fj MAE I BOCK ELEWITATION SOV/5294 Akademiya nauk WSR. Institut b1olagichaskoy fiziki Issledovaniye rannikh r*aktsiy organisma ne redistsionnoye votdaystviy* (Study of Early Reactions of the Organism to Radiation Effects) Moscow., Izd-vo AN SSSR, 196o. 22o p. zrrat4L slip insertade 3,,000 copies printed. Sponsoring Agency: PAndemlys. nauk SM. Institut biologicheskoy fizikie Resp. FA.: GoMo T&~, Corresponding Xmber,, Acadmy of Sciences USSR; Ed. of Publishing House: BV* Garien; Tech. Ids.'.V. Volkovs, and Ye.V. Makmi. PURPOSE: This book is intended for radidbiologists. COVEPAGE: This is a collection of nine articles by different authors on the effects of radiation on life processes* The following m discussed: the relationabip between reflector mechanisms and disturbances In hemodynamics; the marked diainu- tion or total absence of hemo4ynmie reactions under soft irradiation upon pre- limizary treatment of the sk1n vith novocaln; reflector-induced changes In the central nervous system and the almost Instantaneous advent of fine physico- chemical reactions following irradiati=$* changes in the stability of the Card V3  Study of Early Reactions (Cont.) SOV/5294 erythrocyte level during the first several hours after Irradiationj blood albumin changes after irradiation, occurring earlier than believed heretofore by scien,- tists;and now and important data on tissue breathing and disturbances in the physicochqmical properties of erythrocytes. N.N. Livehits., Doctor of Biological Sciences, is mentioned. Each article is accompanied by references. TABLE OF C Preface (A. Lebedinskiyj 3 Frank, G.M. Introduction. Radiation as a Disruptor of Regulative Controls of Life Processes 5 Nefedav, Yu.G. Disturbances In Blood Dynemics in Acute Radiation Injuries 14 Polivoda, A.I. Changes In the Elasticity and Hysteresis of Elastic-Type Arteries Due to a Total X-Ray Zzposure 42 Card 2/3  Study of Early Reactiono (Cant.) SOV/5294 Veyze, L.G., and G.K. Frank. Changes in Blood Dynamics and Changes in the '-r Mechanical Propert, W-WlMtsad Vessels in Total and Local Irradiation 60 Gamburtsev, A.G. Changes in the Physiaochemical Properties of Erythrocytes Under the Effect of Radiation 83 Blokhina, V.D. Albumin Fractions in the Blood Plasma of Animals Exposed to Different Doses of X-Rays 93 Vyeochina, I.V, Effect of X-Ray Irradiation on the Gas Balance of the Blood 113 Snezhko,, A.D. On Changes in the Oxygen Content of Brain Tissues Under the Effect of Radiation 125 Aladzhalova, NA. Characteristics of Physicochemical Changes in the Central Nervous System for Different Periods of Exposure to Radiation 167 AVAILULE: Library of Congress JA/rn/gsp Card 3/3 7-29-61  F;WiKj G.M., red.; VARSHAVER2 G.S.2 red.; DANITSIG2 N.M.2 red.; SOKOLOV, M.V., red.; YMIKOV, M.Ye.,, red.; ZUYEVA, tekhn. red. [Transactions of the Conference on the Biological Effect of Ultraviolet Radiatior]Trudy konferentsii po biologicheskomu deistviiu ulltralioletovogo izlucheniia. 6th, Leningrad, 1958. F;oskva, Mcdgiz. Vol.3. (Ultraviolet radiation; biological ef- fect therapeutic, preventive, and hygienic uses, and measure- mentl Ul'trafioletovoe izluchenie; biologicheskoe deistvie, le- chabno-profilaktichoskoe I gigienicheskoe primenenie imeronie. Pod red. G.M.Franka i dr. 1960. 271 p. IMIRA 15:3) 1. Konferentsiya po biologicheskomu deystviju ul'trafioletovogo izlucheniya. 6tht Leningrad, 1958. (ULTRAVIOLET RMS-THERAPEUTIC USE) (ULTRAVIOLET R&5-PHYSIOLOGICAL EFFECT)  .-nAws G.M. Some problem In.blelogleal physics. Inv. AN 38M. Ser.biol. no.2t177-196 " 060. (NM 13t6) 1, Institute of 31ologloal. PbYsics, Anado1w of Solences of the U98.849, VAGGOV, (BIOMSICS)  117 , L.G,; , G.K. 74~- Structural lability and questions on the auroregulation of cellular processes. Blofisika 5 no.1:34-39 160. (KIRL 13: 6) 1. Institut biologichookoy fisiki AN SSSR, Moskva. (Cy"LOGY)  FRAUX,-Gil4.-, VII)DIMETS, I., starshly nauchnyy entrudnik; TU!iJLIIDV, I.I.; DANISIDWSKIY, G.M., prof. Blonateorology. Znan.sila ~5 no.1:25-27 Ja l6o. - OURA 13:5) 1. Chlon-korrespondent ANN SSSR (for Frank). 2. Inatitut fizi- cheskoy khimii All SSSIM (for Vlodavets). 3. Chlen-korreBpondent AN SSSR, direktor fitotrona Instituta fiziologii mateniy Ali SSSR (for Tumnov). 04stereological research) (Sioclimatology)  FiLM, G. M. "About Two Types of Muscle Contraction." Paper submitted for International Biophysics Congress Stockholm 31 Jul - 4 Aug 161. Inst of Biophysics,, AS USSIRp Moacow  LIFSHITS, N.N.-;-FBANK,-GJI.,-6tv. red.; TSUZMFR, T.S., red. izd-va; SUSHMIVA, L.A., tekbn. red. (Influorice of ioazing radiation on central nervous system function) Vlikanie ioniziruiiishchikh izlucbenii na funktoii teentral'upi nervnoi nistemy. 14oekva, Izd-vo Akad. nauk SM 1961. 179 (MIRA 14:10~ 1. Chlen,-~korrespondent AN SSSR (ror Frank). (RADIATION-PIffSIOIDGICAL EFFECT) (VERVOUS SYSTDI)  RAZUMOVAq L.L.; FRANKv G.M* X-ray studieslof musole structLre uning different fixation .jwthods. Biofizika 6 no, 1:24-29 161* (MIRA 14:2) 1. Institut biologitheako7 fiziki AN SSSRP Moskva. .(MUSCLE) (MICROSCOPY-TECHNIQUE) I  S/194/62/000/006/109/232 D256/D300 AUTHORSt Borshchev, V.B., Kaminire L.B., Larionov, M.G., Litinskaya, L.L., Orlovskiy, G.N., kolhlin, F.Z.F Urbakh, V.Yu., and F G. It TI TLI~~ t Automatic analyzer of biological structures AB -1 P21110DICAL Heferajivnyy zhurTfal. Avtomati%a I radioaleitronika, no, 6, 1962, abstract 6-5-17 1 (Biofizika, 1961, 6, no. 6, 745-747) T'11; XLarge number of measurements are required to obtain reliable information concerning the mean values of biological parameters. A description is given of AB-I type automatic analyzer of biol. struc- turea capable of producing the mean arithm. value of thr area of 1024 nicro-o0jects with an accuracy not leas than � 7 "', at a speed of operation of ,,jIOO miaro-ob~ects per second. The image cf a -..i- cro-object is scanned by lines. The mean value of the area is ob- tained from the known spacing of the scans, the length of the chord of the object and the number of counted objects. The length of the Card 1/2  8/194/62/000/006/109/~32 Automatic analyzer of ololosical ... D256/D308 chord is converted Into a train of standard pulses; their number being proportional to the length. The number of counted objects is obtained by comparing the signals from the ochnned line with the delayed signal from the preceding linet if the signal from the pre- ceding line is the only one present, there being no sii~nal from the scanned linet then it Is understood that the ocanning.of the object is completed and a signal is sent to the counter. Nipkow-dIsx acan- ning with a simultaneous shifting of the apparatus was employed in the electro-optical converter. The flux of light which depends upon the brightness of the object, falls onto a photor-ultiplier tube, the output pulses being fed into the counter after am-olification and shaping. Results of tests of the analyzer are presented, car- ried out with =easuremento of mean radius of erythrocytes. 