SCIENTIFIC ABSTRACT KORNIYENKO, I.A. - KORNIYENKO, P.P.

ACC&SSION HR: AP4038936 the 2 Deuterium solutions* D20 decreased rather than increaaed stainabilityl i.e. increased the stability of the intracellular structurd. This was also reflected in theimal resistance of the contractive muscle structures. At a 1-3 C increase/ min. thermal contractability in the 95% D2 containing Ringer solution,, while ensentially of the came nature) appeared at an average 5.6 C higher temperature. Tents at a constant temperature of 33 C which lica between that of muscle contrac- tion in light (35 0 and heavy water (4.t) showed that exchange of the initial liGht by heavy water led to interruption of the initial contraction after about 60 sec. upon re-,TrainG this teat, the D2 effect disappeared after about 90 sec. This increased theras.1 stability is apparently caused by the weakening of all hydrogen bonda except those of the water molecule, i.e. dependa'upon the different nature oC the solvent. Decreased sorption mV be explained by the decrease of the number of fi-ce charges at the protoplasmic colloids capable of binding the dye, loss of contractability by hyperstabilization of-the actomyosin complex (increase of hydrophobic interaction) and injury to the cell wall lipids. Orig. art. has: 2 figiares and 4 tables. ASSOCLITION: Fizicheakiy fakulltet MMI'(Physics Department MU); Institut Card 2/3  0. ACCESSIO'N UR: APh038936 ibiologicheakoy fiziki AN SSSR, mosco-d (Institute of Biophysics, AN SSSR) smawm 22Feb63 DATE AM 09Jun.64 ENCL- 00 ;3UB CODE: lz Card i 3/3 NO IMF SOV, 003 OMR, 013  M.N.; KORNIYENKO, I.A. Rhythmic form of the moscle activity in response to the constant electric impulsation. Biofizika 10 no.1:56-63 165. (MIRA 18:5) 1. Institut normallnoy i patologicheskoy fiziologii AMN SSSR, Moskva, fizicheskiy fakulltet Moskovskogo gosudarstvennogo uni- versitets. imeni Lomonosova i Institut biologicheskoy fiziki AN SSSR, Moskva.  "on""Xulf'o, 1. ),1. A IlInfluence of the Background of the 3ucllpar Beet MoLher Plant on the 3ecd Productivity of the Transplanted Plant and or Later Generations *,-Ihich aro Proceosed Industrial]-y.11 Cand Agr Sal., Belot3erkov Experimental Selection Station, Belaya Tserkov', 1953. (RZhlliol, No 1, SeD 54) SO: Sum 4.32, Z9 ~-hr 55  JKOEN iT]-,'N KO , 1. M. ; LA*,vPC)V , A. P. Results of the study of' the regime of undovgr-nxnd wateni in the Polasyo Lowland (191,7-1.95?). Trudy VIS)EGINGEO no.10:-,-:,F-167 16/4.. (MIRA 2700) 1. Delorusskaya g1drogdologichaslaya ntantsiya,  KOPU'IAIP70, 1. N. , Chief . Yet, Grai'v`o'ronsk Pajon Dent. of Apri.c., Kursk oblast. "DeheImintbi za t ion with the extrart from male, fern in h:ammolepiasis of reese.11 SO: Vet. 2")(8), 1949, p 33 0 0 0 0  KoRxryENKo1F-.i.P,[Korn,iienkot Ia.] Proposals of efficieney promoters of the Gorodok Canned Milk Plant, Kbar. Prom. no-1150-52 Ja-Mr 163. .(KIRA 16:4) (Gorodok(lawneta Podolski Province) -Canning Industry-Squipment and supplies) I f,  Following the call of the time. Sov. profsoiusy 18 no.5t )0-31 Mr 162, (MRA 15:3) 1. Predesdatell kulltkondanii savodskogo komiteta andostroitellnogo savoda imeni Nosenko, g. Nikolayev. (Nikolayev-Shipbuilding workers)  ERICIWSKIY, R.M-; KORNMVKO. R.I. Wathod of developing mining sections which precludes the formation at sudden outbursts. Vap. bezop. v ugall. shakhe 13:85-3-09 162, . r (mA 16:5) (coal -1 a and mining) (mine gases)  KORITIMM, K.L., felldBher Spray cart. Gig. I san. .24 no.5:59-60 YT 159. (JURA 12:7) 1. 12 otdelo nrofilaktichesbD7 dozinfektaii g. 3olltay Moldavskoy SSR. (INSICTICIME, spray cart (Ras)) (ANTISMIS AND ASVSIS, same)  ACCESSION NR: AP4009135 S/0056/63/045/006/2068/2069 AUTHOR: ~azarev Bw G41; Khor,4 iko V. K.; XQrnlyanko Krivko, A. I.; Mateakova, Ao A.1 0vohArenk&,"'*_0"* N# TITLE: oa the - I ayered and f ilsimentlike structure of the supercon- ducting alloys Nb-zr and Nb-fti .SOURCE: Zhurnal eksper. i teoxet.,.fiziki-J, v. 45, no. 6, 1963s 2068-. 2069 TOPIC TAGS: superconducting alloy" niobium zirconiumlalloy,, niobium titanium ailoy., layered structure', filament structurep,electron mi-. croscopic Investigation, plastic deformation, critical magnetic field, solid solution, saturated solid sol,#ionj critical current density ABSTRACT: Data are presented an elettron-microseopic observations of thin films and filamentary*systems of tracks in alloys of Nb with 25 at. % Zr and of Nb with 66* at. % Ti. Samples of VA~ original alloy were compared with samples reduced in thickness,by rolling from 2-5 mm to 0.05-0.5 mm at room temperature. Wben.'observed by 1/2 C.,d SUB CODE: C,,d 2/2 PH,, MA NO REF SOV: OOT OTHER: 003  -H~ 56-3-44/59 AUTHORSt Korniyenko, L.S., Prokhorov, A.M. TITLE: The Fine Structure of the Spectrum of the Paramagnetic Elec- tron Resonance of the Fe3+ Ions in the Lattice of Al 20 (Ton'kaya struktura spektra elektronnogo paramagnitnogg re- zonansa ionov Fe3+ v r eshetke Al2 03) (Letter to th6 Editor) PERIODICAL: Zhurnal Eksperim. i Teoret. Fiziki, 1957, Vol. 33, Nr 30), PP. 805 - 807 (USSR) ABSTRACT: The Fe 3+ ions were introduced isomorphically into the Al 0 - lattice. The spectrum mentioned in the title was inve 6ig2aLd ? at room tomperature# at 3 frequencies of 2,5 10 - 4-10 at field strengths of up to 16.200 Orated. The following results were obtained3 The Fe3+ ions form 2 systems of not equivalent ions and each-of these systems furnishes a spectrum consist- ing of 5 resonance lines. If the outer magnetic field is applied parallel or vertical to the scis of the crystal, both spectra blend. This tends to confirm the existence of a simi- lar direction of the axial crystal fieldfbr both ion systems. If the direction of the outer magnetic field deviates