SCIENTIFIC ABSTRACT FANCHENKO, S. D. - FANDEYEV, A.A.

66368 SOV/120-59-5-ii/46 A New Form of Electron-optical Chronography is claimed to be possible. Ye.K. Zavoyskiy is thanked There are 2 figures and 6 Soviet and 1 English. SUBMITTED: September 8. 1958 for valuable discussions. references, 5 of which are 41", Card 5/5  BUTSWV, M.M.; ZAVOSKIT, U.K.; PIAKHOV, A.G.; SMOLKIN, G. Te.; FANCHOKO, -S.D. - Electron optical method of the photography of ultrahigh-spead or, processes. Usp.nauch.f't. 6:84-89 159. (MIRA 13:6) Blectron optics) otography. Instantaneous--Sciontific applications) M  S/056/60/039/01/09/029 B006/hO70 AUTHORSs Demidov, B. A., Fanehenko, S. D. TITLE: The Observation of Relativistic Charged Particles in the Luminescence Chamber /Y PERIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fizikip 1960, Vol. 39, No. 1 (7), pp. 64-66 TEXT: The recordin of particles by means of luminescence chamber and some related works fye. K. Zavoyakiy and others) are briefly mentioned in the introduction. Then the authors report on their observations of singly charged particles with minimum ionization in a luminescence chamber and the determination of the density of their tracks. Fig. 1 schematically shows the arrangement when an BaI(TI) crystal of 7 cm diameter and -1 cm thickness was used. Fig. 2 shows photographs of some of the tracks out of a total of 1000 photographs. For the determina- tion of the track density of the muons of cosmic radiation, special experiments werb made with a three-counter telescope set in coincidence. These counters are denoted In Fig. 1 by Kit K 2 and K 3' Between K1 and K3 Card 112  The Observation of Relativistic Charged 3105616010391011091029 Particles in the Luminescence Chamber B006/BO70 2 there was a lead absorber of 115 g/cm . Some details of the experimental arrangement and measuring processes are given. In conclusion, the authors thank Ye. K. Zavoyakiv for advice and discussions, and L. S. panelzan- and V. V. SklyarevskiX for the preparation of the crystals. There are 2 figures and 7 referencest 6 Soviet and I CERN. SUBMITTEDs March 17, 1960 Card 2/2  S/120/61/000/001/001/oG2 E032/En4 AUTHOR: Fanchenko.,--~' TITLE: Problems in the Investigations A Review. Accurate Measurement of Time and of Processes of Ultrashort Duration. 1961~No.l, PERIODICAL: Pribory i tekhnika eksperimenta, PP. 5-15 A TEXT: Experiments concerned with the accurate measurements of time can be largely divided into two groups: 1) measurement of relatively long intervals of time with a high relative accuracy, and 2) measurement of time with a high absolute accuracy, i.e. observations of exceedingly short intervals of time. This review is concerned with methods belonging to both of these groups but more attention is paid to those in the second group. The subject matter is featured under the following subject headings: 1) time microscopy (oscillographs, optical chronography, time resolution, photoelectron-optical methods); 2) statistical metho,-Is of measuring short time intervals (meson lifetimes, nuclear li.Ccti.n.ics, excited state lifetimes). The review con5lStS lar_cply Card 1/2  S/120/61/000/001/001/062 Z032/ZJU4 I~ I/ Problems in the Accurate Measurement of Time and Investigations of Processea of Ultrashort Duration. A Review. of brief references to the papers quoted at the end. There are 5 figures and 35 references-. 26 Soviet atid 9 210TI-Soviet. SUBMITrED: November 30, 1960 Card 2/2  2C450 S'O (Id 3 8/05 61/040/002/001/047 /J 0 (,/,? A/A.2, B I 13YB214 AUTHORSt Demidov, B. A~,. Skaohkovj Yu. F., FWnchenko,__S. D. TITLEs Expansion of a channel of very low intense sparks PERIODICALt Zhurnal eksparimentalinoy i teoraticheakoy fiziki, V. 40, no. 2, ',96*!, 585-390 TEXT: It has been shown In e&rl4er papers that the initial expan ion of a spark channel is causal by a sho3k wave originating from the he:ting and ionization of -the gas In the nhannol. In the present paper, it is also cleared up that tho 4.ni~lal-rate of expansion of a channel depends on the inductivity of the dlsc~arge c4rcult~ which increases with in- creasing (dI/d*w),. In the prfisefi',~ paF4r, only the initial stages of ex- pansion of a channel are studied fo: the ~3aae of a discharge circuit with large dI/dt in the foll-)-sing suloatar:,.eeK oxygen and nitrogen (pressure up to 10 atm), deuterl.um (15 atm), a:-..I hy1rogen (20 atm). In the dis- charge circuit, sither a disk -apa,)itar of o&p&citance 3? F was used when the period of oacillations was 2-10- M, or a coaxial capacitor of oapEci,~ane 6300 IAP_ F, The full inductivity- of the Card 1/4.,  2D450 5/056/61/040/002/001/047 Expansion of a channel_, B113/B214 two discharge circuits was 3 and 7 cm, respa~_tively. Unlike the other papers which were based on a fast photographic apparatus with rotating film or mirror and having a time resolution of up to 3-10- 8see, the expansion of the spark channel was observed here by electron-optical chronography insuring a time resolution of 10-10 see. The photographs of the spark channel In the case of the disk capacitor showed a periodic change of the light in the spark channel, which is produced by the characteristic oscillations of the discharge circuit. In hydrogen, these alterations in luminosity were observed in the total interval of initial pressure (2-.*20 atm), while in nitrogen they were clear only at pressures higher than 6 atm and not at all observed at pressures lower than 4 atm. Furthermore, many cases of branching of the channel and asymmetry of expansion of the channel were observed in nitrogen. The highest initial rate of expansion was observed in the first quarter of the period of charaoteriatio oscillations of the discharge circuit, during which the expansion rate was obaervod to vary from one case to another, even for the same initial conditions of dischargft, In nitrogen, the initial rate of expansion was observed to be up to 6-106 amlsec, and the same was the Card 2/1  20450 s/056/61/040/002/001/047 Expansion of a channel ... B113/B214 case in oXygen; the highest rate of expansion in deuterium (13 atm) was 6 6 7-10 cm/sea, and in hydrogen 8-10 cm/se'c. With the help of a coaxial capacitor, hydrogen and nitrogen wore studied at pressures-between 1 and IS atmj the maximum rate of.expaneion in nitrogen was found to be 2-5-106cm/eec, and that in hydrogen 6-106am/sec. From a comparison of the initial rates of expansion for the cases of disk and coaxial capacitors it was established that the rate depends on the quantity (dI/dt)O- As in these experiments the shook waves were not recorded by the method of Teppler, it was n~t possible to observe experimentally the separation of the shook wave fr.)m the channel. There is no doubt, however, that the initial stage observed here precedes it. On the other hand, simple estimates show that 4.n these experiments the current and the magnetic field of the plasma itself are insufficient for the pinch effect in the channel. Assuming complete ionization of the gas behind the front of the shock wave, the temperature in the front of the wave in hydrogen is given by T~ = 3,95 (D/9 - 1 (,')2 [1 - (9. 1 0-ID)'+ 1/ 1(9. 