8 refe- rences. (Abstracter's note: complete tranalation.j Card 2/2  5M FRANK, G.M., AZHIPAo YA.I., KAYUSHIN, L.P. "Free radicals in a skeletal muscle." Report submitteds, but not presented at the 22jW International Congress of Physiological Sciences~ Leiden, the Netherlands 10-17 Sep 1962  zi '616 f4) 'j- 6. lit. Frank, A. G. Gamburisr, a Ind A. D. Sistlec 7-1-1 w-.1 Z... in previous In'"tilsilonst tning Volarographic niethods In ri- that the 0. concentration In anloW and plint lissues wits not Conitan( but changed thythriskally. One can obsem this pherinmenon in rim end alto in rcihly IsolAted i6we ricrarations. The Oyttins was connected with the utilization of Ol by living cells. lMdIAIIOfl Induced chansee not only of the alvtnlute level of the 0, tension In 11swe but alto of the fhythni. New investigation In this field extended our knowledge of the significince of the rhythmic utiti"tion or o.. (:hangci In the type of rcriodicity were corscUtcd with rvirticulair steN in the chain or oxid,iirg rtmos~, ThI same: rilvencrovenon was obwmJ with mitmhoridiiii. Radiation Ind rharmsculot--cal al;rnlt Inlucrict-d the rKr-j-ty. The r4woonviono was correlated with d4m,ige to the Inner milochondfial membranes. Scv~crsl boom after irindiAliort the periodic changes Mlprwared, indk3fing repair of miln,hooddal ultratizu~ciures. Further conir-irkors of the rhythm of o0diting proccisect, of milochondriM uIttattructure and of subosKroscenic ro~h-bty (obxrvcd by the: Interference MIAW sIlcries us to 6ing these three tirocesses tWhcr and to di%cuas sow. new features of the autoreffulation of ccL1 proocsic , their radiation dixiturbarvvc, and the rc;alr nXimiskuns Inc, irradiation. 1~ W&S"Wo'. A-d-f Q`S'kW.4 At-, USX* report presenW at the 2gA InU. Coctames of Radiatim Research, Riarrogato/Yorkehirill. Ot. Brit. 5-11 AU91962  BOROVYAGINO V.L.; FRANK, G.I._I, Submicroscopic organization and functional characteristics of the Aullorian cells of the retina. Biofizika 7 no.1:42-50 162. :. ', (MIRA 15:5) 1. Institut biologicheskoy fisiki AN SSSR, Moskva. i (RETRIA)  SAMDSUDOVA, N.V.; FRANK, G.M. Structural reorganization of the transveraostriated muscles during contraction. Biofizika 7 no.4z4ll-416 162. (MIRA 15'.11) 1. Institut biologicheskoy fiziki AN SSSR. Moskva. (MUSCLES-M3TILITY)  1~ -FRANKt G.M.-- - - Call is a self-regu2ating system. Nauka i zhiznl 29 no.4:27-30 Ap 162. (KERA 15:7) 1. Chlen-korrespondent AN SSSR. (CELLS)  BMUZOVA, Valentina Ivanovna; BOROVYAGIN, Valeriy Leonidovicb~; GILEV, Vladimir Petrovich; KISELEVI Nikolay And~~evich; TIKHONENKOI Anna, Sargeyevna;-MNTSOV, Yuriy Sergeyevichl FRANKrX,,X . otv, red,; SHMELEV, I.P., red.ild-va; RYLINA, Yu.V., tekhn. red. (Electron-microscopio methods for studying biological objects] Elektronnomikrookopicheakio metody iaeledovanlia biolbgicheakikh ob"ektov. (By] V.I.Blriusova i dr. Moukva, Izd-vo Akad. nauk SSSR, 1963. 203 p. (MIRA 16t6) 1. DwtiUt vadiatsionnoy i fiziko-khimicheakoy biologiiAN SMR (for Biryuzov&pTikhonenkD)62* Inetitut biologicheakoy fiatki AN SSSR (for Borovyagin)."3e TAboratoriya elektronnoy mikroekopii AN SSSR(for Gilev). 4. Institut kriet&llografii AN SSSR (for Kiselev). 5. Institut morfologii zhivotnykh AN SSSR (for Chenteov). 6. Chlen-korrespondent AN SSSR (for Frank). (Biological research) (Electron microscopy)  FRANK, G.M.j otv. red.; ALADZHALOVA, N.A.p doktor biol. nauk, red.; DERIN, N.N.,1 dottor biol. nauk, red.; KOL014EYTBEVA, I.K., 'red.izd-va; SHUNGSKAYA, V.Ye., red. izd-va; SIMKINA, G.S., tekhn. red. (Primary and initial processes of the biological effect of radiation] Fervichnye i nachallnye protsessy biologicheakogo deistviia radiataii. Moskva, Izd-vo AN SSSR, 1%3. 277 p. (MIRA 16:10) 1. Akademiya nauk SSSR. Inatitut biologicheakoy fiziki. 2. Chlen-korrespondent AN SSSR (for Frank). (RADIATION-PHYSIOLOGICAL EFFECT)  AMBA11,TSMAN, V.A., akademik; ASaATYAN, E.A.; BOGOLYUBM, NJ!., akadezik; VINOGWOV, A.P., akadenik; GINETSM-SHY, A.G.; 101UMMITS, I.L., akademik; KOCIETKOV, N.K.; KURSANOV, A.L., akademik; MELINIKOV, O.A.; NESHEYMOV, A.N., akademik; NESHEYANOV, An.N., doktor khim. nauk; OBREMOV, I.V., okademik; POLIVANOV, M.K., kand.fiz.-mat.nauk; REUTOV,O.A.; RYZHKOV, V.L.; SPITSIN, V.I., akaderaik; TaU, I.Ye., akademik, FESMIKOV, V.G.j akademik; FOK, V.A., ukademik; SHCHMBAKOV, D.I., akademik; FWK, I.M.; FRANK; Gj'),; KHOYJUV, A.S.0 doktor kh:Lm. nauk; SMff,kK]2,', i&aemik; ENGELIGJUMT, V.A., akademik; SHAPOSIMIKOV, V.11., n~ademik; BOYMSKIY,V.A.; LIKHTUISHT-EMIJ, U.S.; WAZEMSEVA, V.N., red.izd-va; MAYS, YeX., red.izd-va; TARAOIKO, V.M., red.izd-va; POLYAKOVA, T.V.1 teklm. red. (As seen by a scientis: From the Earth to galaxies, To the atomic nucleus, From the atom to the molecule, From the molecule to the organism] Glazami uchenogo: Ot Zemli do ga- laktik, K iadru atoma domolekuly, Ot molekuly do arganizma. Vookva, Izd-vo AN SSSR, 1963. 736 p. (MIRA 16:12) 1. Akademiya nauk SSSR. 2. Chlen-korrespondent All SSSR (for Asratyan, Ginetsinskiy, Kochetkov, Mellnikov, Reutov, Ryzhkov, Frank,1.1-1., Frank, G.M.) (AstronoDw) (Iluclear.physics) (Chemistry) (Biology)  FRANK, G.M., otv. rod. [Problerns of biophysics; materials] Voprosy biofiziki; ma- terialy. Moskva, Nauka, 19C4. 286 p. (1,11.71A 17:8) 1. Internntional Biopljysical C ngress l-'. Stockholm, 1961. 2. Chlon-korrespondent MI. SS-S  G.X.., otv. red.; YUZ111, A.[-'.,, otv. red.; YUZNl'.T.OA)V, I.V., d6-ktor filos. nauk, red.; Llll3JfIT:;, N.N., doktor biol. nauk, red.,- MOIR, M.F.,, kar4. l'iloq. nauk. red.; .MATALOV, A.T., mlad. nau,,-Ln,sotr... nauchn. red.; KREKYANSKlY, V.I., mlad. nauchn. sotr., nauchn. red. LThe essence of lifeli 0 sushchnoal-I zhizni. Moskva, Nauka, 1964. 3rO p. (MIRA 17: 8) 1. Ak~: iemiya r-ilk SSZR. I'- - chnyy sovet po f 3.1o so f skim rose-,T yeateotvoznardya. 2. Institut filosofli AN SSSR (for KrenWanskiy, Shatalov). 3. Chlen-korrespondent AN SSM (for Frank, Kuzin). c.  VKUNA, A.A.; LIN A71 ,JIKI'IN, B.K.; G-'ol. Discrete diapersion of rays at smill angles on a concentrated actin solution. Biofizika 9 no.2:237 164. (MIRA 17:12) 1. Institut biologichaskoy fiziki AN SSSR, Moskva.   G I ~ *,.';;-~ IOV i, p N . ~'- . ; ~', EY'-' ~I K . J' . -, l-'ILUiK , (;.:,I, Unusual remodealnr of the striated nLnixtxe of myril"ibrils with shortening of the antootrople disks. Dokl. AN SSSR 155 no. 5:1192-1193 Ap 16,4. (KIRA 17 - 5) 1. Institut biologichoskoy flziki AN SSSR. 2. Chlen-korrespond- ent AN SSSR (for Frank).  I .. rjtK - 1. 1., M R'27UMOVA, L.I..; B-K-; '- -;-- X-ray i3t!idy of itructural reconstructions In a striated muscle following changeo in Us length. Dokl. AN SSIjR 157 no.31688- 01 :1 16i.9 (MIRA 1-,'&7) 1. Chlon-korrespcndont. AN SSSR (fcr Frank).  VAZ7NA, A.A.; LENAZI11KHRI, B.K,.,FW1K, G.M. Diacovery of an actin polymer differIng from the F-fo---.n. Dokl. AN SSSR 159 no..I.:921-922,' D 164 (MIRA 1821) Ia InstItut biologicheskoy fiziki All SSSR. 2. Chlen-korres- Pandent AN SSSR (for Frank).  FEDORENKO, N.P., akademik; SUKACHEV, MI., akademik; KARAKFfEV, K.K.;. KONSTANTINOV, B.P., akademik; XSTAUROV, B.L.; YEFIYOV, A.N.; SHUMILOVSKIY, N.N.; ISHLINSKIY, A.Yu., aleademik; GERASIMOV, I.P.J. akademik; KAZARNOVSKIY, I.A.; BYKHOVSKIY, B.Ye., akademik,- ZHEBELAK, A.R., akademik Discussion of the annual report. Vest.AN SSSR 35 no-3:95-112 Mr 165. (MI RA 1814) 1. Prezident AN Kirgizakoy SSR (for Karakeyev). 2. Chleny~-korres- pondenty AN SSSR (for Frank., Astaurovp Yefimov., Kazarnovskiy). 3. AN Kirgizakoy SSR (for Shumilovskiy). 4. AN BSSR (for Zhebrak).  RA711MOVA, L.L.; MELINIKOV, L.A.; LFMA7HIK111N, B.K.; FRANK, G.M. Shortening glycerinated muscles with a damaged two-dimensional lattice of filaments. Biofizika 10 no.1:194 165. (MIRA 18:5) 1. Institut biologicheskoy fiziki AN SSSR, Moakva.  VAZINA, A.A.; LEMAZHIKHIN, B.K.; FRANK G.M. .V--, . ... Liquid crystalline structure In nonoriented gals and F-actin solutions. Biofisika,10 no.3420-423 16,5. (MIM 18t11) 1. Institut biologicheakoy fiziki AN SSSR, Moskva. Submitted July 60 1964. r  P'lys'cal. and phyrnicov!isial.cal J. 161~ Izv. All SQ19-It-Ser. blol~ no.3035-"g 1 4v rk 8 5) Inst1tot binlogichoskoy fiziP.1 I I T,  VAZINA, A.A.