SCIENTIFIC ABSTRACT PIKULEV, N. A. - PIKULIN, F.

A-n el e c z -s s U U G S c i :3 n Ce SO t-e effect Of 2' 0 t recom,zended: 0 0 0 1 Th sence of a stiff' jin,~ Ile above v s c o re,3 -D n freoue=~' c,-.aracteris-, c o s quency as as 0, :-,_ec. 3sc4 'the pic''~--U'5 is ob-,aJncr'i ~-~~71 t:.e cuTren~ v,,in:- C;rcuit. There e- r ef n e 4,Ures and 2 -Sovie~~-bloc re.erenc-l-s. CLrd 212  D222/D301 AUTHOR: Pikulev, N.A. TITLE: Some problems in the electrical modelling of the passage through resonance of vibration-isolated machines or foundations PERIODIC.-~L: Referativnyy zhurnal. Avtomatika i radioelektronika, no. 10, 1961, 17, abstract 10 B109 (Tr. Tsentr. n.-i, in-ta stroit. konstruktsii. Akad. str-va i arkhitekt. SSSR, 1961, no. 1, 104-115) TEXT: The specific conditions of constructing electrical models for mechanical oscillatory systems under the influence of forces of changing frequency and amplitude are considered. Some analogue devices are described which can be used in building anal- ogues for the study of phenomena taking place when a vibrator-iso- lated machine or foundation goes through resonance. 8 figures. 10 references. Z-Abstracter's note: Complete translation_7 S/194,/61/000/010/021/082 Card 1/1  PIKULEV, N. A., Cand Tech Sci -- (diss) "Work of vibration insulation under conditions of starting and stopping of machines. Methods of de- creasing resonance vibrations." Moscow-Sverdlovsk, 1960. 20 pp; (Acad- emy of Construction and Architecture USSR, Central Scientific Research Inst of Construction Structures, Scientific Research Inst of Industrial Buildings and Installations, Laboratory of Dynamics); 120 copies; price not given; (KL, 17-60, 158)  PIKULVV, H.A. (gor.Perovo) Role of elastic pieces inserted between dampere and the vibrating body. Strol.makh. i raschesoore 1 no.2:45-48 '59. (MIRA 12:4) (Machinery-Vibration) (Damping (Mechanics))  P DMEV, N. A. Device for Simultaneous Recording of Several Processes on t.,-- Screen of Electron Oscillogrrph. Patent, Class 21e, 2802. No 103718; Elektrosvyozl No 1, Jon 57.  PIKULEY, N.A., lnzh. Oscillations of vibrating screens caused by starting and stopping. Strol.1 dor.mashinnstr. Is no.5:20-21 NJ '59. (MIRA 12:7) (Vibmtore) (Road anchinory)  PIKULEV, N.A., inzh. Reducing vibrations of buildings . Maal.-zhir.prom. 25 no.10: 45-46 159. (MIRA 1322?) 1. Nauchno-teeledovatellskiy Institut promzdanty I gooruzhenty Akademil stroltalletva t arkhitak-tury SSSR. (Buildiaga-Vibration) (Compressors)  f==XF tlT.Aof 7j,~Aom 'I ft. ;A* Po of Houl'barbus maculatum Bleek. and Henibarbus laboo Fall. in the Amwr Basin. Pat. k pozn. fauny I f lory SSE. Otd. zool. no.32r4l9-434 152. Wu llt4) 1. Iaboratorlya ikhtiologii Noskvvokogo goeudaretyennogo universi- teta. (Amur Valley--Carp) (Fishes-PbGd)  PIKU1891, Tu.V., kand.med.nauk Reactive changes in the organism In osseous tuberculosis during morbid and healing processes [with summary in French]. Probl.tub. 37 n0-1:27-31 159- (MIRA 12:2) 1. Is Institute tuber)mleza, AMN SSSR (dir. 2.A. lebedeva; zav. klini- kay koetnosuatevnogo tuberkule2a, imeni T.P. Krasnobayeva. - prof. Z.Tu. Rollye). (TUMCULOSIS, OSTROARTICLUR, immunol. phagocytosis in morbid & healing processes (RuB)) (PH.AGOCTTOSIS, in v ar. die. tubere. oeteoarticular, during morbid & healing prooSSBOB ('Rue))  WMLI S311T. G.V.; PIKULXVA. V.A. Adaptive significance of the amplitude of variability of specific characters and properties of the organism Evith sum ry In Ingliehl. Zool. zhur. 37 no.7t972-988 Jl 158. (Kru 11: 8) 1.1aboratorlya ikhtiologit Moskovskogo gosudarstvennogo univereiteta. (Adaptation (Biology)) (Fishes-Food)  P JLIVA, V.A. Ratritlon of Ifteudobagrus fulvidraco Rich. and Idocassis brashnikori Berg. In the Azar Basin. Hat. k pozn fa=y i floz7 SSSR. Otd. zool, no.32:435-W 152. (NM IltO 1. laborstorlya lkhtiologil, Moskovskogo goeudaretvonnolgo univerelteta. (A=r Thlley-Catfi shoe) (Fishes-Food)  NIKOLISKIT, G.V.-. GROMCBEVSKAYA, N.A.; MOROZOVA, G.I.;_PIKULlCVA,_VA,.__ Fishes of the upper Pechora basin. Mat.k pom.fauny i flor7 SSSR.Otd. zool.no.6:5-202 '47. (mak 9:9) (Pechora River--Fishes)  PWMA, Yu.v. Watro-Phic changes in tinsues in tuberculous coxitis in children [with summary In French]. Probl,tub4 36 no.3t47-53 159 (MIRA 11:5) 1. Iz kliniki koetno-austnvnogo tuverkuleza Imenj T.P. KrAenobayevs (zave - prof* Z.Yu. Rollye) Instituta tuberkulessi AM SSSR (Dlr. Z.A. Lebedeva) (TUNRCULOSIS, OSTr.OARTICUIAR, in inf. & child dystrophic chnngen in tisoues in coxitin (Rue))  Yu.V. kaaciwj* nauk "Pedagogy in oste,*-r.e,-ca1sr sanEtoria for cnilaren* 'ry V..6-Lebedeve. Reytewed by ?robl.tub. Y no.I-111--L' '-7. (TbBz;~U~-- ..V SAHATuhlbK,) (M- -J. .' J. I'- ) (IjHl;lj,gVA, i-j3.)  P~n!SVA, Yu.V., kand. med. nauk Experience in the use of steroid hormones in children with various forms of osteo&rticular tubermlosis. Probl. tub. no./+:61-66 164. (MIRA 18:11) 1. Otdeleniye kostno-sustavnogo tuberkuleza imeni T.P. Krasnobayeva (zav. - prof. Z.Yu. Rollya) TSentrallnogo insti- tuta tuberkuleza (direktor - deystvitellnyy chlen AMN SSSR prof. N.A. Shmalev) Ministerstva zdavookhrananiya 33SR, Moskva.  PIKULEVA, Yu.V., kand.med.nauk Case of a tyoical tubercular process in the hip joint. Probl. tub. no.8,107-109162. (MLA 16:9) 1. 1z kliniki kostno-oustavnogo tuberkuleza imeni T.F, Krasnobayeva (zav. klinikoy - prof. Z.Yu.ho1'y*)* (HIP JOINT-TUEERCULOSIS) -   fil"iLEVICEf L.D~ Soil heavir'.g In tne region --f tjs Bratsk ~'-- Station. Merzl. issi. no.3.1~.~1-15'1 '~:J. Stages i-n freezing proces.5,js and the variat,,,)n of mclt7t~re in seasonally n-ozen ground. lbid~ 154--168 (MT:C4 I ". - )  PIRULEVICH L.D Studies of frosen-graund for purposes of engimmrin"oeloff in connection th construction of the Bratsk Hydroelestric Power 0 Station. Mieral.is . no.2s189-197 161. (MDU 1615) 0 (Bra~sk droelectric Power Station-Frozen ground) sk~ hratskjHydroslectric Power Station-Engineering geology)  PIKULIK, Alojz ~-~z - Developing the x-uscue service in the mines of Slovakia. Uhli 5 no.1:26 Ja 10. Uhli 5 no.1:26 Ja 163. 1. Hlavni bawka sachranna stanica,. Handlova.  