1 0-ID)P- Card 3/4  20450 S/056/61/040/002/001/047 Expansion of a channel ... B113/B214 where T is given in ev, and D in the velocity of the shock wave in cm/sec.T According to (1), TI;P - 3.5 ev for D w 8-106cm/sec, and in the case of deuterium T1~ W8 ev for D - 7-10 6cm/sec. The temperature and density in the channel (hydrogen) were calculated on the basis of the hydrodynamical theory of spark channels, whose fundamentals were developed by S. I. Drabkina and S. 1. Braginakiy (Ref. 17: S. I. Braginskiy Zfltp 34, 1548, 1958). The results obtained were T K - 22 ev and nK - 3-10 cm!3 (density in the channel). Ye. K. Zavoyskiy is thanked for advice and interest in the work, and S. I.-Braginskiy and S. L. Mandellshtam for discussions. V. S. KomelIkov, D. S. Parfenov, and N. S. Sukhodrev are mentioned. There are 4 figures, I table, and 17 referenoest 11 Soviet- bloc and 6 non-Soviet-bloo. SUBMITTEDs June 39 1960 Card 4/4 do  S/12o/62/000/001/023/o6i E140/E463 AUTHORS: Demidov, B.A., Ivanov, G.A., Fancbenko, S.D. TITLE: Fanchenko multi-stage electron-optical image-converter pulse control circuits PERIODICAL: Pribory i tekhnika eksperimenta,7-no.1, 1962t 102-107 TEXT: Two operating modes are available for a multi-stage electron-optical image converter - with leading synchronization and with lagging. These instruments are used for studies of luminescent chambers, arcs, arc counters, plasma physics, etc. For leading synchronization a linear time base 0.1 to 15 jLs and symmetrical pulse generator for compensation of the electrostatic shutter (0.2 jLs exposure time) are available. For lagging synchronization two types of synchronization pulse selection-are available, with artificial insensitive time (0.1 to 10 sec). Output is to a photographic apparatus sLfting the film forward one frame for each operation of the image converter shutter. The time resolution of the system is of the order of 10-10 see. The artificial insensitive time is useful in examination of randomly occurring events. Vacuum tube circuits are used throughout. Card 1/2  Fanchenko multi-stage ... There are 6 figures. SUBMITTED: 1961 0 MAY 17, S/120/62/000/001/023/o6i F.14o/E463 Card 2/2  5/05 62/042/005/050/050 B 108%138 AUTHORS: Demidov, B. A., Skachkov, Yu. F., Fanchenko, S. D. TITLL; He. S. I. Andreyev's and M. P. Vanyukov's comment on the paper "Widening of the channel of powerful miniature sparks" PERIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, v. 42, no. 5, 1962, 1427-1429 TEXT: Cr A. ticism levelled by S. I. Andreyev and M. P. Vanyukov (ZhETF, 42, 3091 1962) at a paper by the authors (ZhETF, 40, 365, 1961) ia denied. Th present authors had observed hydrodynamic widening of spark channels. On the basis of the results of R. F. Saxe (Brit. J. Appl. Phys., 7, 336, 19506), Andreyev and Vanyukov had asserted that the authors had only seen streamers by the observation slit. Here it is shown that such a thing wa6 not possible since the duration of streamers is considerably less than the time resolution of the experiment. There are 2 figures. SUBMITTED: January 22, 1962 Card 1/1  ACCESSION NR: AP4019212 S/0056/64/046/002/0497/0500 AUTHORS: Fanchen3co,,S. D.; Demidov, B. A.; Yelagin, N. I.; Ryutov, D. D. TITLE: Energy absorption due to sausage instability of a plasma in a toroidal system SOURCE: Zhurnal eksper. i teor. fiz., v. 46, no. 2, 1964, 497-500 TOPIC TAGS: plasma, toroidal plasma, plasma instability, plasma resistance, anomalous plasma resistance, active plasma resistance, sausage instability, two stream instability, collisionless pLasma A13STRACT: A toroidal plasma installation is described, intended t9 test the feasibility of using sausage instability for the dissi- pation of the energy of the external electric field in a collision- le*s plasma of toroidal configuration. Comparison of the plasma current and field oscillograms has shown that the plasma resistance is,purely active, which leads to.an anomalously high electron colli- Card 1/8  ACCESSION NR: AP4019212 sion frequency in the plasma,(109 vs. the tbeoretically expeeted 206 cps); this in turn canbe attributed cnly to the occurrence of sausage instability. From the active character of the plasma it is also possible to calculate that the high frequency field deliver& an energy of 3 k*V per particle to the plasma. "The authors are grateful to Ye. K. Zavoyskiy, Ye. P. Velikhov, and L. 1. Rudakov for valuable advice and discussions,and also to A. Ye. Bazhenov and X. K. Volodin for help with preparing and adjusting the equip- mint." Orig. art. banz 3 figures and 3 formulas. ASSOCIATION: None SUBMITTED:. 05Aug63 DATE ACQ: 27Mar64 ENCL: 01 SUB CODE: PH NO REP SOV: 005 OTHER: 004 Ccwd 2/3  a special method was used which permitted opening the input or a MUT,"DannejL differential analyzer only for the puls6s whose images did not extend beyond the isolated area on the type 95 lmagG-tube screen. It van found thats (I)Theinoise distribution is eVonential (curves vqplied) and (2) The gain disperalln/of an. image-converter tube operating on the principle of optima contact botween~ the luminescent acroen and the adjaMt photocathode - io. described by a FOUBOn-tYPO distribution of the output. pulBes, "The authors wish to than Tait X, ZMWk1Y for discussing, the. work;. L. Z~ RR49mm carrying out prelixinary 'Card 41  L 1123-66 --------- -AP50% G&WID)l sat 7 Sokolov for 111111:111:1.w AC go tubeff lending in 128amurementes L.for. for 'bi$__XGOIA8nOs_-In._&U6Du9 th*. ArA A, optical Orig. art. baOs4 of Ata-de OCIATION t ASS mat 00. 0 1" sm; or 0.0 =WITV Ml-  "1.D. ,Audiea on the problem of controlled thermonuclear Bynthesis. Atom. energ. 18 no-3:258-260 Mr 165. (MIRA 18:3)  STEKOLINIXOVP V.V.; GRIGORIYANTS, A.N.-,.FAXCf1EN.KQ, S.D. Atomia power plants in Italy. Atom. energ. 18 no.6%662-664 Je 165. (MIRA 180)  J6 WT /EPA ( sp) - 2/9?A (w) -2/= t) /T/WA (M) - 2Pz-,, ro-4/Pab-1VPi,,4 J~ 1'J1?( AT F ACCESSTON NR: AP5006492 S/0056/651048/002/01151j/046-, AUTHOR- Demidov, B, A. YelMin, N. r.; R ncke o, 8. D. D. D. T 1~ LE: Anomalous resistance and rdcrowave rttdiation of a plasmalin a strong ~_e c - tric fic-id SOURCE: Zhurnal eksperimentallnoy i teoreticheskay fiziki, v. 48, no. 2, 1965, 454-463 TOPIC TAGS: plasma, plasma wave, plasma oscMation, plasma resistance, plasma microwave, p1hsma micrvrave r&diation, anomalous plasma resistance ABSTRACT: A theoretical and experimental Investigation is made of the phenomenon Qf the anomalous resistc--ace of a plasma in a strong electric field parallel to the (36nt,aining magnetic field. Thim phenomenon has been a.3rrib-td to bunr7hing instabil- ities which appear at certain current and thermal velocities of the elevtrons. T nd thf, tunplitude ',)f Me density of the plasnia considered was 1011 to 10" _a,-3, a the ti1o-h-r-juency electric field wets In the 10 to 1(j0 v/cm range. Wit,'. -..hp '.her- ni4 ve.'