OLMOTIV, Gi,A.; AIZKSrMA, T.D *, rsd. "I-1- 1.., 1-1 .- (Lobatures an the principles of building operations and owtimates] Lek-tsii po oanovam stroitellnogo I. smetnogo dola. Poskva, Redaktolonno-isdatel'skii otdel VZEIS, 19J)1. 56 p. (MIRA 17.2)  KFACHROV, L.I.3 !)YRASS, P.J.., oty. rel.; C-7K~'E"YEV,-, I D.; rt~d . [Lot-4:-lismuce Imtraprovincial ser.irratumatic telephone appiu-i-Aus.. mamal for students or telephone and telegraph cc,==n~IcstIqcjn "purIzentsl Appmrnturi i,-.ngistrallnoi I vnutri- oblmmi-no! pi:u.vt:)mat,~c-t:cekoi talefonnoi sviazi. uchobnoe po- soble c1lia ntudentov fpkuPtetA telefonno-tallegrfiftoi sviazi. MOSIC-1,11, Red,-Izd. oWel UEI-S, 1963. 34 p. (FlU. 18:3)  KOR(:frt:rY, 1*:,LYKr)VSKIY, A.M., otv. red.; ALFF-STY-EVA, T.D., re" I . ---- ...... [Antimatic control anti reservation In rndio relFky lines] AY'Lumatizatsila I ,ezervirovanle radioreleinykh linil syin.ni- M-:-skvm, Pad.-izd. otdol Voes. znnc~uiogo elektro- teltitm. Ir-1-ft sviazi, .1963. 29 p. (MIRA 18:4)  ILLEKSEYEVAO T. 1. *ThM Anthropological Composition of the Meshchera (On the Prob- Ism Of FiMO-$Uvic ICtOMIStimships Along the Volga).* Cand Biol Sol$ Moscow OMer of 14nin State U 4mni M. V. Ummosov, 26 Noy 5L. UM, 16 Nov 50 Sumn of klentific wd Technical Dissertations Defended at USM Efther Efteational InAltutlans (U) $09 Sun. NO-521, 2 Jan 55  FAMIMHKO, M,G.j ALMMMA, T.I.; KMAM, A.V. AUtyUtion of phaspham dliodAe with higher alkyl lodldek. Zhur.ob.kbin. 33 no.3slol3-1014 Mr 163. (KEU 160) i. inatitut organiabeskoy kmaii. AN UkrM. (Phosphorus Iodides) (A2kyl ioaides)  ALEKSEYEVA, T. 1. "Ne.noturjyu -,r,)pvuy etw.~gene= ZIUV."al- V --;~'te W~t:mlllalogi I . " re~-,cvt subtaitte,i for 'tth intl Cong, ;wtl,.ropuiog;,-al ~' Ltliziologi-al S:!iencf!ij M-WOV, 3--!~ Aui-, ~"14.   . . . . .... .......   XRIFfIMN, X.T., Imsh.1 C%WMN, K.A., kmd. tekhn. nauk; ITTENMG, I.A.V kamd. tekbn. nauk; prialmll uchastiye: UKMFtOV, A.N.'starshiy mmucluiyy sotmdnikl VOLKOV, X.V., stArahiy nauchnyy sotrudnik; KLUITSMAN, L.B., starshiy nauchh" notrudnik; BOGATYMA, M.I.t aludsidy nauchnyy motrudnik; ZftBOLOTNEVA, G.K., mledshly naucb- M- satradnik; NCFiIKDVA, V.V... aladshiy nauchnyy sotrudnik; aLladshiy nauchnyy ootrudnik: PETROVA, I.A., YiGa;~iy nauchnyy motrudnik; SEDELINIKOVA, A.F., mladshly nuchW actrudaik; KATKnVA, T.I., inzh.; ZELFNKOV, P.A., inzh.; SlIUKRA, L.~.Aetarahly laborant; KALASIINIKOVA, V.M., starshLy laborant; VOTMIIIA, A.Ye., sLarshly teklinik; USPENSKAYA,M.B.0 st&rgtLiy tekhn0k; YHPI:FANOVp V.K., starshiy tekhnik (Organization of the shipping of transit cargoes on the Volga- Ballic Sea Waterway.] Organizataiia perevozok tranzJtnykh gruzoT po Tolgo-Baltilskomm wedarmu puti. Moskva, Transport, 1965. 1(Y) 1). (Moscow. TSentrallnyi nauckwo-iseledovatellakii institut ekammiki i ekspluatstaii Yodnogo transporta. Trudy, no.40).  A 1.1--M-TE"A T. j ILt:rr.v_~tam cvalu&tlon or the mlrwra~izatlcn cf the ar,sactua t1sr.;e by method .0 rk-:n'~ed tc 'he vibight of indivilual bonei and their rAructural cliarac- teriat-Irs. Arkh. armt., -lot. -I embr. zX I. :igtt.ciii?;--'sslfdovatellski.,r a:~tropo.Oril 1:0jilovskogo i:ouudjjrzt.vez,moj,o unversl Leta I.-,wn! !%'J. I.Dmomsova. submItted Derti-Awr "" 111(~L3.  ADD, A.D.; ALIWSIMA. T.N. On tho toxic effect of influenza virus on the sympathetic nervous systes. Acta virol. Ingl. Id. Prahs, I no.3-4.-161-166 July-Doc 57. 1. D. X. Ivanov*17 Institute of Virology, Academy of Medical Sciences, Hoscow. U.S.S.R. (WLUANU. exper. tox. off. of virus on sympath. ]IB in ferrets) (SYWATHWIC MVWS STSTO. in various die. *xper. inflnews. to=. eff. of virus in ferrets)  BDGUIIOV, II.I., kand. takhn. nauk; ANISHCHENKO, A.N. , inzh.; AIEMYEVA, T.M. i=b4 ..... .- Comparative characteristics of surface and underground laying of process piping. Prom. stroi. 41 no.6:15-17 is 164. 04IRA 1. Vaesoyannyy nauchno-iseledovatel'skiy institut i sanitarno-takhnichaskikh rabot (for Alskseyeva). 170) gidrotekhnicheekM  aussm'k, T.P. Lalw productivity and the workday during the period of large-sca2e bui3ding of coamunism. Trudy LIEI no.35:62-78 '61. (MIRA 14:8) (Labor productivity) (Hours of labor)  ~ql -1. , S/191~62/000/004,,'00-65/017 14~ e1 7o Bl 1013 138 -nic i.S Gala3ilnlna, N. A., Sobolevskiy, 22". V., Andriarov, K. iL.' ALek3eyova, T. P. 'Dvganosilicon cccm;ounda containin(; phosphoru3 PZR;ODlc*. AL: PLanticheskiye massy, no. J, 1962, 16-lc- T prodtictior. of organosilicon-phosphorus ~ ZY ~Z :In experlmunts in tho r-onomern and polytr.Lrs vith the rrouping lollowed by conillenvation with a,,~-dichloro polydimethyl siloxanes, the =onomor of dietIVI thlopho-upYvito methyl dimethyl ethoxy silane was obtp.ined f'rom cUoro aethyl dirsethyl othoxy s:lane and sodium diethyl thiophomphate: cAOSi(q4jjW.O + Nsolo)(Oc~" S Card 1/2  S/1 91 /62/000,100,1006/0 17 cu:Lpounds... B 11 1 ~.;/B 138. A liquid "d 20 . 1-05~11, n20 . 1.4450) boilini-, in vacuum (890C, 15 mm H&) % 4 D without decompomition was obtained in good yield (r, "0 in alcoholic =ediu::. Condensation with a,i, -dichloro polydimeth.~_, siloxaneB takes ;-'-ace according to a 1, a 1, 2(C:,,$O)IIIS)OUisSi(C, Ish0co Is+ (315i-0-1,510 Cl f, c3i, (31, 1 2r,11,C1 + SI_CI 1,01,(Oqlid, wht~re t. 4, 5, 6, or 7. The most imDortant Enelish-lantuaGe refert!rco reado as Il'o'llous'. A. E. Camavati, C. zaborn, J. Chem. Soc., no. !Z, '1751 Card 2/2  GAIASHINA, M. I..; S)C liCLUSKlY, M. V. ; ;.