SCIENTIFIC ABSTRACT RUMINSKA, A. - RUMSH, M.A.

RZIM, Ignacy; RUMINSKA, Antoniona; KAGZKOWSKI, Jerzy Preliminary invastigations on the effect of ferrocyanide on yield and amount of alkaloids in Datura stramonium L. Acta biochim. polon. 2 no-3:315-320 1955. 1. Zaklad Biochemii SGGW i Zaklad Szcsegolowej Uprawy Roslin SGGW. Kierownik Zakladu Prof. dr. I. Roifer. Kierownik Zakladu Prof. dr. A. Listowski. -(DATURA, effect ofdkugs on, ferrocyanides. an alkaloid content. (Pol)) (YEPMCTANIDES, effects, on Datura~stramonium alkaloid content. (Pol))       Rum-Inski. B. Hur- n 0 (Stowarzyszenia inski B., E g. "Technical Associations in F lqnd.' ,50f pp. 12-17. Techniczne w Poisce). Przezlad Technicz o. 1-2, 10 After a sr-ort hist-o-ical sketch of the foundation of technical as- soclations Lin Poland there follows an examination of their grebt achievements and tasks. The ?.,,orking programme of the "Naczelna Organizzacja Techiczna" (ChiefTechni-cal Orcanization) is.based on its ideological principles and is impl--nnented to a remarkable degree by the specialized associations. SO: Polish Technical Abstracts No. 2, 1,051     1. it va a :4 2S is .11 is 29 1, )1 J: li 14 z It Al of I- i. U 63 M u 1:0 R I I Y- &A of CC PD (1 6 .1 1 1 1 . # ~A , Ar 00 ---- -- so go .0 4 Apparatus for moldI4 coacrete, etc-, with the aid ;i compressed air. lu,!jL'~kAj LI '-00 M, AIMI FRAPOOKK RL-Al- Aintrian I-N-040. Aug. 15, IML -0 0 410 w w -00 .00 00 j ;60 -0 0 60 4*0 00 2*9 0 _,AD 9 00 t IWfO&IO-1 to Ow '0 it: t of cc Pt It a It 4 7-f w 6 1 N7 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a 4 0 0 0 0 0 0 0 0 0 0 . 0 0;  -Tilf"IM1 ntis a k 19 30 a j4 'm T I a h . AA 56 DO EE OrDE R4 ;50 ralur; fot InWi' et With the old 0 con1pic Ali. 11ollust JV4 K c Avv:!j n AtIg I r, 10~ 73t i.. Austrimt j2 Aj Si A!z 41 "N       "t-     ib .,   L A 9R. Z (c -,P C v) :IF )/Z: '~-,JAW/ X-"'40i5u0 PI-Ij^. t-4/pk_4Pn_4/ POCY EXPLOTTATIC,:.,pi-4/;:~-4/Pac-2/pil-4/pi-,-4y//4t Po-4/?c-5/Fq_4/pac_4/Fr-4 ', jJP(c)'.' Bu-vir, Kirdrlavt (En,~;Lnaer)'; Bcnca, Konrad, (Profe-ror, Doci~r); Dowil'a jiri'~.""' (Docwr); Itt"lul. (GraduF-r=CpmlOzOphY)):, Ce IceN. -ZAenck, Candid: A7,7r, C . m Wcar lliyrical civi Mhtl.2~10ucal Sciences); 0 Ep . ____'L (Doctor); orarra i I., tor); D-mr. k Antonin, (Cancli'l-Ite cdic:! lienceni; Dvorak. Jorlef, kDoe 1.~Ia, rA:~7 I If Mlid_%tC Of 1-:CdiCal rF, _11oraic, Z~Innclc (CZ. cto (Doctor of llny:;IcaL and Mithcmatical Sciences, Corresponding I.Icmber or thc Czccl'O3lO-.ra:- Acadenq of Sciences, Profcrmor, Doctor); Ho cLjx ZT - (Doctor of on rhy,:Lcal antl'lUth=_atica Sciences, Doctor)- Xlec%ck T ip, (~Do;"UZZr); Meat, - _ (Cmn,li(L-%Lc or lliyaical nnd Mithematic Gelencca); .j~ V3.r.A.1-mir (Doctor); KO c~-. (Candidate or Lc&-LI Science 'r, a); L:vli ~;Iwr, (Candidate of Physical and X%thc=atical Sciences) - Kvi% Zd ck - (Can- didate of Mynical arcl Itathazatical Science, I .); Lvdvi., M cik, _2~Laftj~-jjT, (Doctor); 14cravelt, Man, (Candidata c-j77c-cU`cW =ccnces); Mrazek, jaronlwr, (Candidate of Radical Sciencer; Engineer); ltrm%elc JIri. (C~da-tc,Of -11:~~Clc - sciences); reuzil' Ludcy (Doctor)& ljollotny, Zdenck' (candidate of rhysical and Ifathc=atical Sciences); llovotny, Wenek, (Doctox);rcracgr, Jaroal"ll (Doc toe,; -Caadldata of 1rhyrical and Uii:Fc=at:Lcal Sol cnces Poseg, ItuaEff.7 Professor# Doctor, Engineer); lmo~lav, (Doctor of Tccbnical Sciences, Correa d"m I (Doctor); r_c=bcr, of tho Czechomloml-, A Ld Z =Zr Pokorny, Wencky (Canditlato Docent, Doctor), of Vgj~~ Card 3.1D  L 4i5ig-65 XIWA5110 Mmal VIcAL-air (Candidate of Mledical. Sciences, Doctor);,Smd�l Josef (Doctor of, Physiol:o~~L~acal Sciences); Schm-A. Tidislay.- Stverwk. Jiri, (Dctt;or), Sveatka.1 Zdenck, (Doctor); -J=a, Jaxonlmv, (Candidate Of Faynical, and Mthematical Sciences, '4-tor); (Docent, Engineer); Ul,-hl-- I (Candidate of Tecbnical Sciencen, Professor, Doctor); Ve.Inieck, _ Boris 'at. of Mynical arA Mthe- r,itlcal Sciences, Doctor); Vanyuck, Vladimin (Candidate of Pbysical and Xmthe- A--.%.LictLl Sciencela, Docent, Doctor); VIm-cac murion'(C.-Aidate of rnysica M& ~hthamatical Sclencea; Doctor); Vod- rnfdn or Principlea of aatronautica (Zaklady koswuautZqy) Prape, Orbim, 1964. 