_-)cP.y of the ions 3mall in comparison with the phase r)f the waves, 1446 abGorption of wtives by the ions was kept at a miniumm. Since the fast waves cd4ld not be contained in a discharge chamber only 3 cm in diameter with a longl- todineLl magnetic field of about 3 kG, the dissipated energy depended on the ratio [CO 1/3  L 31753-65 ACCESSTON UR: APjoo6492 of the absorption of the veyes by the electrons and the escape of waves beyond the chamber wells. The analysi a showed that, when the absorption of waves by the chamber walls exceeds the absorption by plasma, an anomalous resistance of colli- sionlesa plasma should be observed. The dependence of the discharge current an the electric field intensity was essentially linear (in the 10-70 v/cm range) and at higher field intensities agreed with the theoretical findings concerning the anomalous resistance. The transverse velocities of the electrons reached an energy ril of"about 103 ev, those of the ions attained 102 ev. The relatively high energy of' 7.' the' electrons is explained by the absorption of Langmuir waves, while the lover lon energy is attributed to the.escape of the faster ions resulting from the small chamber dimensions and the low intensity of the cont&ining magnetic field. The experiments confirmed plasma microwaves as the cause of the anornalous resistance. Thf~ radiation, detected by a horn antenna placed near 'he discharge chamber, reached 10 mw. It displayed a deep modulation by the double current frequency in thp plasma, with intensity maxima coinciding in time with the curr-nt p'-alks . The mi-r--wave signal was strongest during the second half-period. Th~ Spec- ',r-- ~f the microwaves covered wavelengths from 3.5 to 7 cm and more. Measure- ments were also conducted to eatabliah the character of the de,:rf-a2e ~,f the micro- wave signal with radial distance from the discharge cham-ber. The electric field intens,ty vsB varied from a miniraum up to the p6int of saturation of the current Card 2/3  31753-65 APCES-810H HR: AP5006492 I . and signml. The usual square root law was found to apply only to the case of high field 9trength. At lov fielcl values, the decrease in signal van bettF-r degcribed by an exponential law. Orig. art, has: 8 figures and 15 formulas. [FP) ASSOCIATION: none spmT-rm) - ivu.A4 EMM- 00 SUB CODE: Me-, NO AF SOV: oo8 OMR! 001 ATD PRESS: 3199 Card 3/3  SOURCE CODE: l,lit/.'il8O/G4jo()Dii)00/0)7r,/018.'I AUTHOR: B0Iqtjnj._Yj r.; Drmidov, D.A.; Zavoyskly, Ye. K..; Skachkova,.' ijt_Y Smolkinp ... K. -,.;. Ye. Fanchenko, S, 1.). ORG: none loll TITLE: I-Airther development of the elvetroolitleal chronogrnphle inet-hod nnd Its appliention to physt ". plasma Inventigat Ions S S O1JRCE: ANSSSR, Komissiya po nauchnoy fntofrrn fit I kinctim (njrrn Ci 1. Uspekbinatichnoy fotografil, v. 9, 1964. Vysokoskorostnaya fotografiya I khtematoltraflya (High-six-ed photog- raphy ai)(I cinematography), 175-183 and Innert facing page 169 TOPIC TAGS: time measurement, electric discharge, clectrooptic Imign intensifier, plasma diagnostics ABSTRACT: It was esLaWshed earlier that the midtistige clcctrooptic converter invcnted by Prof. Al. INT. Butsluv has a limiting brightness amplification coefficient which allows it to regist~i single photons. Theoretical discussions showed.that similax setups can have a re- solving time down to 10 sw and some spark radiation scanning experiments achieved a resolution of 3, 10-12, This led to the use of similar devices In clectrooptical chronograpby. This article surveys the principles of operation of clectrooptical devices and the resulL9 of plasma investigations using clectrooptical chronogriphy. The authors cover 1) the method- i- o1oU. of electrcmptical chronogriphy, Including power feeding and synchronization of multi- stnge clectroopticd converters aptl time scanning of converted Images; and 2) physic-LI Card 1/2  L ACC N" AT6001404 studies of the plasma Including processes In spark dischirgc plasnias (circuit and block diagrams of setups for time scanning, spark cimmicl. widening velocity data), une of (Acctroop- tical. chronography for We study of 1IF-field Interaction witli plasma (block diagrani of a de- 'vice for We study of plasma luminosity during magnetoacoustic resonance), wid a brief dis- cussion of special features of clectrooptical investigation of plasmas. A resonator &0r the scanning systems was proposed by R. V. ChIkin of the Butslov laboratory. OrIg. art. ha8: 11 figures and I table. SUB COIDE: 14, 20 SUBM DATE: none ORIG REF- 015 Cord 2/2  11205 EWr(1)/4TC(F)/hT-F(*),-2AM(M) IJPfc) GG/AT Acc m: Ar6oo2654 SCVBCX COM UP/0386/65/oWO12/0533/0.537 AUTHOR: Demidov, B. A.; Fanchenko, S. D. ORG: none TITLE: Search for R ama n scattering of electromagnetic waves In the microwave band with the aid of a turbulent 21a8M 21 t U 4 SOME: zhurmal eksperiwantalinay i teoretichaskoy fizi)d. rislma. v redaktsiyu. ;!Prilozheniye, v. 2,,no,. 12, 196% 533-"7 :TOPIC TAM: Raman scattering, microwave plasm, turbulent plasm, plasm electro- magnetic wave ABSTRACT: Since the theory or agm scattering of lectromagnetic waves by the '.electronic oscillations or a bounded plasm predicts that the Raman-scattering sig- can yield very valuable information on the level or the turbulent oscillationsp, ,'the authors have undertaken a search for scattering., accompanied by a change in ,frequencyp of electromagnetic waves from an external source. The plasma was pro- 1~duced'in a toroidal Installation described elsewhere (zhETF v. 48, 459, 1965). A idiagram of the experiment is shown in Fig. 1. Radio signals at wavelength X - 3 emp igenerated by ma Wetron Mp were beamed by the transmitting antenna at a plasm with density n 1011-3jD12 MC3,, heated to To 102__103 ev by a current that experi- Isard-  12051-M. Acc NR: Ap6oo2654 Figo:l. Diagram of installat lon 1 - Attenuatorp 21 - ferrite decouplerj, 3 -'filter., 4 - transmitting antenna, 5 plasma.0.6 - receivingantenna, 687 - waveguidep-7 - receiving detector bead,9.8 - direc- tional couplerp 9'- attenustorp 10 - control de- tector head. 2 -A 8 S Y/ I G enced an anomalous active resistance and was accompanied by intense microwave noise with X > 3.5 cm. Under these conditions the detector head recorded a signal of 10-5 v powerp correlated in time with the current. The experiments made it pos- sible to establish. that when radio emission with ho = 3 cm from an external source is incident on a turbulent plasmaj, Raman scattering in vb1ch the frequency ebu4e in of the order of &~, is apparently observed, in accord with the theoretical esti-', mate (A. A. Iyanov sAd Do Do Wovj, ZhNTF v. 488 13669 1965) - This is evidence of the high level of the electronic oscillations. Intense maxims were observed in the intrinsic radiation of the plasm in the region X > 3.5 cm at frequencies close t a and a much weaker. maxinam in the interval X - 1. 5-2 cm where the frequency 0, ?a situated. Orl . aft. has: 3 figures. 