- DOLOTINA, I.A.; VOLIKENSHTEYN, M.V.; LYASOTSYAYA, IL.; FRAN'K, G.M. Configuration of a polypeptide chain in G- and F-actin. Biofizika 10 no.4t567-570 165. (MIRA 18:8) 1. Institut biologicheskoy fiziki AN SSSR, Moskva, i Institut vysokomolekulyarnykh soyedinenly AN SSSR, Leningrad.  VAZINA, A.A.;-FRANK G.M.- ZIIELFZNAYA, L.A. Intermodinto actin polymor, MokldirdJa 30 no.4t721-720 Jl-Ag 165. (MORA 18:8,' 1. Institut biologicheakoy fiziki AN SSSH, Monkva.  VLADIVIROV, Yurly Andreyevich; red,; 1111-THEIIIA, A.V. . red. [Photochemistry and luminescence of proteins] Fotokhimila i liuminestsentsila belkov. Moskva, Nauka, 1965. 231 p. Wiiu' 19~1)  ijRiK1N:iL11', H.D.j BURSHTEYN, E.A.; LIVOV, K.M.; PULATOVA, N.K.; ROZOVA, L.V.; FRAEK, G,M red,,- PLYSHEEVSKAYA, Ye.G.. red. --- -!J.~ [Call biophysics] Blofizika kletki; sbornik statei pod red. G.M.Franka. Moskva, Nauka) 1965. 294 p (MIRA 19:1) 1. Akademiya nauk SSSR. Institut biologicheskoy fiziki. 2. Chlen-korrespondent AN SSSR (for Frank).  b(A1.131111EYN) E.A.; LIVOV, K.M.; AOZOVA, L.V.j FRANK., PLYS11U.SYMA, Ye.G.,, red. red.; [Molecular biophysics] Molekuliarnaia b1ofizika. 14oskva, Nauka, 1965. 251 p. (MIRA 19:1) 1. Chlen-korrespondent AN SSSR (for Frank).  Ti ACC NR: AP6031663 SOURCE CODE: UR/0216/66/ooo/005/0625/o61;3 AUTTIOR- Frank. G. M.; N. N.; Arsen'yeva, M. A.; Apanasenko, Z. I.; Belyayevla) L. A.; Golovkina, A. V.; Klimovitskiy, V. Ya ; Kuznetrova.,_M. A.; Luk'Yanova, L. D.; Meyzerovi Ye. S. ORG: Institute of Biological Physics, AN SSSR (Institut biologicheskoy fiziki All SSSO TITLE: The combined effect of s aceflight factors on some functions of the organism SOURCE: AN SSSR. Izvestiya. Seriya biologicheskaya, no. 5, 1966, 625-643 TOPIC TAGS: central nervous systembiologic oxidation, biologic metabolism, refflex.activity, brain.t~spue, radiation effects, itmi2&ag radiation biologic effect, ABSTRACT: R' ults of experime iting the combined effect of spaceflight factore en S \ts di:tu (acceleratio , vibration, and or, some functions of the organism (brain hemodynamcis, CNS functions, and cell division of hematopoietic organs) are dis- cussed. Tolerance of the CNS to accelerations depends significantly on changes of breLn hemodynamics during accelerations. Brain blood flow in rabbits subjected to j centrifugal accelerations in the head-foot direction (5 G in head region knd 10-G in pelvis region) for 12 to 60 see decreased. This reaction was insignificant during the first exposure, sharply increaued during repeated exposure, and weakened after chronic exposure, thus indicating that tolerance t,) accelerations can be i-.qord - 1/3 -UM-611-o6_06-29-195.2  ACC NRt AP60316(,3 increased by training. Participation of CNS reflex mecliftnisma in these processes Is probable. The 15-min exposure of guinea pigs to radial accelerations (8 G), centrifuged twice with a one-day interval, increased the spontaneous bioelectrical activity of extensor muscles; however, the effect was not lasting. It was lowered the day after the second centrifugation and was essentially the same as the control., from the sixth day. The 15-min exposure of the animals to vibrations (70 cps, 0 .14 -n-a amplitude) , twice with a one-day interval, produced less distinct but more stable changes, with normalization more than 25 days after the first vibration expo.qure. Changes in myoclectric activity during spaceflight (Sputnik-11) Aycorpo- feUureo of both acceleration and vibration effecto, e r Bled appreciably 6eding them in intensity. Oxidation processes in brain tissues, judged by P02 and "oxygen test" results, were initially increased in intensity by the effect of vibrations (using the above parameters), and subsequently underwent phase changes, including depression of oxidation metabolism during the aftereffect period. Changes in unconditioned defense and vestibulotonic reflexes and upper nervous activity were observed later than 12 days after vibration. Inhibition of food-procuring con- ditioned and defensive unconditioned reflexes in the majority of animals, with pro- nounced parddotic phenomena, was also "bind. Exposure to 8-, 10-, and 20-G accelerations and v l ibration (700 cps, 0.005 mm, 60 min) resulted in decreased mitotic activity of bone-marrow cellg for 30 days. Disturbances of cell division involved chromosomal stickiness and increase in the number of chromosomal aberrations. Ionizing radia- ~.cns and the above dynamic factors produced a similar effect on oxidation meta- boliz-_ in brv_~~. tiusues and cellular division in hematopoietic organs. They differed~  T T.7n"I 1~ 14 1 C. - -) ACC NRi AP603i663 only in the level and dynamics of changes caused. The combined effect of irradia- tion and dynamic factors either did not exceed or was less than the effect of each of the indicated factors separately, a phenomenon seen as a radioprotective action of dynamic factors. The relations observed are similar to phenomena of dominance and parabiosis. Typical radiation reactions were intensified when irradiation was combined with factors having directly opposed effects. The variation and com- plexity of results of the combination of dynamic factors and irradiation are explained by the multiplicity of the mechanisms of the combined effect of radiation and nonradiation factors. The combined exposure to vibration and whole-body acute irradiation at a lethal dose showe,. that in a majority of cases the vibration effect on metabolism and CNS function WUL dominant at early stages, while that of irradiation prevailed at later stages. AL the latest stages of exposure, the com- bined effect of vibration and irradiation was diverse and complicated.. According to some indices, the trend of changes corresponded to the effect of one of the fac- tors while the dynamics of the processes reflected the effect of the other one. Under the uniform action of both factors, the phenomena of partial summation of weakening of the radiation effect, and in several cases of a sharp increase of radiation effect by the opposite action of the vibration effect, were observed. Probable mechanisms of the phenomena described are considered. Orig. art. has: 13 figures. JSW) SUB COT_t o6/ SUBM DATE; 14Dec65/ ORIG REF: 032/ OTH REF: 008/ ATID FRESS: A5995 "Ord  '---AP601564r'--- lJk---W16 4fj-/66/o 0670070 6 5 MOW' ACC NR. ~t4 ) SOURCrW INVENTOR: Bagryantsev, A. L.; Frank, G. P. ORG: None TITLE: Turbine working blade mounting assembly. Class 2T, No. 181230 SOURCE: Izobreteniya, promyshlennyye obraZtBy, tovarnyye znaki, no. 9, 1966, 57-58 TOPIC TAGS: turbine blade, axial compressor, mechanical fastener ABSTRACT: This Author's Certificate introduces a turbine working blade mounting assembly for wheels in axial compressors. The blades are fixed in an axial direction in the rotor grooves by a split lock ring. Reliability is improved by setting the lock ring in a groove in the disc. This groove forms a continuous support collar. The blade roots are equipped with lugs for limiting the radial motion of the ring. SUB CODE: 13, 21/ SUBM DATE: 17Apr65 621.515-226.2 1-blade; 2-rotor; 3-lock ring; 4-groove; 5--collar; 6-blade root lugs  compwite nidnmquals the Brown effea - Wig yond the boundary or the f"md ~o extend be firm WF 6 4&kined to a quarter of the origirmi milr 1 -10 Efi, OW riiki6i" t%* the *own'kW vits nhi in grey polywn-StaIlift Se. Dr ikasurw ipe`dW'-di%M betikin-- Obe`hornW -ph&o~ as found' thk INSS *I% GO: Physics Abstracts, Vol, 56, No. 66,41, PPGe 32A, April 19~43  pfi-flyft of IM salobldr, d w o Obror, 14, No. 6, 243-57 J, A brief survey of internal photoelectric phenomc:na Is given and the photoelectric effect in PbS is ex. plaincdir tcrmsofthccncrgy band model. Thepro. F"ties; of natural galena are briefly discussed, the can- cluslon being that natural PbS is unutisfactory for thc manufacture of photoresistors. Artificially, PbS is prepared (a) by a direct synthesis of Pb and S; (b) by Elootrioal Baginsering Abst. a chemical ruction of a solution of Pb scetato and ' .' ol 57 No 676 113S. The photoc cctn'c either . . V by depositing PbS on a &lam base as a mult of the I pr. 1954 chemical reaction between the solutions of Pb accuite. Elsotronias CS(NIl,), aml NaOl I, or by the cvjporation of putt PUS ill Nacultilloll ton picccofgld~s. I'llmetyp"Of photorciistori arc made (in Cuchoilivakia) by the latter niethod; one, of these is extermilly cooled by dry Ice; (tic other two have sensitive surfaccs of 1-5 and 16mm'. rcspectively. Their propcrties aft as follows: operating voltage 4OV; load resistance, 0 - 1-2 IvIrl, internal resistance of non-c9oled photo- . cells 1-10 Nfil: lowtst detectAble energy - 10-0 W, or even less in the case of ice-cooled resistors, uniform! spectral :sensitivity down to 2-5/j; cfficiency of the , non-cool:d photocells is -0- 1 AJW, this figure being 10 times higher for the cooled resistors; fro. qwncy respo= l0kc1s; good stability after initial: a6ving.. The properties of the PbS photocells are illustrated by a number of graphs and tabin. The photoresistors have bccn sucLessfully employed for film soulid reproduction; otUer applications such as Infrared Wephony, arc suggested. 54 refs. .. t. . it. 3. SIL)OROWWI (P)  FRANK, H.; SHE.TDAR, V. This oovatry's germnium diodes. p. 2. (SDELMACI TECHRIKA, Vol. 2g no. 1. Zen. 1954p Praha) SO: Monthly Idst of last European Accession,(EFAL), LC, Vol. 4, No@ 11v Move 1955p U101,  Oscillographic method for recordinr characterist-4 cs of germaniim diodesp p, 110S SDEIDVAGI TBMIKA, ~Mi;;isterstvo ;trojirenat-vi) Praha, Vol, 2. No. 2. Feb. 19511 SOURCE: East European Accessions List (MAL) Library of Congress,, Vol, 4, Ho. 12, Decerber 195(5  iaAN-1 ) H. Effect of temperature on static characteristics of germanium diodeaj p. 71 SDELOVACI TECHNIKA (Ministerstvo strojirenstvi) Praha, Vol. 2, No. 3: Mar. 1954 SOURCE: East European Accessions List (EFAL) Library of Congress, Vol. 4, No. 12, December 195,3  '7.'e1- `C r __ L~-` PhiltrielectriLconductulvityof Cik mitur "Uld 0. [Visnar V r5 - 111TI V -it v nro INCRITOW111 i Ubor 15, 411-1, 133-4j(104f. ewl i- the =the intenal photackc. effect. fildicatef the icla- t1aft lmtwten the absorption of light and photmJec cond., wid. 'Ittempts; tn "plain all the phenomena on the basis of the cri"gy-ievel i"Itl of mniconductors. 71te theory of "Leeding the quantuni equiv, Is studied and the frequency "epen" - f the phrtoplec. effect Is &-m-w-d. The tech.=cicalopr(wedum for obtaining photockctsically sensi- tive CdS L- exatrid. The properties of cryst. CdS am stir- wyed, with partIcukLr attention to the photoclec. properties lit the visible. ultraviolet, and x-ray Wilds. The influence of 0 is discussed. Ill concInsion P. presents.lils own ex. "Clil-11"m with photoelcc. US wid IndicLAcs posQle applica- ti-Ill. IrtrtlimiLttly for thedetmOuttof x-rays. Wistfuenc(ts. refr Mineftfu-  C z E C 537.312.5 537.311.33 vroidywozar, 15, No. 8, 311-7 Flag~gx,_ Sla4k it beirvg1pointed btk t,pho(ocanductivity can take PWa'6* i0en Aita 4 lotion of light by crr~&6 FISIMS, 114, ilia 'ApOdA 18( free electrons. Itic: 'photbUd " OwltKity of,"' to Cds Is Ox mmt V 'IM I 0. C Rieffl-S,116h. y 0j, , , cat ahoics by, d 4 K IFIl Idlik t In'cds crist J Ws ra Is, this b~~g Camid by mono- , bf-itt6l or combined worribination of tic , , and ho!CL A mthernat" theory of this effe6t is presenzed, describloS both tho rise and dewy of tha photo- conductivity. The paper is illustrated byanumbauf k f I .experimnla!Curvei to CA rom vaxous SoUrem WIL2  ~-nANK, H. ; SNE'J.DA;-, V. Germanium rect-1fierr, with P-N junctions. p. 2 :3D-IL(,'!Ai',T T'21,31DITKA. Praha, Czechon1cvakin, Vol. 3, No. 1, Jan. 1955 Monthly List of East European Accesaions Lr,. Vol. 8, '!(). 8, ~u6,1 ,A 1559 A 11 Un c 1.  FRANK, H. Use of flat germanium rectifiers for measuring low voltage. n. h 5DELOVACI TECHTIKA. Praha, C,,echoslovakia, Vol. 3, No. 1, Jan. 1955 Monthly List of East European Accessions (EDII), LC. Vol. 8, No. 8, AuFust 1959 Uncl.  FRANI) Y. FRATTKI v. Froblem of static characteristics of F-N transition In germanium. p. 201. Vol. 5, no. 29 Par. 1~55 CESKOSLOVENSKY CA"OFIS rRO 7YSIKU SCIEt'4'CF CzechoLlovakia (rraYa) So. East European Accessions, Vol. 5, no. 5, Y.,y 1c,156  FUNKI H.- , Industrial utilization of germanitm. P. 154 Vol. 5, no, 4, 1955 ZA SOCIALISTICKOU TMU A TECHNIKU Praha, Czechoslovakia Sourde: Monthly List of East European Accesionst (EEAL), LC, Vol. 5, no. 2 February 1956, Uncl.   GmMaOSLOVAKIA/Electricity - Conductorp G-3 Abs Jour : Ref Zhur - Fizika.9 No 31 1958., No 6283 Author : FrankjLqj= Inst :-U-stitute of Electro Technical# Prague* Czechoslovakia Title Photoelectric Measurements of the Internal Field in Inhomo- geneous Semi-Conductors Orig Pub Ceskool. casoY- fYs-, 1955P 5Y No 5P 536-544 Abstract The inhomogeneous distribution of impurities in the crystal is connected with the occurrence of an internal electric field. The latter plays the role of an external voltage source. The application of an external photo-emf of opposite polarity can cause the photocurrent to stop flowing upon illumi ion. The photocurrent is observed with the aid of an ac amplifier using a modulated light to eliminate the de component of the current in the crystal. By passing dc through the crystal it is pos- sible to observe that the photoeffect vanishes at a definite value of compensating current. Thus by using point-illi-Ina- tion, of the crystal at various distances it is possible to establish the distribution of the internal field over the Card 1/2 CMHOSLOVAXWElectrlclty _ Conductors Ab' Pef Zhur - F'Z'ka, No 3., 1958.. No 6283 G-3 crystal and to observe responang experiments honseclueutly 'to lnhOmOgeneities. Cor- orrectness of the Tuz ave been Performed and have shown the theory of the vol=e Photoeffect. Card 2/2  ROO (.,,V;: t,~ G., jw%,I-~! t":,  /57.75. t3pe of Ilbs lphoupoctil V!)'ww1tcldc I~AUMM.-J' ANLI F. Pi4fill.. r"( 269-74 (1953J In -Iaik,! iliwripff n of the production Gives 10 r.'s i(5 e po pro'll'Ill'u. Tilt pho"Oftafifive lllateml~' j'1-CP.!rC'J by ;tdhcctsyntI-,tsisuf KmmiS, is d-.posU-.! tion cri thr inmur SutfaCt- of r~~ gla5i hulh two grapilitc c1ccilod"3, lhc NIS 11mr i3 ~114:flzcd by oxidation and the bulb i!i thc%t 111t resuldng ~hotoccll, 4cr a prcliminary 4qg~fn;, has the Sollowing chamcmistirs: (1) dark of several Mu; (2) optimum I.e. oIatim, w1mgc of (3) time constint of 100p~eq (41 ~~ivifjvijy at the room tfillfvraturc 10-11ty; (5j tically uniforrot over the whule visible ranj~..~ and over the upjxr parl or tho infrared (down M, 2-2).,m). Physical a~pm(s 0", a PbS pholiwull wm% discwi.-d by It, F(ank in a ptevious piw [Abstr. 1652 9, S~ S1 01  62t.314.7 055 V. -ItjUDAR AND V. ILDERO. o Techml!09Y and Contact frarls'ston, ate dixuSsed, I b&: pia,,,,,~-~ prh-~ ciplcs of ll-,c tran"asior aethm an expilir,"I md thd c1ccirical popertivs of two type's of 1b., arc dcscxib~d in d..:A. nid point-coutack ttanii3tors . F!asI-CmapnIWCkl trarishtors U-4,11.110; h;1,3 thr f"Pow- ;ng parmr~tm: (1) powLe Lli,5!