strong- Card 1/2 ly from the parallel or vertical direction, the lines of both Card 2/2   - - T7, --- - I I f~~ T~  SOV/56-34-6-50/51 AUTHORS: Zverev, G. M., Xorniyenko, L. S., Manenkov,.h. A., A ProkhoroN, TITLE: A Paramagnetic Atiplifier and Generator on the Basis of Chromi c Corundum (Paramagnitnyy usilitell i generator na khromovom korunde) PERIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, 1958, Vol- 34, TTr 6v pp. 166o-1661 (USSR) ABSTRACT: The spectrum of Cr34 in corun um was investigated in previous papers (Refs 6-9). The ion Cr5+ within the corundum is placed in an axial electromagnetic field whinh splits up the spin quadruplet of the lower singlet orbital level into 2 dublets with the distance 2D n - 0,3824 cm-1 between them. For the construction of the paramagnetic amplifier the authors use the levels which (in the case that the crystal axis is orient- ~ted parallelLy to the external constant parama etic field) are characterized by the quantum numbers M, - 3F2, � 1/2. If the crystal axis is turned the states are intermixed and the Card 1/2 transitions betweian all 3 levels are allowed. The levels  SOV/56-34-6-50/51 A Paramagnetic Amplifier and Generator on the Bads of Chromic Corundum ASSOCIATION: SUBMITTED: It = - 1/2, 1/2 are used for the amplification andthe auxil- iary radiations excitate the transitions between the levels 11 - 1/29 -3/2. The frequency at which the amplification (or*the generation) is carried out is equal to -3000 mega- cycles and the frequency of the 8uxiliary radiation was equal to - 15000 megacycles. At T - 2 X the system was excitated, by itself and changed over to the function of a generator. The exact data concerning this amplifier will be published later. The autho::,s thank A. I. Shallnikov for his help in carrying out the experiments at low temperatures. There are. I figure and 10 I-eferences, 6 of which are Soviet. Fizicheskiy institut im. P.N. Lebedeva Akademii nauk SSSR (Physice Institute imeni P.N. Lebedev)AS USSR) April 1, 1958 Card 2/2  ~1(iy BOV/56-36-3-41/71 AVTHORS: Korniyenko.-Le S..) Prokhorov, A. M. TITLE: A Paramagnetic Amplifier and Generatord& Pe3+-Ions in Corundum (Paramagnitnyy usilitell i generator na ionakh Fe 3+ v korunde) ALLA, PERIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, 1959, Vol 36, Nr 3,. Pp ',)19-920 (USSR) i ABSTRACT: In this "Letter to the Editor" the authors publish the results obtained by their investigations of the possibility of pro- ducing a Fe3+-ion amplifier and -gen Ierator. The electron spectrum of the paramagnetic resonance of these ions in the Al203-lattice has already been investigated in a previous paper (Ref 9). The Fe 3+-ion is in the a-state and has the electron spin S - 5/2; in corundum it forms two noneqivalent systems. For the.case of the presence and absence of the external magnetic field details of the energy- and spin levels of these systems a*7e discussed. For the distance of the 3 doublets of the 6 spin levels of the individual systems in Card 1/2 the absence of th*iexternal magnetic field the values 3+_Ions SOV/56-36-3-41/71 A Paramagnetic Amplifier and Generator idth Fe in Corundum 0.39 and 0.62 om'.1 are given. From the intensity ratio of spectral lines at 290 and 4.20K it is concluded that the lowest spin dotblet in strong magnetic fields splits up to levels to which. the magnetic quantum numbers M - +1/2 cor- respond, i. a. the sign of the constants of the spin Hamiltonian D is positive* For the paramagnetic amplifier such levels were used as were characterized by the quaatum numbers M - -5/2 , -3/2, and -1/2. For amplification the levels with M - -3/2, -112 and the transitions induced by auxiliary radiation between the levels with M = -5/2, -1/2 were used. Amplification and production were observed at 1.80K ori the 3.2 cm wave (auxiliary radiation -1.2 cm). The constant magnetic field had an intensity of -1200 oersted. There are 9 references, 2 of which are Soviet. ASSOCIATION: Moskovskiy gosudarstvennyy universitet (Moscow State Univer'Bity) SUBMITTED: November 27, 1958 Card 2/2  31757 S/058/61/000/011/010/025 Do A058/A101 AUTHORS: Zverev, G.M.,.Korniyenko, L.S., Prokhorov, A.M. TTTLEz Investigation of electron paramagnetic resonance of iron-group ions in corundum PERIODICAL: Referativnyy zhurnal.,Pizika, no. 11, 1961, 130, abstract 11V267 (V sb. "Paramagnitn. rezonans!'. Kazan', Kazansk. un-t, 1960, 7) TEXT: The electron paramagnetic resonance of Fe,_Co, V, Cr and Cu ions in the corundum lattice was experimentally investigated In a wide frequency (40,000- 10,000 Me-Ps) -and temperature (2900-1.'JOK) range. 'The observed spectra were given a pertinent theoretical Interpretation, and the-values of the spin Hamiltonian constants were determined. Electron paramagnetic resonance of Cu ions in corundum was not detected. The valence states of ions in corundum were determined. and relaxation times at liquid He temperature were evaluated. nle feasibility of using Cr and Fe ions in corundum to design paramagnetic amplifiers was experimen.- tally demonstrated. [Abstracter's notet Complete translation] Card l/ P  83615 S/05 60/038/005/04e/050 3006YB063 ORSt Korniyenkoj L. 8*2 Prokhoroy, A. 1. TITLE: Zlectron Paramagnetic Resonancelof the T13+ Ion in Corundum PERIODICALt Zhurnal.eksperimentallnoy i tooreticheakoy fiziki, 196oi. Vol. 38, No. 5, PP. 1651 - 1652 TEXTs Electron paramagnetic rosomance of Ti3+ ions has hitherto been observed only in iron-titanium allia. The ait ,hors stressed the diffi- culties of interpreting the results obtained.-In the present work, the authors have,found e.p.r. in Ti3+ ions at the temperature of liquid helium. These ions were isomorphously introduced into Al 0- . Three 2 3 samples having a mean titanium concentration of,:some hundredths at% were examined at a wavelength of ^-3 cut. One slightly.