~ VINA , D.22.; A , T.: . Syntheolo c,f Fc'~.Torganovlloxitnes containirg phos:;hor--s ard sulfur. Plaol.. =&say no.8:16-17 1( 4.. (MT;m~,'~ 17: 12)  6,-; . - - - --- -.- - ---- ... ~ . , -. AT, -I 4%.Iku, ACUSSION 111tt AM43320 S10191164/0001008/00161001$ AUT*Ols UslashLnits H. L.J Sobolevokly, M. V.1 Leviu&, D. Z- I TITLEt Synthesis of polyorganoulloxenes containing phosphorus and sulfur SOURCEs Pla.stLchookLya massyht no. 8, 1964. 16-18 TOPIC TAGSt polysiloxane, phaiphorus containing polysiloxane, sulfur containing polysiloxans l !ABSTRACT: A study has demonstrated the feasibility of preparing !a. u-bis(diethylthiophomphatomethyt)polyalkylarylailoxanes (1) !by reacting a, w-bio(chloroweethyl)polyalkylarylailoxanes (11) with a potassium or ammonium dialkyl thiophosphate. It was found that the reactton proc*eds in an Inert solvent such as toluene or xylena with refluxLng for 5-6 hr. After a tou-molecular-veLght fraction Is stripped to 125C (I an HS), the residue, which has a molecular weight of 800~10100, contains In addition to 19 some cyclic poly- alkylarylaiLoxane. The compound It used In this experiment was Cold  ACUSSION Mite AV4043320 up a-bio(ohleramethyl)polymothylphanylettoxane. Compound 11 was prepared $y hydrolysis of the alkylaryldlchtorosilane with (chloro- 1s*tbyl)d1m*tbylc1%lorosila** In the presence of an alkali. OrLs. artp hems I formula and 1*,tablo. ASSOCIATION1 notte 098~11TNDt 00 ATO PRZSSt 3079 5MCLt 00 ova cobill tce or. no RRIP Sovi 003 OTHRRt 000      IM670001 0071ofoufoli '0 Cali 1LI I "~Iilaai t~4. 11oxafte.1to Class 3 "itypi briks,tay, towaroyym suskI, Pic 4 l'o ma~bqd of cc of 0 o"DoOdge To Otis Ol- it Latalre at ve of on Jlo   1,,J-,-rto the ;ILL z*-r 7. or  :-I: x iul" f III   Al  111:11.. f Lc licli A. 1, e~;~c e  P. i.. -~--rincntzl c-,;f 4-4 no!  AISSOXMU , T.T.; ZMA. A.P.; OWBDVMYA. I.M. cheir"toristics or GONAItioneii reflex activity in conloined tving. ftw4mrs.norv.doist. 6 no.ItII3-120 J&-Pl 56. (JaBL 9:7) 1. rms%itmt norml,nor I patolociabaskey fisiologii I lestitut pedUtril AM WAR. (TV no 0 coaJoisoi. oosditiosed reflex action In (Rme)) (Urum a COMT10n, In CO*j*l3W4 tVibS (BUS))  T T LWRtAu=-in -Lni Animal Physiology. Digestion. T Abs Jcrori 2cr 'Zhur-Biol., No 8, 1958, 36565 Inst I ------------ Title ooze Observations on the 'Iochnrlc= ,~f Distur~=tes of the Sacretory Functioit of' the Stcmch ~nd Pantrcas in Dycontary - (Observations in Siam-sz Nina) Crig --%ib~ Podintriya, 1957, No 4, 35 -42. Ab s tra. t: t; Si-.,,mese twina with joined polvis bones hal a cc=on oirculation and sopnrato norvous Sy3t=-q. ~"- SitglO -o=on lower sagment of the large bowel ro--Ived a grantor innervation fron the nervous systen of one 3f the children. 'filh tho aii of '-%in double barrcIlled calhutors, tho authors nspiratod in bcUi twins the Caatric ~uico, and dotorminad total acidity, free HCI Card 113  tZ~-'!-iAjutwitj and Animal Myetology. Digostion. !.bi Zwir: FAf Zhur-Biol., No 91 19501, 3,1565- aak: popoon activity; ard a130 t1ho iucit-nal in witich *,hoy bicarlonrit--~ -- tripsir. and amylasc tictivitic!s. Or. the day of aynnontcry In both t-Ans, the autbors, obscrvoa in onc: child, on whose old-a was siturAcA the zin-le sog- ment ol' the Inree bowel, a lo,.v(,r1n6 of UnrtriT juice volum, acidity, nnd free IM, fc1lowirr f---din.- of T1 cabbrga extrnct; while tlh~ secrotion of 7astric ~-~ic* in the voconi chili rcmni=1 n1mont normal. Tn the first child they riotcl a dvcr,:asc -f duedonal Julte volum, and its formont contxnt. In nlt,.,rrit* investigationn of th,-, socretion cf tho ztc-.nch and pancroase In onj child, fasting, whila L%~ other was ~eini; fed, thz authors doternined th~~t t%c return to norrAl of tho gastric iind duodenal function in the Carl 1 2/3 65  1,USRA1utw.n -And Animal Physiology. Digestion. T Aba Jour: R..,f Zhur-Diol, No 8, 1958, 365~~5- " child was icl-.tyci for 2 months follc-win,, "he onnot or illnoss. The grcat,~r in the u~!+Iviticn of the stomach ani pn--ruas durinr dy3on- tary In one child voro araociatcd wiU% the -rui1,3r roIntionship of the largo bowc-1 to that child's n-~rvc-.zs UYS to=. Card : 3/3  AIZ As T.To Correlation between neural and humoral factors in the developuent of sleg,in.conjoined twine [with GUMMW7 in English . Zhur. a. nevro at 8 no.6:835-844 X-D 158 IKIRA 12:15 1. Chair of Nomql Phrsiolog7, 7irst Medical Institute, Koscow. (SM P PbYsiol. in conjoined twits. neurahumoral factors (Rum)) (TWINS. conjoined. heurohumoral factors of sleep (Rue))  ALAq_lX&U.~Ai-M*,r GUMNYA, To.L.1 ZACHIWATRVA. I.A.; MILTAGIV, Ts.A.; SHMENUA, A.I. Feir Xualutch Anckhtn-. an his 60th bt-.thday. ]Pisiol.zhur. 44 -1 no*4t273-280 Ap '58. (MIRA 11:4) (ANOKHIN, FM XMINIGH, 2898- )  AUU=IWA~ TITO The rolo of nervous and humoral factors in maintaining alimentary arallabtlity to conjoined twine [with summary In lhglishl. Pistol. thurs. 44 nosl&tZ95-304 Ap '5B, (XIRA 11:4) 1. tafedre normallnoy fiziologil 1-go Haditsinskogo instituta in. I.M.