ACCESSXON MRS AP4043007 2/0051/"/03L7/002/0209/0212 L. F. I JPJ as at _*Q a Ian evieb H. L. `AUTHORSs Gladebolako* TITLEs Study of electrm spectra of a series of aromatic molecules -,'in solutions SOURCEs Optika L spektrookoply&# v. 17& no. .2, 1964, 209-212 n"DTI% OP&MR& Airrmatie crowinnnd snaetruw6 alaetrnn transition. luminescence. fluorescence. phtbalimode. benzene re reliable determination of the ABSTRACT: In order to abtain a 106 "characteristic electi vibration frequencies in each spectral band, ,and to trace their variation from compound to compound, the absorp- tion spectra of benzenev toluol, benzoic acid, phtha~ic acid, phthalic ahbydride, and phtbalinide were measured at low temperatures *doing solvents that eitber -.vitrify or crystallize upon cooling Ast I alcohol mad diaxanes respectively) 0 Analysis of the data a that ewh of -tbe spectra of all the adwLabosis contain funds-  'PrOdd or IN Pf ellgffii, i, Wit I with rmt)fl(i -pl,(XAMs 6 ascribed tuots. into OK okwoJiW I'tatc.  . -1 . .1 'I~  P/ e te- /_ / X_- _"O /- - 6~ USSR/Physical Chemistry - Molecules. Chemical bonds. B-4 Abs Jour: Ref Zhur-Khimiya, No 5, 1957, 143B4 Author V. V. Zelinskiy, N. P. Emets, V. P. Kolobkov,_L. G. Pikul i k Inst Title Investigation of the capacity of complex organic mole- cules to fluoresce and phosphoresce Orig Pub: Izv. AN SSSR, ser. fiz, 1956, 20, No 5, 507-b13 Abstract: An investigation was made of the dependence of the probabilit of non-radiating transitions of excited molecules Tfrom the unstable level to the metastable level r, from the unstable to the basic without q radiation, from the metastable to the basic with-0- radiation, and from metastable to the basic without radiation q2) on the temperature, solvent and molecule structure. Probability of r is apparently only weakly dependent un tcmperature. Probability q changes little with temperaturo for some organic compoads while for Card 1/2  PIKULIH, L.. G., Card Phys-Math Sci -- (diss) "Effect of the Solvent upon the quantum Fluorescence an(I Kloctronic f Spectra of Flatimids Minsk, 1957. 10 pp (Acad Sci Belorus- sian SSR, Department of physicomathematical and Technical Sci)v 100 copies (KL, LLP-57, 104)  AUTHORS: Zelinskiy, V.V., Kolobkov, V.P. and Pikulilc,, L G 24 -3-23/ TITLE: Dependence of the fluorescence e-nd absorption spectra va the solvent for certain phthalimide derivatives. (Zavisimost' spektrov fluorestsentsii i pogloshcheniya ot rastvoritelya u nekotorykh proizvodnykh ftalimida). PERIODICAL: "Optiks. i Spektroskoi2iya" (Optics and Spectroscopy), 1957, Vol.2, No-3, pp.402-405 (U,S.S.R.) ABSTRACT: The effect of the solvent on the fluorescence and absorp- tion spectra of phthalimide derivates consists of a displace- ment of the spectral band without alteration of its shape. This paper presents experimental results at room temperature for the 4-derivates (8 compounds such as 4-aminophthaliaide), 3-derivatives (12 compounds such as 3-acetylamino-N-methyl- phthalimide) and 3,6-derivates (10 compounds such as 3,6-diacetylamine-N-methylphthalimide) of phthalimide. The maximum frequency of fluorescence or absorption is plotted against the solvent (23 solvents were used, e.g. water, glycerin, methanol, pyridine, acetone ' CC1,, etc). The so Ivents are given places on the abcissa i such a way that Card 1/2 distances are proportional to the spectral displacement produced by that particular solvent on a standard substance which is 4-amino-N-methylphthalimide. For the fluorescence  Dependence of the fluorescence the solvent for certain phthalimide spectral displacement sets for the absorption spectra The effect of the solvent dielectric constant or its e.g. on variation of the temperature, is suggested. There are 3 figures and 8 SUBMITTED: October 22, 1956. AVATT-A LE: of straight the dependence could not dipole spectral and absorption spectra on derivatives. (Cont. ~2~ 51--A-4 lines are bb-raRe is more complex. be correlated with its moment and further worK, displacement with references, 7 of which are Slavic. Card 2/2  P1 AUTHORS: Zelinskiyj V.V,, Kolobkov, V.P. and Pikulik, L.G. 51-3-24/24 TITLE: An attempt at construction of a unidimeisional model of potential curves f or certain deriVatives of phthalimide. (Popytka postroyeniya odnomernoy modbli potentsiallnykh krivykh dlya nekotorykh proizvodnykh ftalimida). PERIODICAL: ROptike i 2yektroskopi-va" ( ties and Spectroscopy), 19579 V01-29 N009 PP, 405::TO61U.S.S.R.) ABSTRACT: Starting from the absorption and fluorescebes spectra, the authors construct unidimensional potentials for complex molecules. It is assumed that electron trangitions do not violate the Franck-Condon principle. The transitions from various points of a potential curve are taken to be equally probable. The distribution of molecules in various vibration levels at a given temperature is taken to be the same for different molecules and for both the ground and excited states. The method of construction of these potentials is described and potential curves are shown for the ground and excited states of 4-amino-N-methylphthalimide solutions in methyl loohol and pyridine, and of 3,6-diseetylemino-N-methyl- CaM 1/2 phthalimide solutions in ethyl alcohol and benzene. When the absorption and fluorescence spectra are mirror-symmetrical the potentials for the ground and excited states are identical,  51-5-24/26 AUTHOR: Pikulik, L.G. .TITIE: On the Effect-6f a Solvent on the Luminescence Yield. (0 vilyanii rastvoritelya na vykhod fluorestsentsil) PERIODICAL: Optika I_Spektroskopiya, 1957, Vol.2, No. 5, pp. 676 678 (USSR) ABSTRACT: To study the effect of a solvent on the quantum yield of fluorescence, the yield of vapour and solution should be meas- ured at the same temperature. The author uses glycerin (which boils at 28dDC) as a solvent. The experiment shows that on variation of temperature of the solutions of phthalimideB in glycerin from 20 - 2700C, both a displacement of fluorescent spectrum and change in the quantum yield occur. For 3-amino- phthalimide (Fig.1), the displacement In the short-wavelength direction is 900 cm -4, for 3-monomethylaminophthalimide (Fig.2), the displacement is 800 cm-1. At the Me time, the band widens; n Fig.1 from'3600 to 4250 cm- , In Fig.2, from 4200 to 000 cm-1. The dependence of the yield on temperature Is shown in Fig. 3, where I refers to 3-aminophthalimide and II refers to 3-monomethylaminophthalimide. In both cases, a fall in the yield occurs on Increase of temperature from 60 to 2700C. At 2200C, the yield is 34% for I and 4.8% for II and at 1/2 the same temperature when vapours are excited at a purely  On the Effect of a Solvent on the Luminescence Yield. 