-~asyanetric e.p~r. line (cf.. photograph) was found. The bt,havior of this line with a change of -the angle 0 between the direction of the constant H-field and the trigonal axis of. the-electric field of the crystal in theoretically studied with the spin Hamiltonian, and the g-factors are calculated and estimated to Card 1/2  25 8h N56/61/040/006/005/031 B102/B214 AUTHORS-.* Korniyenko, L. S.t Prokhorov, A. M. 3+ TITLEs Electron paramagnetic resonance of the Pe ion-in oorun- dum. PERIODICAL: Zhurnal eksperimentallnoy i tooreticheskoy fiziki, V. 40s. no. 6, 1961, 1594 - 1601 TEXT:- The authors' of this paperdibcovered the paramagnetic resonance spectru'm. of the Fe3+ ions in corundum in 1957 (ZhETP, 31, 805, 1957), and later showed that this makes corundum a suitable material for thd manufacture of paramagnetic amplifiers (ZhETF, L6, 919, 1959). In this connection, more accurate studies Df the electron paramagnetic resonance (e.p,,=.)ot ir6n'.ions in corundum hava now be6n -.canied out. e.p.r. spectra are very precisely measured for the cases of.'normal and parallel orien-1 tation.of the trigonal axis of the crystal with respect to the extern'al at frequencies of 10).109 magnetic field cps, and'temperatures of 290, 77, 4.2, and 20K. The values of the constants of the spin-Hamillr 177 Card 1/8 ,  251 84 5/056/61/040/006/005/031 Electron paramagnetic resonance ... B102/B214 tonian at various temperatures could be determined from these measure- mepts. Direct measurements of the initial energy-splittings of the ~ Ii4Y ground-state levels(for zero magnetic field) were also made at 290,and 4.20K, and the spin-lattice relaxation time T, at'4.20K was determined. The concentrations of the paramagnetic ionq in the samples.studied a-, A I "..' -, mounted to 0.02 and 0.002~6. As was shown in a previous paper, the e.' P'.. he spin-Hami 7- r. spectrum of the Pe3+ions can be explained'by means of t tonian A 1~2 gOIH9 + D I I (S + 014- 3a (9't + LS'(S 1) (3S' + - is 5 +3S-1)1+-LF[35~'-30S(14~1+1)9+259'-.6s(s+l)+ 180 + 3S, + (g is the-spectroscopic splitting factor yhen the splitting is assumed to be isotropic, is the Bohr ma3n.eton,.Tis,the electron spin operator$, Card 2/8  S/056/61/04o/oo6/oo5/031 Electron paramagnetic resonan,ce B102/B214 31 are the operators of the projections to the corresponding axes with the eigenvalue S t- 51/2, a is the cubic crystal field constant, and D and P are the trigonal crystal field constant). The coordinates corre- spond to the cubic axes, and z-corresponds to the. trigonal onje (~,hich coincides with the i1111 direction In the system; The Euler angles for the trans-iti6n from one system of coordinates to the other are determined, dimensionless coefficients are introduced, and the diagonal matrix for the operator Sz of the system of ions,F'e3~ and A13+ is given. The cases of parallel and perpead-icular orientation of H are separately discussed. Table I. gi.ve% the experimental results for parallel orienta- tion and Fell --oncentration of 0.02,~. For thla concentraticn, the half widths of the isli 4th, and '5th lines were equal to 10+2 oe and were dependent on the temperature; for the 2nd and 3rd they-were strongly frequen~~:y dependent and lay betveer, 20 and 30 oe. A comparison of the measurements at 2 and 4.20K showed no difference in the values of the constants of the spin-liamiltonian. Measurements of the e.p~r. spectrum were also made ror paralLel orientation at 20,OoK and a Paramagnetic ion concentration of 0.002%,. It was found from theae menourements that the Citrd 5/8  251% 9/056/61/040/000'/005/031, Electron paramagnetic resonance ... B102/YJ214 possible divergences of the spin-flamiltonian constants from the values given in Table 2 lie within the experimental error, It is seen that the constants D, a-,P. and la! Increase At the same rate with decreasing temperature,. while g remains practicaliy constant, The results are in good agreement with those of BogtQ and Simmons except for la,'~ Table 2 Constants Values of -the constantsof the spin-Hamiltonian for- the Fe3+ ion in corundum 770K 4- 9 M03040.0006 M032+0.0007 2-,0029�0.0007 D. oe +1796.4�0.L. +1836.2+0.6 +1836.5+0.6 a - F, oe + 353.2+0-4 +362.6 4 .7�0.5 �0.5 362 a , ce 248-7�1X 254~1+1.3 253.5�1.3 Card 4/6  115184 V056/61/040/006/005/031 Electrqn paramagnetic resonance B102/11214 The experimentally observed speoirum for perpendicular orientatioil can. also be described by the Hamiltonian (I)-and the constants from'Table 2 (for parallel orientationt). Tho energy level,difference corresponding. to the resonance transitions can be calculated from t6t experimental value of the resonance field. A comparison of bxperimental-and theoreti- cal results is made in Table 3. Direct measurements of the primary splittings (ground state( 6 S) spirt doublej at 290 and 4.20K gave' the following values: T-2W K T-4,rK A,. "evi: 1170:t:4 (11759�6) 12046�13 (12044�6) A2, mezy: 18873�11 (18866�6) i9298� 3 (1929i�O), d is the energy difference between the middle and the lower doublet, an that between the upper and the middle doublet (in Mc/sec). Thevadues 2 in parentheses have been calculated with the help of the constants of the Card 5/8 -MY -  2518ii S/056/61/040/006/005/031 Electron paramagnetic resonance B102/B214 spin-Hamiltonian at h-O according to the equation 2 20 2 D - 3-(a ~3D + (a - F + - a ~ ' 2,1 2 9 measurement gave-~or a Fe3+ ooncentratioh of', 0.002~ the value of (12+1).10-3 sec, and for a Fe 3+ concentration of 0.02% the value of (8+1)-10-3 see. The authors thank R, P. Bashuk'j, and A. S. Bebchuk for supplying the samples; 0. A. Feshchenko (deceased) for discussions; and V. A. Kozlov, and X. G. Slovetskays, for help in measurements. V. M. Vinokurov, 141. M. Zaripov, and ~. R. Yafa~~v are meniioned. There are 50 3 figures, 23 tables, and 10 referencest' 3 Soviet-bloc and 7 non-Soviset- bloc. The most important references to English-language publications read as follows: M. H. L. Pryce. Phys. Rev. 6 0, 1107, 1950; M. J. D. - Powell et al. Phys. Rev. Lett., 145, 1960; G.