*scbqnov*. Nos)-tva. (TWINS, conjoined, nerv. & endocrine factors in alimentary excitability in (Rus)) (POW, intake, behaviour of conjoined twins, role of narT. & endocrine factors (Rua))  ArmxEmA, 7. T., Doe Red Scl (dIss) -- "Netwohumoral regulation of functions in the hi-vt orpnim (Investigetion an urkseparated conjoined tvins)". Moscow, 1959. 23 pp (FIrst Mosam Order of Lentin Med Inst Im 1. K. Sechenov), 200 copies (KL, No R4, 1959, 147)  go a ill * dh . I, :0 c 4.1 'Olt ,to Trr Ma t I I 1 0 A~ A. 'a --t mir- Ah MA04 Ow "Oefic Alawk. d Ift aw, WNW L P. Lmakadisrr, '09 It (up so 6v) *am (wp 1. alvabab"min dk AI.W At us" dt Al. Al Wmadd casteme am A" CIAM of Ob. M4 bowl s V.W 4,V.A., u6noss" I - etommit tame t. a.,"*.d ommi, L~ Oft LMS a" Wit U.U"AU%~ hkb attat. 'Arim fraftimts awitted. for Z, W. R. He- 10. t. Wv.,Ius! ".1upwAva. see Poe veg 4.0 Olt. go 0 0 MIM 010 A A A dh  ALTMMAt T. V. wBasis of SoUction of Paramters and T.,--pes of Pumps for the Hydraulic Drives of Scrapers wvd Bulldozers." Sub 11 Oct 51, Moscow AutomobIle and Road Inst imeni V. M. Molotov. DIsnecrtatims presented for science and mrineerinf, derrees in Moscow during 1951 SO: Sw3- No. W, 9 Mao, 55.  Trov-0).-rr, it:`, rrot. ; LIZ11.111ITT, I'l. A.; V:W,71 T. RO-1 I Eptc!'All"ry .7 ? , .. : -1 , ; ,L i_- " ----N :r~L:11'.1i7.~j-r. straj. ~: ::0. '., 9. Mmtlil;f Lis~ LiT Eusuietn Acceslion , Librnry of Congress, _19A, U,Cl. 2  ALRENITM, T.Y. dote.. ko-nd. tekha. nauk Deelping b7draulic drives ror strap~rs wd bulldozers. Trudy SIb.avt.-dorAn*t. no.&95-102 '57. (KM 12:2) (011 hydra-alic machinery) (Scrapers) (Bulldozers)    sn if  I I I -i- I,  ALEr-11EYEVA, T.V., k". tekbn. nauki ARTWYEV, K.A., kand. tekhn. ". TIIWkr'HRMIMG, A.A., prof.; VMSEYJIOVSKrf, inzh.,- UL'YANUV, W.A., kand. tekhn. nauk; Prinimal uchastiye KONOVEHKO, M.A., inzh.; FEDORCFV, D.I., kand. tekhr.. nauk, retsonzent. [Vikchines for eartbwork; theory and calculation] Fashiny d1la zmllarukb rabot; tooriia i raschet. [3y) T.V. A21likneeva i dr. lzd.2.v perer. I dof,. MosIma, Izd-vo "M-ushinostroaniet" 1964. 467 p. ~IJIRA 17:5)  AUMSFYMP T-YI, Rand. xakhn. nauk re-It Selticting tl~e tasila parameter of the hy1raulln ctleplrl(.~- drive for ohrl-hmoving machint-s. Arci. i t4or. marh. -~-' nz.lx 8-10 s 165. ~, M-'Rh I P. 10,  OSTIMSMOv YU., kand.teMn,nauk; -At V., in-.i,.. Very aimple resource. Isobr.i rats. nc.6:32-34 Je 160. 14:2) (Lithlit--.)  AM IR A*--VA. Sfroct. or th7roldectomy in rata On ths Grovth of splenic ovarian grafts and of transplanted M-1 marooma. Top. onk. 6 no.3:24,27 Hr 160. (MM 14s2) (OVARIM-TUMILNUTION) (THYROID GUND-SURGERY) (TUMLS-TRANSPIAMATION)   4X4XMA Y'14A.. dote.: XORCHADIN. L.Y., dote.. KURROSOVA. P.V.. dote.; . 67AWVI. AJ.. assistont; Z&WIX. Ts.l.. insh. CUrIfication of suspensions br the coagulation methol. Ugoll Ukr. 4 no.1:11-13 JA 160. (MIRA 13:5) 1. Duepropetrorekiy gornY7 institut. (Coal preparation-Squipment and supplies)  A131M.9VA, V.A., XAMSX, Te.B., KORCUOIN, L.V. 3)epeadence of the pullIng force on the thickmeas of the underlayer. loll. shw. 22 no.2.-A7-249 Mr 160. (MIU 13: 8) 1. Daupropetravokly gorW Institut In. Artamm. (Co&l) (ores)  ALAMSTA, Y-J6; MON. TO.I.; KOVAT-':. DIAGOT. 1.S.; IOLIKOT. 1.7- x8molts of the use of poly"rylsolds at the Torkhne-DuTsawl 00134;r4 concelstvatioli Punt for the agagulation of flotation %&Lln+ Koko I Ms. io*IWO-21 060. (XIRL 3-3:10) is *wpr*imtrwvakIr Omar i=tItut (for Alskseyevs. Xamfilk)* 2* Abaftskly treet Otaleaboamblakenlys' (for Xavals)- 3- Ukraix- Sk:IV iAunbm*-I4~I*dcr0Lt*l'*kIT Mutitat Ugleobogmshchentra (for Bla- pv:l. 4. toontralInays, ugleabogatitellmaya fabriks tar x4likov)o preparation)"  Ir of :, at -.r--, .; ~n ~i ::riction. :'or -in tr.- n - at "13,;It 0' '.141 -~:t b 7 0 . For T),i:,-ree of r, nd ~dln to in Techn1cml S riences  124-57-.1-2500 Translatiov Irom: Referativayy zhurnal, hiekhanika, 1957. Nr 2. p 138 (USSR) AUTHOR. TIT LE: rite Reduced Stresscs of Cast Iron in Conditions of Omnilateral Nonuniform Compression (Privedennyye napryazheniya chugunov v uslovkyakh %-sestoronnego neravriornernogo szhatiya) PERIODICAL: Tr. Odessk. tekhnol. in-ta, 1955, Vol 7, pp 89-95 ABSTRACT: Presentation of the results of tests of three grades of cast iron for compression in a girdle-type clamp; the tests were per- formed under the direction of B. D. Grozin on the 100-ton uni- ver-;al testing rxiach.ne. It is shown that, compared to one-dim- ensional compression, the plastic deformations. as well as the maximum stresses, are increased significantly. Stresses and deformations, for the subject clanip tests, were computed according to the formula proposed by B. D. Grozin [ Wkhaniche- skiye ispytaniya zakalennykh staley (The Mechanical Testing of Hardened Steels). Mashgiz, 1951). 1. (':%st 2. CaSt jrrln--Testing Yu. 1. Yagn Card 1/1 equipntem 3. C,,i!-,t lran--est result.,~  XMIL&GIN, L.To. dotsoutt AUMSIMA T4.j-!ARASIK. Te.J.. invh.; TIMMA, N.A., rar. !:~ - Ifforts to avoid ths frosting of mineral raw materials and rudk* to donvoying aquipwnt. Isv. vys. uchab. zav.: gar. xhucr. no.12:96-101 158. (MIRA 12.8) I.Slaepropetro"kir gorn" institut. (for Xorchagin. Alskseyeva, lawsolk). 