2Mpe .9 SUB'CODX: 20/ SUM DATE: 280at65/ ORM FXP: OOT/ OTH REP: .001  IEMIDGVp B.A.; YELMIN, X.t.j RXUTOV, D.D.; FANGRENhO, S.D. Anomalous resistanoe and supjrhigh-fvequen~y radiation f'r= a plasma in a strong electric field. Zhur. ekap. i tair. fiz. 48 no.245-4-463 F 165. (MIRA 18~11)  L 06972-67 Ei~T (I) JJP(C) GG/AT ACC NRx Ap6o21529 SOURCE CODE: UP100891661OP-010061051610518 7e AUTHOR: Demidovo B. A.; Fanchenkop S. D. ORG: none TITIE: Estimate of the degree of turbulence of a plasma from the Intrinsic radiation and Raman scattering of the electromagnetic waves in the microwave band SOURCE: Atomnaya energiya, v. 20, no. 6, 1966, 5:L6-518 TOPIC -TAGS: plasma.turbulence, plasma radiation, Raman scattering~ microwave plasma, ABSTRACT: Thd authors use an effect observed by them earlier (Pistma ZhETF v. 2, 533, 1965)) mme3,y Raman scattering of electromagnetic wave~~y electronic oscillations of a turbulent plasma, to estimate the degree of turbulence of the plasma by means of apparatus described in the earlier paper as well as in ZhETF v. 48, 459, 1,o65. The energy density of the plasma oscillations in the turbulent plasma is determined by comparing the microwave radiation power from the plasm. at double the plasma frequen with the power of a signal corresponding to the violet satellite due to Raman scatter- ing by the plasma oscillations in the electroma,-netic waves generated by a pulsed magnetron. A formula for determining the energy density from the experimental data is given, the differential spectra of the violet satellite and of the intrinsic radia- tion of the plasma are given for several electron densities, and an approximate esti- mate is obtained for the spectral widths. It is shown that a change in the frequency of the electromagnetic wave due to Raman scattering by the plasma is numerically equal'; V2 UDC: 533.9  ACC NR: AF6021529 to the plasma frequency. The Intrinsic ra(Uatlon of the plasma is double the plasma frequency. The half-width of the spectrum of the violet-satellite frequency is ap- proximately equal to one-quarter the plasma frequency. The authors thank Ye. K.___11 Zavoyr.La or continuous interest, D. D. Byutov for valuable discussion, and V. Ya. 'Y f Balakhanov,. Blinoy, A. N. Karkhov, and L. L. Kozorovitakiy for supplying in- dividual units of the measuritig apparatus. Orig. art. has: 5 formulas and 1 figure. SUB CODE: 2D/ suBm DATE: olFeb66/ ORIG REF: 008/ OTH REF: 003 Card 2/2 M-__  L o228s-67-. EWTU EWr(m-)/T-- -IJP(c)-- __AT_ i ACC NRs AP60~5238 SOURCE CODE: UR/GO57/66/036/007/1166/1167 iAUTHOR: Demidov, B,A,o, Fanchenke, JORG: none P9 ITITLE: On the Investigation of the x radiation from a-plasma by means of a ,scintillation counter 11 1 / SOURCEs Zhurnal tokhnicheakoy fisiki, v. 36, no. 7, 1166-1167 TOPIC TAGS: plasma radiation, x radiation# scintillation counter,..phosphoresconce ABSTRACT:In recording the x radiation from the decaying plasma in a toroidal machine with a scintillation counter the authors observed an intense pulde of about one micro- second duration followed by a series of weak short pulses lasting for some 600 micro- seconds. This effect was observed with CsI, Nal (Te), and stilbene scintillators. U.GrosBman-Doorth and J.Junker (Nuclear fusion, Suppl, p.3, 1007,1962) have observed a similar effect and have ascribed the weak pulses to prolonged emission of soft x rays by the decaying plasma, To test this explanation the authors repeated their experiments under such conditions that the magnetic field was cut off after about 100 microsec and found that the weak pulses continued.-unaltered after the field was cut off. The authors concludet therefore, that the weak pulses are not due to soft x radiation from the plasma and suggest that they are due to the slow component of the 1/2 UDC: 533.9  L 02285-67 ACC NRj AP6025238 phosphorescence of the scintillator excited by the very intense initial pulse. The authors thank Ye,,K*Zavoymkiy-and V,K,Voytovetskiy for valuable discussions. SUB CODE: 2~ SUBM DATIs 3QAug65/ ORIG, REF: 002 OTH REF: .006 Card 2/2 "b IF I IN owe=  FANAREV, M.I. Effect of physical edwation on a decrease of morbidity in young children. Ndiatriia nos.7:11-15 162. (MIRA 15:12) 1. ~z Ablkhovskoy meshrayonnoy bollnits-y TaningradBkogo oblasti (glavnyy Ynch - kandomed.nauk zaeluzhennyy vrach RSFSR 0.1. V&3*felld, wacbnyy rukovoditell - zaslu2hennyy deyatell nauki deystvitelinyy oblen ANN SSSR prof, A.F. Tur), (LUNGS--DISFMEB) (MSIGAL EDUCATICT4 AND MAIVING)  FANASKERTgg-ISIT, 9MVILls-Uzas 15th cent.; SHENGELII, M. [Book bu medicine] Uchabnaia kniga-karabadini. Obrabotka taketa, isoledovanie i slovarl M.Shengelii. TbilisiISabchota Sakarvelo, 1959. 386 p. (MIRA 14:11) (GEORGIA-4MEDICBE-DICTIOIIARIES)  ,FANCLEVL_Mladen, img.j HRASTIC,, Drago Some data on the speed of currents in the Adreatic Sea. Vodoprivreda. Jug 2 no.7/8:103-111 '59. (EUI 10:1) 1. Brodarski Institut# Zagreb. (Adriatic Sea--Ocean currents) (Ships)  SILOVICY S., I)rof, inz*,~_F~AICLIV .11. inz. The screw as instrument for the determination of propulsion data. Brodogradnja 6 no.6.-241-253 166. I C?G'j- -  FANCIWKO. DeMe inzhoner. Standards for systme-of unlts, Standartigatellm. no-3:33-37,S-O 156. MU 10 2 1) 11 1 Ismeritellafth priborov. (VaUs-fleadards) - ' -  IVANCVA, R.A.-, MILISHTEV4, G.I.; ~C M T HNCIV t. 9 1 D.;I ; L. Wrlskvg) _ jE -C a Effect of nocotinic ncJ.d on experllmvnt~il psychosle Induced by diethyl amide of lysergic acid. Zhur. nevr. I psAh. 64 no.St1172-1176 164. WIPA 17:12)  TERPLAN, Z-9 Dr. techn., Prof.* FANCSAI" J. mp-terials. Some research results concerninn corwheel made of synt4etic Acta techn Hyng 35/36: 415-423 '61 1. Technieche Universitat fur Schwerindustrie, Miskolc, Ungarn.  I)AVID,Gabor; GYARNATI.Iisslo; FANGZI.Istvan A simple rapid method for the measure=mtment of serum cholinestersee activity. Kiserle*,*~ OrvOstud- 12 no.2:201-2o6 Ap 16o. 1, Magyar Nephadsereg %esssegugYi 5201galatae (GHOLINISTJRASS blood)  FANDERIFLIT, Ye.K. Stratigraphy of Lower Carbon1ferous sodiments in the soLthern Timan Range according to the data of spore-pollen analysis. Mat. po geol. I pal. iskop. sev.-7.ap. RSFSR no-3slq-26 162. (MIRA 1?:12)  FARDERFL#T, Ye. P., VERSHILOVA, P. A., ad SEMCHEVA, N. S. "Concerning the Question of the Future Improvement In Production Technology of Dry Live Brucellosis Vaccines of the Institte of Epidemiology and Microbiology, Academy of Medical Sciences USSR," Proceedings of Inst. Epidem and Microbiol im. Gamaleyo 1954-56, Brucellosis Laboratory, Vershilove, P. A., head, Inst. Epidem and Microbiol. im. Gamoleye AM USSR SO: Sum 1186, 11 Jon 57.  VJRSHILOVA, P.A.; SJKGHXVA, N.S.; FANDERYLIT, Te.P. Further technological improvement in the production of the dry living brucellbsis vaccine developed by the Institute of lxpertmental Kedicine of the Academy of Sicences of the U.S.S.R. Zhur.mikrobiol. spid. I Imun. Z7 no#6'.51-57 %To 156. (KLRA 9:8) 1. Is Inatituta spidesiologii i mikrobiologii imeni N.Y.Gamalsi AM SSSR (VACCIVAG AND VACCINATI(N brucellosis, prod. of dry living vaccine) (BRUCZLWSIS. Imunol. vaccine. &ry living. prod.)  FA14DEILLIK, Ivan ,Zj,;jjp,~;a3 jr~ tho 0 1103&1 Study of t3pactral charac transformation hitorval. Ski(-Lr a kararalk 14 nc).12:335-3y) D '64. 1. stpto Research Institute or Olass, Hradec Kralw!'-.  self% oor 00" 00, 00, Uc"ss' uum our* ,VI a Ada tv cm At a n burlosts. opals TUW 4L-R- .1. row jxkPAV P-qd-mmp P- raH q" -yp-m j3 (wex %01 ql!AL 1121l %I jo ups 9) p- aq - -qW-jwj JFH q3ml-- r wj"jjw* 1"is 411it SlAllslau jo uOpe3yJama! JDA 4HM in I 1 1 Nvv p'"m glumquan3u -4 00- 'fic.0 .10 *.r not Rig 919a;1 00 0 Zoo t So go go go 00 of 00 of 00 of oo go If 0 0 0 a 0 0 0 0 0 00 e 0 0 a 000000,9000*0009*0060  0 0 0 0 X 0 it U 8 M 8 Is V 0 OF 41 41 Q AS *6 At V X so ri :o a -00 004 008 rive-palm Red tm devolopqrs, 004 =11811IL'S 4. [So 000 4L-1 Sms. INK.- 00 sea dwvrk4wf im Orw with be flu%( U%'I 0-phtnvitnediaillitte &1141 Imam, 00 uIlich loquites tn"Piplourr MINI W(Nk. it Cal; 000 be 1114JIM"I fly IhV Addit- Of frlkV% 14 "r of a Imf',, ago OV 14111t. 1-0 N4.*%- 'I*Iw illid 11clis at-, drcril"I. drvr~qwv. coo 00 00 400 00 500 X00 ago ties tiff too '00 611AII do 4"V it, 0 4.w ass U 0 At 10 At T-8 IN 9 do ; of 0 TIVE 4" 4 man I " -1 o 0 0 o 0 0 0 o a 0 0 a 0 0 0 0 0 0 0 0 *0 0 0 0 0 0 0 00 0 a -0 0 0 0 0 * 0 0000 000 0000 016- of 9 0 .6 0 Goo 6~  0;;; i; - i - - ii - - - 0 00 Good 0 0 000 03 1 1 1 so lob 11, it 1191 ON Is is0 s, to s, is it &1 13 0 4co .IX I t A A.j 4, f, 1-4 A--A-A-J~ a It f 4 C f 7- 00 4", ist ..