-S. Bogle, H. P. Simmons. w~ Proc. Phys. Soc. U, 50, 1959. ASSOCIATION: Institut yadernoy fi:,,iki Moskovskogo gosudarstvennogo uni- Card 6/8  S/056/61/04o/oo6/o0/031 Electron paramagnetic'resonance B102/B214 versiteta (Institute of Nuclear Physics of Moscow State University) SUB14ITTEDS JanuarY 4, 1961 Legend to Table 1: 1) temperature, 2) fr6quency in Mc/sec, 3) resonance values of the magnetic field (in oe) correspon'ding,to the given tran. sitions. Pesattakeve wmeicRR martitmoro naitst (0a), cooneTmyo- Temnepa- 4acTors, UtHO P43AII411UM nePeXOA3" Typa, .11jul I 1-3--722.4 1 2-4 1 2 - 3 1-.1 290 9641,7 752,5 3489,3 3595,6 7624,8 10147,2 (752,5)0 13490,5) (3595,3) (7624,0) (10146,8) 77 9838,4 778,8 3589,3 3058.5 7789,9 10303,1 (778,7). (3587,7) (3B.57,0) (7789,7) (10363,0) 4,2 9846,B 779.4 3592,8 3663,0 7798,0 10375,5 (779,S) (3502,5) (3662,5) (7798,01 (10375,7) Card 7/8  SHAVLOV A.(Schawlow,A.1; FOGEL", S. Fogel,S. ; DALBERDa-K-1, L. . nTIN T.-.q,r+.rqn- G.F. (Dulberger, L.1; KW -- latorl; ZVWXV, [translator]; OV$ V.11jiransl ;torl; SIIIAONOV, T.A., red.; POPOV, R.Yu., red.; IOVLEVA, N.A., telchn. red. (Optical masers (lasers)(3ptiebaskie kvantovye generatory (lazery). Moskva# Izd-vo inostr. lit-ry 1962. 114 p. Translated from the English. (MIRA 15:11) (14asers)  _::, KORNIYWO v L. S. ; -PROTHOROV, A. M. . ------I I 113 1 "E6R&nd Spin Lattice Relaxation of T13-Lo In Al 03 * Report presented at the First Intgrnatlonal G&Rference on Paramgnetle Resonance,, Jerusalem,, lerae1j, 16-20 July 1962  34231 S/l8lj62/004/002/014/051 B102/BI38 AUTHORSs Zverev, G. Prokhorov, A. M., and Smirnov, A. 1. TITLEt Electron paramagnetic resonance and spin-lattice relaxation of the Rr3+ ion in a CdF single crystal 2 PERIODICALs Fizika tverdogo tela, v- 4, no. 2, 1962, 392-395 3+ TXXTs Er was introduced as an isomorphic impurity into CdF 2' in which the fluor ions form a cubic lattice, the Cd ions being in the centers of cubes formed by the anions. The Rr3+ ions replace Cd ions. The e. pe ro measurements were made at 4-20K, with several different frequencies'and for an Er 3+ concentration of 0.1%. The following spectrum parameters. were determined: Card  34231 8/181/62/004/002/014/051 Electron paramagnetic resonance w2d ... B102/BI38 L), Mc/sec 9 A, oe 9500 6-758+0.010 73-0+1-0 25800 6.745;0-()05 72000 6-735+0-005 73-9+1-0 The frequency dependence of the g-factor is due to the contributions of the wave functions of the excited states. The field-induced change of the g-factor can be determined by using perturbation theoryt _6!Lj 2 2] 9 a go [ J2, I< I I ^Z1 2)1 90 is the g-factor at H.o,A- Land6 factor, is the mean distance to the nearest upper level of the state group (2)s ilf +.~ 1 11 t 2 -2' ; 2' +_ -2 Card 2/1'  34231 S/181/62/004/002/014/051 Electron paramagnetic resonance and ... B102/"L,,, denote the ground a-..id excited states. A - (2.,31+0.03)- 10-2cm-1. Spin-lattice relaxation was studied by the continuous saturation method and by the pulse method with 3.2 cm wavea. The temperature dependence of relaxation time -was determined by sevpral methods, e. g. between 16 and 180K from epr line broadening. Though S. A. AlItshuler has developed a theory of spin-lattice relaxation of rare-earth ions, (ZhETF, 21, 69-, 1953), the experimental results for EJ~ ions in a cubic lattice can only be explained qualitatively. At T~4.2'K. '~,T_i , at higher temperatures the course of V (T) cannot be 1 1. described by an exponential law of the ~_T-n type. Thig is due to anomalies caused by other bi- and trivalent ions. L. IM. Belyayev. Kh. S. Bagdasarov and V. Ya. Khaimov-,'ulallkov and P. P. Pashinin are thanked for help, There are 1 figure, 1 table, and 13 references; 5 Soviel.- and 8 non-Soviet, The four most recent references to English-lan~,,Iage publications read as follows: M. Dvir, W. Low. Proc. Fhys. Soc., 75. 13b, 1960; W. Low. Paramagnetic Resonance in Solids. p. 130, New York - Londrn, Ca',7d 3/0 (  31231 Electron unxamugne tic resonance arid ... B1 02/B1 38 1960; C~ B, P. Finn et al. Proo, Phys, Soc., B77, 261, -1,)61. j. IIA. '-'akt~-V et al, Proc. Phys. Soo. B75, 942, 1959. ASSOCIAIZION.- Moskovskiy gosudarstvennyy universitet im. 2, V, Lomonasova (14oscow State University i,,neni L V, Lomoncsov) SUBMITTFn- August 14, 1961 Fig. Time dependence of T for Er 3+ 1 Card 4/0  KORNIYENKO L.S SHCHENKO, GI.A. [deceased] j FF Calculation of the matrix elements of the transitions between Fe3+ ion levels in corundum for an important practical case, Radiotekh. i elektron 7 no.7:1241-1243 162. (MRA 1516) (Paramagnetic resonance and relaxation) (Ferrates) (Corundum)  33995 S/056/62/042/001/009/048 IN, ?Joe (/0 S- 4 B125/BIO8 AUTHORS: Korniyenko, L. S., Pashinin, P. P., Prokhorov, A. M. 3+ TITLE: The spin-lattice relaxation time of the Ti ion in corundum PERIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, v. 42, no. 1, 1962, 65 - 66, TEXT: The time of spin-latt Iice relaxation of the Ti 3+ ion in corundum was measured with the method of pulsed saturation at liquid helium temperatures by means of an apparatus described by P. P. Pashinin and A. M. Prokhorov (ZhETF, _Q, 49, 1961). FArlier estimates by L. S. Korniyenko, A. M. Prokhorov (ZhETF, 28, 1651, 1960) have