2.Doolmopetrovskly savad plastmes (for Tefixicyi). (Mine railroads-Cold weather operation)  PERWAICV, V.G.; ALMEMA,_Y..A,-- USIAg diatomite for filtering water in oil production. Neft. khas. 39 to.4352-55 Ap 161. (MIRA 34:6) (I"tomaemous earth)  ALSEMIU, V.A. (Odessa) I St^bili%,T of the friction cooffIciont of modified c"t lzvn w3der wn"tioca of the jontact problea. lay.AH =R.Otd.tskh.nauk.Mekh.1 mahluostr. no. 5sIW167 S-0 062. (HIM 15slO) (Cast iron-Testlw)  AT-VMS EFA, V. A. XM#Aclty of poat-4dxwr*l-&wwOl& ffas- Ilsors with variow oone"tration. Tort. prom. 40 no.'P26-28 163. (MIU 16W 1. Sovewo-sap&4M7 nauchno-isalodovatellakiy institut mollskogo kbasynyiptys. (Fortillsorm and mrinures)  A,,.YAA.; KAMU. T*.A. AjjXqMp Removing dissolved petroleum from waste water using ozone. leftopwas. delo no.1033-35 1631,V (MIRA 170) 1. Hloakovskiy inzhenerno-stroitalInyy institut im. Kuybyshev&.  ALMIPETPAS-11r.A.; KARELIN, Ta.A. jqnal purification of waste waters with ozone. NeftOP-- i neftekbi-. no.5:19-21 163. (MIRA 17:8) 1. M"kovakiy inghenerno-stroitelInyy institut im. V.V. raqtTakleya.  ALENSIMM, T.A. (Ise of.' ozone for the purification of waste waters. rhim. I tekli. topi. I masel 10 no.8427-29 Ag 165. NaA 18.9) L. Vrmaoyuznyy zaochnyy Inabonerno-stroitalln7y Institut.  PEWAIOV, V.0.1. ALH!.:!TA, V.A. Quality of waste water Injeeted Into oil layers. Nefteprom. dolo mosIN19-22 165e (MIRA Igtl) 1. TmOncYyu&TTy neftegaloVyy naUchno-Iseledovatellekly inatitut.  i it it I JrO., t3 1.17t  AlJMXIWA, Y.G. , Ag"ap4mdeat ebangeD ta the wator oontent of the m7stallice Ions In balls. Oftabur. 11 no.l.-57 156. (ICIMA 9:9) 1. Em Lealagradskogo nauchno-Iseledoystallskogo instituta glasnykh bolommey iment professora Girshuhna (MYSTALLIO LM)  PL_F_KSr-y1E%(19' V EXCanA MZICA Sec.12 V61.11/7 Ophthm1mology July 57 1089. ALMSEEVA V. Leningrad. *The Influence of insulin on the permeability of the lens Capsule (Russian text) VESTN. OFTAL. 1956, 015(61-64) : An experimental study wan made of the Influence of insulin an the permeability or the anterior and posterior capsules of the lenses of cattle. The technique of pre- paring of the capsules, the solutions used and the measurement of the ascorbic acid is dearribed in detail. To the solutions with the experimental capsule 0.5 cc. of Insulin was added. Two series of experiments were made: In the first 5 experi- ments the permeability of the anterior and 5 experiments of the permeability of the posterior lens for ascorbic acid was studied. In the second series of the ex- periment. 10 anterior and 10 posterior capsules were studied on the influence of insulin an the permentAlity of the capsule for ascorbic acid. In all experiments the second eye or the animal served as control. This study showed that insulin decreases the permeability of both the anterior and posterior capsules for ascarb- Ic acid. The pormtsbUtty of the posterior capsule in decreased to a greater ex- tent than thal of the imnlerior capsule, namely: the average decrease of the per- meability of the anterilor capsule is 17.'1816. while for the posterior capsule it to 45.98%. The marked influence of insulin an the permeability of the posterior cap- sulo may to a nertaigi 4legree explain the opaclUea of the lens in the posterior layers In diabetic rstaracL Sitchevska - New York. N.Y.  EXCMM IF%CA See.12 V61,12/5 0phtWmd1ogy NO 58 LF K&EYLVA, 819. A CASE OF PRIMARY EPISULHAR CARCINOMA (Russian text) Atek- a e e v a V. a. - ZH. OFTALM. 1956. 4 (216-317) Primary eplboulb&r- carcinomata are among the relatively rare diseases of the eye Referencos in the literature show that since 1861 54 cases of primary epibulbar carcinoma have boin observed. Of these 25 cases were described by Russian scientists. The rarity of this condition has led the author to describe a case of ep1bulbar carcinorna (papillary. keratinizing cancer). localized in the outer half of the ey*-ball whith involvement of the cornea. Visual acuity was confined to light perception with correct projection or light. The patient was subjected to enucleat- Ion of the e3r* with subsequent Irradiation of the orbit. (S)  AZMIIVA Zff met of trawa ln one eye on the SzOltability of the oprtla avA34rmor of the other. Oft. abur. 14 no.2:84-M 159. (Kru l2a?) 1. b LvalWadelcoy gorodakay glasnoy bollnitay (glavrV7 Traoh - K.U.Inabla). M AIM IIJWM)  ALKMMWA, VA. Optical MA*qvAtom*try ic glaucoma. Ort.sbur. 15 uo.l:-42-47 160. (xrU 13--3) 1. Is 16saingradekby gotodskay CUstoy bolluitay i leboratorii fisloIngil analizatorov fisiologiaboskogo Instituta imeni A.A. zhuneva. CUS-MaILTION) (GTAUOOX&)  Cana or orbital cyst In corWenital =Icrophthal=us. Oft. zhur. 16 nc~1:61-62 161. (HIRL 14:3) 1. Is LmAngradakoy g0rodakoy Sla2noy bollnitay. (M-4ISFASES AND DEFICTS)  ALME ~!5EIWVA C-000 Of cOngOnitaa COMeOdOlOral cyat. Oft. zhtu,. 16 n0-5:312-313 161. (MnU 14:10) 1. 12 Leningradskoy gorodskoy glcawy bollnitay. (hYF--TUK0H9)  ALMHMA4 Vo Zoraderm pigmmtonam with e" mnifestations. Oft. zhur. no.2: 3.14P-116 '62. (KIRA 15 - 4) 1. Iso Loningimdakoy gorodakoy glasnoy bollnitsy. SrJN-DISXASES) M-DISMIS AND DIMTS) &  A~SMMA, V.G.; GULYAYEV, Tu.V. ... I... --._'.. Second All-Union Conference an Photoelectric and Optical Phenomena in Semiconductors. Radiotekh. i elektron. 7 no.4: 72P Ap 162. (MIRA 15:3) (Semiconductors-4ongresses)  ALUSEYEVAt V. (). "im. Ii - Transmission of the bc)=d&r:les of large det-aiis :n Laing telerphone channels without phase comp ,ensation. Flektrcavlaz' 28 no.9:71-76 3 164. (MIRA 17,12)  64 lei o 0 0 IWO4 ............ kj"jlTTTK- 111 't 0. it -t i ti I I t I vi.. --ve go C~ql so *air pAt~ /b." low. p1wilamwirk mod C'Ok - Vs Now. th a .4 row um 40" aw Om"m the "IfIll"Claw Tb~,Jwi- rd 1=11m1 as "Od moolotol" mob Wd *6*14" I~W tjkV 4'Ml~ftt 04 CMC, 1%~ J-S. willow0w qwm to Cr des. (raw The roost .12144 41.1 Pro S= A, kwtw-u tbw votoctm. .1 103. &"d IV~ *A- 411 TW Nun mkhftM" ~ ft Cu 4"., 1- th~ Pow 1% Ul,- MW Cd X;*l A. hetv" Illor cvwom .4 11 -.011 OU4 to .01% "M fk%- W. It, 11-0 to flifILOOORM 401111414.0 (141upot'llob too too it 0 Am .0 It 0 a a an a a No 0 *wflo 00  lot a 0#,Cr sod 00 j A-11-1 A A a -... ... TU *Now" of *limit of momi6m a tim, innon, coon, t flat". V. Ar or-4 S Il. 144 in it* won I'vow 41F.6% .4, 114w 1. 1-T 4 %M"I# 1.1. 11 41W 0, Ito 0., -if~l %lot- "ti.- -." 6.1-1 11-. 46 logo the K 0-144, &~f IINVO A W.- t tht -.- t..up. -'A 1~ Motor ~ d.#-..f 6. flo, "Ittv, ix 10w% 1.0=NWI. K 311"'. n--J,*1.,n,I-am,,m-I twalb k6mb".. Lie. .4 ..IA lot III* III," 1. .4 :6-1.J. rh-jv- .4,t u a av 9, it 0 a or a net WAO 0 Itt T-v -1..,  A1JTHM AULBHDIA, V.G.' z0amaj, B.N., KOFOVA, I.V. PA - W4 ii ITLE On this Influence of the Heating of Germanium on the Concentration of Ther- mal Anciiipters by means of Electric Current. (VlVaniye nagre va gormaniya islektricbeekin tekom as konsontrataiyu tormichaskikh aktsepterov.) Zhurnal Tekhn. Fit., 1957, Vol 27, Hr 1, pp 215-217 (U.S.S.R.) Recoiv*d 2/1957 Revieved 4/1957 MiSTRACT S.WiOURG, Ebys.Rov.95, 38 (1954) found that the concentration of the contisrs of acceptors can be decreased considerably, if germaniUM is first hoato4 for a long time in a vacuum by means of a parallel carritnt. In tir~er to decide whotbor the romanent thermeacceptors are lattice do- foct4 or at4w of the chemical admixtures, the authors tried to 03tiM~-t* the antivation energy and the energetic properties on the oecasion of the genoration of those thermoaccepters. The samples investigated of the fiermaniuss menocry3tals had a specific re- Distance of 10 - 50 ci.Ohm and measured 2 x 3 x 15-18 miss. The samples iiiiro $eboizod with 30 /e poroxydop vashod and then pressed vertically between two tantalium. holders. These tantalium holders also served as electrodes. On the occasion of mosauring the 3po~ific resistance tanta- It= probes were pressed onto the samples. When heating the samples by meami of parallel current (if twhparaturo remains below 70000 no notice- able decrease of the concentration of the thormeacceptors is observed. At t4imperatureii of more than 7000 concentration of thermeaccepters chanon :onsidorably. At first the n-typo sample changes into a p-type of low resistance, this resistant* then increases quickly and finally  ?A - 2184 On the Influence of the heating of Germanium on the Concentration of TheruAl Aclepters by means of Ilectric Current. attains values very near the oig*n value. The samples annealed by the alt-ar-natIng current at the same temperatures, changed into hole-lik* tomplkii aM their spe-cific resistance (which first slightly increased) hanUT chanCed at all in the course or further heating. The values er the ciancentration of the thermeatcepWo after being heated by patallel -urront were almost lower by one order of magnitude than the concentra- tion of the thermeaccopters after a heating by alternating current. A dia,pram illustrates the values or the thermeacceptors corresponding to equilibrium. The data obtained hare indicate a decrease of concentration of tile thornuacceptors (after a heating by parallel current) &3 a con- sequonto of electrolysis. The remanont thermoaccepters are probably not duo to lattice defects but to very small quantities of other chomical ad- mixturts. (1 Illustration) ASSCCIATION' Not 111ven PR=LIITM BY SUaITTM 11- 1.0- 1956 AVALLABIX Libr"y of Congress 2 '2 "ard /  AUTHORS Alekseyevaj.r toy S.G., KalnachL.P., 57-9-2/40 p. , Kalashnil Xarpovs,,I.V.# Morosov ,,A.I TITLE The Influence of the Elements of the33:1. and V. Grotpe on the Recombination Velocity of Electrons and Holes in Gerwanium. (Yliyaniye elomentov III i V grupp n& skoroat' rokombinataii tlektronov I dyrok r germanii - Russian) PERIODICAL Zhurnal Tekhn. Fiz.,1957, Vol 27, Wr 9, pp 1931-1939,(U.S.S.R.) ABSTRACT The influence exercised by bismuth, antimony, thallium, and gal- Ilum on the recombination velocity of electrons and holes in ger- annium is investigated. It in shown that alloying with bismuth and thallium accelerates recombination considerably, whereas an- timony and gallium are considerably less active. It is asau:%ed that the penetrating atoms of the alloy elements are the rooom- bination center and determine the order of magnitude of the cap- tmro oross section in the case of bismuth atoms for the holes and in the case of tballium for the electrons. It is shown that they are of the order of lo-15 cm2. The order of the upper croas sec- tion limit for antimony and thallium is shown to be---Ilo-18 QM2. The relation between the efficacy of recombination centers created b.y the various elements and the Yal4es of their distribution co- efficients (at*mio radii) is demonstrated. On the strength of these facto it is assumed that the lattice deformations occuring with penetration of the atoms of the alloying elements play an Card 1/2 important part in recombination.  