445 v. biblio, 5COO COAQ6 printed. ioo TOPIC ZIGS: coozonautica, rocket, sate=te, _MEe fli ht, missile -PIMPOSS, MOD COVMWE: rain pub1ication in a popIlAr ecientifia reference book for people vorkin6 in coa=nautics. Th* book presenta a auz-my of commmAutias RIA to i j~= 1963., opmea Tli&t up Card e/8 .4m _;R   65975 Z/037/60/000/02/oO/oA E0211 AUTHORS: Rumier, Ctirad and Svarc, aros a ~TITLE: Pulse-height Analyser!with Cathode-ray Tube and Photometric W-edge PERIODICAL: ?'Ieskoslovensk~ easopis pro fysiku, 196o, Nr 29 Pp 107 114 ABSTRACT: An analyser of electric-pulse heights is described, which has a resolving po7,,rer,corresponding to an 80-channel analyser. The amplitude spectrum of the pulses is evaluated from the screen.of a.CRT by photographic integration through an optical~photo- metric.wedge. The here described analyser was used, in combination with a scintillation-detector, as a gamma-spectrometer by the_Nqclear-research Institute _.-of %the CSAV. The incoming pulses pass through a pulge- lengthening circuit so that a system of horizontal ~traces is displayed on the CRT, each trace corresponding to one pulse. If.the analyser works as a scintillation spectrometer, each trace corresponds to one light-oulse. The ordinate of a trace is.linearly proportional to the Cardl/,6 amplitude. of the analysed pulse. If,the instrument is  - --- ---- --- 65975 Pulse-heightAnalyser with Cathode-ray u e a a Photometric Wedge used as a y-ray spectrometer, the vertical deviation is proportional to the,energy. The principle of the instrument is shown schematically in Figure 1, where 0 is the cathode-ray tube,,.FK 'the photometric (grey) wedge, n the number of pulses -and a the pulse ampli- tude.- The pulses are selectedaccording totheir amplitudes'with the aid.of,the lengthening cir.cuitand CRT. The amplitude can vary continuously rather than in discrete steps as in fixed-channel analysers. The number of.pulses is recorded by,photographic integration, i.e. by photographing the pulse spectrum through the photo- metric wedge, the transmission of which decreases exponentially with the distance x It follows that this optical recorder also acts as a memory system. The photographic record shows a series of lines whose lengths, vary exponentially with the number of.pulses. The functioning of the instrument is shown in Figures 3 and 4: J~ input; 0 zero adjustment; V - off; M - measurement; la pre-amplifier of the pulse- lengthening circuit; lb' pulse-lengthening circuit; Car,12/6  65975 Z/037/6n/000/02/oo4/018 Pulse-height Analyser with Cathode-ray u e Photometric Wedge 2 symmetrical vertical,amplifier; 3a pre-amplifier for the time.base; 3b - single-sweep time base; circuit 4 - symmeirical horizontal amplifier, 5 - stabilisingthe beam intensity:. 6 negative pulse for discharging the tube; 7 - zeroing oscillator; 3 - cathode-ray tube; CZ time base; SZ - amplifier. The pulses are lengthened sufficientlyto keep the vertical deflection of the beam constant during one sweep of the time base. . The. circuit works on the principle of capacitor charging, The lengthof the horizontal.. deflection tan be regulated in steps 5, 100 and 1000 ~is. The dischargIng, penthode E is blocked for the duration of the horizontal deflection bythe pulse,.6 from. 3b The output from the pulse-lengthening circuit i s linearly amplified in the high-,stabi.lity vertical amplifier. The input pulses trigger a conventional single sweep time base. A positive and,negative rectangularpulse is also takenfrom the time base, onefeeding 6 , the other 5 If n, isthe number of light pulses, q a factor Card3/6, co rrecting for reciprocity,failure, the intermittency  65975 Z/037/60/000/02/004/018 42t/E~A~ Pulse-height Analyser.1-rith Cathode-ray, u e Photometric Wedge effect and the phosphorescence and fatigue of the luminescent screen, J/d the extinction coefficient: x In n,= + const (4) qd, By copying:the photograph with increasing contrat, one increases the accuracy for determinIng n Figure 5 shows the.calibration-of the -vertical axis: in terms of energy: Fi ure 6 the calibration of the number'of pulses against trace length; Figure 7 the exponential dependence of the trace length on n The accuracy ~qf the instrument was on the energy scale and 50.0' on the.intensity scali3_ Figure68 shows :the spectrum of a mixture of Cs :and.Co A further development of the instrument is the replacement of the optical photometric wedge by intensity modulation of the cathode-ray tube. This.method, for which a patenz was applied for, as well as other analysers with"electric wedges" will be the subject of a separate paper.. Card4/6  65975 Z/037/6o/ooO/02/004/018 ~Og4/Eaa5 Pulse-height Analys.er wit IhCathode-,ray u e a Photometric Wedge In conclusion, it is stated that-the here described pulse-height analyser with photographic integration is very simple in design and does not have the disadvantages of amplitude analysers with fixed