yielded a general form of the temperature dependence of -ri. A saturating pulse of 10 - 20 microseconds with a peak power of I watt produced at 2 0K a sharp sag in the epr line. The external magnetic field was parallel to the LX trigonal axis of the crystal. By applying the saturating pulses every four modulation (50 cps periods of the magnetic field it was possible to observe the behavior of the sag in the line between two successive pulses. The first epr line corresponds to the application of thE saturating pulse. Card (D  33995 S/056/62/042/001/009/048 The suin-lattice relaxation... B125/B108 The sag of the paramagnetic line observed at the subsequent passages of the magnetic field through resonance is less than 5 oersteds wide. Its depth decreases with the characteristic time T = (5 � 1)- 10-2 sec. If the width of the sag remains constant during observation, T is simply the time T1 of spin-lattice relaxation. T1> T in the case that the sag width L4 decreases (not observed in the present experiments) owing to cross 0 relaxation within the line. No sag in the line was observed at 4.2 K since the saturation power was too low.. The appearance of a sag in the epr line at 20K under the action of a brief saturating pulse may be explained as follows: If the Ti 3+ ion arrives exactly at the place of the Al 3+ ion in the lattice, g.L and the intensity of epr lines become zero when the external magnetic field is parallel to the trigonal axis of the crystal. With randomly distributed Ti5+ ions, the values of g.L for the individual ions are different from zero, and the resulting non-zero contribution to the epr line is the greater the more the position of the Ti 3+ ion departs from the corresponding zero value of g.L. Because of the random distribution of the ions in the crystal, ions with similar Card 2/3  33995 5/056/62/042/001/009/048 The apin-lattice relaxation ... B125/B108 g-factors may be far from one-another, which renders their cross!- relaxation interaction difficult. On the other hand, this interaction is very weak within the line owing to the small value of g.. R. P. Bashuk and A. S. Bebehuk are thanked for having prepared the samples, and G. 1.1. Zverev for discussions. There are I figure and 2 Soviet referen.;'js, ASSOCIATION; Institut yadernoy fiziki Mookovskogo gosudarstvennogo universiteta (Institute of Nuclear Physics of Mloscow State University) SUBYITTED: July 26, 1961 Lly Card 3/3  SAW62/077/001/001/003 B117/B112 AUTHORS: Zverev, G. M., Karlov, N. V., Korniyenko, Manenkov, A. A., Prokhorov, 1, Me TITLE: Application of paramagnetic crystals in quantum electronics PERIODICAL: Uspekhi fizicheskikh nauk, v.'77, no. 1, 1962, 61 - i0a T~;V; Vl'estorn and Soviet studies during the period 1932 - 1962 concerning the progress in th~e' application of paramagnetic crystals for building quantum devices are reviewed. In 1;~ese devices, which are used in the fields of radio and optics, negative temperatures are produced by auxiliary radiation. -The followin4~ problems are discussed: energy levels of parainagnutic ions in crystals, relaxation phenomena in paramagnetic crystals; (paramagnetic) quantum amplifiers of the radio range (para- magnetic resonance amplifier ?5\J (M), paramagnetic progressive waVO amplifier 9VEb (PUBV))j quantum gonorators and amplifiers of the optical range (optical quantwa generators with ruby and fluorite, quantum ampli- fiers, q"-ntum counters), Finally, the great progress achieved in quantum: electronics during the short tim.e.of its existence is pointed outt Card 1/2  'Application of paramagnetic ... S/053/62/077/001/001/003 B117/B112 establishment of highly accurate frequency standards for various purposea, develoDment of low-noise paramagnetic amplifiers of the radio range and'of optical generators having a high degree of coherence and high spectral radiation density. The quick progress of quantum electronics and its pro- mising pro3pects,are the consequence of its development on the basis of already existing technology. ProE:ress was first achieved-in the radio range, and later in the optical range. At present work is in progress in developing the entire range, including the submillimeter- and aistant infrared range. There are.27 figi:tres and 134 references: 45 Soviet-bloc and 09 non-Soviet-bloc. The four most important English-language refer- ences are: J. R. Singer and S. Wang, Second International Conference on Quantum Electronics, Berkeley, 1961; W. G. Wagner and G. Birnbaum, Second International Conference on Quantum Electronics, Berkeley, 1961i i.'N. Hellwarth, Phys. Rev. LFtt., v. 6,19 (1961); A. L. Schawlow, G. E-.-Devlin, Phys. Rev. Lett., V. 6, 96 (1961). Card 2/2  j t 10019-43 EW1 3W2, EG _Q / '. ICWSS-101-1 NR: AP30019818 sjol8l/63/o6.5/oo6/i66.8/i672 A*:I& AUMOR, Xask, Ni.Ye*4 K- 6. -Li So;-Smirnov, TITLE: Tsrarggnetic-relaxitioa~:of Fe:sup 3+-.ions in comndL:m/-5'7 SOURCE:--Fi nierd 6,--1963, 1668-1672 ziks, t ogo~ tela, V~ . S., no* Topic Was: paramagnetic ielsxa:~ion - Fe: sup 3+,, corundim ABSMACT.r SP attice ie1axmtioZ1 2ewmeaaurtments~bave been carried out in Fe- mm- 3-~ Ions in corundxm--by,th4u. method of pulse satuxation and in acme -volved transiticns between: cases by.transverse saturation,: .,,The stuly in different. spin levels,. zs.vell as.-pamllel and -perpendicular orientations of se-41es of various ion-dc&entrationw The temperature dependence, of relamtion times wa. found to strikingly. less marked vithin the range of 5 to 1.