The lixfluenco of the Elements of the 1U 57-9-2/40 and V. Group on the Recombination Velocity of Electrons and Holes in Germaniuja. There are 6 figures, 2 tables, and 7 Slavic references. ASSOCIATION Institute for Radiotechnology and Electronics AN USSR',Moac,*w (Institut radiotekhniki i el*ktroniki AN SSSR, L'OSkT&) SUBUITTRD 1pril, 4. 1957 AVAILLBLE Library of Congross ar j#  ALMMYVA. T.G.; KAMTA. I.T.; WASMIDT, S.G. I Uffect of their concentration an the lifetim of electrons and holes in Carmanlum. Tis. tvar. tala 1 no.4:529-534 '59. (KIItA 12:6) 1.1natitut radlotethaiki i aleirtroniki, Hookys,. (Germanium)  .2 4.1216-0 67322 -24(2) SOV/1A1-1 -8-27/32 AUTHORS: Al!L8.!nyA.L V._G., Yeliseyev, P. G. TIZLE: Tito Influence of BismuthkIon Dialocation'wDensity in GermmniuO" 91n,gle Crystals PERIODICAL: Plaika tverdogo tola,1959,Vo11,11r8, pj 1304-1307 (USSR) ABSTRACT: N present paper reports on results of investigations concern- lite dislocation density in bismuth- or anticony-alloyed ger- maniumVerystals; the results of meastirements of the electron col,W-ontration (from the Hall effect)Yand the lifetime of non- equilibrium holes by the--p"No-T-omagnstoolectric method are also discussed. Dislocations can be detected only in certain crys- tal faces in etched pits of germanium crysials. For this pur- pout the authors chose the plane (III)- Production and etching of the germanium crystals are briefly described. Dislocation density was daterKined by counting the etched pits under the microscope. Up to a certain concentration the density of etch- ed pIts ijft crystals containing various impurities is nearly equal (500 - 1000 0m-2) and does not differ from the disloca- tion density in pure crystals prown under the same conditions. In this domain impurities do not influence the formation of Card 1/4 dislocations. Further addition of an impurity still has no  6i322 SO-11/181- 1 -1-27/132 The Influence of Bismuth on Dislocation Density in Co.,;. n-- .~i:, -le Crystals inPluance upon dislocation denuit~r in the case of untimony, who-rone an increase in bismuth concentralion up to 2.10 if; cal-3 immediately causes dislocation density to rise by 6) - 7 e -2) several orders (5.10 10 m . The paper also contains pho- tojr,rnphs of longitudinal sections of crystals which were alloy- od -w1th antimony and bismuth up to equal concentrations. Im- purily zonoentration increases toward the lower-edge of the crystals. The coal piecescontd ning antimony exhibit the usual etched pit distribution with a characteristic pattern of plastic slip. In the domain of increased dislocation den- oily the etch" pits are arranged chainlike. The large pits pr6bnbly form by enclosure of excess impurity in the form of it tjo~arate phase. Structure can be disturbed in a similar =umnor by introduction of some other impurities (iron, mangan- one, nickel). An essential fact is the so-called "constitu- Card 2/4 tionnl" undercooling of the melt before the recrystallization _K  67322 SOV/1 8 1 -4-4-q-27/32 The Influence o4 Bismuth on Dislocation Density in Germaniu= Sint,!Ie Crystals front, which in connected with an accumulation of the impurity separated by the growing crystal. The present paper confirms the results of an earlier paper by V. G. Alekseyev et al (Rof 1). The reason for the J~fferent,~ecombination rates in tho concentration range 5-10 - 1.10 cm::3 before the sudden dislocation density rise has not yet been found. The impuri- ties forming effective recombination centers (nickel, iron, cobalt, manganese) certainly cannot cause the above difference. Therstors, the effect of some other impurities or the formation of other lattice defects may be assumed. The authors thank Professor S. 0. ralauhnikov for having suggested the problem and, discussed the results. There are 2 fijurea and 9 references, 3 of which are Soviet. ASSOCIATION: Montovskly goaudarstvennyy universitet,Poskva Card 3/4 (Iloscow State University, Moscow)  b7322 " ,,in 1- 1 -,-27/32 . .;inl7le ThoD InSlumice of Mianuth on DinlcwtAton ll)i~:mity In ~;evmltrliu-. Crystalv 3 t' TNI -~ TI a :April 27, 19510 W~ Card 4/4  ALJM$rMA, Y.O.. ksnd.t9ktW.nAUk Xev method for correcting half-tons ctaracteristics of fascimile apparatus. Vest. eviast 19 no.11:10-11 N 159. (KM 13:8) 1. Starehly lushener 11auchno-isilodovatel'skogo institute GM. (Photo telegmphy-4kaipment and supplies)  IAI&SXMA, Y.G. I. . ......... --- Method of calculating transient characteristics of syvtems with phasm dAstortions. glaktrosylas' 14 no-8:33-41 Ag 160. (XIM 13:9) (Information neory)  AIARSEMA, V.G.; KARNTA, I.V.; KALALAIIXOV, S.G. Recombi,riations; an gold &tame in 1?;type germanimt. Fiz. tver. tela 3 tic. 3:964-971 Wr 11~- (KIRA 14:5) 1. Inatitut radiotakbniki i slaktronW AN SSSR Moskva. (Crystal lattices) (Germnium) (Goldi  23593 S/1075/61/016/003/OfJ4/007 11, 10 !1~0, 117S, 11,9U Blv6/'B208 AUTHORSt Runarjov, A. X., Alekseyeva. V. U., and 111yasova, N. V. TTTLEi 4(jct~'Bcoptc determination of germanium and other elements in ores with sulfidizing of the latter during their evapo- ri,Ation PERIOr'ICALS Zhuraal analitictieskoy khimii, v. 16, no.. 3, 1961, 