channel:adjustments. The optical verification of the measured pulse spectrum is a favourable feature, particularly in y-ray spectroscopy. It is possible to achieve very short exposure times, which is particularly important when measuring the amplitude spectrum of radioactive substances.with very short half lives. By using a fast time base a resolution time of the order of 1 lis.can,be obtained. A further advantage is direct photographic recording without the necessity of further evaluation. A considerable disadvantage of this analyser is its.lower accuracy in reading offthe intensities of, spectral 1'ines. There, are 8. figures and 7 references, of which 2 are German, 4 Englishand I Soviet. Card5/6      34692 Z/037/62/000/001/006/007 E197/E535 AUTHOR- Rumler, C TITLE: Survey of multichannel analysers for spectroscopy in nuclear physics PERIODICAL: ~eslcoslovensk/ easopis pro fysiku, no.1, 1 y 962, 45-61 TEXT: The author provides a short description of various analysers, assesses their properties by the criteria of .reliability, dead time, simplicity, capacity, suitability for both amplitude. and time delay analysis and hints at the development trend. In the introduction the working cycle is given as sorting, memory and display. The sorting can be followed by direct display in each channel individually, or by conversion of amplitude into time signals, the number of whic h will, be directly proportional to amplitude, only one display medium being used for all channels. Pimilarly, very short time delays (of'the order of-mjLs) can be converted into longer periods (ofthe order 6flLs). The.dead time of the convertor ifself'is of the order of 0.1 to 10 ]is, sothat .the average dead time for a:200 channel amplitude analyser would be 10 to 500 us. The direct display in each channel requires as., Card l1q  Survey of multichannel Z/037/62/000/001/006/007 E197/E535 many recording circuits as there are.channels and analysers,of that type~are being displaced by the introduction of analysers with .memory circuits, Analy.sers with memory features rieed only one counting circuit common to all channels. In the dynamic memory information is stored in the form of a time delay (say, nickel delay line) and the author proceeds to describe the block diagrams I of both time and amplitude based analysers, the method of coding., and of display. Analysers with dynamic m emory normally displ ay the spectrum on a cathode ray tube, the horizontal deflection corresponding to the channel number, the vertical deflection writing the numerical information which was found in the channel scanned. After suitable decoding, theinformation can be printed on, an adding machine. The advantages are that comparatively few design elements are needed;,50 to 100,tubes are.sufficient for a: iOO channel analyser,* DisadvantageousAs the large'-dead time and the development.trend is towards.its reduction.. A carrier frequency of 9000 Mc/s has already been used in the USA For ase' nd- static memory device the term "potentialoscopell is used by the author. It appears to be a.memory oscilloscope. The Soviet Card 2/*  Survey of multichannel ... Z/037/62/ooo/ooi/oo6/007 E197/E535 analyser ELA-3 has a memory capacity of 64-64 points, and the author states that there are in the USSR potentialoscopes with a. capacity of 100-100 points. The author proceeds to give a schematic description and circuits by block diagrams., The advantages are small dimensions and weight, low I~rices, small power input and suitability forbatch production. Disadvantages are unreliability. ageing and the necessity of regeneration of increase display. Future development should stability and give, sufficiently long display to make regeneration unnecessary. Static memory with virtually unlimited permanency is.the advantage of ferrite cores and the author describes their function as a single core and in a memory matrix of two afid three dimensions., Transistorized memories are fastest. Promising, according to the author, are miniature elements as described by D~ A. Meier (Ref.20: Journ-Appl., PhYs.