51-5-24/26 electron frequency, tLe yield is 1.2% for I and 0',2% for.11.Th:u5, the yield of the solution of I is 28 times larger than ZLe yield of its vapour; for II thh 961utibn yield is 24 times larg8r than the vgpour yield. The results obtained both at 220 C and at 20 C show that the solvent increases the fluor- escence yield. This effect is due to displacement of the emi- ssion band by the solvent which materially affects quantum yield. [Refs. 8, 9 The author thanks 4.V.. Zelinskiy for suggesting the investi- gation and A.N. Sevchenko and B.I. Stepanov for advice. - ASSOCIATIOIN: Institute of Physics and Mat jtjtjVA%,9c. Belo- russian SSR. (Institut Fiziki- i Hatpia SIMIMITTED: January 15, 1957. AVAILABLE: Library of Congress. Gard ?/2  24 ff) SOV/4,! -22-1 1 -2t,,~5 AUTHORS: Piullk L. G., Solomakho, 11. A. TITLE: Temperature Dependences of the Electron Spectra in Some PhthfiliMidOD (Temperaturnyye z&viBimooti elektronnyki. spektrov u nekotorykh ftallmi(lov) PERIODI~'AL: Izvestiya Akademii nauk S33R. Seriya fizicheskaya, 1-,56, Vol 22", Mr 11, PP 1391-1394 OJSSR) ABSTRACT: Cans4Jerable displacements in the emicsion spectra of j~ithalimide solutions have been ~jbserved, if the tempera- ture of the medium was varied from +20 0 to +2500 (Refs -, ~?') and from +20 0 to-i~)60 (Ref 4). In order to Jetermine tne causes for such considerable iieplacementg the authors investigated tl~e absorption- and emisoion si,ectra of qome 1hthalimides in high-boil'nj solvents. The temperature -n- fluence of the medium upon the position of Vie band is Jep-ndent upon their initial iosition as determined by the respective solvent. If the te:.,i:)erature of the meiium is raised, the phthalimide spectra may suffer a consUerable displacement, if they were, with respect to their ;position Card 1/3 in the vapor, much disa-laced previous to heating. The ef-  SOV114f)-22-11-2i. 1133 Temperature Depeniences of' the Electron SI.ectra in Some F~thali~-,ides f e c t iv e ne a s o f t lie t em lie r a t u ro -1 v I ~o n d on t ~,a nd I!,,, I a c, u me n t is, for a certain substance, dependent upon the osition of tile band at room temperature . Thi s inf luence may ;~r imar i- ly be ascribed to modifications of t!,e influence of t'- ,e solvent upon the molecule. The rep-ularities in question apply to a certain limited temperature ranre. TI- 'e telipera- ture disPlacement of tt.e pht~ialimide s8ectra can he described qualitatively in the range of from +20 to -1~6 0 ~ny a orle- dimensional jotential curve r,.;olel. The spacing ',,)etween U~e minima of the potential curve determines the frequency of the electron transition. A reduction of the differences between the equilibrium radii of tile upper and tihe lower electron state corresponI to a mutual lisplacement of t',,e absorption- and emission lines, if the temperature of t";e medium is varied. The absorl,tion maximum evidently 21:ift3 towar(I lower und the luminescence iriaximum toward liij-,her frequencies. Accorling, to the scheme tile fre,:uency of' t.;e electron transition should remain iinchanced in sl)rh a cajo. in order to elucidate t~iis question further investigations are required, which i-houl,] cover the absorption spectra at Card 2/3 low temperatures an.-* in iifferent media. The authors expre~!s  SO V14A-22-11 -2(1, "A -'- Tem;erature Dependences of the Electron Spectra in Some Phthalimides their Cratitude to V. V. Zelinskiy, A. N. Sevcbenko and B. I. Stepanov for valuable sDggpestions. There are 5 fig,ures and 8 references, which are Soviet. ASSOCIATION: Institut fiziki i matematiki Akademii nauk :3SZR (Institute of Physics and Mathematics,AS BelorDssian SSE) Card 3/3  1. ..j a a !El 14; me; 0 51' oil I t . L AH L JAM 1. 11 Ij 'ii It .8 J I I 1 .1 4A A r. a I.; it 445-d-Ji .41014  PIKULIK, L.G. Iffert of the solvant on the electron mides. Trudy Inst.fiz.i nat.101 BSSR (Phthalimide--S,Doctra) 9T)actra of phthali- no.):161-175 1,59. OGRA 1-3:10 40 6 4%  3900 S-J,/00 AUTHORSs TITLE: PERIODICAL: S/17 60/003/008/006/014 B019%054 82322 Pikull Solomakha, M A Investigation of the Temperature lnfluenee on the Luminescence- and Absorption Spectra of Cnmplex Molecules in Solutions Inzhenerno-fiziohemkly zYurnal, 1960, Vol ~, No b, Tp 53-6C TEXTi To clarify the causes of the shift of solution spectra at low temperatures the authors Investigated the absorption- and emission spectra of pp~tha,.Iimidesland of some typical coloring materials at the temperature oF--Iiquid nitrogen. They studied liquid and solid solutions The experimental arrangement is briefly described. The absorption- and fluorescence spectra of some phthalimides as a function of temperature represented in Fig, 3 show that the maxima of the absorption- and fluorescence bands approach one another with decreasing temperature. Table I shows the positions of the maxima of the bands in dependence on temperature for various solutions Further experiments showed that not all Card 1/3  Investigation of the Temperature Influence on the S/170/60/003,/006/006/014 Luminescence- and Absorption Spectra of B019/BO54 82322 Complex Molecules in Solutions phthalimides have the same character of band shifting. In the solutions mentioned at first (Fig. 3, Table 1) the optical transparency is maintained at the change in state caused by the cooling whereas in the solutions with different character of shifting the strong fissuring exerts an influence on the change of state Further investigations have shown that the shift of the fluorescence- and absorption spectra occurs in the direction of the electron transition frequency. This effect may be observed both with solid solutions and with liquid ones which change their state with decreasing temperature. Theoretical investigations show that the spectral shift toward the electron transition frequency is due to the change in probability of vibrational transitions of electrons. This is explained in connection with the increasing effa,~t of the medium on the fluorescent molecule. B. 1. Stepanov (Ref. 1), L. P. Kazachenko (Ref. 7), and R V. Lellchuk are mentioned. The authors thank A. N. Sevchenko and B I Stepanov, Academiciane of the AS BSSR, for valuable advice, and V. V. Zelinskiy, Candidate of Chemical Sciencee, for the supply of the phthalimides. There are 4 figures, 1 table, and 15 Soviet references. Card 2/3 InVes t'gatiOn Of the Temperature Influence on the S "'i"scence- and Absorption Spectra of Complex Molecules in Solutions /170/60/003/008,'C)06/014 ASSoCIATIoNj B0197BO54 82322' Institut Fizikl Ali BSSB, If the AS BSSR 9 Minsk (Institute of P11 Minsk) y8, cs SUBMITTED, July 7, 1959 Card 313  FIKULIK, L.G._; SOLOMAKM. N.A. Effect of temperature on the luminescence and absorption spectra of complex molecules in solutions. Inzh.