264-291 TEXTs The authors showed that In many cases of spectroscopic determination of elements which form higb-volatllity sulfides the sensitivity of the determinatLor.may lie consid 0rabl* Increased by adding sulfur powder to the ore to be &nalym*d (oxide or ot or ore), and by evaporating the po"do ry mixture a ch&nnel of -the carbon electrode. Fig.1 shows the evpora- tion time of eq,.Aul atomic quantities of various elements in the form of sulfides nod oxides in the absence of compounds of other elements. Ev apo- ration was carriod out from a 5 mm deep channel 0.5 mm diameter) of the ,~Hr~on (,Ie,:1;rode, the arc was fed with oLlternating current of 8 a and 220 v. It may to seen from the figure that the evaporation time is consid- tratly shortened in the conversion of oxides to sulfides. particularly :ard 1~1  23593 S/075/6 i /0 16/00 3/004/007 Spoc t rz..sro p a c 1141 tii rmination of B I 06/B209 in the z;a-sc of ftermanium, but also or tin and lead The data of Fig.1 are only val-.d if th-o respective elements Are present in the ore to be analyzed in the form of Loolated impurities of oxide compounds which quickly react with sulfur in tht reducing zone and do not react with the principal compo- nent at' the speatmen forming now low-voIntile compounds. These conditions are Vati.Bfifd ef)POCIUlly with quartz and silicate powders which contain oxide compounds or microolements as impurities which tend to form sulfides. If, huwmvvr, tf,o elemonts to be determined are in tromorphic form or influ- ence the omposLti-~ncf the melt after the specimen was melted, the chemical compositl.-,n of the melt determines the rate of evaporation. These condi- tions pairtLeulso!lly oocur In the analysis of oxidic -res. Whan iron oxides are evaporated 1;rtf melts contain german2.um, tin and Antimony, And separate entorint; X thotio 4lenents and of iron into the cloud of th~ arc cannot be achievu4- If. a mixture of iron oxides with sulfur n a ratio of 2:1 Is ev461)oratod, tqerm&nium, tin and antimony cczpletely evarorate within tO-1)0 sfic, whilit tLe Pain quantity of iron enters the cloud of the are la'er The ti-to until tin, antimony and germ&nlun enter the cloud of the arL: is cionsiderntly shortened by Adding sulfur. Sizil''hit conditions may be observed in 1hot evaporation of quartz specimens contal'ning oxidic impu- CA:-,! -1,11 ,  23593 5/075/61,/016/003/004/'007 Spectroscopic doterminatLon of B106/B208 rities (if chaloophilic elements. k1l these results only refer to evapora- tion in an a-c wre heated by high-frequency currents. The addition of sul- furtoomahich eontain, large amounts of l.ron, quartz, and silicates, considerably incxeases the aocuracy of determination of elements farming high-volatile aqlfides. Sightst accuracy is attained if the specimens are evaporate& from chambers of the electrode, which a 're heated independently cif each other aiud take up to 1 g of substance. It is possible in this way to detormin(~ 1610-5_7.10-6 % germanium on the basis of the line at 2651.2 A, and of' 1-10-5% cadmium, thallium, tin, antimony, bismuthp arsenic, and ulna in the evaporation of 0-4 g of an iron oxide ore. Basing on these results, the authors devised a method for the quantitative determination of germanium in oxidic and oulfidia iron ores, silicateb, and ashes of OM14 which is 4eacribed in detail in this paper. This method pe=its the deter- mination of 2-10-11% germanium with an error of tO.6%. The above-described application of olectrodes with chambers J.ncreasss the accuracy by 10-20 timeo of laterminiktion. Tables2 and 3 show the results of chemical and spool trum antilysin of' oxidic and sulfidic ores and coal ashes, and the results of spectrun analyeis of ore specimens with germanium impurities. An analyst Ca-rd 3/11  23593 s/o75/0/016 /'003/004/007 Spectroa.zopic detibrmination of Blo6/B208 in able to analyze about 15 or* specimens during one working day by means of this method. The present paper was presented to the Vsesoyuznoye soveshchau0ye pcp analizu rodkikb i poluprovodnikovykh elementov (All-Union Conferen.,~.s on the Analysis of Rare and Semiconductor elements), convened by the GEOKhI AN $3SR (Institute of Geochemistry and Analytical Chemistry imeni V. 1. ferriadilkiy AS USSR) (Moscow, December 1959). and to the Soveshch*niye po spektral I nomu - analizu rud naro&jye i rasseyannyye Imenty (Conference on Spectrum Analysis of Ores for Rare and Trace ElemenZIs , convened by the Ministerstvo iroologii i okhrany nedr SSSR (Ministry of Geology and Protection of the Mineral 'Resources USSR (Tashkent, April 1959)), Thor* are 6 figures, 3 tablest and 22 references: 14 Soviet-bloc and 8 mon-Soviot-bloc. The three most recent references to English-language publications ro&d as folloves Pr*deriok W. J., White J.9 Bilez., Anal. Chem. 26, 1528 (1954); Pitt.J. I., Pletcher V. E., Spectr. Acta 7, 214 (1955)1 Jllil6ruly 11. C., Dutta D. P., Scient. and Industr. Res., 15-B, N 6, 327 (1956). ASSOCIATIONt Vaenoyuznyy nauchno-isaledovatoltakiy institut minerallnogo nyt-4ya, Moskva (All-Union Scientific Research Institute of Card 4/11  J4..~?Ocj AU 7;X, K!Ll.