SCIENTIFIC ABSTRACT YEREMENKO, V.V. - YEREMENKO, V.YA.

8h686 s/1o5l/6o/ooq/oo5/0O7/Ol9 E201/H191 The Effect of DefoLation on the Absorption Spectrum of Cuprous Oxide Crystals at 20 OK The effect of compression on the absorption bands of the yellow series at 20 OK is shown in Fig. 1. Fig. 2 shows the dependence of the shift of two bands of the green.series on the shift of the yellow series due to compression. The yellow series was shifted as one unit, but this was not so in the case of the green series where separate bands were shifted by different amounts (Fig. 2). Constant uniform electric fields produced satellites in the yellow series; In strong fields the yellow bands joined the continuous absorption region moving towards longer wavelengths (Fig. 3a). In the case of the green series electric fields broadened somewhat the bands and caused their gradual merging with continuous absorption (Fig. 36). The displacement of the yellow series as a.whole under unlaxial compression means that its energy gap between valence and conduction bands is affected by pressure., Behaviour of the green series Indicates that Its Rydberg constant is altered by compression, i.e. the effective electron or hole mass is affected. This evidence favours the hypothesis that the Card 2/3  84686 SIO 5116oloogloo V007/0.19 E201/Elqj. The Effect of Deformation on the Absorption Spectrum of Carrols Oxide Crystals at 20 OK J .1 WO Sertes are due to transitions from two different valence bands. Effective carrier masses were,found for the two series y assuming that they have a common conduction band and that they are due to optical transitions from separate valence bands to the exciton levelsq and by assuming that the upper edges of the tvo ,ralence bands are separated by a gap represented by 1100 (tbe.frequency interval between the 11m1ts of convergence of the two series). Acknowledgements are made to A,,F. PT-1khot1ko and V.L. Broude 'for their advice. ------- There are 3 figures and 141 referonooss 8 SovJetf~ 3 9,1911sh, I German, 1 Frenoh and I Japanese. SUBMITTED: February 23, 1960 Card 3/3  NAF,!ROV,, V-V.; YMMENKO. V.V. Conditions of stability and the scale of chemical reactors,, Zhur.prikl.khim. 33 no,l012231-2262 0 162, (WRA 1523~) (Chemical reactors)  KAFAROV,, V.V.; YEREMENKOv V.V. Conditions for the stability of a process in a semicontinuous reactor* Mime promo no.2:125~-229 IP 163. (MM 16:7) Chemical reactorB) emical, equilibrium) M  YEREMENKO, V.V.; MATYUSHKIN, E.V. Spectral dependence of the photoconductivity of c-Rdmilm sulfide crys- tals arising In steadp-state and pulse excitation. Fiz. tver. tela 6 no.2:402-408 F 164. Diffusion shifting of excitons and electrons in cadmium sulfide crys- tala. Ibid.i4O9-413 (MIRA 17:2) 1. Fiziko-tekhnicheskiy institut ntzkikh temperatur AN UkrSSR, Kharl- kov.  8/185/63/00d/001/013/024 D234/D306 AUTHORS: and Popkov, Yu. A. TITLE: Magnetooptical investigations of crystals in strong magnetic fields. 1: Pulse methods -2,ERIODIGAL: Ukrayinelkyy fizychnyy zhurnalp v. 8, no. 1, 1963y 88-94 TEXT: The authors describe an experimental installation for photo- -iing- the__abs0rPtiC!L -,.grapl -spectra-of--crystals--,during-inter-vals--100-- T7-1- 10.0.0 --- t mes smaller than the-duration of magnetic field pulses. The ulsed illumination is synchronized with maximum values of the p field. The field is produced by discharge of a condenser battery ---tl~iroucrl-r-a-sma:1-1--i3olenoid----cocyl-ed-by-liqui-d-rieli-um,- nitrogen or hy- drogent-The possibility of use of the installation was checked on a CaF + Ho-crystal (investigated-previouBly-by V. A. Arkhangell- 2 ekaya and P. P. Foofilov in constant magnetic fioldo). The pulse duration can affect the relative intensities of Zeeman components. ~-There are 7 figures. i - L  S10561631044100210111065 B102/3186 AUTHORS: Belyayev, A. I., Yeremenko, V. V. TITLE: Temperature dependence of the optical-aboorption band width for UnF2 crystals PERIODICAL: Zhurnal eksperimentallnoy i teoreticheekoy fiziki, v. 44, no. 21 1963Y 469-471 TEXT: Shape and intensity of the n and 6 componente oftthe C-band were determined at 300, -180, 90, 77, 65, 55, and 200K; the ,mea3uremen ts. vie re made with polarized light using the high-dispersion spectro,-raphs (DFS-O) (6 K/inm) and a~T:'C-3 (DFS-3) (4 I/min). The absorption intensity was determined by the usual photometric method. The absorption coefficients were plotted versus k for different temperatures and for both C (n) and From these curves the half, width 6 of the C and D bands was calculated. Below the Ne'el point (600,K), 6 increases with T exponentially; at this point the curves show a break ind continue linearly, for the n-component almost independently of T, and for the Card 1/2  S/056/63/044/002/011/C,65 Temperature dependence of ... B102/BI66~ 6-component weakly increasing with T. Since it cannot be~ assumed that at TN the phonon spectrum or the electron-phonon interactioq changes abruptly, the absorption band width and shape of antiferYomagnetic crystals is asaumed as determined by interactions with excitations of the type of spin -eiavea. There are 3 figures. ASSOCIATION: Fiziko-tekhaicheskiy institut nizkikh temporatur Akademii nauk USSR (Physicotechnical Institute of Low Temperatures of the Academy of Science s UkrSSR) SUBMITTED: Auguat 13, 1962 Card 2/2  S/02.61/64/006/002/0402/0408 ACCESSION NRt AW13495 AUTHORSi Yeremanko, V, V ; matyushkin, E. V. tral dependence of photoconductivity in crystals of cadmium sulfide TITLEt Spoc during steady and pulsing excitation 0 no. 2j 1964~ 402-406 SOURCEt Fizika tvordogo tela, v, 6 TOPIC TAGS: photoconductivity, semiconductor, cadmium sulfide, ISSh 500 la.-V, MOK 4 megohmmeter, light absorption, diffusion length., UM 2 monochron-Ator, 10 4 oscillograph ABSTRAGTt The light source for photoelectric WCcitation was an 1,11~0,h-500 lamp. The signal was recorded by on 10-4 pulsed oscillograph,, and the steady photocon- ductivity was measured by means of an M014-4 megohmmeter. Results sho4od that the ratio of the initial amplitude of the segment or slow decay to thj full amplitude of the pulse declines sharply with decrease in wavelength of the exciting light. The segment of slow decay, in the long--jwave zone is better defined by an exponent than the short-wave zone, The spectral dependence of the full amplitude of the photocurrent pulse and the initial amplitude of the long-wavo segment, like the Card 1/2  ACMISION NR: AP4013495 spectral distribution of steady photoconduictivityO have a well-defined maximum. The relaxation time, even at low temperatures, is sharply dependent on wavelength of the exciting light. It was found that at 77Ki the maximums of spectral depen- dence (for amplitudes of photocurrent pulses) correspond to maximums of the absorption coefficient,, even for samples that exhibit minimums in the same parts of the spectrum for stoady photocurront. Investigation of pulsating photocurrent at low temperatures and a comparison of the spectral dependence with the absorption spectrum permit the determination of both the exciton and electron parameters of diffusion length, tho