-fiz.zhur. no.8: 53-60 49 160. (KIRA 13.9) 1. Lustitut fiztki AN BSIiR, g. Minsk. (Luminescence) (Spectrum, Molecular)  69839 S/051/60/008/03/010/038 E201/E191 AUTHORS: Pikulik, L.G., and Solomakho, M.A. TITLE: --Vn__t_h_eEffect of Temperature on the-Electronic Spectra of Complex Molecules PERIODICAL: Optika_i spektroskopiya, 1960, Vol 8, Nr 3, PP 338 31+1 (USSR) ABSTRACT: The authors investigated the absorption and fluorescence spectra of a number of phthalimide;iand of the following dyes acridine yellow, suramine, chrysoidine, coryphosphine, fluorescein and aminochloromalelnimide, These substances were investigated both at 20 OC and at the liquid-nitrogen temperature. Ethyl, propyl and isobutyl alcohols were used as solvents, Solid solutions based on gelatine, sugar and starch, and films with polymethylmethacrylate and nitrocellulose bases were also studied. The fluorescence spectra were recorded witK a photoelectric spectrometer based on a glass monochromatoi Card UM-2; the absorption spectra were recorded with a 1/2 spectrometer SF-4. The absorption and fluorescence spectra of 3-monomethylaminophthalimide and 1+-aminophthalimide at 20 and -196 OC are shown IL  69839 6/051/60/008/03/010/038 E201/E191 On the Effect of Temperature an the Electronic Spectra of Gomplex Molecules Figs 2 and 3 respectively. It was found that in these two and in other compounds a lowering of temperature produced a displacement of the absorption and fluorescence maxima towards the frequency of a purely electronic transition. These displacements indicate a change in the probabilities of electron-vibrational transitions, This change is due to the solvent which, on lowering of 4-/ temperature, Interacts more strongly with the solute molecule. In absorption the relative number o1 transitftons to the lower vibrational levels of the upper ellectron-'c state increases on lowering of temperature, and thE absorption maximum is displaced towards lower frequenc:es; in luminescence the number of transitions to tfte lower vibrational levels of the ground electronic state increases with lowering of temperature and the fluorescence maxim-am is displaced towards higher frequencies (Fig 1)~ Card Acknowledgements are made to A,N. Sevcheako and t3 B.I. Stepano for their advice, and to V.V, Zelinskiy fcr 2/2 the supply of the phthalimides, There are 3 figures and 10 Soviet references. SUBMITTED: March 10, 1959 1~1.  S10481(,O '/0e_ 4/00(,'C) 10,'O'01f XX B01 3/BO67 AUTHORSs Pikulik L. G. and Sevchenko, A. N. TITLEt Temperature Dependences of the Fluorpecerce Q,in*um Y-,;:4, of Some Phthalimides in Various Solvents Izvestiya kkademii I SSSR. Seriya fiz_40,i-ixo,y~L. "-,~O, PERIODICAL: a Vol. 24, No. 6, pp. 729-733 TEXTx The authors studied the temperature dependences of the f1,.j2r"s_-erC= yields of some phthalimides in high-boiling solvents. The student, ko took part ir, the measurements. These solvents showed a c.-nsiderable shift of the spectral lines when temperature was increased. Thp -1iLdi96 were made on a photoelectric apparatus in which an YM-2 (UM-~_2AXO__ chromator was used. A spectrophotometer of the type (4~-4 SF-4, as u,3-d to study the absorptiveness of the solutions. Fig. 2 ohows luort-Rct-:nce spectra of 4-dimethylamino-N-methylphthalimide in various media at 14f- ferent temperatures. In benzyl alcohol and cyclohexano, nolutir~nR, thfa quantum yield is increased by an increase of temperaturs?, WhPTeh;1 ir, di- methylphthalate solutions it is reduced. Fig. 3a shows tho tpm~~er;itirr- Card 1/4  Temperature Dependences of the Fluorescence S/049/60/024/00b"0~0/0'3, XX Quantum Yield of Some Phthalimides in B013/B067 Various Solvents dependence of the quaritum yield of 4-amino-N-methyll)htlialim.1di. Jr. b,ri?j. alcohol, glycol, and cyclohexanol, the quantum jiuld is ircri-nsHd with rising temperature. In dimethyl phthalate, a thermal extinctlion or fluorescence takes place. This extinction of fluorisconc4i wat3 qunlitut.i~- ly observed in those solvents which have the peaks of their fluor~-9,-.,~ncp 1. A mr-dia, lines in the region of 20,200 .' 24,000 am- In the abovo-mentionL a similar change of the quantum yield was observed with 4--aminophthalimilp. The temperature-dependent changes of the quantum yield cbserved may h- fix- plained by the relation b ~ f(V fl . According to this relFiliont, quant max t'l high value of the yield must correspond to the high vitlun of ) In f?.o region of the ascending branch. A relationship between y1eld and sp.:'r"num was observed also in these cases where the spectrum was shifted not by the variable of the solvent but by the temperature change. With the maximum frequency of the fluorescence spectrum being shifted al. 20"C 1~ward higher frequencies, the yield is slightly increased. 3-amino-N-methy'A_ phthalimide and 4-amino-N-me thy lphthal imi do bnve Filmorit. tho i,iwf- Card 2/4  Temperature Dependences of the Fluorescence S1048160102410061'0201'0~0/XX Quantum Yield of Some Phthalimides in B013/BO67 Vai-ious Solvents B ' f(~) fl ) (Fig. 1). In the former, an Increase in the yield is quant max little probable. Fig. 3b shows the temperature depeiidenc, -f thi, yield of 3-aminophthalimide. In benzyl alcohol, glycol, arid cyclohextinol solutions, the peaks of the fluorescence spectrum are at 200C in tt~,c- ret,itin of 20,000-4- 20,400 cm- 1. The yield is relatively constant with risirig temperature. With 3-aminophthalimide solutions in dimethylphthaInte and pinene, the extinction of fluorescence at 9 fl . 