* i"IJ!" its, 4 i"'os 00 00-~ 60 A Ab= I&A visible opetwess, is glem. M. jrnd,., is. ANOWW"'t'I'VE 11.411 Its -00 so dr the Oka Rostrietch Sjolka in Mfgbv X CAVIs" 00 8 00 CUM@ fleflistolististor list Owfoortirf6tia- diffrivroavis twow"s) -00 00 a 2 red #looms (CuO wool t= shess" (Cuo Most f FirO) and bortstres a Sian CEO &w asur with 04P a CuU. A clawasoctowhisk- curw for X41 ebw frator rourilssi is lot- test. Tlw war"ustir SAUIIY of lqwTt"d got cuissired showorti, wissifir in a lab. in". trails 1.1 spor sh-l" got tortswtvit istorish, tistrial stisk q, thri,,,osijwts~ .4 OOj stio" out the owVtful istootorption .1 lurtr.. W W. Is. coo **a zoo sea r 00 o as* :0 2 too so i;;00 to be* !:so Its ties now too -i_, T A 16 ~2" ! ~4~ , , n if is 44 0 M Is 14 4 K&O p 0 0 - 0 so 0 *1 a A! 000000000000000000000otesoooo 0::4*4000:0 0000000000**Oo$OOOGO 0000.1060000  u u it, III It It It M 0 W IF W 0 6 .1 16 #1 1A 0 . 0 4 v All U+4 1 4 f a A La M.'r Gail v v L I will ..v -IlIfW-IS StIll, F hbachwe the _9 2 K;k :1r*%116Wlru= .46off who. its Usit Cr, W TMUTI par resew flar*. he Ive* IVP6- the 2% LAW of the bhomebiNUM. by I % KI muti 11. Khr; ker dark hnswn can" with viokt tint. he u- sea. 2 1. K#Vf(CN).. 4 Khr. mW 3 cv. ot Nff.011 in Im., roo W water. 1141r.11 a** 00 00 009 0 -0 ~0_16 090 10 See zoo moo 99 004 dig f clot L111111.11,61 CLASIVICA1110. 908 We 09 k tW 0 u 0 1, '0 1, a a of a of a f; a one 0 0 0000 0 0000 000000 off* jro no to 0 0 0 00 0900 of 0 0 0 0 0 00, Zee 0 00000 0000 060600 9000 0 0 0; 0 0 0 0 00 0 0 a G 4 0 00 00 0 0 a  0 0 0 A I 0 41 u ofw n 124 to I' if It m t", All '0 1 to A l L A A 00 a 6 v luAl A AA (A Sit 1, A *1 a e pfut l I i for ow'N" Owes is ftm bedwaft " A % v X M; .00 00 4i'. 0.;; do, w "mom ono so m @&"-a , W M" Sr WWwW 0-mc A-"* i n I an "bad"I wee , - of S! so Oi a** 1 l 6 8 b ~ 1 6 o 9 1 go* i " E , ~ k 00 '00 40 woo Ate-ILA WALLIACKA1 LIMISTW9 CISIWKAIMN SIV.11JI. I low #o. $.-Ova v is. Was.) lip 0" slijal M 01101, lot u u AT 10 All q tov ;AF I ;-a , no lain Al Is M& load* slaimlo* a 2 6 9 In, T !*TO O O . . . . . .  0 0 0 0 a 0 00 0 A.0 INS 046 A 4 0 a 9 d 6 son so of 004 1 1 906 00,2 1 of w Of 00 00 ;j.! .i'l it a. sit no" -a 181080 wir cmv me D a I f 4 - I - r - 11 - AV N ; ; ;t. ;mean* man no O 0 0 0 0 0 0 : :jjk2jj*-q 0 0 0 0 0 0 11 ass 1lee . 1110* ass 40 0 see coo goo too use mv M lr-r 1A L I v w0 a a 1 0 a 9 A a 3 i-T 4 1 eeqOOeO*::::::**e*OO 00000900 assess  5 Mir 4-8 N a A-, .. III 0 v lu. 010 4 00 show OW to Oft MO. JhwCMd9--- " v da d - U 6 -Ahowo =*-j g 7 MMON ghm show ba ad hdW-W -00 o00 pm ONNIA do dbw"- -00 "M- *AM SBF&' AN i1 = tak if V -00 bm um fth a 2=7.4 W at le see I POO.09, see :80.  FANDERLIK, M. FANDERLIK, M. Transformation of glass and its definitions. p. 14. Vol. 4, No. 1, Jan 1954. SKLAR A KERAMIK. TEmNamr Praha. Cziooslovakia So: Fast Ewopeon Accessions, Vol. 5. No- 5. May 1956  I it 13 11 w h 16 _JL_f__v - a- 00 00 00 AND 0400fer.1% 1401, -A-A. & M a As 46 4,00 Jl__jL_ --A. i i .00 'Go: Igoe 00 wrw*v? of "0. V-. raw wd 40plybut '0l9 up 00 T*81 A. If.r.K. 0 At on It o I it * : : : 0 o 0 ; 10 10 00 00 * 0* 000000 V 800 0 0 0 a 0 0 0 ; 10 0 0009 0000 00 90 e  W W-lw-qv 00 0 6 140 goes 0 0 03 6 A. ho 0 00 00 00 04 it lilt 00 'fit it go U 06 .3 00 imoo 00 '00 o: 00 '0 0 -00 00 00 j 00 WOO 00 :3 ..A.. j." i too 00 9 All 00 s L3 00 u a 0 0 0 *moo* 0 00 00  W W W W of., I Iasi to twil"ll 99 -A I.- L-.I- a 2 1 IL L -A-9 0 0 :'1 - --- . - ~t! t' 00 00 00 00 00 00 00 00 no us- Jim- ago a sis a *A# wasombelm of WkavWW rays by winalow glain V. 6lytolat and A -4)"Ifuemplik Chro. . .- snaly.isol window glasms . ruvrently in exechadovs- kin anti in Austria sisms 1= glaws aft MrAp""t to ultinvitAtt I An IAFC. SPCTtFUIU. ALIM PlIftillff 9 3- nsm . thickrim2ghm, paxasessral the rnt ire range of INWn Wi.Jow gin. W".1. i. vusudavla. scl. giun diW Ciefmany w it opapt to the Dawn rittlations. Thelstudy to not one to empare the glaamm nviould. in mtstries Imt to abow lbst common stasses rain be lwqA. at low prices and can I ratimmit large ransm of ultrok. violet redistions. Frank Marrsh 04T& &WISICat &jTjp&jWj CLA,WK*V*g T- u IS L ~4. 'j, a 1 10 Ild 0 N 0 All 4 2 0990 0000,0 gall see 00 :09 .00 .0 0 .00 .00 .00 .04 00 '00 '00 see '00 '00 tree wee see lop  0 0 0 0 0 0 r 0 0 & 0 0 0 0 0 a a I - I . t I f v 1, 4 is m a is 1, 10 is a A~b L-L IL I_A 11, Aisp fmtp'~10101 00. VACKI o * J, I 04P A 0 6 0 a 0 a 0 0 0 0 o 0 6 1 0 41 0 0 0 0 0 0 0 0 0 of 00 of 41 # ace AW let, -0 It. cea.,vit Too Amkrc~c9pkohn1yo1dWvWpgM*mtive Al Faml.clik Go c[ 00 ;"1 1 Its, oj%st fAvvf "( do'hed SI&-" Wr I tit I"mim I 44 ligluing ritulluntrul vsr*4 In chit-litisr". I'm 14anc -041 .1winwis. 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It, 110 1241116tili-.-CAW" /tatt. 19.09. It. ~nim 0o i rhew Atltvo% air ar.,punint 1w I)v thWuhly fumMe 1 so -4 1hr IM1.11. mfla.l.-th. ImIll thir 1111114- AM di-1 00 A h,v 4'r .-Vikip.1 bv 0"t. 'ist-4m A SON. qu-ms it. it 1. -A'S. At"t . hat.. 1. 4 S4 we IS~ St. In 1, 1, St. N1 Of 0 o 00 a : 0~ 00 00 1 so'sr At. 14 A 111#*SILAI flAMPKADDO 00, :01 aa 0 00 0 0'0 000 0 0 0 00 0 0 00 00 0 0: 0 0 000000,000000000 INS 0 0 0 0 0 0 0,:o 0 :10000 U+.- It' ve 1- a St. A #009111 1 1 a It I- 4A. 14. 0 0 0 0 0 0 o a 0 111 0 0 .00 -.00 -o ;:9 Soo 400 see too SSOO Soo 00 .400 0 0 61  -IWWW VV V W W WV m A 40 0 0 ~- -ds-' 0-4 9 *_V-_*_*_*_ j : A A a -1; v SO 9 1 1 LL 4 43 49 4 0 Go A - L-L-1-A-A A.. 77t so oes __ - 01100449.61, -01. A ce" of SINN Mik-las vandvilik, SkAlf.ko RmAiwy cum lit snift-1 Sitaim it the #1.40 1 1.1 Thew drIm"salk"l. 0"4r for Isr. I "In * "C 1 d 4.64 r 1e fe"Oll fansv, nn.# , - " a Val. 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V. -00 00 0 a 0 Of 00 w 00 :00 000 0 s! woo x # to 0 woo boo -V-,- po T IF *11 a COW a a a I IF DO a ~1 2 9 AT 10 0 54 0 0000 0 0* on go' Ji 4 Z -9: 27 0 0 00000000041 0 i I 10 0 0 0 610 a 0 6 0 0 0 0 0 0 0 0 0 0 ~0::* : :i: : : : : 00 0 0 0 0 0 0 e  GIM ammemikits: rashm vieftwe &" 101im NI, FAh khi Noj*Wr, 19f t; p1l. jlslf`~ prittilrAcCern AdAin. and %illisin.m ani'l int4ijarl at toll at I Ile best- M 0-- -4 ve-i-mli, -it It thirrinal himmy are levie""I is ittstinVistird (riots older inethads by its taiii. puqx-. Ab"t and raticaud annealing yveming not strain-five gla,~ tait well annealed wave of acceptable and regulAr strain. Experinvivelal lecork 84 the cambit-Amak Glow Intitute Im furtlicted thir Introduction 44 roodrru khri, in the industry. A sitooded inethail was atirked out to defer. Mine aft"Ohms Whirduka thint "Counts fur coulpthilival, filte. AW, mad typr of glamwere as well a. kind and *ijr #4 kbr. T14a rmtheal has been found useful in prarsivid Amiralift priatimm. A& irsampirs 4 ""kill jrhm She 14wiftwit out Arneu khts air ti-tOwd. N I K.  md so wo m ra t 446 --rlw jw1j"o. etc.. NOMW fact mvC. '" wave- is~vv~-  sligmet of sif"mmis saw* age as shaimakial md morml W loam M tAugganiow 4,41. / Skll4bv~p ,_ Wedi. 11164:11. al.to-o-f it, Cto. /,.It . 190, 11 1 loll %14I W it Kim.. .4 *11 ,At It. 1:1 ~\ 4.11. U.5 A1.4 0.. awl [J*, Cat 1, Ifor IAM I Iq m al. 0,4116 allm,41141.4 lot 1, l(wriligilliv, I" I ter 214,w% ON, MV! ;f6fX11 V 0 &Witt# 111i'llfild 1WOkol at I INIT , ChIr at thl. tropilittaltils, 1, toprairl I III, .41"4411C tr"el.fatur"d Imi- *fill I', /it 11, 4. 