~:ojaioii l'OniW, :(2j),oIaX. CONCC(QT Ind CillittCrCWMILI U~ -'m!:iA;wd 5r.-A, (3) r~,:--M:i, (-ICJ 11, P's I - .10-;Ov, 12 20it anda 1 -5 paw.-r ut fjcqucn,~Ir-~, jjp ta and over YXI kc/s as ~tivpfltlers anJ up to 10hfc;,ins owillaton. Sirwo the tninsktors aro !mhddcd in plistiv, their jitf:0-Aamoal -t~,b4ity k 42th's.1wory. Tolerances in th-- rfmfical ch, j kliliks arc sufficirrafy low to svarameg~ r. !~Ccmrlll toms production. The rret-11-masi.-d tansistors orcrate Nv;tll rumi, colb:ctor ewrent c,,, -2mA, collector voltage of -1 to IOV and emil!tr current orO-5vftA. Thr, paper h 111wMrated fly it nihi(antial k nutill'-Cr of dhiractcristic, 1. SIDORtAtIV-1 l rj   F if. Problems of glass technology. p.197. EPITOANYAG. Budapest. Vol. 8, no; 6, June 1956. SOURCE: East European Accessions List (EM), Library of Congress Vol."01 No. 12, December 1950  JW '9~,e /7,=/- IwIgR - photocells and Semiconductor Devices li-8 OVAKIA/Electronics f Zhur . Fizika, No 6, 1958) No 13666 Ais jour PA nk Helmar praguey Author *__Ira ctrotechnical Physic') ffigber""'-L"""! Sle Tti her ns itute of F Inst Czechoslovakia istorso Title junction GerManilu3 Twans 17, No 12, 680-187 Orig Pub SlaboproudY obzor) 1956) Iting the basic propertic s of transistors and Abstract their applications) the author con- After indic' ilities of modern pO88ib 0.1 fundamentals Of junction transis- siders briefly the physic cular attention is Paid in this case to the in- tors. Farti arriers on the electric properties Of mi- fluence of minority c processes in se tor) to the carrier-injection tter and the semicOnduc of the p-n junction as an eMi ting conductory and'.the role is of methods for connec collector. niere jS EL brief anUlYs enanUfacture and transistors in circuits- The technology,fofCztehehoslOvak manu- tion transistor' the properties Of June ith a maxmm dissipation power of 20 facture are describeclp w Card 1/2 Zee thO terip g r-req,e, azId -ZO'vak - erattlre cy up t and fre 0 50o kc bi tranststor, qUency 0 Ogrr Lhe bat 11.re gie. 1. ePenclence c 12 t1tles. the forr of cer- Of t-'bles Carcl 212  CZECHOSLOVAKIA/Electricity - Semiconductors 11-3 Abs Jour Ref Zhur - Fizika, No 6, 1958, No 13500 Author F--ank Helm rger Antonin __~: qn Sir^ JIM Inst Not Given Title Mensi;roment of the Lifetime of Kinority Carriers in Ger- rwalium 0rig Tlub Slaboproudy obzor, 1~571 181 No 1o) 643-649 Abstract A survey of the method for measuring the lifetime of carriers in germniuu. Card 1/1  AUTHOR: Frank, H011K&r CZ/37-58-5-14/19 TITLE: `jTEe-0F3~_e_n_t_a_t_jon of Single Crystals of Germanium and Silicon by an Optical Method (Orientace monokrystalt germania a la5emfku optickou metodou) PERIODICAL: 6eskoslovensky' Cwasopis pro Fysiku, 1958, Nr 5, pp 614-617 + 1 plate (Czech) ABSTRACT: The orientation of single arystals of germanium or silicon has to be determined f8r various applications with an accuracy better than 1 . This can be achieved by X-ray methods which are however, time-wasting and dangerous. Our optical meihod is based on older work (Refs 2,3,4) which has been rediscovered by Wolff, Wilbur and Clark (Ref 5). We have modified this method by usinG a convergent beam of light, thus making the reflected image bright enough for crystals to be oriented in weak daylight. The optical method described here is very fast and is suitable for production control. For the orientation of germanium crystals into a direction parallel to a (111) plane, the crystals were etched by the etch "W ag" (formula: 20 ml HKO 3 cone. + 40 ml HF 48%) + Card 71/3 2 g AgNO 3 + 40 ml H20), which preferentially attacks the  CZ/37-58-5-14/19 The Orientation of Single Crystals of Germanium and Silicon by an Optical Method (111) surfaces (Ref 6). Fig.1 shows the characteristic triangular etch pits; Fie;.2 shows the light reflected from such an etched (111) surface. The reflection pattern has triangular symmetry. Fig-3 shows the optical arrange- ment used for orienting the crystals. The light source is a I mm diaphragm 3 illuminated by a 30 Watt bulb 1 through a condenser 2. An achromatic lens 4 (f - 200 mm,, 60 mm diameter) images the light source onto the crystal 6. The reflected light is observed on a white screen 5, 200 mm in diameter. The illuminating beam passes through a 10 mm. hole in the centre of the screen. The distance from the crystal to the screen is approximately 60 mm. The crystal is rotated until the triangular reflected image is centrally symmetrical round the opening in the screen. A rotation of 15' of the crystal is observable as a 0.5 mm shift in the reflected image. Further details about the mechanical arrangements used for holding and rotating the crystals are given. A suitable arrangement for measuring the deviation of the crystal surface from a Card 2/3 (111) plane is also described. Silicon crystals are etched  CZ/37-58-5-14/19 The Orientation of Single Crystals of Germanium and Silicon by the Optical Method in a 10% solution of KOH waxmed to-?O OC. After 1-2 mins the (111) surfaces with triangular symmetry of etch pits become visible; after about 5 mins of etching the (100) surfaces with square etch pits also become noticeable. The described optical method for orientating crystals is equally suitable for silicon. There are 6 figures and 6 references, oneof which is Czech, 2 German and 3 English. I ASSOCIATION: Vy'zkumny' ustav pro elektrotechnickou fysiku, Praha (Research Institute for Electrotechnical Physics, Pi!a6ue) SUBMITTED: April 149 1958. Card 3/3  CZECHOSLOVAKIA/Electronics - Electrocells and Semiconductors H Device Abs Jour : Ref Zhur Fiziks, No 9, 1959, 20783 A thor : Frank Hehmr- Vinopal, Jarcmir Inst Title Silicon Junction Rectifiers Orig Pub Slaboproudy obzor, 1958, 19, No io, 639-643 Abstract After a examination of rario-,:s tyres of rectifiers, the athors describe the properties of silicon jumction diodes. Comparison of the properties of silicon and germanium diodes is accompanied by a brief explanation on the basis of the band theory. Pata are given (inclu- ding curves for the eqvations and tables for the parame- ters), which characterize the properties of silicon j.inction diodes (types 111 - 124 NP70), designed for vol- tages up to 300 and ct:rrents up to 1 amp, partic:larly their behavior at higher temperat.res. Bibliography, 13 titles. Card 1/1  .AUTHOR: 1ia1z&r__Frqn&_ CZECH/37-59-2-8/20 TITLE: A Four-electrode Probe with Mercury Contacts for Determining the Resistivity of Silicon PERIODICAL: Ceskoslovensky Casopis Pro Fysiku, 1959, Nr 2, PP 173-177 (+ 1 plate) ABSTRACT: For the rapid determination of the resistivity of semi- oonductors) the four-probe method is commonly used (Ref 1). One of the conditions of this measurement is that the contacts must be ohmic. This can be achieved in Ge by slight abrasion of the surface and light pressure of tungsten probes on to it. With silicon, ohmic contacts are not achieved in such a simple way. As an alternative to the existing methods of either electrically formed contacts or alloyed contacts, we have tried mercury as a contact material. The contact between a drop of mercury and a ground surface of silicon is non-linear and unstable. If, however7 we form this contact by passing a current pulse of suffigient intensity through Card it, the resistance drops from 10 ohm to a few ohm, the 1/3 contact becomes stable and practically linear until it is mechanically interrupted. The forming pulse was a L>/"  