rate of surface annihilation (recombination), and the coefficient of diffusion. "In conclusion,, we take this opportunity to express our sincere thanks to Professor B, I. Vorkin, correspording mmbor of the AN UkrSSI~ for his interest in the work and for his oupport.11 Orige art* hass 6 figures, ASSOCIATION: Fiziko-tekhnichaskiy.institut nizkikh temperatur- AN UkrSSRpKhar1kov (Physicotachnical Institute of Low Temperatures AN Ukr&qR" SUBMITTEDs 2~ju163 DATz Acq i o3w64 SUB CME: BOO SS NO RELP SOV I 03J4 C rd o. _ 2/2 EWL: 00 OTHERs 008  ACCF#SSION NR: AP4013496 S/0181/6h/006/002/0409/OW AUTHORSs Yeremenko, V& V,j Hatyushkin, E. Ve TIT12: Diffusion displacement of excitons and eloctrons in a crystal of cadmium sulfide SOURCE: Fizika tverdoeo telap ve 6, no. 2, 1964, 409-423 TOPIC TAGS: cadmium sulfide, exciton diffusion, electron diffusion., Wfusion length, exciton relaxation time., quantum yield ABSTRACT: This paper is mainly a comparison of results from the authors' previous paper (FTT, 9, 402, 1964) with computations of several other authors. It is assumed that at low temperatures (kT 30 kOe the character: :of the magnetoresistance curve changes appreciably, with a tendency. !to saturate., This peculiarity of the magne tore sis tance Is strrngly ~pronounced at helium and hydrogen temperatures, is somewhat smoothed .out at 77K,.and appears at all temperatures in the vicinity of 30 k0e.. .,The occurrence of the effect in identical fields but different tem- peratures, and also the fact that the samples investigated were very :pure, indicate that the observed anomaly is not connected with im- purities, but Is due to the appearance of open trajectories in fields ,close to 30 kOe. It Is-pointed out, however., that magnetic breakdown iin'the usual sense can also occur in bismuth. Orig. art. has: 2 )figures. SUB C OTH REF: 002 ODE: 20/ SUBM DATE: 07Jan66/ ORIO REF: 005/ Card ZC_ 2 2  SOURCE C67- 7 FA*CL-Mi-LA~p00874 5 DE: Q69%166166~1~16 /023 AUnTOR: ~.erfmen3 A.; Xharchenkop L. T. V.; Popkav, V ORG: Physi otechnical Institute of Low._TcnTeratures~ AcadevV of Sciences,ulcrm (Fiziko-tekhnicheskiy institute nizk1kh temperaEure Akidem ow rystals TITLE: Zeeman effect-on exciton-magnon bands in antiferr gnetic ?4nF2 c SOURCE: Zhurnal eksperimentallnoy i teoreticheakay fiziki. Pialms. v redaktoiyu. Prilozheniyej, ve 3.o no. 6, 1966, 233-237 TOPIC TAGS: Zeeman offect., exciton) magnon) antiferromagnetic material, manganese compound., spin wave, magnetooptics, ABSTRACT: This is a continuation.of eariler work (ZhETF v. 47, 1733) 1964) dealing with the influence ot a. strong magnetic-field, sufficient to flop the spin structure of MnF2 (spin flopping), on the structure of the optical transition 6A (8S) _ 4T (4D In the present study, as a part of a search for-additional more directigand more 2g unambiguous experimental proof of the realization of the simultaneous excitation of an exciton and a magnon in a ci7atall the authors studied the response of the optical absorption spectrum to magnetic fieldn strong enough to change the magnetic structure of an antifer;romagnetic crystal. MnF,? was chosen because its Internal field is high (90 koe). ~ ~' ""'~:_o~tical investigatlons in this magnetic-field range, made ponsible . ~-6t - by a pulse technique develop--e-d--b-y--I-fi-e--au-lEfiors (Ukr, fiz. zh. v. 8t 88, 1963), were carried out on the narrow absorption bands due to the oprtical transitions 'A Ig-  L 21564-66 ACC NN AP6008745 4T (4 Q and 8A 4 (4p). b 7--_19 . ... .is TIg The 16473 cm and in the former transition and the -31943-and-32065 cm-1 bands in the latter had previously been identified with exciton- magnon transitions. The Influence of the magnetic field on the exciton-magnon light- absorption wan estimated qualitativelyp but for the 18473 cid-I band no qualitative similarity was found between the experimental behavior in the magnetic field and the calculation, This band is not split by an external field but to the contrary, on reaching critical field it coalesces with its satellite at IR78 cKI, forming a single narrower and more intense band. This suggests that the interpretation of the 18473 ctff' band at; being an exciton-magnon transition Is not the only one possible. Quall- tative agreement between calculation and experiment in the behavior of the 31943 cm-, band In a magnetic field, since a non-monotonic dependence of the Zeeman splitting on the magnetic field intensity is predictedp is observed. Howeverp the agreement is not complete, and a deeper theoretical analysis of the features of light absorption in antiferromagnetic crystals Is needed. It is concluded that the 31943 and.32o65 cm-' bands are due to exciton-magnon transitions. This statement Is not cuntradicted by a careful analysis of the shape of these bandsp which have noticeable asymmetry. Orig, art, has: 2 figures and 1 table. SUB CODE: 2D/ SUBM DATE: 33.Dec65/ om REF: oo5/ oTH REF: oo3, Card  LM1311t66 W(m)ZT/50(t) IJP(C JD AU_ NKs AP6009068 SOURCE CODE: UR/0185/66/011/003/0280/0285 I Foj!kov,-_Yu*.At; nkom Vq V---- AUTHOR J5 ORG: Institute of Low-temperature Physics and Technologg, Academy of Sciences of the Ukrainian SSR, Khar'kov (Fizyko tokhatchnyy InstLtut URSR TITLEt The anisotropy of thin-line light'aboorption spectra in CdS -7v) sinsle crystals SOURCE: Ukrayinalkyy fLzychnyy zhurnall v. 11, no. 3. *1966, 280-285 TOPIC TAGSi crystal anisotropy, cadmium compound, absorption band, absorption spectrum, exciton ABSTRACT: The authors investigated the effect of thetorientation of the light propagation vector K, with respect to the crystallographic axis C6 of CdS single crystals on the intensity of thin absorption bands connected with ."local" exciton transitions; the temperature used in the process was 4.2K. The dependence of thei LntenaLty'of some rrow long-wave bands on the orientation of the vector K is equally a n strong as that of the bands of "free" excitons in which the peculiari-; ty observed may be associated with the effect of spatial dispersion. This casts doubts on the identification of all narrow bands with  L 21131-06 ACC NRt AP6009068 optical transitions* The estimations of the Intensity of light required for the critical (relative to the Bauset-ginstaLn condensation at 4.2K) concentrations of excLtons are revisede The estimation should be raised by two to three orders (up to 1021 to 1022 photons/cm2 sec,) since the coefficient of the ab aorption band Ap, connected with the lowest exciton stateo k N 102-103 cm-19 is two to three orders less than in case of the AT band. regarded earlier as the lowest excitoa f band, Orig. art. has: I figure, and I table, (Based onoauthor's abstract) IJKP) SUB CODEs 20/ SUBH DATEt 30Apr65/ ORIG REIF: --Oll/ Oill REP: 006 Ca .212db-  L 25898-66 FWT(1)/EWT(n)/ ------ P(c) SW IZVEWP(t V ACC NR. - SOURCE CODEs UR/01 126/66/021/003/0362/0366 AP6010461 ..,AUTHORSt Bogod, Yu. L.; Yeremon!ajV.1_ V. Physicotechnical Institute,of Low Tqg~2raturolme AN UkrSSR (Fiziko- tekhnicheskil inatitut nizkikh temperatur AN UkkSSRJ__ TITLEt Some characteristics of the gal nomagnetic FEoperties of bismuth ja SOURCE: Fizika metallov i metallovedenLye, v. 21, no* 3p 1966# 362-366 ,.TOPIC TAGS., magnotoresistance, bismutho valence band, conduction band, current carriorg crystal impurity, transverse magnetic fieldp longitudinal magnetic field ABSTRACT: The magnotoresistancgpf bismuth s1pale crysta;1 in pulsed magnetic ~flelds at the boiling points of nitroge 4nd hydrogen in studied. The measurement method was deacribed by H. Ye. Alakneyevskiy and V. S.