-)0-r3 V. , ?aot:~,cyeva, V. G. , -inl. K t I S. G. 7 L: ',-N,(.,omblnatinn njroi~ertips of f-oll in n-type ~~-r:n-ini-;m P7 c:) I C,% L s?irV~a trorlofc.o tola, v. J, no. 3, V~6?, 0~-* - 641 in tn rlrmnleto prr-vloim sti!ic-s 1-161) :'Dvot p-tjp,~ Oe. The !-~ta av:iilable up to now, eanocially thove on iu zectionr, divtnrp-~ consilc-Ibly ~.ni! the temperature of thcj--:~ crns,~i soc-tinrs is not silfficiently inveztif-itc:1. n-typc Ge~ z i er, :3 t iln were frro-.-:n frim 09.111~~ Ge -.tind fro-.. Ge of even M : :-,cr :I-Iri ty lith scrics of riimplaa wern lo)cl ri th Au -mil 3b )" suc~l '!'.:it *he ter-jorattire Ae,~cnLL--,Cj:3 of t1he clectron concentr, ti.on3 lof-r. r(l'T), showLA ccn-ira.te and Aiztirct nll-tc,-xis. The ov~~r--tll lifetile w!i. mcin!nir.~.-d 'hetweer, V.)n an3 5"0 K photoelectrotn:iFnetically bctwe--n IOD -ml !,30,z (r Peal - 10-9-10-iOacc) withoit br-!-nr -iffectvd by al- healon. It wan itlao ictermino-' from 7whotoconAuctivity (z ) in orler to daterf-Anc. t*.-,c flIll'itot of adhesion. 7, arl", T- irere! ct~lcui-itod vAthout Carl V3 Pem PC  ~-/ 1 e 1 /62,.'c)o,, /00 3/01 O/C,. 5 B102/BI04 nf' Z.1irfmcr- r.-combinntion effects on !he ns.--tu-.ntion thit the mol)ility .1!1 e.12,11 to the drirt mol-,ilit.,!. Electron was le- terInol from -moinirerrmto of resistivity and &M -cons tan t. 1- p(.,n and T- C were plottel verstutt tir.-perature for three Au-iope! mpecimens nn! one Sb- ,!opej TLe cul".1011 101' 1' - f('/I,) for - an~ I- coinciJe at 'Pein 'PC 0 rco-~ 1-rT MFI-.-~r tenperatiirez, but diverro at lcv,,; temperatures. t 100 K a . 14 t exc'Veds Z- f ~t Ait-Iciie! Ge by z;everal thousan,-I timc3 n-hich if inli- pe.1 i c-.tivf nf th.~- iuIcn_qe ;Ohcaion of =inarl x 'arrior~l. A!-esicn increa~;es -:,Ith thf! L-Ii concentr:.,tion; 7- pem iu pro~,crticmil to I/C Ali at lor. temperatures. Au the r_ijar :)-~rt of r-.~combination r4n,i centers, Sb an:! other 4_ap-.zritI.(ju ?~ay a :rinor role. Thia effect. of Au ii attributed to its [).~O ov. Tire hole trappinp coeffieicnt, .JL of the d3ubly 3 ci,.,Lrpi au canirrzi 7,11 ieterm�ne3 from the lo~r-er p.irt of t.'.e tc.-.perature- 0 7 3. -1 1 :1 c~ n,7. n 1c- eof ;,t 3r.- K, is clual to 1.10- CM, 6ec , -,,;(T' T-n pf.r. t*. n Tic aocfficiont of oloctron tr~tp;iiriz, by ki- was !ete=ined bW Carn. ?/3  :b!-n:--t,inn pvopc'rt~es . . . b I 02/B 104 n1 '* 11 'A- 0. , I '), ; th v"lue n " hQ 5a c ell I " .1 r -.3 t-iikt fm- ty 1 c Ttc trap-.inc, ioc-.ons for A'a in Ge .16 ';~ - '. (;' I ITI - 13 _ i rn cm-, 31) Cl,::,, - )Dire cr7~::p-ired vdth re '~ r -.-i conc-rn4n, ;!n. '1 4, nI :'i~nin.F;, P arl 16 rc". rcnco~;: 6ovict P.-14 10 T p 7w;t importalt iaFe n~fe.----nces aret Lax. He v.I1 1 1;02 , : '460, R. N. Zi tP - v. 2, T-17.115. it. Chun. of Solids, 8, -,9, 1,- Tj D! r. 3~;S" R :.*oskvF-- A5-CCIATIONj ln.:;titut rAJiotekhnlki i cIL-ktroniv klt.ittitute of Ritilo ~;nginccrinfr and Elcctronics AS USSR9 Lia~~ co-a ) il"BLITTEDI Clotob~2r 1 1 , 1 ~61 Care 5/'~  '62/~C7/303/023/029 D256X~5C2 Lnd TT L." of photocon-'-activity n-type rmaniu:i elektronl.'-.~, v. 7, no. 3, 19o2, 2 - 54 6 Tziol.coonductivity of n-type wit" E;0-16 v,-as i.nvozli,~vtcd ex pc tally In an atte,~;pt to obtain inforna~;ion on ti.e da--.enJen(,.c of pl-~otocarrier recombinc-tion upon the charce State c: To nroduce samples with a sin,~le or two predo- minw,A ti.,mrgii states of the rol! ators a do-cr cor,-~ensatir.C-admix- ture of vas employod. Two tv-ocs of ~,,era used in a 2) Double c~ar-ed iIIvLntigILzion: 1) w- and Au-2 A'u'-2 alcig prodor.,inant. The expariments were c,--.r--ed out a-, 77bK, uz-fnE; .?uloed nonochroma--ic IiCht, the p-,~Ises of to-e photocurrent iv~,re iinn.L4.fied witn a wide-band amplifier and --.::c-,rded photograpU- ,:a-lly fror-~ the screen of a c.r. oscilloscope. T--.e ribt.ained 'p.,loto- conduct-4vity decav curves for the samples of ti-.e firs" type shm "I %rd 1/2  S /1 C Vo / 9/62/'_07/~03/023/029 Kineties of t'Lotoconductivity ... D256/'D-AC,,2 ~wo cc=Icnenta. A fact one with 15 u s~c. and a s o%-., cne L-.ith ,~ = 60 ~o 90 1. oec. The curves for the samples of secona, type can be viell zi-uteci using one only expon,_--nt wftn 1,20 to 13C A se.c. 2110 cenef,.duncc of the p".10toconductivit", Upon the .;.engt_',1 of -~Le li,;;at ras also inveati,gz~ted, s:.~,iini~ t:,at in the re- Eicn of excitation t.he effectuivt~ decay ti..-e remained con- stant, but an increase ras observed %,.,hen mcvinc -,o the ret-ion of salf-absorption. Fno-_ the experimental rcs,,zlts cross-sect-Jons fo-- C~Lrrier capture by the single an~ dou~)Ie-ci-.ar~-ed atoms --:ere csti=z;~ted to I)o respect4vely 1 x 10-17 c::.2 x 10-1,? C,.2. The CaICU141;_40n ITIL21 carried out un-,qe,- the assumpticon that the Perni le- ..Ql is close ro the -level 04, AU here are 3 non-Soviet-bloc re7 fe!ranc,,_-s. T,e ::,oferc~nces to the ions read as followa: TI.C. Duz-lap, Jr., Phys. liev., 1953, 91, 5, '1282; 1955 .;7, 3, 6*-; 1955, j00, 6, 1629; H.H. *~":oodb-.-.ry, an-- W.w. Tyler, PI-lys RL,!., 1957, '105, 1, 84; L. Johnson and H. Le~_Jns-.ein, Phys. aev.,- 1960, 117, 5, 1191. filay 24, 1~,61, Card 2/2  ZHDAWVA, N.G.; Te"rature effect on the kinetics of the impurity photoc:,uducti- vity of ti-type germanium doped with gold. Pis. tver. tale, 5 no.2: 546-551 F 163. (HIja 16:5) 1. Inatitut tadiotekhnik:L i elektroniki Ali S,-SSR ~bskva. (Photoconductivity) (Gekmanimi