- 30, 19592 122). Analysers with a pre-memory make use of a fast memory, followed by a slow memory and the author quotes a USA reference in which a 2000, channel analyser is described using a cathode ray tube memory, followed by a magnetic drum as theslow memory (Ref.22: Hahn:J., Card 3/4  Survey of multichannel Z/037/62/000/001/006/007 E197/E535 Haven H.W.. Rev.Sci.Instr, 31, 1960, 490). In conclusion the author believes that the future belongs-to analysers with an intermediate memory and/or a pre-memory. From the point of view of reliability, the static memory is to be preferri-d. Static or memories have the shortest dead periods. From the, point of view of design, dynamic memories are simplest. Design .can be substantially simplified by combining fast and slow memories. There are 13 figures. ASSOCIATION., Ustav jadern9ho v�zkumu CSAV, Rez. (Institute for.Nuclear Research, CSAV, Kez') SUBIMITTED: January 25, 1961 Card 4/4  ConGenital Defects and Diseases CZECH-OSLOVAKIA UDc 616.007.1(:576-356.LL)-053-3 GOSTOP, R. ; K-UCEROVA. M. ; DANECKOVA, I.. Pediatric Department, Hos-;~ital (Detske Oddeleni k~emiocniqe) Prar-ue 8 - Bu- .Lovka, Hend (Vedouci) Docent Dr R. GOSTOF; Institute of Experim- ental Biology and Genetics, Czechoslovak Academy of Sciences (Us- tav Experimentalni Biolop:ie a Genetiky CSAV), Praque, Director (Reditel) Docent Dr M. HASEK; Department of Pediatric Surgery, Fospital (OdOeleni Detske,Chirur-ie Nemocnice), Prar-7ue 8 Bulov- ka, He,,,d (Vedouci) Dr F. FOJTIK. I!Mosaicism 4.6/47 with Trisomia 17-18." Praf-ue, Casopis Lekaru Ceskych, Vol 105, No L~4, 4 Nov 66, pp 1205 120d Abstract /Authors' English summary modified 17: A onse of a 5 day old old girl Uith-46/47 mosaic and 17-18 trisomi-a is described. Apart, from anomalies and si,.-ns observed-in the pn.st in cases of trisomia 17-18, the patient.suffered also from stenosis of the esophalc-us and cardia, hiatus hernia, dunlicate.of the gastric wall with an orif- ice of an accessory pancreatic tail, and pylorostenosis. The.ab- sence of some cardiac changes inthe syndrome indicates a case of Mosaic and latent trisomia 17-18. 4 Figures, 3 Tables, 16.Western 1 /1 -Pr~r_envgs. (Manuscript rec. Mar 66).  133-2-6/19 APTHORS:0.'~-hrimuvich, B.P. (Engineer), Pribytkov, A.Ye. Uzberg, AJ. and Rumn, P.A. TITLE. Testing of Unfired Magnesite-Chromite Roof Bricki3. (Ispytaniye svodovogo bezobzhigovogo magnezit--:-,Il-rola-it,-)Vol---o kirpicha) PERIODICAL: Stal'. 1958,, Nr 2, pp.126-130 (USSR) ABSTRACT: Testi.nG of the behaviour of unfired mag,nesite --ohromite bricks in roofs of open. hearth and electric fLLrnaces is described in some detail. Unfired bricks viere made from the sa.T~ie material as fired bricks. The costs of their manufacture is 1.7-2 times lower than that of the fired bricks. Properties of the bricks before and after.service and the comparison of the final length -after service of fired and tuifired bricks are given. On the.basis of.the, results obtained the followin- conclusions were rdade: 1) The character of the wear of ulifired bricks differs little from, that of fired bricks and takes place by steady spalling with the pro3ressin- zonality and appearance of C3 breaking stres,~.--es. 2) The rate of wear of unfired bricks Card 112  133-2--6/19 Testing of Unfired Magnesite-Chromite Roof Bricks. in the roof of open hearth furnaces is 1-9% higher than that of fired bricks (in roofs of electric fLLrna(,,es about twice higher). 3) The use of unfired bricks in roofs is economically expedient except in sectors of maximum,wear and for suspension. 4) Further improvement in the quality of unfired bricks is necessary. There arc 3 tables anti 3. figures. ASSOCIATION: Zlatoust Metallurgical Works "Magnezit" Wbrj~,s and',,,Gisogneupor. (Zlatoustovskiy Metallurgicheskiy Zavod, Zavod "Magnezit" i Gisogneupor) AVAILABLE: Library of Congress. Card 2/2  1 0 No 11 11 it IS .11 4 uto MJ01 214 a3iz' IT a It so 31 0 Is id s is v Is " aSt 4: A I t s so (X Pp. Ct 2----L- a --L-- ~L- o -9 0 Aka pep( IT t I -0 0 00 A -0 0 00 09 1A.141tv 43 ,1 01 cc AMM -00 00 a ProductiOn 3- O W and f- the incl) ljtwu%~11-1 00 on v%P11, ev"'c"ce' 2r~ ch"_ Min, Mu,phailc, .0 0 go z see 00 00 so so 41 I Vee F 00 j so* 00 9 doe 1-se :.,Qe ::G~ 0 ;I ASO-SLA -11-LLUMCK-L LITERATURE CLOSIFICATION goo 6"~O; V, 2411340 IVIO.J -I, v-- 0.1 0.. sit L , --F - - -Mot ~ u 1 11 IV It, & it of it It It ran it x . 106 If III mian i!xA . doe 14 :: oo o0 o o 000000000 o ,e : 0 0 00006~0009000000000 - o :o oo 0o o o o 0o00000000 00   LIM AA/ -A 72: ch, ,k - N-4, - * z * - site anc    -- -~~ :, --l ! I - - !~ - - - - -- ---l- - .I . t,.- T I I. ij-_ I . ., I --:----- . --- :- - C,* I I - . -S-. ~J~- - - ". - . , . - - - 1 '.7, . .   V se o '-'e 'k --.i s a e mmt re, a -7 tl on I n tlhe -,i -i4ag, nc 3e Llib~ de-lo noa99521-524 164~ W-("~A 17.-~121'1 1. BioklibrO-c~esakaya laboratoriya -`rimorak--j;:) krnylovcgo vikologicheskogo disparsera (glavnyy vrar4'14.7. iaktirrave'xava~, Vladtvostok.    