~-ITegcrov (MIEV9 1963p 45t 448)., The measurements were made in transverse magnetio fields of up to 35 We at the nitrogen temperature and up to 50 kOe at the hydrogen temperature,, and also in longitudinal fields of up to 60 kOe at T = 77K and 90 k0a at 20.4K. The speci- mens were cylindrical with a diameter of 1.5-2 = and a length of 10-20 mm, The anisotropy of the magnetoresistance of bismuth In found to decrease with a decrease in temperature (see Fig. 1). The exporlmental result indicates a possible relation- ship between the described anomalies of the maVetoreaiste=o of b1malth vith the I Card -1/2 UDGs 539,292s538.63   AUTHOR,.Yeremenko, V. V.; Popkov, Yu. A. ORG: Physicotechnical Institute of Low Temperatures, AN URSR, Kharkov-', (Fizik6-t-e hnichnyy instytut nyz' "y Ti temperatur AN URSH) TITLE: Absorption spectrum and Zeeman effect of Mn2+ tons In ZnS SOURM Ukrayinsl,kyy fitychnyy zhurnal, ve 11, no. 4, 1066, 395-403 TOPIC TAGS: absorption spectrum, Zeeman effect, temperature dependence, ion distribution, crystal symmetry, activated crystal, zinc sulfide single crystal, manganese ion ABSTRACT: An attempt has been made to Investigate the absorption spectra of manganese ions introduced into transparent ZnS single crystals with a wurzite -i4)' in the region of transition of 'Ssn -00 at temperatures of structure 4, 2 and 20. 4 K E quidistant series are derived and interpreted as electron vibra- On the basis of Bethe theory, developed by Ilellwcge, the pattern of Zeeman splitting is calculated under the assumption that the local symmetry of Mn2+ tons Card 112  ACC NRs AP6022996 in ZnS is An experimental investigation of the Zeeman effect"in fields up to 1. 5 x 105 oe Indicated a qualitative similarity of field dependences of the splitting of bands with those calculated for the transition. The authors thank B. S. Skorobogatov for providing sin`gic--'crysta1 samples. Orig. art. has: 4 figures, 2 formulas, and 3 tables. (Based on authors' abstract] [NTJ SUB CODE: 20/ SUBM DATE: 11May66/ ORIG REP.- 005/ OTH REP: 013/ L_5ard 2 2  3 _&O 0 ACC NR, AP66 7000 &/6_i8W66/oa2/6li/3397/340 AUTHOR: Antonov, A. V.; Belyayevay A. X.; Yerernenko, V.. V. ORG: Physicotechnical Institute of Low Temperatures, AN M=SSR, Kharlkov (Fiziko- takhnicheskiy institut nizkikh temperatur AN UkrSSR) TITLE: Low temperature anomaly in the absorption spectra of antiferromagnetic Rbl/,nF3 and Wjiv.3 SOMME: Mika tverdogo tela, v. 8, no. 11) 1966, 339T-3400 TOPIC MGS: absorption spectrum, antiferromaenetic material, Neel temperature, ter.- perature dependence, low temperature research, line splitting, luminescence spectrum ABSTIMM 7his is a continuation of earlier work (FTT v. 6, 3646, 1961; and preceding) and is devoted to the"C-group (-39W A) of bands in ~he absorption spectrum of anti- ferromagnetic KbMnF3 (Neel temperature TN = 82K) and KVnF3 (TN = 88K), whose struc- ture becomes quite complicated at T < T,,I. The measurement procedure was described earlier (F11"T v. 6) 1967) 1964). Investigations were made at 4.2 - 200K. The ab- sorption spectrum was photographed with a diffraction spectrograph (DFFS-8) and then photometrized (NF-2 microphotometer). The results show that with decreasing tempera- ture the number of bands in the C group increases from two to seven in the case of lrb'Mav.3 and six in the case of WnF3, in analogy with the splitting observed for other antiferromagnetic crystals. The temperature dependence of the most intense of the bands was also investigated and the connection betwien the anomalies in the absorp- Card .1/2  ACC NR: AP6037000 tion spectrum and the anomalies in the luminescence spectrum of lrb.MF3 and ig/.n- 3 L _j discussed. It is deduced that the anomaly in the absorption spectrum, observed by the'a~thordfor the first time, can also be related to the ordering of the spins of theIexcited'Yn4+ ions. Particular attention is paid to the temperature dependence of the first band to appear with decreasing temperature (C2), which e3difbits an ano=-~ a4 below 30K, and%~6ich is o. magnon satellite of one of the original bands (CO. Orig. art. has: 2 figures i*j-,d 1 tableo SUB CODE: 2o/ sum DATE: 23may66/ om Fw: oo4/ oTH REF: ooB Card. 2/2  DEMIGUY, P.A.; YEMEMTKO'o V,V.; KIIKU,1311KIN, L.S.; KULIK, 1.0.; KAN7111-1,1Y, V.G.; PEM I.; PESCHANSKIY, V.G.; POPOV, V.A.; SHISHKIN, L.A. Conference on the physics of the condensed state. Usp. fiz. nauk 88 no.2:387-393 F 166. (MIPIA 19:2) 1. Fiziko-tel-hnlcheakiy Institut nizkikh temperatur AN Ilk-rSSR.  '~;REMENKO, V.V.J. kand. teklin. nauk; DUIEPOVA, T.V., irzh. Uoing wantes from coal preparation In the Kunetsk Panin. Stroi.. mat. 10 no.10:31-33 0 164. (11-11RA 18;2)  Ii!~ 1~ ,   Z7  fl-4.1 1 , ~5EW9&45~ spectro-graph wi ti-I v :near diipersion approximatel,   YOZEWKO, V. V. Yoremenko, V. V. "The Structural-Mechanical Properties of Uzbekistan Ceramic Raw Materials," Acad Sci Uzbek SSR. Inst of Structures. Tashkentj 1955. (Dissertations for the Degree of Candidate in Technical Sciences). SO: Knizhnaya Letopis', No 27, 2 July 1955  SOV/124-57-5-5723 Translation from: Referativnyy zhurnal. Mekhanika, 1957, Nr 5, p 90 (USSR) AUTHOR: Yeremenko, V.V. TITLE: On a Method for Determining the Yield Stress tr~bhear a~iftthe Appar- ent Viscosity of Bingham Fluids by Means of a Rotary Viscosimeter (K voprosu o metodike opredeleniya dinamicheskogo predellnogo napryazheniya sdviga i strukturnoy vyazkosti na 'rotafsionnom viskozimetre) PERIODICAL: Dokl. AN UzSSR, 1956, Nr 5, pp 27-31 ABSTRACT- The author proposes a new method for analyzing the e~-.perimental data used to determine the yield stress in shear and apparent viscosity of pseudoplastic Bingham fluids (e. g., of a plastic ceramic slip). To investigate such fluids the author used a rotary-type model RV-8 M.P. Volarovich viscosimeter. Mean values for the apparent viscosity and yield stress in shear are usually calculated from the experimental data by the method of least squares, or a mean value for each is found by simply computing the arithmetical averages of the values obtained in a number of specific cases. In either event the calculations are Card I/Z very time-consuming. What the author does here is to divide the  SOV/124-57-5-5723 On a Method for Determining the Yield Stress in Shear and the Apparent (cont.) experimental data into two quantitatively equal parts or groups, and then write an expression for the mean numerical value found for the yield stress in shear for each group of data separately. Taking the difference between these expressions, the author evolves an equation for the mean value of the apparent viscosity. From this mean value for the apparent viscosity a mean value is found for the yield stress in