%-'than:at higlier readings 1up to &K)., The increase of pare-magaetic. ion concentration'from OsO2 to 0:0-%, brought'about a~ reduction of rel=t on time from-10 to 1,5:mseco- -Relaxation, times vere canputed for ve-rious lines at frequencies at vhich cm .as-relamtion vould be absent; with parallel orientation they amounted to 13 to 14 msee for all five transitions, and with Card 1/2       AMENITSKIN, N.A., KORNPIERO, L~S.; SM-9111OV, A.11. Spectroscope for Btudying, the speeLmir., and 5pin-lattice relaxation of parsumpetic substancen at a wavelength of 8 mm. Prib. i tekh. eksp. 8 no.6:1-19-121 11-D 163. (MIRA 17.6) 1. Nauchno.-Iseledovatel'slAy in5litut ywcwrnoy fl-,iki Moskovskogo gosularstvennogo universiteta.  ACCi~~ICN NR: AP4013521 S/0lS1/64/(WjW/O-U9/053 .&UIi.LiOi?S-. Kasks i,. Ye.1 Korniyenko, L., S.; Faidr, U. TIM;: Electron paramagnetic resomAnce and spin lattice relaxation of the Nd3l' ion in single crystals of Cal'2 SO,-R(;Ei Mika tvordogo tols, 'if 69 no 2 01964 t 549-55 3 10FIC IAGS: alectron paramagnetic rasonance, spin lattice relaxation, NOV. ion, CaF2, single crystal, fluorite, tatragonal spectrum,, tatraeonal symetryp ,orthorhombic Lpectrum, orthorhombio symmetry., absorption line,, factor, para- niagnetic ion ABSiRACTs The authora studied the speol,ra of ions in c!-ystalline fields of tatragonal and orthohombic oymetry at. a frequency of 9500 moracycles. All crystals investigated showed ilentical spectra corresponding to the tetragonal and orthorh,;~io symuetry in the viciaLty of the paramagnetic ion. With incrIMS in the concent-ration of Nd iow from 0*3 to 1% 4he orthorhczbic spectrum grow in intensity rolatiiq to Uie intersity of tho tatragonal spectrum at i rate approx- j ~matoly proportional to the squarm.of the concentration. 'The orthorhomble spectruA Card  -ACGMION NRt AM013521 Ckly ronsemantly be clue to the replac4nent of t4wee Ca2* ions by two paramagnetic trivalent atomse Keasurem;nts of the principal values of the g factors gave 9 - 4ohlO + 0*010 and g - 1 300 + 0-003. The width of the absorption line at hUlf intens-ity and when fie ;;Iern2L magnetic field was parallel to the tetrag- onal axis of the crystalline field wits found to be 10 oersteds. -The dependence of the spin-lattice relaxation time tin temperature is ahmn in Fig* 1 of the Enclosure, "The authors.express thedr thanks to Professor A* H. Prokhorov for his useful discussions of the resultv of this work." Orig. art. hass 1 figure and 4 formase. AS=IATION i NAuchn6As"o,4t*I.1 My institut-yadernoy'fialki-Mgg'(Scientific Research Institute of Nudoer. Phpicr HOU) SUBMIIUD s 13ft63 WarWI~ ML: - 0.1 _PA~'& AGQ t SUB -CODEs PH 'MD'AEF SM '001 Ormi,~ 004 Card 2/11,  ACCESSION MRs AP4012567 W0056/64/0"/601/0386/0389 -Korniyanka, L 801'Makarenkol L. V.j: 4 AUTHORSs Kaminskiy, A A'. j, Prokhorov# A* M.1 Furnikov, M W.- '7TITLE:- Investi gati6n of stimul ated emission of Kd- 3+ in calcium f luorits at room terqserature* SOURCE:' Zhurnal eksper..i teor'st. fizoo v. 46,.no. 1, 1964, 386---'-: 389 TOPIC TAGS: stimulated emission, molecular-generator, maser,. cal- cium fluorite, neodymium impurity. neodymium doping, emission wave- length, emission time dependenco, radiation structure, fine struc- ture component. 3+ ABSTRACT: The ex only fluorite doped with Nd previously found to hibit stimulated emission at roam temperature was SrF (L. F. John- 2 son, J. Appl. Phys.,v.. 34,. 897, 1963). The authors report tests r1% Card 1/3  ACCESSION NRt AP4012567 crystals grown from the malt in a fluoriding atmosphere by lowering the crucible. Emission was cbsorved in crystals with neodymium oxide concentrations 0.3 and 1.!;%p the approximate wavelength being 2_1 1.047 micron. The system was excited by absorption of light from a flash system at 14,000 cm~_l above ground level. Emission correspond- 4 4 ed to the F 3/2 -* 111/2 transition. The illuminating system con- sisted of an elliptical system with the crystal in one focus and the ,flash lamp (80-mm glow column) in the othek. The time dependence of the radiation was determined with a photomultiplier and oscillo- scope. The structure of the radiation was determined with a spec- trograph having a 600 line/mm grating. Por the crystal with 0.3% neo(]ymium oxide the emission lirke width was,approximately 3A (4 fine structure components)..increataing to 5 A (12 components) for the 1.6% crystal,, "The authors are grateful to V. V. Osiko and YU. K. Voroz&o for supplying the fluorite crystals and for fruitful dis- cussions." Orig. art. has* 2 figures. Card 2/3  -ACCESSION NR: AP4012S67 ASSOCIATION: Institut. yadernoy fiziki Hookovskogo, gosudaretvennogo universiteta (Nuclear Physics Xnsl:itute# Moscow State University) SUBMITTED: 28Oct63 DATE ACQ: 26Feb64 ZWLt 00 SUB CODE: NO REP 80V& 001 '071MRs 001 ~r 7 Card 3/3 7, ti 4 1-16 ii 10,100Q 41., ApP- INO t.flGRAVI! !.f.):-aRAT10?1, QUVIA I.ND   584 1 5: ACCESSION HR -AP % 77=~7 ?3 , -at mp, vez --us .e or, pur pin taser. enom Y - n . of the,excit act ion reatilt-ed, fr6n'the 4FV2--t,~ -I t- itidn'-,-, The -lifetime ed 4F 4- stett- a OOK: wu; measured- (br me-am, of - a taum-3ter -develdped. for- this. '141 -0--11 IA0 r, t P-t al. 16wir'; freqU4~n At 300K,-th6 ty, er,fopera es- ~p Cy. than 6nY omer own IL ttibl:e_ atd 3- T i es -iki--",Mqq.ko so In&-ti-ti.-it --yaderna 0 versi e tv Z&_~i dak f i ~ - _~~Vte of Nuelear Tizicheskiy v -it ii nauk SSSR. FFICf~ii_sf_nstitute, AeFulevW of. Sdiences BSSR) Ak adem z -EHbL:- 'I ~~OJ 0" 1 SM 4ITTLED, WFeb6zz Zo SuB BODE. . , ' T dv:~ 009 o: 40.1'5 it 0 -08. An PRESS 4   F - ACCT-SSION NR.,- :,AP5007550_~--~_. Y . correlat ed-v6ll-vith~ the:'increase i~ductfon d- - - r - - - - - - - - - - - - -t--tiveziess: of e:~Lrtrlectox d~_ _,~_Origr art--. I table aadi, 2, A qSOC,- _ - 0 9 IrEF Sov D02 PRESS _H:- :7 1 7- 3 I MAN L IV. M -MM" -a tzi LE ffm a _5 MINE N. E 0', 9 W  z..~ I.-I 6-) .-1--.-.''- b:--,~':Ijp 6 . 