* A* If* IOUs AN BSSRS jj~~Ja (Physioctochnical burtituto AN 4M) I Institub f1s:Ud AN Ad=# BWM (MmUtuts of Physics AN AWM) SUMMIM i 36ftv63 WQ1 Amera MI&I 00 Ian =,%I in I cod   L 160165.-M AGO 11Rt AP5027381 IABSTRACTj It Is Aiffloult to siold tbaAlffudon of copw Into Cr7stslz Was 44109 tho-pro4uttion of devices Wnt t they aro hnatMto hish tempera We crystals. 1%10 study we Made to detirafte, the Offoot.of oopw cc the _14o electric properties of OAAs Au4 to Warta! a ubether a oontiollM sod) 44 of comer Into as" of,the n-tAw could transfer the latter Into the P-typle, Vith the required concentration of vaospoles.# 'Initial suplis of n_,P~ were polished g bollediA Own V%shed In bidisullid water. The w ("a dust-sprayed (10*W layer) a the larpot ho" of ft7a", wA the 4iffusion w" male In a vacum furnace at 4.164" be. The 4SM49"oe, of the solubility of 0614w nn the tOm"raturd, vas used, for t1w ndtiple, diffusion of copper Into the Olkwo Samples. The p-Gaks iq* profteed aftor 1-3 diffusions fm the low- resistance crystals (0 110 Am on) of a-OW oammovly~ used In proftotion of appara 0410 6antratlon of.vamcies in the p4tks at 300K VIS ?*5xUp~--7*CbdAUOo3* An'acceptor level of O,UjO#M~ey, we observed In ~ the p-type, Ga"S This level Val related4ither, to the copper or to the acceptor Impurity In the initial We of- the a-tMa The concentration of to" sod atoms of the aftWurs, could be detarmW64 from ths, temperature. effoot on the %U mobility* The mechanim of sftttfti*S of the current aerriers was interwot4d, ft", the effect of temperature on -the 941 moblUty an-1 the Varnst4ttlapbausen offooto 7hereftres tM 4ifftelon br,ooNa could ba uded a method for ths, ~7 .   L 202hq:!~ JD/A? Us APM1363 0/044~926~01/060 AUMORt JMXdMkMt&bt& I 'Ah -r- a. L4UM9M4,T#S* I 84dargy. T.Q. IOda 01Y.1 rb4wv. W.100 ltdov. D.1tipoew of "Iso-ostommitima Saleft"al TtTIXt Investigation at transfer effects Is A1110 Sm cog"Jud Third All-Union Cupf hold Is KIN - I lop &Mae_ on 84"Agoadvotor comp-omads, SOUW28 An "SR. ftwoossys. morlys 9184obsoMyst V.20' s0.#, 19640 961-M TOPIC TAM omleanduatorp sonlowdootor tweank, essioamductor band structurs, Hall offset, x4rust stuathaw" Offset, 6164tri4 Gandestivity, "111W Wims arsomidoo-1ndim shooAld AIMT&Wrj The proson a or it a rfflow of 00 roeslis Of 09 transfer SMOU 10 AlIful Mum arsomide, Isdium 8 t"NO GVMVWAWM# 6p9GLfI44IIY# p arsenide and indium pkagwal VIM WOMIS am the ftnt* 74* West of *wr 441b- on$ Soviet and mon4owlet I Le "ferved so, Wt for me Not pan the "to a" dise Mission aft Wad as Investigations b7 the isetho"I group. %a On" pwposo of tbmw studies WS. to law"Upte SM em"a Spegum am shfift"Oftsts" 09,00 Imponty cWJ  -L 203045 ACCZSSI(W MRt AP4041263 band (&one) ard olucidato the mechanism Ot Ole GtrM scattering to those SOMAGoOdue- tar compounds. The assused b4od structure of a"$ is described. gxt*"Ivo Nossure. "ass were made of the lbormo-wif of Us, comipoug" in oider to javestigst# the at~ ture of the allowed bands, Data AW ourv" are gives for the dependence of the at- Uctive slectno mud an the carrier ofto"tvation in the orystalo the tempenturt dependence of the "all coustanto the tomporsture, depandooto of the height at the Yond lo"l# the temperature depondonso of the relative resistivity Lacroomat (W#9) in a magnetic field, the Porost-9ttliqAsomen offoato all for a-type G&Asj the 4~- pendence of the halo moss an the hole 6dimeastratics is p-type CoUl the temperature dependence of kinotic effects IR IAP( %be ft"IMAIMM 44POWNWON Ot US B&II a"- *tan% and AP/p and the field depoodon" of AVp for a-ty" We. I%* mechanism at interaction of elect With lattice vibraticas Is gallive arsenide and sodium or- soulde to discussed. Impurity effects aft ecooldered and varicas sedols Oro ovelva- ted.tron the standpoint of "Sir agreamess with expaxismat AM practical- utility. Orls.ort.hast S formad" AM 0 Slaarose J 2A CW4  L 2030-65 ACCSMON Ims ASS=TIONo Flsiko-t*kbddmsJdy 1MUtut In* At Yo %dft Akm%Wl "TAk Sm Al!!n at-fdoomat "11) UZA 00 $81 SK NO* M Iwo 90 onm 006  L 65243 upw JD fork TIM; Zffect of copper on the electric properties of galUum arsmdd* tvardov UU), -,Vi, ~ TV-]" i, 511190r 19"-1w TOPIC TAGSt S&Uiua arsenide# carrier it"Ityp MU erfects Nernst effeatt oleo- tron, wbilitr 7 AWTRACTv- ties of samples 9.fn-GaAs 10 ohoiks) to which coMr Is Introducede the ee- ceptor concentration at a d1l ion-twWature 6oo-76M was 1010-W7 ewl. the carrier density was determined with the aid of the Hall effect. Measurements of the Hall mobility made It possible to- or the Ionized ditendue the concentration and neutral Impurity atomm. The results show that the larger the initial electron density. the higher the diffusion temperature aftessary for reyereal of the conduc-1 zivity type. The om"usation produced was equivvIent, to a yield of 1-3 "captor levels per oapper *too* The affect of 49ppor was smaller to samples with larger purity concentration. Samiples with small skability,, iWah dearmsed with d temperature were obtain" from material with " Initial Impurity coacentraticid xi > 5 X 07 Cgl*) #=VjqS With blo ngbjUtyp VUCh inorg"94 0000tonicew wit-k.-;. 2/9  L 6,Q1J-Z5'. ag-: tnvu*tm -*TW-O' -