Comparative evaluation of Hakim's seram reaction, Black's test, and Weltmann's coagulation band in cancer. Vop. onk. li no.12: 93 165. .19: 111 1. Blokhlmicheskaya laboratoriya Primorskogo krayevogo onkologi- cheskogo dispansera (glavnyy vrach - MIP. yakimovskava) i kurs patologicheskoy fiziologil i laboratoTnoy diagnostiki (zav, doktor ired. nauk M.G. Kolpakov) Novokuznetskogo gosudarstvennogo instituta d1ya usovershenstvovanlya vrachey.    PWISMS ANO 0#00CIffil OBOE :0- 0- pladpl4s o( Ut dititalis pfcIM4, Aml their stomlardiss nee woo .0 tsee 00 '00 '00 * 0 ILA AETALLU*G XAL UtERAT441 CLAIMPKAIMP clm-- ft - to* *, ~, sovj~ap oil Ott 894121 at dot AtA es I 1w 0 a a I v a It 411 0 3 U u AV 10 It.- IN IS Iml 'a o 0 0 0 0 0 0 0 0 0 0 do 0 0 0 0 0 * 0 ,a    M, MIYA, J.; SKVIUIOVA, K.; HAITA, I.; MICKY, A.;-RUHD3W"._; HIOUVAIRT, 0.; IOUDA, L.; HARTL, Z.; HEWL, J.; KLOINBAUM, V. Nvaluation of influenza vaccine. Cesk. epidem. triikrob. ijmm.7 no.6:365- 373 Nov 58. 1. Ustav epiderniologie a nilcrobiologie v Praze-Zdravotnitka sprava min- isterstva. narodni'obrawl. i. hyg. epidemiologicky odidil cB. lid armady Krajsl,,a hyg. epid. rtanice v Gottwaldove Krajska, hyg epid. stanice, v. Pardubicich. J. P. Praha 12 Srobarova 48. (IINFLUENZA., prev. &control vaccine evaluation (Oz))      CZECHOSLOVAKIA. POLAND Rlr,.,!P S. EDELWEJN,. Z.; Departzient of Expe imenlal Pha L, 4~ _r U rmacology, Medical Academy, THarsaw; Neurological Clinic, Medical Academy, Warsaw. /0-riginal version not given-7. "Effects of Lignocaine on Abnormalities of Bioelectrical Activ-, ity of Rabbitfs Brain Caused by DIFF.11 Prague Activitas Norvosa Superior, Vol 8, No 1~, Nov 66,, pp f~23 Abstract: DFP is diisopropyl,phosphorofluoride;..it acts mainly by chollnesterase inhibition -and affects the corn.-!lete cholinergic s -hetics in cholin- ystem. Antidotal effects of some local anest esterase intoxications were investigated, Whenl n6/kg of DFP is injected DEG waves stiow an epileptic shape; a subsequent injection, .,of 4 mg/kg of lignocainecauses a rest-oration of the normal shape of the EEG waves. The mechanism of.thisaction is discussed. The drug probably reacts with acetylcholine on postsynaptic receptors of reticular formation causing their.blocking and thus decreasing the activation of the aseending:reticular system and of the cortex., No references, Submitted at the.8th AnnualPsychopharmacological 1/1 at Jesenik, 18,-, 22 Jan,66.,,Article is in English.     W 0 w- is ;10 re 3: U it dro- 1 it .1 . 7 : 7 ; ; ;I- a a J. b A v 1 1 A-1 __L_ AA 00C M U42 1 -9 to v 1 1 r Q R I I . - , N Rur4PG t4 - LT , ! Constitution Of raw t;auxitd Or$ train tho depo4ts at Bodayk (H ungaryl. Ito! RumPRL , Mdall , F 2 I-Of 0 i w. L. - s , 9. 471-4(lq:j2)._X.ray jallin Iluw'g OIAL 11418 1 i ~k_rf irtmTp)rc.,,tajnj FrA as outhite AI (N as tu m 0 0 , , . m - 4 0 -00 moo 4,0 z t=08 of J, 0001 0 0 00 a - 7too 00 0* 4900 . 00 5 0 ~1 x 0 0 1 60 z 0 0 ZOO 00 2 0 2 0 go 0 4 woo [=00 Ft- T~400 iWoo it v I W Ana Aw 00 L% 0 U U of It 11 IFa It VE tf ItK 0 00 0 0 Kio n 0 0 0 0 0; 0 0 0 0 0 0 0 0 o a 0 40 00 000 0 9100 of 0 0 0 0 0 0 0 o 0 0000  our a a a j wit I I I T L'V I to I c 0 0 4 '1 X ~ to- I.Quillb P. W1111114% Wall. '"$1T13 Ion RUM LT' H - oils Ow A., and Rumpsilt, I. %tt-I.ItA i's IIIN r I I ii t ti i ir to tv 7, 1 vu VIII'm I lilt 110, 1, -1111 % h Ot sit 110PAIiIi X,dhoj~ 11riAtfif. 33, 372 -11J, I 11K12). - For - A i..otitc t-oijilkiwil of Perot 1 NO to 15.11. Alit NAR3 t"SK 1. l 10A t ~ 04 a,ti to 9.9 ~ Oj mat Alr(h purificatiou was obtained isit an o-toluidittv and thicivarbanilide mi,%turr, oleic acid in "pusnim (a %A( of it naphthrriesulfocti, acid?) 1cwthrr 1 66 0 Sri %sift life* *1L, The pit optimum lay fit %If ra.-i in the re- l l " 0 Itwo.'(s it is ity, tiourralittid tokcirp the Silt right. wrtefouitil to tie helpful :1 i1i umair vatirs. Under optitutitu ctinditimis the Sitt, rim. 00, Ietit rr"I'An"I nearly unchanged. while the Felt), could he to We; %ith if the AIA), t-,,%vmi 4% the I 041- 'rurw hvires %,"tm he -iiiii,shsi 4P 00- fir Iti,firliniAir Ownsisix Ilw gifo.hilit somliltoo. A jts~,N It II'lic w1mials" fArtiolit the FrA), Ofigbily IWII.F Ows Ito fAlow Fleettoph.-Fesix has Ito proofimv as a "Ickhod for Ir - - 4 4 t W -7 1 l1 "U" 4, f " A v j 9 It 1 1 0 1 tiq[ 9XVIff i C" &r"4 l(mg. w -1 vg . goes e 00 o    17' '42 AUT 10 a OT ee ' Pu B cis i7 ni? _iz Drf~c-j' 1, -L-Y. At- I,- h 0 3 Gy, ~'l ~1" th JAI 'i7 ~ . - C A P D  195'), 4 1 T L -)T-0 27   L 8508-L4) Fn (.)194P(J) IT RPL MilW&IiN XUC 3171 ILP5028491 SOURCE CODES UR102861651000102 0066 44 O/Ty AUTHORS: Sirota,'A. G.; Ryabikoy, Te. P._; Chopko, L. F.; Lavrovskiy, 1. P. R~ A. M-;"R7mi--Ts I Efi!nko, T.; alldt 't It T.1 T !L T -. ;3 . ____ . 