6~4-/p ! - : _._' ,_' _' .. _ I _: ~_; Z--- ' ' , 2 : . ~ : --; -~ : - : '7:1 .,;-" :,.. ,-  AP 0100 4 2,-: h 66" rid of ro2dm,at, ~e ng app e, a:  I  KAMINSKIY, A.A.; )~~NIYENKO L.St; AATVAK, D.M. j~ ' Excitability of a contipuouti laser, Zhur. prikl. spekt, 3 no, 2:114-M Ag 165, (MIRA 18:12) 1. Submitted June 99 1964. mw= 1   t -344ol 6~- --~`AP90053U AM  65 91 - -ACCESSION CODE - -AM-PIM 32    7~ AMMSION NR---'~ 056053917,- SuBtif 0 WQ6 4 OTHM REIi tiG -ATD , I MR      I I qrd-.21-k- I -- - --- --- - S -I I :- - i.,~*-:~-~- -- ~77--'-- - ~ ~-,. ~: ~ , - .. z -~ - ~7  'ACCESS RR: AP. -5 IM maec tper_t -N -t;et a . r gou tr a 4~'g J-1 :ENCLOSURE 0 Cie . Fi et 9 -J. --lif i;i6._ excited'-73 st ate ~gf-. ioa-ia ChF2- A a. f Ime. 0q of.: iao ce~itratlon-o t con nuous-14ne, corresi3onds -to-, 0 TT w-d- tet a b a function f_~ 7n j 1 Nd3l      gF --:~   L 27642-66 EEC(k)-2/EWA(h)/F-'gP(k)/F-VIT(I)/F-WT(M)/r-BD/T Wp(o WgMG ACC NRAP60'18495 SOURCE GODEt UR/0363[K AUTHORr' Ka hdnaklys A* A,j Kukot .. ~L.2.1 Litvaki D. Ile, ORGt none, TITIEt Possibility of exciting a.continuDus-action 'Optical laser SOU RCE tZlmrnal prikladnoy spektroskopiij ve 39 no 2* 1965, 114-M TOPIC TAGSt lasers mercury lamp' ruby la;serp Light excitationj, xenar. lamp Wtion picture projoctor. A]3STRACT r. The orbobt-6,01boti6h or' saufte's of light exclta~ion Is Impqrtafit in the devAopment 'of oontinuouS-action optical lasers. In this connection the authors prevent formulas.sultable for-eval- uatIng the excitation thresholds and give data on the spectral emission of Soviet-produeed lasers, Further, experimentally ob- tained absolute figures on the power that can be obtained over dif-. ferent speotral Intervals with the aid of the 0KL_3a*motion-p1c- pture projector ate given. This projector Is used sinoe at presentt Ahere are no selective emitters with sufficient power to excite A se f -_ 'lasers, and, hence, sources emitting over a broad spectral rang I have to be used. A comparison of the theoretical eraluations~ . and ~experimental findings on measurements of the spectral distribution of emission shows that a meroury lamp..mAy be recommended for Card 535-69   -AA F L__,97447 4P(A)'aNT_(M).&fikW&qP(h) TIP(C) Tif M ATC_RW,77AP5027399 soum: cmg-' uR/6l8f/65/Q6T/6ll/3234/32k ~1~rbaltov O.'r T AUTHOR: Kask, I. _Ye.; Korniyeako, L. S. , skiy. A 2 1- ORG: Moscow State Uni' im. M. V. Lomonosoe(Mbskovskiy gosudarstvennyy univer- sitet) TITLE: Rhombic LTR spectra of triply ionized ~ME~p ~siug and neodymium ions in fluorite 151tf- 86URCE: Fizika tverdogo tela, v. T, no..1i, 1965, 3234-324o TOPIC TAGS: EPH, fluorite, crystal EPK We_41W&%- .11, &Ft04LA-- 0 9 4j'-W.:-_s0AJL ISTRACT: The EPR s13 2 A ectr of Dy3* and Nd ions in CaF 3+ crystals grown in the pres- ence of oxygen were investigated. Rhombic spectra wiih one of the magnetic axes along the direction [110] and the other two in the plane (110) and displaced by different angles from the directions (0011 and [liOj were observed for both ions. The exposure to gamma iiiiuUation resulted in the appearance of a trigonal spectrum of Dy3*1 a Spectrum of DyZt with initial splitting a - 0.26 * 0.03 ed-1, and a new rhombic spec- trum of Nd3+. Investigations were also made of the temterature dependence of the re- 3 laxation time of one of the rhombic spectra of the NO ion and or the Dy3+ ion. The experimental data obtained were used in an analysis of the possible crystal structure. of the matrix near the paramagnetic ions in fluorite. Orig. art. has: 3 formulas, 3 figures, and 2 tables. Card   KOIRIN "'AMASOTO L,N., prof,, oty,red.; BAZILTANSKATA, f.L., r;d.; CEMYSMUO. TA.T., takhn.red. I [manual of practioal ezercises in general chemistry) Rmko- vodstvo k prakticheekip saniatlia* po obshchei khtaii, Marskov, Isd-vo Varlk6vskogo ugiv., 1958.. 329 p. (NIU 12:g) (Chemi0try-LeVoratory manuals)  EWr (d)/EEC(k)-2 SOME Colot UR/O AR5027561 WOOS/Ad 8 A028 274765Tooo 27 SOURCISt Ref. zh. Radiotekbi~ i elektrOsWazi Abe W07 AUTHORt Rr nk-en.k _A&L ova H. A, TITLE., Correlation characteristics of the'angle diversity in long distance- tropospheric ubf--propagatign % CITED SOURCE% Tr.,Sibirsk. fiz.4ekhn. in-tapri Tomskon un-te, vYP. 45, 1964v 211-214 q11 TOPIC TAGS: decimeter wave# tropospheric propagation, diversity reception, TWSLATION: The variation of the crossaorrelation coefficient of angle-divdrsity received signals (R), for directional patterns which exceed the angle dimensions of the scattering volume, is considered; the effect of receiving-antenna directional- pattern width and the antenna angle-of-arrival diversity on the cross-,, correlation factor is considered. It isproven that the quantity R depends on the angle of intersection of reediving--antemia directional patterns. Results of an experimental stuV of the above rolatiolul obtained on a 250-km route, in the decimeter bandp with the receiving-antema directional-pattern diversity in a horizontal plane are reported. Curves' of'R vs. c4 and are presented which show that, in the angle-diversity reception# the direationil-pattern divprsity should be equal to oe and that 4 should be 4 2.1% -card 1/1 ~~7 SUB colts UDCt 621.396*2"*2 '0 Ell AID P 711 Subject =R/ElectricitY Card 1/1 Pub. 29 - 4/26 Authors : Dzalayevs M. I-, Ung. and Korniyenko, ,..,Mechanic Title : Reconstruction of coal oonveyor units Periodical : Energetik, 9, 9-11, S 1954 Abstract : The author describes details of reconstruction of scraper conveyors at an electX~ic power station which was expanded. 