2.1" hichvi shan that .4 its., .41110141' &Is.. I ht- 0. al%, grit. 4 ih# fruf1wrotitur, hh 1. 1, A."is At" - I b- MA I-SIN111-44144 dtln. 11~11gf .1111 1-1M.4.1a fork, -1 1. W Vp W V , . it%- . uIA.- ... Ilk 1, oil Oo 9 4.k I Ifir lini-se V11.41S.".11 4-11. will C.,A) Art In SO.A f.. I It. I 11.41 V%tworlkill 01. Ill% al lor,4,1011" 4 .4 Ow sla- I... I.A. "Bill /.Ilk it lik-olf"If Ng~tvsjt. I.. it'. 1,1,1 1.1 .11.4ytw d6- lh-limly Irwit-0-- babily -111, 110; apriggiiial Sls-. ;.1 CO4, with V, Zoilt, 2 IM %I lit  00 9 006 00 00 ;; .1 sea 004 O&W 00 y 11 .2.5=~ d the Pat the 4WW pbstedw. con for f9i"llfm Md Per =ry m WSJ too" M16 M w v F I IV lp p a d a M. 4 3 L A TIC  uIdammi emwed ON& 11111.0. sad CI,O.. AM. M. FAIdMill-119 SAW1114 X04194V. :0 171 121 090t-W-MaRwart1lirm Zroff . 1144, 1 151 AVG - "MI Iflual hm d f.W"Wq ln~l tigal"M-4 a W- .0 Is %*..% WWI NfIcAN IkIdillatraq. Ow (ANmilig Ir"tile wycr tAwfals-1 0,41,114041-M to N.1,41,110.4 A1114t1w ling ur"Old 51-11 In 11clume h Ill"I. 1hirk the illdswtwr,-( CIA% 1, -111411. l1w shoo twomew's twulfal army. lot the Tom l1witiliIn wish Iwaramift jhkhw~sa, simlwans a gtven %N". Thr Cc m"km wAre 96m Wor its 114-14V im-hilitilliam New fWww Jb.. to Ill 1:111 OPSM; , lifin-I ibid. 23 Ilul Ifre 110441 %1 IIA  W b:bK w,ffepWj~dcmcb-oj -jjrkydkW*, The g,jotJF4 Intam"WOO, spocil"'W" loolmd the &If two to five tt, PFW", tirm Wigninge -by &" bas "Owed copiver mby g%". (1) Gil" Osser, -" faters"iew 4PWC61- Tbedoknilmnl wave knob is N&Etoltbkhow. (3) Bhwgla--- not sts"dord=the lute timeat SP-W-"O"s' a" (4) 'VCWW ghniecs did not mukalsk for jews. ftcsmw of the famt the 12R!:!WpmF"ftl"ll 1~ UM in wag. 9'r,n &O'nam, bpowwr. their t ,ir,eivd. trammi,=Cbromtkity tirme was "cm date of Is we ghTm.  119 SO 0 a A tit 0 .0 1? .0 ISO m a 16 1) a 39 a 61 42 0 a Ct T I A- c J__j , f - s ~ t & I oft Am@ in ..0 of- tooll*, 1,101:1611s AND I'movistles ..Do. __ 4- 09 OOA IS the anavatung 0(glass 2 Chemkill-association process? i M.Fanderlik. MIJ#j_kiRoAWy22,14-IUI19PI); Ckimir 1-00 Vindwisrk 56, W(Milt). - -Mcamirrownto "wic ~hcmrtf .010 that farah millw4no At Malivrly hkw Irl"j-. All't dkrV- -00 f sardi"s the 14.16.1 414S 1.1m.1) It"- kil".1k-li ,I Ilit Ch'ifler lit W14111.11 411.1 000 gee Illolullis lit Cwtit-ity f146W 4111% Alld %'111h.11111' till- 0 gee itit-41 IAW: (I/&) - 11,141 - jit. wit.-sr J6 u the initial !nIctual lensimi, S the illtCFtUd IC11--illn At iiisw 1. A the so .,nin-aling cultist.. I the thicknes- 44 the SL&.. in Ifir dirrc- .00 ,ion of lmwAW of light, and I the jusucating Inue. Durine I lbr initial sommalfing pwW letemal tension cluinges gmwr see 4 fAIIII11Y MISS 0, OPECIrAl AlMirill"j. alut III(XIIII11% (d r1.14. 6cily. A, Pailirwau-Couture goo goo 00 8 eo 0 goo see goo zoo woo MITALLUMOKAL LIVERAIWO CL&SWK&TWO goo 0240 Blow 00.01' 104000 #11sit a" $1. Ile* U 0 AV so it it a a I I i IF 0 T d" J-00 -660 0 40, is 1;* 00 0 4 a 4 0 Ot 0 0 0 goo  M Is a it 0 Is a IV &I a SO a dl!;~ 14,' L LAL 'a I 'a 'a - 11 Z L - W JLL 1, 1 g _X. P_ "Out 0 06'A 000 OOA 00,0 Masao of aftwalwo OW ow to be 1.81799. The sell" I)( equilibrium hidic" between 41 M 114141)NOLlst- ~ Y. 22 1 ellreinesand the CLIff"91011dilIg tcn1PVrAlUr- And 00 C frPla qn, "-Twwwaf winter. c ter. I tifl;:" ..I other atilhor. L% "141ill'bril that in t C"li-c"All"I as 7iredt obtain thetirindices starting front air urfe .00 0611 ifAll-f-WITIAlklif interval brIvirrol irmll"Alu is < 10. -09 004 refrowlivT llulkvs 4f briween 0. (Itigh-bulex. low lempm. r Ise.) 0 r Tim (1W.) R.I. X -00 . lure) &fill as (low Wife%. hilb temperature) are stable oul 004 0111Y fr"b"I froM hifill" in oort 114fires urifinAll=rsent 321) 1.31INKI I)m it in", 00 & 1:: &1 a rate n4Mly decressing freirn I's to Ta. I the naft 4tin 1.1111INk" 11111i WON, -00 4211 1.311017 :!~k) 0 Irml !;r1wrA`nt*l=% was lower (0 - a t1sn'slarmstion') tbr rates 00.1 tion at couslant tenip"ature we lbosir of a 460 1.519M l(M) i1.04#17 bimollecular reaction X + X - As with the exception of 460 1.511M)1 -10 ().tvr.1 the very begimain the experiment. The reverse re- 44D 1.5103 3 4) I-Ve action a ~ 0, 1 C., Ladlerfraw ol a higher Index stable at a lower temperature than that of the experiment. is found to 00.3 1.511433 be naive complex thAn The nionomolecular reaction X, - 076) 9*0 00w X + X. Thew conditions were subject"t to an expert-) medial inw9ligalim In Which linall amples of The St. Ila, i Golisin cruvrn - " -IJTP (0-2 M 81(h. 0.43 RjOj6 11.43 The 9VAIL14111011 Of rate COUStAllis. K Coi 0..) fee 008 i;l I C&O. 15.44 NitO) ime contrerted to the T. and To stages Ki(ai - PIKO - a), of the chemical reaction showed and then held at Various temperatures between chow tem. that the process was ofthe scrondotifer. euvia low the %-try 00 peratures until equillWum was reached. The M4bnt In. beginning. 11 Ko is taken &%.I Froin rqiu6ni 4110 0 des W 329*C ) strut found to he is - 1.111010, and me was JAN. - S) - IiGV. - NO) - At. where N, - Nr At extrapolated to 131910. The lowest Index. ovil. woo found erilibrium. N - the current. anti V# - the initi.61 inilrX. 800 A, for the trastsfurniation a - 0 could be cAlculAtrd anti 11110411 :j will was found In disagreement with the experiment The 206 0 reaction it, oil 1winvildr, tif the type ,Ok~ use ["Float Igoe A "TALLUNGKAL 4.111110101011 CLAIWOOTWO see Siam It"Ov W ON 811131 W G.V lit W*41 or 601083 Hit air Got `U ad 0 0 a I Or No 9 a a 3~ e An jb' U 11 Aw 10 Is -r-T-T _09- 00 0 00 000 00000 06666 Too 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0  00 00 00 00 00 00 00 00 00 00 00 66 00 so 00 001 00 00 00 00 00 00 0411 00 #*of's 0 Xl - -Ir + X, -alms Wwrf fine ICUIWAIUFC 1W4,1411", h,.* - ever. the move an Upward beW of the curves is othervt4j. The nor a# mcmast"'S rViation, Incivitting a firvi-mirf reaction " a el"mineous, himilleculisr cloullier frAclil"l. 41ift. but g6v Tall "fropmemlen" Ovvf the entire vAllor. Ill dw mulull MCM&SICIF's firwings UK The #law, tsubrd byWo. For the fallimformastiou sunimmatimed in the a1mve table ad equdilbrimus hidiem 10vrwmv is mWe to the tatti" N%dCUrVfttdtbgtflt. RAIft for temperatures higher thAt IWC. have bmn obtaincil by the evaluatim of cbmigm is; Ow cluirifirimt of rilpansioti, Lave changes IIIr4l1IIA14V with bitilt pec"m am t*mfvwd in the alsompthm,me %-r.4 mows slaws CaMIA1111"d 0.25% MO aful %I N tell Its simikrtimr-teo*Watureesperiment%. Ther=vVillbe publinhell in a later paper. 