44, 44.C!' :ORG: none TITLE: A method for obtaining eUff_1enAw-1M--rA-' Class. 39, No. 1756 w SOURCEr Byulletenl.izobrotenly i tovarnykh xnakor, no. 20, 1965, TOPIC TAGSt polymer, copolymer, eth7lene, alefin, chronium.comPa Und catalyst, copolymerization, paraffin, cracking, petroleum .ABSTRACTt This kuthor Certificate presents a method for obtaining a tbrlene copolymers tri copolymerizing ethylene with an OC-olefin-"taining compaouUndd aa 60-130C and at a pressure bf 30-40 ata in the presence qf acid chronium catalyst. t To simplify the technique of copolymerization# bensino distillaite of rapid contact cracking of petrolem paraffine is used as the a-*I*fi*-*=tsJnJn oompowde MB 001111 3913iDMI 077ob63 'eve 001 670,742.2-139   )0, 2-000 8020 3/040/60/024/'02/06/032, AUTHOR: Rurayantsev, B., N. (Imoscow) TITLE; On Waves .,hich are Excited on the Surface..of an Incompressible Fluid1lby a 2;hock Wave PERIODICAL: Prikladnaya matematika i mekhanika, 1960, Vol, 24, No. 2 pp. 240-248 TEXT: If over the free surface of a fluid there takes place an explosion, then the shock wave reaches the free surfa-ce after.a certain time and causes a wave motion. For the rigorous solution.the motion offluid and gas must be considered in tfleir interaction. In.the first approximation, however, the.determination of the surfabe waves can be understood as the determination of,the fluid motion undrinfluence of a given (variable).surface.Dressure.. This last problem is considered by the author under the assumption.that the fluid,is-incOMDressible, and the force of gravity is negligible. Let z = 0 be the free surface. The velocity potential,(P-,satisfies- the Laplace equation in the half space z < O.,The boundary condition ~f thE.- kind Card 1/3  80243 S/040/cO/024/02/06/032 On Waves Zhich are Exc1ted on the Sur-face of an incompressible-Fluid cy a. 5hoc. :c Wave (2-1) r for z 0 where p is given (under use of,.cylindrical coordinatec,.since the problem is assumed to be,axialsymmetric). Let -2 -7 satisfie's the Laplace equation. Let t) 13~ b e the Hankel transform of zeroth order of 0 The fanotion satisfies the equation solution with, the probeIrty 0 -4- 0 for I z m is AMJexrct-2 If (2.1) is multiplied with rJ r), if it is integrated with respect ~o r and if it is put:z 0, then one,obtains A(-~ It). Then one obtains 00 co , 1p (A (2.2) E Card 2/3    I R -AtU-4-uo Mo L PHIKlisof *No 0400611111 1*093 -00 004 UNMAN lee so lee lee Ablow 11411 11104 ; coo p blook ow MIND 00 so" smomms by - 0: tbobw7 - F PV~ . -, = 00 oloo , 4,00 co Xf, 0 210a Zee 2109 Al..%L__ METALLURGICAL UTERATURI CLASINFICATIOM 3 slow l1volliv. Vo"lAv s4novo -0 1 legate wir ONT oft B3101 ad a., Ill ; 1 4 F I - I - P U 0 AV 10 11 of CP IV IN a at K 99 Of Of PC a It An L % a ad a 0 0 1 mir 14 5 A 0 11 1 11 . 1 OT1 1 02 ! 000*6 ws *so* q a q 44  I L I L M 1 F. _;_; 1 2-MM A I so I SO re"T Mom" at this 5mm" 1 Xmmk MjA ` lee 1 ~ 7 dorm Udowye'ZophN Lin 4trod, Gtum&rjt. Z6 j~ 4 6. No. a? Kbim. Rrisms. ZAN?. . N Lg2! f $ ? 1241) 9 AftO & ?J1 l It .- a. wem 4a me*- auto t . . ee thin cellmloid Mo. fwmkg prqms. with a beterage- b ft nems d tr mtim of An orientatim of the d t Won ohm v I theme crystals Into can- = h moist sk hw 1-2 . The at tatim proto I ib d I i b f s attr ute ffiterest to on cwm et"m the crystabs and the MNWW Ow whick wi hmitt durin the ads orp. , g g k f h Go .3 I water on t m o e 0, OW b the pores a t1w pftpn. 11 m h i m h b o co es t e w ow s we doo an late IN the she , In-11- propowtba, in the the o -t bfth-Ei.. 1 behavior of i 00 1 -61. "Wis toward t proftemom Is *0 wralk Water npw Im a the *a of MW cwymob, but causts 00 9 a orientation of Ila 070A. wbsrm Kea l Wbk d h i a muml ft or oi but the r doo-In. Th m e n u 7m b W V7H . fee A t1 11LUR IL LITEW10411 CLASUPKATION _. JJQM jj'jbjj'j' - - I ja'o so" Iff T s-;G so TT $still at 4"V all WIP amw aft 4111indmi LIC T u A#t I t a ow a m 1 w N 9 A a 3 It V I r I ; a, ; it It p Of 3uk 0 e Ol 0 00 0 e 0000 00 9. 0,00 0 00 0 we so 00 00 0 0 0 0 r  lil-N, -V lilt:  SHGHEMELEV,, V.N.; YELISEYENKOJI L.G.; DENISOV, Ye.,P.i__, RUMSI M.A. Current and pulse measurements of the X-ray photoemission from a massive cathode. Piz. tver. tela 6 no#9:2574-2579 S 164 (MIRA,17:11) 1. Leningradskiy gosudarstvennyy universitet.  