CZECH/37-59-2-8/20 A Four-electrode Probe with Mercury Contacts for Determining the Resistivity of Silicon discharge from 1-4 pF condenser at 70-100 V. This pulse leaves the crystal undisturbed and the surface clean. A measuring probe containing 1~ contacts was prepared and it is shown in Fig 2. The mercury is contained in a pool inside a plate of insulating material. Four holes of 1 mm diameter are drilled into the plate. The distance between the contacts is s = 3.5 mm and the current is carried through iron plates. For measurements, a flat surface of the crystal is pressed into contact with all four holes by a spring. By rotating the instrument around its axis, we let the mercury run into the holes and thus make contact with the crystal. A self-contained conventional measuring circuit was constructed and is described in Fig 3. The circuit included provision for the forming pulses. For thin layers, certain corrections to the usual 4--probe method have to be applied (Refs 2, 3). According to Smits, the resistivity of a thin plate, with diameter I'd" and thickness "w", or with length "a", Card 2/3 width I'd" and thickness "w", is given by Eq (2). Here "RII is the resistance measured in the 4-probe measurement  CZECH/37-59-2-8/20 A Four-electrode Probe with Mercury Contacts for Determining the Resistivity of Silicon and "CF" are geometrical correction factors. For very thin and narrow rectangular plates, Eq (2a) applies. In our case, this means that the rectangle must be less than 4 mm wide, more than 15 mm long and less than 1.5 mm thick, if we wish to keep the error to 0.2%. Fig 1+ contains nomograms for the rapid calculation of f for circular discs. The described apparatus measures resistivities between 10-* and 10't ohm cm. The error Card 3/3 is not more than 2%, but depends on the accuracy of the geometrical measurements. There are 1+ figures and 3 English references. ASSOCIATION: Vyhkumny" u'stav pro sde'lovaci techniku, Praha (The Telecommunications Research Institute, Prague) SUBMITTED: November 20, 1958  AUTHOR: ~_Fxju*_,Aelmg~~_ CZECH/37-59-3-8/29 TITLE: DetazWknatlowof Resistivity of Very Pure Polyerystalline Silicon PERIODICAL: Ceskoslovenskyo t5asopis pro fysiku. 1959, Nr 3, pp 263-266 ABSTRACT: The DC resistivity of high-purity polycrystalline, silicon is not a characteristic of the material but of the barriers present in it. To obtain the resistivity characteristtc of the silicon, a h1gh-frequency measurement of resistivity was undertaken. The.measurements were made on a poly- crystalline sample with dimensions 9.1 x 4.6 x 0.6 mm. Approximately ohmic contacts were made with an eutect1c alloy of gallium and zinc. Figure 1 shows the real component of.the :Lmpedan e of the sample as a function of frequency. The curve in Figure 1 was calculated from the equivalent circuit (Figure 2), while the poirts were measured. The 11mi-tIng value ok 30 kXX at a freq.--ncy of 30 m.c. may be considered an the -real resistance of the silicon. The resistivity is given by Cardl/4  CZECH/37-59-3-8/29 Determination of Resistivity of Very Pure Polycrystalline Silicon R. k1 0 k (2) 2 d A in tho-area-of the specimen, d its thickneAs and k a correction factor due to the fact that the silicon .3L doos not actualljfill the whole volume of the sample k2 is a correction due to the fact that the mobility of carriers in reduced by the small dimensions of the crystallites. Figure 3 shows-the model on which the equivalent circuit in based. The sur.,~'~ace layers SL between crystallItes are represented by R &md R with C 2 3 2 and C in parallel. R and C are due to the barrier 3 1 1 J at the contact. R is due to the resistance of the 0 silicon. k 1 in given by Z.q (3) and can be evaluated from Eq (4) if we measure C 0 and calculke C from the Card2/4 dimensions of the sample and the dielectric tant of 7  CZECH/37-59-3-8/29 Determination of Resistivity of Very Pure Polycrystalline Silicon silicon (c = 12) . For k. the value 0.01 is taken as a reasonable estimate. From this (OP Is calculated to be approxlzmtely 1 000 4cm . This result is supported by the fact that a single crystal grown from the same mateicial.had,L after extensive zone refining, the same resistivity. The orders of magnitude of R2 -and R 3 are such as to suggest that the grain boundaries consist of Schottky barriers, rather than of S102' No evidence for the presence of oxygen was found from the infra-red absorption spectrum. The thermo-electric effect shows that the-naterial was n-type. The conductivity was plottod.ag"nst t~perature (Figure 4) and from this plot an actlyatlon energy of 1.1 eV was derIved. All'the evidence shown that the material was near-IntrInsic. Card 3/4  CZECH/37-59-3-8/29 . Determination of Resistivity of Very Pure Polycrystalline Silicon There are 4 figures. ASSOCIATION: Yjnku=4 datay sd1lovact techniky, Praha (Telecommunications Research InBtltute, Prague) SUBMITTED: November 14, 1958 Card 4/4 V/ -  06630 AUTHOR:',- Fr!~ CZECH/37-59-5-6/13 Helmer TITLE: Measurement of Hall Mobility on Whole Germanium and Silicon Crystals PERIODICAL: Ceskoslovensky' easopis pro fysiku, 1959, Nr 5, pp 499 - 503 ABSTRACT% The Hall mobility IL = RH.d (RH - Hall constant, 6 - conductivity) is usually measured on thin rectangular samples by measuring the Hall voltage (W. Shockley - Ref 1): 1 UH = RHB - (1) . d Here, i is the current through the sample, B the magnetic field and d the thickness of the sample. It is often desirable to measure the variations in mobility along the axis of a large crystal. Cutting it into slices for subsequent measurements is extremely wasteful and it will be shown in this paper that the Cardl/5 measurements can be c.irried out without any shaping of  06630 CZECH/37-59-5-6/13 Measurement of Hall Mobility on Whole Gerntaraum and Silicon Crystals the wyatal. For a plate of cross-section 2r.d , we obtain: UH RH B d RH I d 2r RH -B , I . 2r (3) d where I is the current per unit area. For a cylinder of diameter r with current flowing along it, we obtain: 21 UH = RHB . - rW I , 2r2Ir RH - B rw RH . B . I . 2r Card 2/5  06630 CZEEH/3 59-5-6/u Measurement of Hail Mobility on Whole ermanum and Silicon Cryqtals which is Identical to Zq (3). The only conditions for this identity-are: equal density of current I , no barriers In the crystal, reasonable uniformity of the density of carrier6. The Hall mobility in measured by measuring the Hall voltage UH between electrodes 3 and 4 (Figure 1), the electric field 9 x =.U 5,61AX in the direction of the current flow, the magnetic field B and the distance between the Hall electrodes: $L =---UH (6) B . Z 2r The measurements were carried out on a holder shown in Figure 2. The wyatal Is fixed on a slide made of insulating material. The crystal is held on the slide by two wire loops between two brass L pieces, which are Card3/5 covered with a Ga-Zn alloy. These provide the contacts  06630 CZECH/37-59-5-6/13 Measurement of Hall Mobility on Whole Germanium and Silicon Cryst&ls for the current along the crystal. The slide can move on an insulating base plate. The base plate carries the four further contactsq all made of thin bronze springs coated with Cka-Zn alloy. The two Hall contacts are shown as 6 and 8 (Figure 2); the.contacts for measuring R x are 12 and 13 . C11 contacts can be withdrawn on two auxiliary slides to allow the crystal to move. Usually, the contacts are made by pressure of approx. 