0000-0 0 0 * 0 00 41149 00 e40 00 IRS 00 04m 00 00 66 94 4  %P111111104011 OW&bkM M FAMPONLIK 1415746 (W) (summary In Ft4j&W'jftrj 111121111 tumbkn pmdtkvd by sudden cool. ins In a Gultalik criollne both am four to five lines nurthanically awS Inthritt"fiCIAl uw Of such lumblorn, thirimil lb#4r pirodwOon. &M in storw there appetv fmm tinw to tin* spostatiefts amiletinds Without APPAr- injcmuse~ I I is not ix"ital, to firml t be cause of I his 111m.11(ont "fill toy studing the fractumf pieves. which are very jurtAll.Arul give rut lpirluir tio the jolml list ril;uj ion of the internAl orain, tit the tuin hkir. The res"i is partLd further trAivilormAtitm of the 1,4151, tried (no( stabdirred) Siasti at rawmal teinrwraturvs~ this ttA111- furniation is wry slow. Fmm the stAMpoint of control durinit the inamilaclaring prmv". The rdmion of stability of obe firtmiuct and of internal strains is derisive anti can 1w tslabliAtA only by %tatktirml northmis. F. denijbirs ntirtbods o( nwa~uring intervul strains. for tbr deteirminatiom of immlin". (or the ifirt-c(ion of lorincipul sindus. awl for Vaphical integiratkin. The result. from :No) fumblers, the Internal strains of whkh arre drictinin"t InunirdiAlcly afitt manufactum anti which were oliserveil duriog A lieritut o(2 yv., with each disintegration micil. are sunmidivil A% (0110U%: (1) The slimitammus disintWAtion tit (umbler% cAn tw aittiltured not to dpirdistsibution of the internal strains but to the Absolute Values of The ser.11M. (21) At a security linsit their can 1w %Iwcifdrd Inint the statimicut results: in the ixitton, :jsoi too tin. and in the Me wall ZM ins cm Thew linsit, voiwein tumbien of 3st tu.*Ol cirt.1 content with a Implican thickness tit 1) to 9 mm. anti is side wall thickness of:.' 1., 4 inot lil figure,  004 00" **A 00 00 so 000 00 00 *0 0013 00.3 00U 00"' C109 Reduam ad 6961114 is 1111010. M. F"dtgkk 4M F. Schill. SWI60 ROSAWY 23, 161--6(1947); CWWW & ijailsArk 10. 874(1948): d. C.A. -U, 315V.-An abnormal tranambAns spwtrum was obarved In slams contI. CoO. FOA. oW W. It difilm entirely (row that of the Cok*IsCW36smdC" C:v gleam that wers dark buou by tragessitted light. i6sh r by - " W. and dW*nd W slightly (T=e1ed). The brown color appemW during tem- pt. tM and pneftfiall Ae" IM saftenlog tmp.. the orW. nal color of do fused gLm being slightly grevaish gray. Thm am areall particks visible ander, the olumiermvIm. The slams ov magnetic, 7%ey probably contain free Co in the pyro" state. A. Poplarau-Couturv A S a. I L A SITALLM"AL LMINAIWI CLANOWATION *Orr&,=,&Ww U :,Ly iro 4g -1 a I a ad a P 9 1 IF 0 9 A 4 3 1 W *000000000*00 'ST 10 009699900*099 00000 000000000*11000 of :00 .00 .00 00 00 040 .00 160 goo woo a00 log goo %9 woo 000  0 A at see 86* if bwrosbw-~-"" NF.774i 24 41, Y. a M Is a a 9 x p a of a a a a' 4-11 I so -00 sot - 'wrrw ca6less and hid a higher brat almwP16i than sili. " of complete alseawiption *bow and covaWs truns. . lee , M661on below tbe wave length 011homw 0.11. 6. of Mrst ciates, but their expAnahm wai giver 11%) X IW'. GIAWWS : .00 unAttainablit In Clan. Thentoducc "aWodm -(al%* by Mamingi and hAd an ripmWon of atmut NIX' From a tion 6 obtalmA by the odelidon of item 011da lee . 110,. e"fe"t vWbfe jab, t -structural Vkw It. tranwa6sion hough mate. of tiw bon ion way 'what le",bn Ihal of pure phosphates and a, I w 2 mn, rt 00 ., , , . 1) be conce ved. ) PC a uso" FiNg we IN the (560.) -nearly as con plete an infrared absorption as pure pbu*. letralteciron sixterture. bavw 'godia. .1th . The chentical durAnity was euvilrut And hN abooWicat to wale glaws lespec to oxyrn = the GM bydrolytic clAA%). Typicul datA are given in - les idold V iti , i : F i Sk o* s ets pos on. k e Ones (:I) n y Ipwivil table 3) Fee 4. 1 - I. 4 0 te"o c . no" t 0.3 : 1 f M and Collins Big * t GW - -stable Pas 0 Fee . caw&g. k i M lli V l wee, s r a mlso, p- culau eff a " see only &W a edwkn 110111FOW0111 ubmt~-' sible to obtain Fee INS glans. This was aclArved emy tim phoppiNste saw; . . te Slasses. IN It* I lot _wj flow bant! Odw New c-----d - - S4 be" goo trunswinaim. (1) sWrates. (2) alloU berivan Pbmgb&~M calm and (4) w 1.8 IF .4 went %0,. Tbry contained 0.3 to 1.8, by ekwuntary Met* or lot Up - 0 !L1 MITALLWO11CAL LITIN&ION CLA11114CATION 1z 114"Ns -4 1 Selaw liar wv off u a AV 10 111; 0 0 0 0 0 go goo "0 see 230. goo ea 09" 909 43&43,1 eve a.. ot 1ww I Is go a 3 rr e, Is 0 0 0 0 0 o o ::0  " i" 001*00006000060696 00000000090*06600* 0~ e s Wei 0000e009 0 0 0 0 0 0 0 0 0 0 0 9 0 0 00 00 00 00 so ma c 4%) No 7113 in , 00 of so, &15 93 00 of PA 3.10 1963 7 21 so PA S3,61 AIA loil . 29.5 00 1%0 27A4 1 3 is 00 00 . F"00 03 (is 00 so 0.9 12. 1) 09 00 rmo 7.9 00 00 M~ - M., , of 00 00 CNPwmdm (0. to GL4 X 10-1 aw-C.) WAOXIO-1 so 00 00 0* Wave booft 90 00 4wmp 70.7 56.6 00 &M so sm 74.0 so am 700 65.2 74V 61.2 Sao 38.7 43.0 of 000 11300 17.4 M6 00 'Tow bw "am=*" 9-9%. 00 cryaw m- a WOML/ow 1175T. 09 . < NOT. 00 0 00 90 9 00 00009000406*90000909000000 oo*o*oooooe* 0  0 0 0 * 0 0 0 9 0 0 0 : 0 0 0 a 0 0 0 0 0 0 0 : 00999999000 qq*O*qe*&OOPeeeqOOe Ow a I be" In III 9 C 0 V 6 4 IN L A N 0 PFj I I T W "yj . . - I Oft 00 10.0 0 0 0 0 0 0 goal *bVfm 04414343 49 4! . A . I a 0 1 A . . p -1 ~. . , 11 as &T a n "t. 4.0 4v. L--~t - -..-T .5 Ofq!~tt Pull I'll L19,03 90 Apinulsoid6v nqwjuw saw pq~md au slaW I 1 c, 00 NMMWJ "Wimmu of amm"m &Volk %%wig st"P14301 go ,uw mom 1" 8 " a m a" 6 w ramp l m = of OL-7 Jqj Aq no VW )-j"w . , JLtd Ot 11911 11 "PDVJP.L FISM '^' T ;- 00. -M Lommm asso summaww"O so 61 as ppo 00 00 0 00 00, flaw stlifeold OOV followed 00. 1 -ffrw. - - .- - f t 00 000 0 Ir "0111A I UN a 11 N TMI 000 0 40 " "I " 0 0 1 F -100 r I '0 0 aso* a 01 . a OL  **A fill oo't !If a oil 0 0 li?0.1ii MU.OTAF K, itowdy. as 1112-4 (19m). t. meall" lem- moo poem@, 0'. coofficient o1 expansion. trans- =00 mW TIC log lnnp"&Iurc (lemiwalure jar & RgiMIsme al loo X lo" ohm 1cm.) aft disrumed. lUd. -:40 14-3173-11mmin. dimpreiim. and Abbe value we defined. c coo A I MIA 64TALLURSKAL LIT944110101 CLASWICATIONIN ijili son It a 0 0 0 0 0 0 0 0 * 0 0 0 0 0 0 0 0 0 0 Lee U04 see -wX COO I a Iw a 1 9 b 9 a S 1, 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 * 0 a 0 0 0 Ir:m 'am A--G_ 0-0 00000000 0 0 0 4111 0 61  FANDERLIK, M. Two important conferences of scientists on the study of the structure of glass and silicates. p. 166 SKIAR A KERMUK. (Ministerstvo lehkeho prumyslu) Vol. 4p no. 6. June 1954 Praha, Czechoblovakia East European Accessions List Vol. 52 No. 1 January 1956  1K"ri . Sbornik praci 3 tedmologie silikatu (Collection of Works on the Technolo S--E- of M31cates) I a review, p. 104, SKLAR A KERAmIK (Ministerstvo lehkeho pruxWelu) Prahas Vol. 40 No. 4, Apr- 1954 SOURCE: East European Accessions List (EEIL) Library of Congress, Vol. W. No. 120 December 19*  TJII or radioactive isotop., in tile industry. P. 2414.. ~.mj-q (tliniaterstvo jehkeho p 1955. Vol. 5y no. r'L"Yslll) Fralut. V.1. 5p no. Uov. 71URC P,: "'-Ilqt EUropean Accesnions Lj.-3t, Vol. 5, no. 9, SOPteMber 1956  F.-,N-D7RLT!i-, :-'. Glass as a 1,rotective material sCainst electromarmetic and cormscul'ir radi2tions with special attentirm to nuclear radiations. p. 9 (Veda a Vyzkum v Pramyslu Sklarskem. No.1, 1956, Prahl, Czechoslovakia) Vonthly Index of East European Accessions (EEAI ) LC. Vol. 7j nr. 2, February 195B  ,-'~Iariztg a(_LL&sa-by nickel jih N~V,-nikt- 1ALW"_ and Lih -c as~, cempn. on the oolw prr.Jt;~rd hy tir- wai~ studitmi. The addu it SA I.., Ni- otg rr suited in fo-matbon of a cr,,~ I :,Ks -;&,40 + KtO, and Kn rr,v ;:i Na,O, z -"..s :, 741 ~Ifld --00~ , rr-.Ip A , - !,., Ig, 0i I :IIDtg difftrePl, !,i- .~ g7l-!,, 1,1 i chat~j:e W J~yc" bindirig ~vj to tj- ; .1,, tFLn5pWtat &S.S WO-1 Pfe-,hl, IMM I 'r~ 1 2 !