4 diagrams. Institution : None Submitted : No date  KORNITIRIKO, N.A.; MUKHADOT. G.M. Combatti~g the tick Walomm with hexwhloran dust. Izv.AN Tt=k.SU no.2: 63-68 15t. (MLRA 6:8) 1. ll~vkmanskiy sellskokhosyaystyanW Inatitut In. M.I.Kalinina. (Walomma) (Benzene hexachlorine)  1. vl%ORNIYENK09 N. I. 2. USSR (600) 4. Chemistry - Study and Teaching 7. lAborstory control vork as a method of ascertaining the knowledge and practices in chemistry, XhIm. v shkolep No. 6. 1952. 9. Monthly List of Russian Accessions, Library of Congress, - February .1953. Unclassified.  "ORNIMKO. N. I., InIhener. Coutrallized electric block system, 60-65 0 155. thelodoretranap. 37 (Railroads Owu -319naling-Block system) no.10: 9:1)  j N. I. KORNMNKO, N. 1. -"Block Structures and the Standardization of Equipment for Electrical Contralizaticn." Min Railways USSR. Moscow,, 1956. (Dissertation for the Degree of Candidate in Tecbnical Sciences.) So.: Knizhnaya Litopis'. No. 7,9 1956.  BORISOV, D.Po, doktor takhn.natdc, prof .;.-,jmRK1YrjW. IFJ*;, K=ISYSKIT, N.D.: red. BOBROVA, U.N., PUSMURW, B.N.; CUMMXV. Ir.m. nzh. tekhn.red. [Blectric block centralization] Blochnaia elektrichaskaia teentrallsatsila. Xoakv,&. Go*. transp, thel-dor. isd-vo, 1957. 108 p. (Moscow. Vessoiusnyi nauchno-iseledovatellskil institut zholesnodoroshnoge transports. Trudy, no.145). (MIPA '11:4) (Railroads--Signaling--Block e7stem)  - KORNIYMO, M*,, kwA*tekhzou&v1c Unit-type eXectrlo Interlocking equipped with small relays, Zbel.dor trais~~ 46 no.il:51-54 N 058. (JaU 11112) ii6fir,badn--Sltiiating-Interlockiizg system) - (Ble6tric relars)  --------- BORISOV. D.Pe, doktor tekhn.nauk; IMMITIM. U.I., kand.tokhn.nauk Uoe of programmed control for automatic traffic regulation. Vast. TSNII MPS 19 no.3:56-57 160. (XIU 13:10) (Railroads-Autonatic train control)  ZVERV, G.M.; KORNIUNKO L.S.- FROKHCROV, A.M.; AMIRNOvs A.I. Electronic paramagnetic resonance and spin-lattice relaxation of an Er-1t ion in a- GdF2 aingle crystal. Fiz.tver.tela 4 no,2:392-395 F 162, (MIRA 15:2) 1. Moskovskiy gosudarstveimn universitet, imeni Lomonosova. (Cadmiiun fluoride crystals) (Paramagnetic resonance and relaxation) (Erbium)  ZVEREV, G.M.; KARIDV, N.V.; KDIUIIYEIIKO, L.S,; IONEIKOV., A.A.; PROKHOROV, AA - Use of paramagnetic crystals in quan'tim electronics* Usp fiz. nauk 77 no,l.&61-108 My 162,, iMIRA 15:6) (Magnetic materials) (Quantvn electronics)  KO'NIY'NxO,P--R9N,-#-Jnzhs; MIROSHNICHENNo , YU.M.,, inzh. Automation of bituminous emulsion plants. Avto dor, 26 no.6: 9-10 Je 163. (MM l6t8%, I (Bitumell)  Kornienko, 11. V. Dehydrating and desaltIng petroleum in Rumanian petroleum industries Moskva, 1947, 28 p. Bjuro tekhniko-ekono~-icheskoi informatsil TSIM nefti. Insotrannaia neftianaia teloilka. Dobycha (51-26302) TP690-K67  IMIIMITO. N.Te. Glued sheet flooring. ALU. I Isobr. Predl. v strol. no.96iia-19 954. (KM W) 1. TekWcheekoye upmvIenlys Nialaterstva strottelsetva SM. Onoore)  UMMA114:11fe "Blood jul 194T MeaiclnLk Parasites "Tests of the New Preparation L?2 for Treatment of Blood-parasite Diseases," P. Korniyeako (Koneva)p 4 pp I'Veterineriya" No Synthetic serum waa created at the Institute of Organic Chemist.-y, Academy of Sciences, by organic combinations with urea. Up shows parasitropic qualities -Oor treatment of muttalliosis in horsee.  AID P o- 530A, Subject WSR/Aaronautlas - Viodel buiUUzg Card 1/1 Pub. 58 - 12/33 Author s Zorniyonko, P., Sportsman I/e, Champion at the Model-Building lobo ~the Institutions of Higher Education In Aeronautics Title Building of rubberband-propon*d models Periodical Kryl. rod.0 10.. 20-21,9 0 1956 Abstract A technical description of the model produced by the author at the A3-1-Union Ccapetition of students of the institutions for higher education in aeronautics. 1 drawing. Institution t None Submitted No date  FEDORCHENKO, I.M.; KOROBKOq M.I.; PUGIN, V.S.; MARTYNYUK, G.F.;,_KqMIYE~Wj ; P.A.- KISELEV Yu.Te. Z,-,.,- I I Using ceramic metal filters for the purification of samples of flue gas from open-hearth furnaces. Porosh. met. 5 no.10: 100-106 0 165. (MIRA 18-.11) 1. Institut problem materialovedeniya AN UkrSSR.  A C. C t4 R _i, V__6_0_3'_6_9 0 7(N SOURCE CODE; UR/0226/66/000/011/0089/0092 AUTHOR: Korniyenko, F. A.; Kostornov, A. G.; Pugin, V. S. OkG: -Institute of Problems of Material Science AN UkrSSR (Institut problem materialo vedeniya AN UkrSSR) TITLE: Method of manufacturing large porous w.all piper, 9-92 SOURCE. Poroshkova~a'metallurgiya, no. 11, 1966, 8 TOPIC TAGS: stainl"s steel,pipe, porosity, metal joining, powder metal sintering ABSTRACTz A p -racena for Joining large porous utainlQss-steel pipes into longer sections and for joining Khl7N2 cast stainless-steel flanges and end plates to pipe ends has been developed. Extruded (100 x 90 mm) pipes 400-450 mm long are joined into sections up to 2 m long by sintering using cementing-paste containing carbonyl nickel powder and glycerin. The sintering is done at 1000C for 1 hr. A section up to 2. m long has a filtering area about 0.628 m2 which can be used for filtration of aggressive gas media. Sintered joints have a porous structure with pores smaller than in sintered pipes.. The joints ensure satisfactory rigidity,and strength of sintered parts. Orig. art. has:.'3 figures. SUB CODE: 13/. SUBM DATE: -2lMar66/ ORIG REP: 004/ Card  /~'. j" T_; . - I ~ " ~- -T- 6 1 I - !,\- ! \~i( c. PT" " 1. f, KCRNIYZNKO,P.M.; GLOZXAN,I.A.; ANDRYUXHI,T.Ya.; ZHARKOV,I.N. "m Small-size clay slabs for wall facings. Rate. i izobr.predl. v stroi. no.108:24-25 155- (MLlu 8:10) (Walls)  EOOROV, N.A.; DI-117R=, A.V.; LUKIYANOV, S.V.;, KORNIYFIFAO, P.P. Studying the process of the hydraulic fracturing of coal seamo. Nauch. trudy UII Podzemgaza no.6:66-78 162. (MIRA 15:11) 1. Laboratoriya gazifikatsii kamennykh ugley VSDSOYU2nogo nauchno-lasledovateliskogo instituta podzemnoy gazifikataii Ugloy. (coal gasificationp Undergrcund) (Hydraulic mining)