21,100 cm- I arid fl -1 max Vmax 22,000 cm , respectively, is strongly marked. The dur,1 excited state was measured at room temperature and above. The results lirc' tabulated and compared with the quantum yield obtained under similfl:- ditions. It may be seen that the relative change In tbu, yiolkl uu'svs, ii corresponding change in the duration of the excited state. With iin accUTUCy up to the difference of the values B/B 0 and 1/c0 , the processes ~,f ex- tinction and excitation of flucrencence -,baerved are n( t dut- t(- ii 0:!itji!" of the inactive absorption. Thin again confirms the roliil~ i-r,liII4 t Card 3/4  Temperature Dependences of the Fluorescence S10481601024,100(/0?O10~01XX Quantum Yield of Some Phthalimides in B013/BO67 Various Solvents the yield and the spectrum of fluorescence. The authors thank V. V. Zelin-- skiv for valuable comments, and A, M. Bonch-Bruyevich anj G. A. Tishchenk~. for making the fluorometric measurements possible. The present paper was read at the Eighth Conference on Luminescence (Molecular Luminescence ;trid Luminescence Analysis) which took place in Minsk from October 19 to 24, 1959. There are 3 figures, 1 table, and 8 Soviet references. ASSOCIATIOBs Institut fiziki Akademii nauk BSSR (Institute cf Phy!3ics - of the Academy of Science-s BSSR) Card 4/4  L 9876-66' Ewr (I lAwr WA - ACC V Ar5O27349 SOURCE PD33 UA/0250M/009/010/0647/0650 AUTUCIta Midehanko, L. P.; loatko, M. Ya. rikullk, L. G. Sevcheako, A. V.. lei' IFAV XG: Institute of Physics M BSSRAInatttut flatki AN BSSR) 3 TITLEt Duration or $be excitei state of ultraviolet fluoregeence of aromatic acids ~.r 0i SOURCE: M BSSa. Uoklady, v. 9p T)oo 10t 1965P 640-650 iTorIc,TAGSz aromatizations, smino fluorescence IABSTPACT: Direct measurements of the t1uration of fluorescence of Indolep tr~rpto- pbanj, glycyltryptophan, tyrosinep ani TF-m-Mianine'vere carried out by using a y phase fluorimster of the Institute of Physics AN BSSR. The optical part of the apparatus was adapted for measurements of T In the ultraviolet ranja of the A spectrum, -Mouned B20 and higb purity UM mrs used as solvents. Known formulas in" used for calculation of the actual duration of fluorescence Cr eed.i 1/2  L gam-A-6 Acc NRs AP5027349 (ace VU-101 2/2 L 33592-66 EW'T(m)/EWP(j) Fw. ACC NR - AR6o16186 SOURCE CODE: UH/OD58/65/ODO/011/ D021/DO21 AU-iaoRs: Gladchenko, L. F.; Pikulik, L. G.; Belozarevich, N. L. TITLE*. Study of electron spectra of a series Of &rOmAtIC mlecules in solution Y, tro, ura0,,,,.,,.,. con I Measurements Of Previously.knowil were in W'seffie" 99 given in the UtAraturSe The optical characteristics a 10%) with the valu, aelteisted are given. crigart. has$ I table- teridned for the ~ wino aeide SUB CODE, 07/ SUM DATZI 2WARY651 NR REP sovs 002/ OTHEal 006 -90URCE: Ref. zh. Fizika, Abs. 11D151 REF SOURCE: Tr. Komis. po spektroskopii. AN SSSR t. 3, vyp. 1, 1964, 319-326 TOPIC TAM : electron spectrum, nonmeta.11ic organic derivative, absorption spectrum, Complex molerille ABSTFjXT: e authors investigated the electronic absorption and reflection Spectra Of a ild;l,er of very simple derivatives of benzene~and phthalimid~\in solutions Lower temperatures. The chra- at roW. L1,,! cter of the long-wave absoprtion of phtntiiimi j, if, analyzod on the basis of the change in the long-wave absorption uand in a numo , of' substaiices with different substitutent group3. The Stepanov uni versal relatiOLI is applied to Lne absorption and emission spectra of frozen solutions of complex molecules- Lrranslation of abstract] SUB CODE: 20 Card  GLADCHENKO, L.F.; KOSTKO, M.Ya.; PIKULIK, L.G.; SEVCHENKO, A.N. Duration of the excited state of ultraviolet fluoresce.. e of aromatic amino acids. DokI. AN BSSR 9 no.lOt64/-650 0 165. (MIRA 18:3,) 1. Institut fiziki AN BSSR. Submitted May 22, 1965.  EWT(3_)/&jT(m)/WP(j) In (c) RM ACCWSIOV Nkt, AP50131140 UR/0020/65/162/001/P057/0059 AUTHOR: Stvchanko, A, N, (Academician AN BSSR); Pikulik, L. G. Ko3tko M. Ya. TITLE: Duration of fluorescence in caplex molecules SOURCE: AN SSSR. Doklady, V. 161, no. 1, 1965, 57-59 TOPIC TAGS: fluorescence spectrum, luminescence, quantum yield ABSTRACT: The authors study the persistence of fluorescence in solutions as a sptc~!' tral function of the frequency .9f the activating light including the anti-Stokes i excitation. region. PhthalimWIderivatives and other organic compounds were used study specimens, water, alco),ois and dioxane were used as solvents. A fluoro- motor was used wit; a measurement.range of 2o10-1210-7 see. The other equipment and the methods used In the experiment am described briefly. Special precautions were taken to reduce stray light which might -fall onto the photosultiplier. The measurements were made at various concentrations depending on the Intensity of the illuminations Sim* concentration quenching of fluorescence does not take place in~ phthalluldes't a concentration elons-to saturation could be used wbore necessary. tcard. 1/2  "L 4198-66 IACCESSION NR: AP5013440 it is found that the duration of luminescence is constant throughout the entire %_]Stokox region of the excitation spectrum. Since the duration of the excited state is proportional to quantum yield for phthallaides and dyes under ordinary condi- tions, these data confirm Vavilov's law on a constant quantum yield in the Stokes e citation region. A constant fluorescence duration was also obserr- the anti- x Stokes excitation region which indicates that quantum yield is also cant in this region. A reduction in fluorescence duration was observed in the longer-wave anti- Stokes excitation region which should be studied further in view of the sharp re- duction in absorption in this region and the consequent attentuation of luminescence which affects the reliability of measurements. -In conclusion, the authors are deeply grateful.to V, 1, Shirokov or aking.the control measurements and for as- Distance in adjustfia- IF, and also to Vs V. Zelinek furnishing the phthialimidas. Orig. art. has: 2 figures, I table.  I'IKULI.~ L.S.- -.F. Determining L he cons Laj',ts or th-~ :~, r f . ~. ~ --~; -1.4~ fr'Im the temivrature sr.ift, of flu and -. *.' r, 2'. ~*--a. DokI. AN iZLR 8 no.10:641-644 0 Ib4. 18-3) 1. Irstitut fiziki AN BSSR.   KCHIN, M.M.; MASHENKOV, V.A.; PIKULIK, L.G. Ultraviolet absorption spectra of the cerebrospinal fluid in neurological patients. Dokl. AN BSSR 7 no.7:498-500 -Tl 163. (MIRA 16:10) 1. Belorusskiy nauchno-issledovatel'skiy institut nevrologii, neyrokhirurgii i fizioterapii i 1nstitut fiziki AN BSSR. Predstavleno akademikom AN BSSR D.A.Markovym. -4-  PIKULIK, L.6.; 6'lkDGH'ENW, L.F. Temperat,.re effect on uie luminescence r-.