~I~ 1, AI,O,, 7.8 K,O, 14.4 KHF., I *I t:v 1 117,! npidly tw-10~ W* ~YCW,. h-.., -A tior ~jf SL~ruby gla5s and A It,rUiaTiCr if a NI -i !AV  - f-, - T ; ('~ , ~ ~- [ ." - --r- 7(,1 - Af L- 4- Czechoslovakia/Chemical Technology Chemical Products and Their Application. Silicates. Glass. Ceramics. Binders, 1-9 Abst Journal: Referat Zhur - Khimiya, No 19, 1956) 62262 Author: Fhnder11k,-X1aL&- Institution: None Title: Chemical Control of Glass Production Original Periodical: Chemisace sklarBke vyroby, Sklar a ceramik, 1956, 6) No 3., 52-541 Czech Abstractt It is proposed to organize a systematic control of rav materials, scrap, fuel) refractory supplies and other auxiliary materials. Card 1/1  I I1 11 .. A- I-, ' -i' ~ -.1 . . The s'Llructure of P. 3, (Silikaty) Vol. 1, no. 1, 1957, Praha, Czechoslovakia SO: Monthly Index of '--'ast European Acess-ions (:,:YAI) Vol. ~% No. 11 1:overber 1957  FANDERLIK, M. FANDERLIK, M. Draft of the CSN 70 0020 standard for defects in glass and glassware. p. 33. Vol. 6, no. 2, Feb. 1957 NORMALISACE TECHNOIDGY Czechoslovakia So: East European Accession, Vol. 6, No. 5, "ar 1957  Fanderlik, M. Fanderlik, M. alass research in the Soviet UnIon. p. 78. Vol. 7~ no. 3p Mar. 1957 SKLAR A KERAMIK TECHNOLOG"I Czechoslovakia So. East European Accessions, Vol. 6, May 1957 No. 5  All I'll 1~ CZECHOSL.OVAKIA/Chemical Technology. Chemical Products and Their Application. Part 2. - Ceramics. Glass. Binders. Concretes. - Glass. H Abs Jour: Ref. Zhurnal Khimiya) No 21, 1956, 71537- Author Inst Title Theoretical Premises of Glass Grinding (Preston's Theorj) - Orig Pub: Skl~rv a keramik.. 1957r 8,, No 2.- 36-37- Abstract: The theory of glass.grinding developed by Preston is discussed. "Chain" or "cascade" fissures appear on the glats surface(S) under the influence of the pressure of a hard ball or of the sliding of a needle. The depth and the arrangement of these fissures depend on the pressure of the bard body, Card 1/3 14 L/  CZECHOSLOVAKIA/Cherpical Technology. Chemical Products and Their knplication. Part 2. - Ceramics. Glass. Binders. Concretes. - Glass. H Abs Jour: Ref. Zhurnal KhImlyap No 21p 1958j, 71537. tween glaso Prinding and glass polishing. Mechanical removu-1- of glixsa takes place in the process of grinding and 1 h - phov~:)tnena of swelling - hydrolysi a and of other chemic-0. chknges of the "a surface are utilized in the of polishing besides the medhanical, removal. Caxd 3/3 CZECHOSUNAKIA/Chemical TechnolOgY- ChemiCsl Products and Their ApplicstiOn' part 2, - 0erWdc5- Glass' H Binders. Concretec- , Glass* Np 21, 1958, 71538. Abs jour. Rer. Zhurnal Khimiys, Author Milots, PWAerlik- Inst e~ Views Of Title ries-of Glass polishing O0j c n, ch ha an 14~ Klemm, Smqk&j and Bruche-POPP- Orig Pub: Ski!# a keramik, 1958, 8, No 4, 100-101- Abstract: No abstract- Card  15(6) AUTHORS: Fanderlik, Lt., Dvorak, J. SOV/72-59-2-17/21 TITLE: Decrease of Glass Transparency Under the Influence of Gamma Radiation and Its Regeneration (Umen'sheniye prozrAchnosti stekol pod deystviyem gamma-izlucheniya i ikh regeneratsiya) PERIODICAL: Steklo i keramika, 1959, Nr 2, pp 45-46 (USSR) ABSTRACT: This is the translation of a Czech-language-paper, published in Veda a vyzkum v prumyslu sklarskem, Nr 4, Pra),a., 1958, Pp 81. The translator's name is not mentioned. There is I table. Card 1/1  FANDIIK 2 M. Homogenizing optical glass by mixing. P. 307. SYLAR A KEiW41K. (Ministerstvo lehkeho prumsylu) Praha, Czechoslovakia, Vol. 9, no. 10, Uct. 1959. Monthly List of East European Accessions (&6AI) LC, Vol. 9, no. 1, Jan. 1960. Uncl.  FMDERLIKI X.; Vcolakj J. Czechoslovak Glass Fathibition in $meow. p. 255. SKLAR A KERAMIK. (MWstorstvo Ishkeho pnogalu) Praha, Czechoslovakia, Vol. 9. no. 8, Aug* 1959o MontUy List of East European Accessions (ERAI) LC, Vol. 9, no. l.. Jan. 1960. Uncl.  30(7), 15(2) a/13-60-i-~16/26 AUTHM Fanderlik. Milota, Professor, Doctor, Engineer TITLE; Third General Conference on the Structure of Glass in Lenizxqrad PERIODICAL. SklO a Keramik, 1960, Nr 1, pp 23 - 24 (CSR) ABSTRACT- This Is a list of 96 delegates and their contributions; they participated in the 3rd general conference on the structure of glass in Leningrad, from November 16 to November 20. This conference was convened by the Soviet Academy of Sciences and the General Chemical Society. A brochure on this conference will be published at a later date. Card 1/1  FAM)MLIK.-Milota, prof. Csech glass. Pr1roda 49 no.5:44-49 my 160. (HIM 13:5) (Glass mawifacture)  FANnr,RT. K, Milotap of . . inz . , dr. *Technioal glassesO by Milos D. Volf. Reviewed by Milota Fandarlik. Sklar a keramik 12 no-3:91-92 Mr 162.  Z/012/63/000/001/001/001 E202/E192 AUTHORa Fanderlik, Milota TITLE: so- larz'at ion-of photoplastic glassea PERIODICAL: Silikity, noo-1, 1963, 46-51 TEXT: Photosensitive glasses containing 72.50% S102, 12.50% L12O9 5. 00~9 K20, 10.00% A120~, 0.02% C*02 and 0.01% AU or 0.085o AS were studied by measuring the depth of relief in order to determine the. photonucleation and subsequent recrystallization phenomena of the irradiated areas. Recrystallized glasses were further treated with a 101' HF etching solution. The samples (25 x 35 x 4 to 5 mm thiNnegs) were exposed stripwise to an ultraviolet mercury discharge lamP*of 73 W at a distance of Z, 90 - 270 mm. On.gradual irradiation with donee increasing in geometrical series, it was found that after a certain cumulative dose of irradiation, solarization was produce.d. The author found that the relief increases at the beginning with the increasing doses of irradiation but after reaching a maximum it starts decreasing. No experimental explanation of the rise of solarization has been given but it has been suggested that a large done of Card 1/2  Z/012/63/000/001/001/001- Solarization of photoplastic glasses E202/E192 irradiation produces an excess of electrically neutral gold or silver atoms, so that they can no longer grow to nuclei large anough to initiate the crystallization of Li 2O-Sio 2- There are 2 figures and 4 tables. ASSOCIATION: stAtnt vjzkumny' U'stav sklArvskil Hradec Kr4lov4 (State Research Institute for Glanal Hradec Kro'lovo') SUBMITTED: August 25, 1961 Card 2/2 , f%'-M RAE  ,FAMV~IJL, M. nIndustrA4 furnases and oil heating, refractory building materiald1*0 R*viewd by Me randerlik, Sklar a keramik 13 no-3:84 Mr 1163.  FANDMILIK, M OfoL inae.9 dro ._pr *Glaos quality contro1w by Ham Jobeen-Man 14 1. Revieved .by M, Fanderlike Sklar a keramik 13 no.3:8,tr 163.  F1,21ID&LLIK, lft-,loLa, ~i,. Eew standard1z"i moasLa-emeLl~ 1zlits- Viclar a kc-renalk 13 !10*9-* 242-243 S'63.  FA14D,',T,-(LIK 2 14. 2 prof . , inz. dr. "Decoratitin of glass" by I/. No,,totny. Reviewed by M. FanderlAk. Sklax a keramik 14 no.l2z464 D 164.  BRANNIKOV. A.G., ZHMNOV, L.Y., LEMITA, L.S.,-YARDAU1, A.A. Flarking saiga in the western Caspian Sea region* Migr.zhiv, noel: 179-185. (MMA 13:6) 1, Moskovskiy gorodskoy podagogicheskiy institut, Gosudaretvenrqy Astrakhanakly sapavedulk, I (Caspian Sea recion-Saiga) (Animals. Marking of)  Some data on the reproduction of saiga. BIUI.MOIP. Otd.blol, 64 no-5:133 3-0 159. (MMA 13t6) (T=A TALW--SAIGA)  FANDETEV, A.A. Lambiue of saigas in the right-bank area of the Vdlga Valley. Z001.2hur. 39 no.6:906-911 is 16o, (MIRA 13:7) 1. Department of Zoology, Moscow Town Pedagogical Institute, and Laboratory*'6f Saiga Investij;ation, Astrakhan Preservation. (Alata-Burata ragion-Saiga)  DZIUKOV, A.C.0 profq. ZNIMVS L~Vvj ISWEVIp L.S;; FANDEYKV, A.A.; #POP ad. za--vl-,- NASINOVICHp A.A., red.; NECHIPORUK, L --T TRUKHINA, 0,N,s takhn, red. [Biology of th* saict] Biologiia migaka. Moakvap Izd-vo sellkhoz. lit-ry, zhumalov i plakatov,, 1961 335 Pe WA 15-3) (Saiga)