100 to 300 9 on the springs. On high-resistivity silicon crystals a condenser has occasionally to be discharged through the contacts. The base plate is fixed to one of the pole pieces of an electromagnet. The resistAvity can be measured simultaneously. There are 2 figures and 2 references, 1 of which is English and 1 a private communication. Card4/5  06630 CZEPH/37 g9gj-4113 Measurement of Hall Mobility on Whole Germanlum &E J.3.COn Crystals ASSOCIATION: Vfzkumn' Astav pro y Praha (Popov Institute Prague) ,SUBMITTED: March 27, 1959 sdelovac.( techniku A.S. Popova, of Telecommunications Research, Card 5/5  9(2,3) CZECH/14-59-6-11/60 AUTHOR: Frank, Helmar, Doctor TITLE: Tuning IF Filters by Means of a Wobbler With a Si Junction Diode PERIODICAL: Of Sde'lovaci Technika, 1959, Nr 6, pp 213-214 (Czechoslo- vakia) ABSTRACT: The author deals with -the various applications of silicon junction diodes and mentions first the auto- matic tuning of radio sets. The junction diode intro- duced into the circuit of the oscillator, changes the frequency according to the size and phase of -the IF signals, so that the station tuned in automatically adjusts itself to the frequency of the emitter. Fur- ther, the junction diode can be used as a frequency modulator of the signal generator for the rapid and clear presentation of resonance curves on the screen of the cathode oscillograph. New silicon junction diodes type 111NP70 were recently developed and tested in the Vyzkumn~ datav pro sdglovael' techniku A.S. Po- Card 1/3 pov (Research Institute of Telecommunication Techniques  CZECH/14-59-6-11/60 Tuning IF Filters by Means of a Wobbler With a Si Junction Diode A.S. Popov) with very satisfactory results. A small tuning device was constructed (as presented in figure 7) composed of 2 electron linked oacillatorz. The oscillator with the electron E provides the compara- tive frequency and for this reason the small condenser C is gauged directly in Kc/s for a range of 430-490 Kg/s. The size of the signal can be regulated by the potentiometer P . The frequency modulated oscillator with the electr;n E is similarly connected with the only difference Thai the si-diode D is connected paral- led to the oscillator circuit L C . The condenser C prevents the high frequency ;oll~ge from entering tfle circuit of the modulation voltage. It is neces- sary to avoid a reciprocal influence between the coils. For this installation the oscillograph type KF!Lyfk T531 was used. The described device is simple and likely to speed up and guarantee the optimal tuning of IF filters. In his conclusion, the author mentions Card 2/3 the application of si-juntion diodes as simple fre- v1*1  CZECIV14-59-6-11/6o Tuning IF Filters by Means of a Wobble.- With a Si Junction Diode quency modulators. There are 2 photographs, 2 graphs, 3 circuit diagrams and 3 references, 2 of which are Czech and 1 American. L11Z Card 3/3  -FRANK., H. Four-electrode probe with mercuI7 contacts for determining the resistivity of silicon. P. 173. CESKOSLOVENSKY CASOPIS PRO FYSIKU. (Ceskoslovenska akademie ved. Ustav Technicke fysiky) Praha, Czechoslovakia. Vol. 9,, no. 2., 1959. Month2,v List of East European Accessions (EEAI) LC. Vol. 9, no. 2, February 1960. Uncl.  ?J,.~;V, H. i"Icasurement of the hall mobility on vhole gerumnimu and silicori crystals. P. 09. 317SOSLOVF'~MIY CASOIIT~ PRO ~-r . SIKU. (Ceskorlovenka al-ademic vQd. Ust-v Teclinicke fysi~-j) Praha, Czechoslovaida. 7o1. 9, no. ~,', 191,2. ?,',onthly List of East European Accessionn (SBAI) LG. Vol. 1), no~'-Z, Feb. 196o Uncl.  FRANK, H.: K=K, J. National conforenco on semi-conductors in Roznoy pod Radho3tom. p. 598 SLABOFROUDT OBZOR (H:Lnii3t*ratvo vacobenibo stroj:Lronstvi, minist*rstvo opaju a Caskeelovenska vadocko-t*chnicka spolocnost, sekee alektrotachnika) Prah2, Czechoslovakia, Val. 20, no. 9, SePt. 1959 Month4 List of East European Accessionz (PZAT). IX. Vol. 9. no. 2. Fob. 1960 Uncl.  I FRANK$ Helmarj dr. Compound semiconductors. Slaboproudy obzor 21 no.7.-426-432 J1160. (EUI 10:1) 1. Vyzkumny uatav pro adelovaci techniku A.SePopovia, Prabas (Semiconductors)  '#t. Z/039/60/021/011/003/003 AUTHOR: Frank, H., Doctor - ---i- TITLE: International Conference on the Physics of Semiconductors, Prague, 1960 PERIODICALi Slaboproudy' obzor, 1960, Vole 21, No. 11, pp. 658 - 66o TEXT: The conference was held from August 29 to September 2, 1960, with 700 foreign and 150 domestic participants. At the opening session A.F. Yoffe discussed the present state of solid-state physics and W. Shockley discussed some outstanding problems of the p-n junction theory. The main sessions of the conference were divided into four simultaneous sections. Compared with the Amsterdam .Conference In 1954, large advances have been made in the theoretical evaluation of the band structures of semiconductors with the ald of fast computers. Both the one electron and many electron approximations were discussed in detail. Much progress has been made in the theory of transport such as multiphonon scattering, strong scattering Card 1/5  Z/039/60/021/011/003/003 international Conference .... E024/E335 on impurities, transport in high magnetic fields, etc. A now effect of the modulation of minority carrier mobility by majority carriers at low temperatures was discussed. Negative mobility has been predicted for InSb at low temperatures by Maclean and Paige. Shockley and Hubner reported an experiment in which the momentum of phonons can be directly measured by the interaction with free electrons (transmitted phonon drag effect). A number of problems on thermal and electrical conductivity are still unsolved, particularly in semiconductors with complicated structures containing several components (Yoffe). A number of new effects were reported in the galvanomatnAtic sections such as the incompletely understood negative magnetoresistance effect in InSb and germanium (Sasaki et al). The newly discovered tunnel diodes gave rise to a number of basic theoretical investigations. The effects of inhomogeneity on various transport properties were discussed by several authors. Though a number of investigations have been carried out regarding the thermal conductivity of semiconductors, the Card 2/5  Z/039/60/021/011/003/003 International Conference .... E024/E335 dependence upon temperature of this conductivity has remained somewhat obscure. Aigrain discussed a new type of propagation of electromagnetic waves in a semiconductor within a magnetic field, called "helicon". The energy states of various impurities and imperfections were discussed along with radiation damage in semiconductors. Optical effects were discussed in great detail. B. Lax gave an introductory lecture on magnetospectroscopy in semiconductors and several papers dealt with various aspects of optical investigations in semiconductors. These included recombination radiation and absorption spectra. The question of long lifetimes and large diffusion distances of excitons is still a controversial one. Photoconductivity was discussed by R.A. Smith, A. Rose and others. In the field of surface effects, the techniques 'of obtaining a clean surface have now been established. A number of authors dealt with the influence of various environments on the Card 3/5  International Conference .... Z/039/60/021/011/003/003 Eo24/E335 surfaces of semiconductors. Resonance effects were discussed by Peher, Roth, Williams, Dousmanis, Rosenblum and others. In the section dealing with ionic crystals, interest was centred on the band structure of such crystals. In the section on semiconducting compounds, Garrett and