t;e~~3 "'hotoconductors, Lead Sulfide Sep. 52. --/Physics I "Ziectronicroaraphic Investigation of Lead Sulfide Photoconductors," R. Ya. BerlaCa, S. N. Gurallnik, and IM. A. Rumsh Vest Leningrad U, Ser Mat, Fiz i Khim, No 91 Pp 134-136 Description of a prelirdnary diffraction study, conducted with an electronogr-~ph desi,,,,-.ned by V. A. Kolpinskiy, on the images.of variously prepared nonsensitized and sensitized PbS sTx-cimens, which study shows that layers prepd by sublimation of PbS in vacuo Dossess a. cr~rstal structure of the NaCl type with constant a=5.92 , and that layers of, PbS heated in air at 250-3000 for 5-10 mn contain also PbO.PbSO ,ihich increases in relative quantity and ciystal size with increasing temp and sensitizing. time. 11!-~ 252T105    ediairmairly's 14iii and 1-4 infif 4L- z awff a! Ow - T p motive Tom of Pb$ *U .rzld under the (olt"Ing am. i L ditions: PW wu heated to warbus temps. in air For " min., the, samples no cooled, and tee metzrarem4utj made at roc temp. A prettmirtary investigation had s6hown that heating In ittr to 050'forg-10mut. would cause the e.m.l. to drvp to 3 v., wbemw the same treatment is vacuo left the e.mJ. at about 10 v. Prior to the elpts. ,he photoclectramotive force wus OAM Y., t - the (allowing values were found after heating to MA. 20D, aDD. 400, 6M. and CM*-. 0.0014, 0.002, OAM. 0.22, 0.7. and (I v.. rcip. After considenition nf the preliminary expt. one atay siy that the inas. wnuld lie at a hint-tritatment of 500-W*. Weiner jacj!�~ "a      et ials E-9 USSR/Solid State Physics Structure of De-forTation Mat Abs jou r Referat 2hur Fizikay No 5, 1957, 11869 yu.~ Auth .or Rumsh, M.A.) Baklagina~ Inst axacteristics of Fibrous Texture Title Determination of the.Ch- with the Aid of ordinary Powder Cameras* -21 Orig Pub Vestn. Leningr_ un-tay 1956, No 10, 12 incomplete Abstract A method is described for the investigation of and imperfect fibrous texture in non-tr-OlnsParent speci- mens (ground sections)- The texture deetarmined from data of a series of X-raY Patterns, obtained in Ia usual powder camera upon rotation of the.specimen) and the plane pas- sing throus)l thesods of the fixture and~the normal to the surface of the spe .cI iM Ien is aligned Perperdicligi to the table. (To determine the above ation of the axis of rot plane, one takes one X-ray photograph in the backward-pho- tography camera.) Using one ring that has experienced card:i/3 FI-9 on Strracture. of DafOrm&.t" jcs 1:,-869. a. State Phys -1957) FjziXa' ?,ef ar'Lt of s jour t,je Jn -plane Ab eudeucT~ % ~nt tv adep L.01a -beAveen lar ge-1111, ) -joary Wglf- 0 en t.,,e Anne Of t'hp- p' an& t;~I- s1r. fpce -a _,alyzedj , thp, 6 the I~ine 0 01 to t~Lp a6 section is ),Or also ndice of the grO'x t Atlwa as exe A Of the e -walch coi ar-ld _io tLe tbe a%is feas IS Ons m1a" n of t -,11I& Bur dil-ctl- disPer6 tallog:Spble The Vwtograps tb.e 6rO ? uae cr-js the te)CCUL -I O-f %-rwj ceq:ole 0 ay :Jxm~ex IS 0 Is no ingy t"i e lineo tea. fvor- -tjie 'eLttew estiIna , copsi ble s' S is jaorcrnv_-~ _dera itv, tlae 0i re. b~ on .4 s atr&ct tion CO is ure ay, IaIhir- ljjre~ 'ic tne text prsts.1161~7-sl~h olu an ana -his c M%ae t' 11 fr if tne crys. ana. sions lone axe not 'e)Ltur'-) t tion. of the then 'ue cOnCIV . -if ica ace axis) inteas to traefs tue ~seqlle ern VoetrY gith Wa%'W"u necessary f ttL, %oral Vatt V of is the ring ' 4 ma 0 t,~e use 0 final. 11 lines in & this VO*fY- on necesS X-Icstions ted. in of the intensi s ate re_PO~ fLesult serjeso car& 2/3 Card 3/3  A9 "IMM-9-MMEM"'Wo m  Electron -diffraction study of the twifte bf I evapo- rated In vacuum kf~ A Rurt.~h tlj.l 'w (I /hu, Ickh F... ZC-77717-71 i! is IN-, I,, ' ,, M Z. r. -,I ! disphwed rowa"I 11w s"nual t" th, paved ta t~h Ax~, ~ &-td. b, i~-xy zYtr,,-d% T-hr~ L yr-n A I-os wat -~.t-o t- -~Ii J,-~vr-f-d U!ld-- 3 d!fferme Amot, :, L;bx X-,r.. U"L--c &- = =4frn -1 =s Ci '-'-C bal- det-A. by ax-, nz ~- ~- 15 aLMbiated to Lbe &xTrx--t~,c a bT . the ffiWmd 4 a "mg b~-Ani. tL-t dagilactirient is an M- r  AUTHOR BERLAGA,R.Ya RUMSH A., StRAKHOV,L.F. PA - 2588 TITLE Generation o~1p4M_E_MF;x L&yer3'0f:Su.1phurous Lead.