#' c~oznplex molecules in various media. Izv. AN SSSR. Ser. Ifiz. 27 no.t:15?7-762 is '63. (MIRA lb:7) 1. lnstl~~it flalki A24 HelorkisBkoj SSR. (Moleculla-r spectra)    4~it.:-,tlm, eis-. igA yieldmG. %)rjg,,:giit 3 f igums. 1, eqxiition Inititut fiIlkfAkademii nauk BM e of, (institu Academr of , J~3 jwcLo~,~-- CI)O on eml, PH CH, IqR IOW WV: 014 OTM: 001 Cord 3/3  GURINOVICH G. P.[Hurynovich, H. P.11 PIKULIX, L. G.Mkullk, L. R.11 p - SOIDVOYEVY X. c[salauicuo K. 9.1 Anton Nikifaravich Seuchanka; on hie 60th birthday'. Testai A* BSSR. Ser. fla.-tokh. nav. no.1:124-128 163. (MIRA 16s4) (Seuchanks, Anton Mikifaravich, 1903-)  GLMHENEO, L. F.[Hladchanka, L. F.); ?IKULIK, L. G.[Pikulik, L. H.] Study of the electron spectra of organic molecules in scattering media. Testsi AN BSSR. Ser. fiz.-tekh. nav. no.l: 52-58 '63. (MIRA 16:4) (molecular spectral (Organic compounds)  PIKULIK, L.G.; SNOPKO, V.N. Fluorescence polarization of complex "lecules. AJ- - no.3:155-158 Mr '62. 1-,:3, 1. Institut fiziki AN BSSR. Predstavleno akademikom AN BSSR A.N.Sevchenko. (Fluorescence) (Polarization (LiF~.O) (Molecular spectra)  S 250 Q 006 OOr4 W2 to ~4 AUTHORS- Dreytser. F F. and Pikulik, L G. 1046/1246 TITLE: Theoretical analyst., of the temperature shift of electron spectra of complex molecules in solutions PERIODICAL Akademiya nauk BSSR Dokiady, v b, no 9. 1962, 560-562 TEXT: McRae's theoretical conclusions concerning the cffect of solvents on the electron spectra ire com plittirtcrited with expiessions allowing for the interaction at various temperatures between the medium and a fluorescing molecule. Contrary te the theoretical results, the dependence - f ~ -1 - ) . V0-0 - VO-0 ~] + (0) where v1 __ the electron transition frequencies in absorption and emission spectra, respcctivel) r the 0-0 average life-time of an excited molecule, t, relaxation time of a polar molecule. is not linear in the general case, probably due to the failure to take the temperature dependence of c and n into account There is I figlITC ASSOCITION. Institut fiziki AN BSSR (institute of Physics. AS BSSR) PRESENTED: By B. 1. Stepanov, Academician, AS BSSR SUBMITTED February 17, 1962 Card 1/i  PIKULIK, L.G.; SOLOMAKHO, M.A. Effect of temperature on the electronic spectra of ccmplex molecules. Opt. i spektr."S no.3:338-341 Mr 160. (MIRA 14:5) (Spectrum, Molecular)  (oil   eZ rd'.,  APANASEVICH, P.A.; nG~ iSEV:C,~, 1".A. TLI.%*.; GLA~CIHEI.'KG, L.F.; G..I_w,KCVSKp" V.T.; G.F.; IVAT*OV, A.J' .; El'"' ~'E'! V.V.; L.3.; 11ILII~VIC-, . A.; H'-*-.O;CV) A.S. V.S.; SAESCIN', A.,','.; 5k-~Z*r!N3K,"Y, A.?,'.; U-',i,EYKO, D.S. ; K"AFALYUK, A.1 FI.A. I akarlem-~k, red. [Interaction betw,-i r.,,-)nequ-'..iuHu:-.. ra,.iat4or. ai.,. ii.atte-- Vzai;:.ode!.-tvie neravno-.(,sr. i7o i,,.11-chei.iiii s ve. X., -23 ; . P;r.sk, baul a i terki_ ika, (: i;, A 3) 1. Akade;.iya nauk SSS~. Inst,tut fiziki. -~kndezidyn nauk Belo- russkay :;S,~ (for Ye!'.,--shevic)~).  A, _,__~~MjUk R ole OLO f the teniperature distribution in the reactor VV-R_M e4surernent o .16 6 , -,-:n 1j, 1964 68,69 4 e zrrhal- to u e, ~.-T-OP101TAOS: -_:r6hdtdr, ifiieid, - temp'; kaiu, re distriWt onj:-Ab Imn graphit i- Aud oar power_z -X-:r6actor 7-7 77K sri I - structioi -the -heat shield and of the authors de c be: - he c:dn an ng r e thermo shldl ro the -VVR-M reactor d of the cool! ystem. 1h rature- ace -imthe shield in different t6lrxi -m-ea d 4FOUP*els,.~ OF Per --.Tfi'e_'-tern, raiure'd the gra ite of the e ph be rhlbLl -:661 V r- d-b" th rinbco'-ple-Ans e-tied-during the experiment. nnlwas~rneasure Y-a e u urV6 h : e a in md - rn at,the level of the axis of d t, 6 tu ra re~ str on c a av a mu ~--_On,`,thehorizontal axis the temperature t eonei -drops sharply at the e, reAC or, -sit :-iraii-to concrete. The hottest point of the -iron shield is 49C.    .- . -11 , .65:~,  L 26243-66 FWA(h)/EK(1) P ACC NRs AP6013503 SOURCE CODE: UR AUTHOR: Pikulik, V. G.; PikAUA.,-J. G. Z/ ORG.- Belorussian State Unly1reity. Mine (Delorusekly gosudarstvenW universitet) TITM: Transistorized generator of nanosecond pulses 21/1 SOURCE: Pribory i tekhnika. eksperiments., no. 2, 1966, 88-89 TOPIC TAGS: pulse generator, nanosecond pulse, pulse rate, HF transister ABSTRACT: The special feature of the described generator is that each transistor has its own dynamic bias and a common delay line. Sections of this line with the transis tore form a ring system which generates pulses with identical periods. A circuitof the four-stage ring generator is shown in Fig. 1. The circuit incorporates four P406 germanium trimsistore operating at avalanche condition and utilizes sections of the RKZ-400 cable (z = 400 ohms) as a delay line. The circuit generates pulses with an amplitude of 1.5 v, a duration of 3D nanosec, and a prf of 13.5 Mc. The pulse generator may be loaded by individual loads to.provide tim-space distribution of output pulses. It is stated In conclusion that owing to the lack of avelanebe COW  L 26243-66 ACC Nib AP6013503 WIN Fig. 1. Transis- torized generator A? lisp of nanose cond pulses transistors in-the USSRb HF.Lgermantuio'trouslators,..were used. Orig. art. haml 2 figures. IGSI suB oDDE: 09/ Sum DATz- 12xar65/ oRiG mF: 001/ OTH RIF- 002/ ATD PRESS:- Card 2/2  PIKULIN, S.A.; SHCHERBAKOV, V.A.; DONSKAYA, S.N., GCRLK.HDV, L.S. Y-ray dlffrnction study of the phase compooition of open. hvsirt~, slags during the smelting period. Zev. lab. K no,QIIlU - 11C5 164. 1?, .. 1. MoBkovskiy ins~11.ut stall 1, !3piavcv.  A.M.; 11111L.IN, ya Liu i.()ma A,., tom. s - a r. iing of oversize, po!;ring lacile-S. Ja #65. (M !.:!A 18: 3; "omm~ir.,,r.zUy mo tal lurgicheskiy zavod (for Shokht, ~-, Re. nit! t1 I i 11). - . 111:- 0 tut elektrosvurld im. YF,.D. Pa Lom Ali Ukr- It 1* r -nro).  U&9fffEngineering - Construction Methods MaY 52 "Vacuum Treatment of the Concrete Surfaces of an Overflov Weir During Construction of the Tsimlyan- skaya Hydroelectric Centerp" A. N. Ganzha, S. B. Pikulik, 3. G. Skvortsov, Engineers~ Stalin Prize Laurentes "Gidrotekh Stroit" No 5, pp, 4-6 Describes quipment and procedure used for vacuum- izing varlons portions of weir under construction. Portable vacuum shlilds w,,~re used for horizontal surface. Vacuum-ch.LE;bers were incorporated into concrete forms for vertical and inclined surfaces 230T10 more than 250. Vacuum treatment accelerated set- tinc, of -ancrete, inr--easing rate of construction vorks. Vacuum concrete had dense and smooth sur- face, and acquired better physicomech properties. 