Hannay reviewed the organic semiconductors. Morin discussed fluorides, oxides and sulphides of transition metals. Group AIIIBV semiconductors were discussed by a number of workers, while- some Soviet workers (Zhuze, Regel and others) discussed unusual alloys such as In.Te 3% etc. Discussion groups dealt with the classical semiconductors, selenium, tellurium and with selenides and tellurides. CdS and ZnS also proved verypDpular. Ternary systems were discussed mainly from the point of view Card 4/5  Z/039/60/021/011/003/003 International Conference E024/E335 of thermo-electric materials, together with solid solutions of ZnSb and CdSb, etc. In the concluding session Dr. Tauc, Professor Bardeen and Academician V.M. Vul gave a critical evaluation of the scientific value of the conference and Doctor Matyas, the Secretary of the conference, dealt with organizational aspects. Professor Zachoval acted as Chairman. ,rhe conference was a great success from all points of view. Card 5/5  Z/039/62/023/005/001/004 D291/D301 AUTHORS: Frank, Helmart Doctor of Natural Sciencesp and Vik ',`6~rap ~olavp Engineer TITLE: Determining the average impedance of conductors and PERIODICAL: Slaboproudk obzor# v. 23, no. 5, 1962, 252 - 257 TEXT: The article deals with solutions of Maxwell eauations for a homogeneous cylinder with a ,,,jbitrary electrical conductivity which 1c; inserted into the HY f d of a simple coil. xelations are deri- ved for the variation of the Q factor when the cylinder is inserted into the coilq and simple formulae are given for quick calculation. The derived values indicate the possibility of determining the ave- rage impedance of homoGeneous cylindrical specimens by measuring ` a coil on a simple measuring instrument with mini_ the Q factor 04. mum adjustment. Experimental measurements were made with a TESLA Brno type Bb1211A Q-meter on a 10 Mc coil, consisting of 9 turns of 1-mm silver-plated copper wirep 17 mm in diameter, having an induc- tivity of 0.9 pHs The tested specimen was polycrystalline GaAs. The validit of the method was also corroborated by measuring various Card 1 2  Z/039/62/023/005/001/004 Determining the average impedance D291/D301 other conductors and semiconductors. It is pointed out that the des- cribed method is especially suitable for contactless measuring of the ave.rage impedance of semiconductors since it is very quick and surfaces are not contaminatedp namely when specimens are wrapped in polyethylene foil. This measuring method in the field of a coil is applicable to low impedancesp up to 100 -a cm and frequencies below 100 Mc. The accuracy of this method depends only on the accuracy of ihe Q-meter used. In case very sensitive Q measuringe are made, the viethod can be used to determine the nomogeneity of alloys, for mea- suring the temperature coefficient of metals and alloys, to check the diameter of metal rods, to measure the quality of silver-plated surfacesp etc. There are 8 figures and 3 tables. The English-lmgua- ge reference is: h.V1. McLachlan: Bessel functions for EnGineers. Oxford, Clarendon Press 1955. WSOCIATION: V~zkumn~ Astav pro s0lovaci techniku Yraha (A.S. Popov Research Institute Engineering, Prague) A.S. Popova, for Communication SUBMITTED: January 25, 1962 CarcL 2/2  Z/037/63/000/00,1/002/008 E-11*0/E235 Re -Im AUTHOR: Frar* ar TITLE. Contactless measurement of semiconductor resistance by eddy currents PERIODICAL: Ceskoslovensky' c"asopia pro fysiku, no.1, 1963, 13-19 TEXT: Probe measurements of GaAs polycrystalline samples display very great inhomogenoity. Fig.1 gives the equipotential curves on a particiilar inhomogeneous sample, 36 rnm long. DC measurements cannot be used since the material is not subject to Ohm's law, due to the intercrystal boundary surfaces. A method has' been developed in which GaAs ingots are introduced into RF coils and the resistance 'is determined from the change in Q, measured on an ordinary commercial Q-meter, using the following relation: QOIQI r1 wit0 where rl Q0 - Q1 Br 2 0 Card 1/3  Contactless measurement Of Z/037/63/000/001/002/008 E140/L-135 The, method shows high reproducibility, but the absolute precision depends on the'accuracy with which the ingot dimensions are known, as well as on the-prooision to which the ingot and coil are cylindrical. There are 4 figures and I table. ~ASSOCIATION: V~zkumny'* ~stav pro sd4lovaci techniku A.S. Popova, Praha (Telecommunications Research Institute A.S. Popov, Prague) SUBMITTED3 September 13, 1961 Card -2/3  Z/037/63/000/001/002/008 Contactless measurement of Fig-1 m 39 4 Card 3/3  FRANK, Halmar, fUlDr. - A simple very high-frequency receiver with a tunnel diode. Sdel tech 11 no.7t261-263 i1 163.  FRANK,IH., dr. "Junction transistors" by K. Otto and H. Muller. Reviewed by H. Frank. Slaboproudy obzor 24 no.I:Suppl.: Literatura 2/+ no01:L59L7 163.  FRANK, H. O~~ ~- - *Geriaaniua alloy diffusion transistorom by M.M. Samochvalov (Samokhvalov, H.M.I. Reviewed by H. Frank. Slaboproudy obzccr-. Suppl,:Literatura U no.5:L39 163.  ACCESSION PR, AP4ol5898 Z/0039/64/025/001/0025/0033 AUTHORi Franky Helmar (Doator) TITLEs Measuring the lifetime of minority current carriers in nonhamogenous 5ouiconductor crystals by the phase compensation method SOURCE: Slaboproudy obzor, Y. 25, no. 1, 1964, 25-33 TOPIC TAGSt electronic measurement, minority current, current carrier, semiconductor, crystal,.phass compensation. monocrystal ABSTRACT: A phase compensation method is described for ascertaining the lifetime of minority carriers as a means or controlling the quality of Si. Go ahd other monocrystals. The measuring equipment based on this principle (shown in Fig. 2 of Enclosure 01) was developed by the VUST, Prague, and is described in detail in Zpravodaj VUST. Vol 1, No 1, 1939. As long as the crystals are homogeneous* the measurement is unambiguous vA the results are reliable. Difficulties arise in measuring nonhomogenous crystals, even in ease of puxe intansitv modulation of the light, It Is ahworn that the volume photof-ffect is superimposed on the normal photooffeat. Because of Inuidnation and the voltage applied to Card IY;~  ACCESSION NR i AP4015898 the crystal, there may be a difference between the reading on the phase comparator and the actual lifetime. Reasons for these variations are pointed out. On the basis of derived equwa=3 and their practical verification, a procedure is i described for measuring nonhomogeneous crystals. To got proper results it is necessary to carry out two measuremontst in addition to the values recorded' on the phase compensator, it in necessary to determine also the values of the photoolectrio signals, and then to evaluate the measured results as shown in IFU"! i 14 of Enclosure 02. The described method is simple and fast, and the errors do not exceed 10 percent. Orige 4rte has 14 figures, 33 formulas# and 3 tablese- i ASSOCIATION: Vyzk=rq ustav pro sdelovaci tachniku A*-S, Popova, Prague., (Research Institute for Cannudoations Engineering) SURU=s 29majY63 ]UTZ ACQ: Djob& EM: 02 SUB CODE: GE PH NO REF'SOVI 000 OTUR t M3 Card 2/Xp-  I. The rotation of crops. p. 6. (Mafyar Iezovazdasar, Vol. 11, no. 2, Jan. 1956 PjjdapeEt) SO: l'onthly Li,,t of -East European Accer-sion ( :FAL) 1C. Vol. 6, '10. 7, Jul- 195". Uncl. I . ~ t  .FIUNK, 1. Bearings made of artificial material for rolling mills. p. 100. On technical books. p. 104. KOHASZATI LAPOK. (Magyar Banyaszati es Kohaszati Egyesulet) Budapest. Vol 11, no. 3, Mar 1956. SOURCE: EEAL, Vol 5, no. 7, July 1956.