~ (Vozniknoveniyo'foto*dB,v sloyakh sernistogo svints2 - Russian) PERIODICAL Radiotskhnika i Elektronika, 11957, lol 2, Ur 3, pp, 287-2901(U.S.S.R.) Received 5/1957 Reviewed 6/1957 ABSTRACT Lecture delivered at the All Union Conference for Semiconductors in No- vember 1955 at Leningrad. The Photoelectromotoric force in the layers of PbS which had been sujected to no treatment whatever that would have caused an.alignment of properties was investigated. The layers were ob- tained by evaporation of FbS in the vacuum on a flat glass basex. plate. After being heated in the atmosphere up to 5oo - 55o0C the layers ge- nerated.a,photo-electromotoric force~of up to 2-3 V when illuminated by an ordinary incandescent lampl. Investigation of layers of different thick- ness showed that an increase of the layer causes orientation of the,cry- stals with an orientation axis directed along the molecular flow (by me- an3 of which the layer is applied). Together with the development of tex- ture thin protrusions are produced oR the surface of,the layer. The need- le-shaped structure of the surface plays aR impotant and possibly even decisive part in connectionwith the generation of photoelectromotoric force. In this connection several more or less probable developments may be assumed # 1. The photo-W might be generated on the illuminated dendrits edges by the'exterior photoeffect. 2. It night be assured that the photo-EMF generated in the PbS layers is,due the interior photoeffect. Card 1/2 3., It may be assumed that what takeIs place on the occasion of the genera-  Generation of photo-ERF In Layers of Sulphurous Lead P4 2588 tion of the photo-FJdF is connected with the production of p-n trami- tions between the oxidized surface layer of the dendrite and its not oxidized central mass. This manner of generation of photo-EU, which, in the authors opinion is the most probable, will agree with the rule found with respect to signs if the illdminatiox of the oxidized PbS sur- face leads to a reduation of the potential of the surface layer with re- spect to the interior not oxidized part. ill. and 6 citations from publications in Slav language).. ISSOCIATION FRESENTED BY SUBMITTED AVAILOLE Library of Congress Card 2/2  S/12o/60/000/005/015/051 E032/E514 AUTHORS: Rumsh, M.A.., Lukirskiy, A.P., Karpovich, I.A, and _1wH_cF_e-melev, V.N. TITLE: Vacuum X-ray MonochromatJfor the Determination of the Absolute Efficiencles of Radiation Detectors q PERIODICAL: Pribory i tekhnikaleksperimenta, 1960, No-5, pp.67-73 TEXT: The monochromator described in the present paper is based on the Bragg spectrometer and hence the.working wavelength range is limited on the long wavelength side at 19.3 1 when a mica crystalis employed. The absolute"determination of.the sen- sitiv:Lt*ies of various detectors of ultra-soft X-ray radiation was described JLn.previous papers by this group (Refs. I and 2). The present paperdescribes an extension of this work to the wavelength region 19.3-1 X. The absolute,intensities of the monochromatized beams are measured by a Geiger-counter of special design. The various characteristic X-ray lines are produced by a special demountable X-ray tube built into the monochromaton. Mechanical details of the design of the monochromator are given, together with some typical results obtained for the K doublet of Cu. These Card 1/2  S/12o/60/000/005/015/051 E032/E514 Vacuum X-ray,Monochromator for.the Determination of the Absolute .Efficiencies of Radiation Detectors are shown in Fig.4. :From the knowl edge of the various transmission coefficients of the apparatus it was possible to measure the absolute intensity of-the monochromatized beams and this in turn enabled a determination to be made of the efficiency of photomultipliers with different photocathodes as detectors of X-ray radiation. Further detalls,will be reported in a future paper. Acknowledgments are made to A.-,A. Lebedev for discussions --r-d interest. There are 4 figures and 7 references: 3 Soviet, I German and 3 English., ASSOCIATION: Leningradskiy gosudarstvennyy universitet (Leningrad State University) SUBMITTED: September 10, 1959 Card 2/2  S/051/60/009/00OV15/034 E201/E191 AUTHORS: Lukirskiy, A. Rumsh, M.L., and Smirnov, L.A. TITLK: A MonocbrnmafoAror Very Soft X-rayAhich can be Use'd to Count the Absolute Number of Quanta PERIODICAL: Optika i spektroskoplya, 1960, Vol 9~~No, 49LPP 505__~510 TEXT: The authors describe a, vacuum X-ray monochromator with a.diffraction grating suitable for use at wavelengths.between . 15 and 120 Its construction is shown schematically in Figl, V\/ where S. is an entry slit, D is a disphragm, P is & diffraction grating, Sn is a receiver slit, Cq is a Geiger .counter, n is a.platform, Sp -is a dividing slit; T is an X-ray tube, A. is.its anode and, K is the cathode. Methods of adjustment of the monochromator,and of monochromacity stabilization are described., Toillustrate the results obtainable with the : ~ monochromator, Fig 3 gives the characteristic K-lines of fluorine, oxygen carbon bgron and beryllium; their wavelengths ranged ~rrom 16.3 to 11'3,2-. The authors describe also a technique for absolute counting of X-ray quanta by means of a Geiger counter Card 1/2