230T10  ?!Ku~lx .9 rW~'F ,e n hang 1,h  j.-. 36877. C monotsitarnoy reaktsil u bol'tLykh gipertc-nicheskoy L)Clezn' ., I;. Lechennykh fizl4cheskimi metodami. Trudy Uzb,,,k. gos. Xauch.-Isslea. in-ta kurortoloii i fizictt-rijii im. "e-oshilo, sb.11, 1949, C. SO: Letopis' Lhurna Sykil ~tqte.v, Vc'. 5n, -Io3kwi, 19411  AUTHORS: Starobinets, G. L., Pikulik,-5--k. 76-32-4-3/43 TITLE: The Structure of the Adsorption Layer at the Interface Between Air and Concentrated Solution. II. (Stroyeniye adsorbtsionnogo sloya na granites kontsentrirovannyy nevodnyy rastvor - vozdukh. 11.) PERIODICAL: Zhurnal Fizicheskoy Khimil, 1958, Vol. 32, Nr 4, pp. 756-759 (USSR) ABSTRACT: In a previous paper it was shown that the possibility of the formation of a polymolecular adsorption layer in greatest in two cases: When the energy of the intermolecular interactions 1-2 is relatively small compared to those between 1-1 or 2-2. When the molecules of the active surface component form groups with parallel oriented dipoles. In order to investigate the first case the authors investigated in this paper the system benzene-polar derivatives of benzene (benzyl alcohol phenol, nitrobenzene and chlorobenzene) with the active benzene acting as surface component. The thermodynamic benzene activity as well as the dielectric permeability and density (at 700C) were determined for this system by Martin (ref. 2). Card 1/3 A table of the additional measurements of the surface tensions  The Structure of the Adsorption Layer at the Interface 76-32-4-3/43 Between Air and Concentrated Solution. II. at 700C as well as of the calculated adoorption in the air- -solution interface, and of the dielectric polarization according to Dnaager-Kirkwood and of the correlation para- meter of the polar component according to Kirkwood is given. From the graphically giver, results it can be seen that the maximum adsorption of benzene in benzyl-alcohol is abnormally great and decreases according to the series of solvents phenol-nitrobenzene-chlorobenzene. The diagrams of the thermo dynamic benzene activity co-position show that the deviation from the ideal case as well as the maximum quantity of benzene adsorption take place sympathetically. The abnormally great benzene adsorption is explained by the group formation of molecules of the surface-inactive components, Investigations of the correlation parameter of the polar components showed that the concentration of dimers in the system benzylalcohol- -benzene is greater than in phenol-benzene, in the former the depth of the zone of negative adsorption of the polar components being greater. The distribution coefficients of benzene between the surface and the center of the solvent were calculated according to the theory by A. A. Zhukovitakiy, Card 2/3 and were represented graphically. It is shown that the  Tho Structure of the Adsorption Layer at the Interface 76-32-4-3/43 Between Air and Concentrated Solution. II. adsorption layer of benzene in nitrobenzene and chloro- benzene is monomolecular, and in phenol and benzylalcohol polymolecular. Finally the authors state that the abnormal properties of the adsorption layers found are to be traced back to a polymolecular character as well as a conditioned adsorption depth which is determined by the mean length of the molecular groups. There are 4 figures, 2 tables, and 5 references, 3 of which are Soviet. ASSOCIATION: Belorusskiy gosudarstvennyy universitet im. V. 1. Lenina Minsk (Minek,Belorussian State University imeni V. I. Lenin) SUBMITTED: May 21, 1956 AVAILABLE: Library of Congress 1 Adsorption-Theory 2 Benzene derivatives--Adsorptive Card 3/3 properties 3 Benzene--Adsorptive properties  C L :-c C I nc res,..* W, V. 3 ~l e~-rths 1. a G f 11 e 1-. . '7'. C, as Lnes~, :-e I -,,ere fo-,~nd the iapa*~:.,c-Z -n i..7 phospl.ori--es coy.:,c aralysis. a!- t.,,v o*~cc,,,;. Card ii/ 3   ~Elff I., _C(k)-2/SWG(M)A/9EC(b)-2/tM(h) Pri-4#2'_ 6#eb UP W 84 S/0108/6'51W/00 AP 50059 V0052/6056 (A- U-- ----- rnb r) V, THOSt." z"Pilidik' hats, -Ya'- c ve,-me e C a p- TITLE.*~ A an- h 'ro artieW of industrial alloy-junction low-power transistori p ~~"_SOUACE: ftdiotekhni" - v'', 20 n '..2,4965# 52-56,- 0 Aunc. ow Iovv coo Ahs ri alloi ti, tr&nsiqtori dw6r transist 4rans stor- aii ilit;~Iil_ as-ZI-as or~: ial ir"Sis rs1at_Ugh_coIIector-_~ oy The -breakdown volta a and some other characteristics of PI 3-Pl6i'-_VZ5i~P26-t' ~Pl '.PZ ransistors are tabulated.:- R-f types ~Pl _and P407 are reco-xnmended as most suitable for operating under ja: ch6'conditions. Tiansistors with a collector -junction breakdown voltage to-thwiestimated average breakdown voltage'U* should be used for avalanche -Those transistors have pronounced avalanche characteristics whose Card_. .4" A -A Y  -; .7bA-- -.1 ih iAibit an- irIiterliWdimt6f jun tions; Ahis trouble was also detected ',n en-,, ey C "WT-TMIG -.GOD~I  &_jjj4,;,-L6 EW-A(h)/EWT(1 ACC Nks SOURCE CODE: AUTHOR: Pikulik,_ V. G Pikulik, R. 4;; ORG: BeloruBsian State University, King (Belorusskiy goBudarstvennyy universitet) I TITLE: Tramistorized generator of nanosecond pulses 24/1 .SOURCE: Pribory I tekhnika ekBperimenta, no. 2, 1966, 88-89 TOPIC TAGS* pulse generator, nanosecond pulse, pulse rate, HF transistor ABSTRACT: The special feature of the described generator is that each transistor has its own dynamic bias and a camon delay line. Sections of this line with the tranBig. tors form a ring system which generates pulses with Identical periods. A circuitof the four-stage ring generator is shown In Fig. 1. The circuit Incorporates four germanium trimsistore operating at avalanche condition and utili;-ea sections of the Bxz-4oo cable (z - Wo ohms) as a delay line. The circuit generates pulses with an anplitude of 1.5 v, a duration of 3D nanosec, and a prf of 13.5 Me. The pulse generator noW be loaded by Individual loads to.provide time-space distribution of output pulses. It is stated In conclusion that owing ~o the lack of avalkiche  L 26243 ACC Nib 40 Fig. 1. Transis torized generator of nanosecond pulses transistors in the USSR~ HFigermanium transistoretwere used. Orig. art. has% 2 figures. [GS) SUB CODE: 09/ SUBM DATE: la4ar65/ om REF-- DOI/ OTH REF: 002/ ATD PRESS: yvf3  PIKT,,IK, V.G.; SHATS, S.Ya. Avalanche cf lndist-ia, t,, 7 trans"stors. Fad ' rteKr,.r.. ki. no, 2. -Deystv!tel Iryye - h 11 e ny Ns to k i .7- n q radlotokhrik! ! Imen' ~--J7  ACCESSION NR: AP4037399 S/0106/64/000/005/0046/0052 AUTHOR: Pikulik. V. G.; Shats, S. Ya. TITLE: Using the avalanche characteristics of junction transistors in pulsed devices SOURCE: Elektrosvyaz1' no. 5, 1964, 46-5Z TOPIC TAGS: transistor, avalanche transistor, P406 transistor, P4r'7 transistor, avalanche transistor pulse generator ABSTRACT: A review of practical circuits operating with avalanche transistor& (Soviet types P406 and P407) is presented. Capacitor-type 1-mc and 5-mc relaxation oscillators with pulse -repetition frequency stabilized by delay lines were tested, as well as a 3-mc slave multivibrator and a 10-microsec pulse- packet generator with a fill frequency uf 1. 25 mc. A number of Soviet-make transistors were tested for 5,000 hro in a simple avalanche -relaxation -oz cillato r Car'd I /Z  ACCESSION NR: AP4037399 circuit; no appreciable change in parameters wai detected. The avalanche- transistor circuits were taken from American sources (W. Shockley, et al. , Proc. IRE. 1959. v. 47, no. 6, and elsewhere). Orig. art. has: 8 figures and 8 formulas. ASSOCIATION: none SUBMITTED: 18Jul63 DATE ACQ: 09Jun64 ENCL: 00 SUB CODE: f. C NO REF SOV: 00 1 OTHER: 003 Card 212  PIKULIK,, V.G.; SHATS, S.Ya. Relaxation oscillator on an avalanche transistor with grounded emitter and base. Radiotekhnika 18 no.11:57-61 N 163. (VLIIRA 16:12) 1. Daystvitellnyye chleny Nauchno-tekhnicheskogo obahchestva radiotekhniki i elektroavyazi imeni Popov&.  S'/I 9X61/0 00/010/0 3,4/08-- 914060 D256 301 .UT i iOR Piikutik, V.G. Traiisist ori z(,(! t:ml t i - 1)(),,; 1 1 i oii mul i jI , ow Less commutator tor id 11( frequencies PEI' IOD IC, LL: R-2ferativnyy zhurnal. Avtomatika i radioclektronika, no. 10, 1961, 4, abstract 10 V34 (Nauclino-tc](hn inform. byul. Leningr. politelchn. in-t. 19(~O, rio. 9 45-52) TEXT . The problems are considered of coiistructin~:, a cycli( contactless commutator (CC) for switching spectra of acoustic fre- quencies used in pulse communicotio-a systems and computer techniques. CC consists of a set of key elements liTikr(.' to the central cwitrol un't throur h i the key elemei ts. Wi t ndividual (-ontrol units of -1 11 1 lie kov j,'roups ope ratinj-. in se(juence cacti CC outpilt 'S slicces!Jvely con- nectef! to all the inptjt~; of t-he CC. The :)a.,;ic re(Iiiirrm(nit: set iipo;l Card 1/2  Transistorized multi-position_ DS/2'1596YD(3)OL/1000 '010/~O :4/" the CG i ,; t he -orrespondence of the. e1 . characterist ic o.' t 'I, i e L; C (cross, linear and nonlinear iistortions) to the characteristics of mechanical commutators , The sources of possible f1i ,;I ort ions arr considered and principle diaj-,rams of separate clenents arr f'ji " ve 11 together with circLdt diagrams of the control pulsc _~eneiator and the control unit ~,nith one key element - design of operating a volt- age of 3 V amplitude, the time r~f the full cycle lbeing 0.5 se,~- Ther( are no cross-di'stortions TransisLors of the n-n (P-)1) and -~ - 1!4 ~ P - 14 ) - t ype and ;~-2 (D-2)-type diodes are emplove(!. Tlhie variations o~- the GG output levels durin!~ operati-on de not exceed 10-50 mV The working, temp. rangrs from -40 to V`C 11 F i gurc s3 reFerenceS. /_Ai)stracter'.,; note: Complete lran!~Iatioi, Card 2/2  I-PLMIN, A.P.. dotsent Preliminary estimate of position errors for distant points of an underground theodolite traverse. Izv. vys. ucheb. sav.;gor. zhur. no. 11:111-116 060. (MMA 13:12) 1. Kharikowskly gornyy institut, Rekozendovans, kafedroy sarksheyderskogo dels, Kharlkovskogo gornogo Institute. (Mine surveying)  PIKULIN, A. P. RTZHOV, Petr Alektandrovicb, prof.. doktor tekbn.nauk-. BUKRINSKIY. Viktor Aleksar.4rovich, dotnent. kand.tekhn.nauk; MMKOV. Valentin Rikheylovich, kand.tekbn.nauk; KWTOT, Gavrill Alekseyevicb. dottent. kand.tekhn.nauk-, LYUBMAN, Irrall' Boriaovlch. wist5tent; RUDAKOV. Mikhall Lazarevich. prof., doktor: rUULINA P,. kand. tekhn.nauk. retmen2ent; BUTKRVICH, T.Y.. red.; PARTSEVSKIT. V.N., redAzd-va: BIKKER, O.G., tekhn.red. rMine surveyinGj Markshoiderskoe delo. Pod rmucbnoi red. P.A. L Tlyzhova. Momkva. Goa. nauchno-tekhn.tad-vo lit-ry po chornol i tavatnni matallurgii, 1958. 463 p. (MIRA 12:1) (mine surveying)  IOOVINMO. N.V., dcktor geolgo-mineralogichoskikh amuk; PMLIW A.F., - ;;P otvetstvennyy redaktor; UBROMKIY, M.A., tokbatchoo r W [Lithology and paloogeography of the productive layer of the Donets Basin Carboniferous) Litologila i paloogeograftla produk- tivnot tolabebt donetakogo karboma. Mw Ikov, Isd-vo KharIkovskogo goo. univ. im. A.K.Gorlkogo, 1953. 434 p. (Kiorofils) (KIBA 8:2) (Donets Basin--Geology, Stratigraphic) (Donets basin-- Phloogeography)  PIKULIN, A.P., kandidat tokhnichoskikh nauk. Rigid P01.790nal adjustment b7 graphic methods. Trud7 VNIM1 no.29: 107-115 154. WaA 8:3) (Triangulation)  ZIKULIJ!, h.~ DMNRLUH. V.S.. redaktor; IANOVSKATA. M.S.. _ P.Yetkf- redaktor ridatelletva; XVUSIV, A.L. tekhnicheskiy redaktor [Nov method of laying foundations for turbine installations] Novyi matod ustanovki no fundaments turboagregatov. Moskva. Goa. asuchno- takhn. izd-vo lit-ry po chernoi i tevetnoi metallurgii. 1956. 39 P. (Turbines) (Foundations) (MLRA 9:12)  GURINOVICH, G.P.; PIKULIK, L.G.; SOLOVITEV. L.N. Sixth conference on luminiscence. Inzh.-fiz. zhur. no. 6:115-117 J9 058. CMIRA 17 :7) (Lumintseence)  CZWHDSIAMAKIA SPRINDFAy V- p PnMLZMA, Z, Dapartimmat of Analytical Chadstry, Faculty or nmm&ey, Commjug UAdv*mdtY (Ut*dm NMIY%ICMJ Chmie PM=wmtickoj faI.Ity UAIV*Mdty Komsmdwho), Bratislava By"IsIms, F&MwmticbW ObBOW. NO W, October 1965, pp 418-M *M&tW of Incineration of organic substances in a flwk mw its WO is PbLZOMOSSUmd eastral. P&A 4a Datondnatiom of chlort9t- racyclise ambd chlormphanicol.0  RUTKOVSKIY, F., pensioner; KURNOSOV, M.; DFDZDC)V. V.,' PIKULIN. ?.(Gorlkly); We offer the following solution. Sov.profoolusy 7 no-23: 37 D 159. (KIRK 12:12) 1. Tekhnicheskiy inspektor NDsoblprofsavota (for Kurnosov). ?. Instruktor Belorueskogo reepublikanokogo so-eta profBayuzov (for Drosdav). (Labor laws and legislation)  PIKULIN. F. Leaders in communist competition. Hashinostroitell no.4: 40-41 Ap -60. (MIRA 13:6) 1. Predsedatell profkoma kuzovnogo korpusa Gorikovskogo avtozavoda. (Gorkiy--Automobile Industry-Technological innovations) (Socialist competition)