shear. A single example is adduced to show that this new method of analyzing the experimental data yields results in :lose agreement with those obtained when the method of least squares is used. A general evaluation of the accuracy achiev- able with the new method is not attempted, however. A. I. Golubev Card 2/2  124-11-13243 Translation from: Referativnyy Zhurnal, Mekhanika, 1957, N r 11, p 139 (USSR) AUTHOR: Yeremenko, V. V. TITLE: On the Surface Sliding of Pasty Soils. (0 pristennom skollzhenii gruntovykh past) PERIODICAL: Izv. A N, UzSSR, 1956, Nr. 9, pri 49-58 ABSTRACT: The paper discusses the results of an experimental study of the surface sliding phenomenon in Uzbekistani clays and loess-typeloams. In a first approximation it is suggested that, for pasty soils. the thickness of the surface-contact layer be considered equal to the mois- ture content of the paste relative to the unit surface of the soil particles. The external friction of the soil paste against a metal is defined as the flow of a water-gel along a solid surface. It is shown that the struct- ural-mechanical characteristics of the surface-contact layer may serve as a criterion for the evaluation of the structure of water-gel films in the ground. The tests performed substantiate the diffusive consistency of the surface-contact layer. Card 1/1 Bibliography: 13 references. (0. V. Luzhin)  Z, YETWOM, Veve - M. Ser.tekh.nauk Relaxation phenomena in soil Pastes- Izv- All Us no,2:41-" '58- (MIRA 11:9) I.Inatitut sooruzhanir AN USSSR. (Soil mechanics)  YKRB"M, V.V. -, KOVAIXITKO, V.H. Relation of the effective adhesiveness of soil pastes to shear stress. Dokl. AN Uz. SSR no.8:35-38 058. (MIRA Ilt9) l.Institut sooruzheni]r AN UzSSR. Predstavleno akademikom AN UzSSR M.T. Urazbayevym. (Soil mechanics)  MARWHKO, Va. Rvaluation of drying properties of wet soils on the basis of the calculation of plastic deformations. Dokl.AN trz-M no.12: 47-5o '58. (MikA 32:1) 1. Institut soorusheniy AN U%SM. Predstavlano-chlonold-korrespon- dentom AN UzWR R.A.Alinlovyme (soil physics)  mmWao.* V.V., kand.takhn.nauk; VERSHININA? EIN.0 inzh. Over-a,U. autowtion of the operation of tumel dr7ers. Trudy Zap.-Sib.fil.ASiA no.3151-60 160. (WRA 15t2) (Drying apparatun-Bricka)  V.RMNKO, V.V., kand.tekhn.nauk; YEFIMOVA, A.F.0 inzh. Expanded clay filler from shale of Novosibirsk Provinces Trudy Zap.-Slb.fil.ASiA no.3:147-149 160. (WRA 15:2) (Novosibirsk Province-Shale) (Lightweight concrete)  NIKOIAYEV., S.S., i=h.j-SEMVA,, H.F., inzh,; BUSHTEDT, IJ., inzh, SDM=Yu.v VoP*,, inzhoo XEREMM., V,Vop kandetekhnonauk; VRUBLEVSKII, Lo-roo, inzho Using clay shale for manufacturing keramzito Stroi. mat., 7 no.7:34"-37 JI 161. (MIRA .14:7) (Shale) (Aggregates (Building, materials))  YEREMENKO, V.V.; DOLGINA, L.V. N-------------- Few method of determining the semi tivity of clays to drl-ing. Stek. i ker. .18 J1 Ibi 0,11n.. jj,:7) (Clay-Testingi  YEREMMO,.V.V., kand.tekhn.nauk; VRUBLEVSKIY, L.Ye.i inzh.; SHAWSKIY, --- L.Ii., geolog - Make efficient use of the raw materials of Western Siberia for the production of porous filler. Stroi. mat. 8 no.2: 14-15 F f62. (Siberia, Western-Concrote) (MIRA 15:3)  TERDMIOm V.V-v kand. tekbn- n&uk;-BUVNNUMO I.A.t inzhe; p.S., inzh&; SH M OVTSEV, Yu*G*p inzh. First Siberian plant for the-produotion of 9910POrit6s in a brick faciory. Stroi. mat. 9 no.6:22-24 Je 163. . (MIRA 1718) 4  t .~-Jf , 4 ~; - ! '. , 1. , -, : V, , . I : - I , -, 1 1. (4 ~, , , . i ~. ~ . , a !~ a '. v  mmArls, " M.: i i nmi " OEM.$, Em Mir VV  ~ F - 1 0 .: 1 1 q u r ~ a a nci , I -, - -ni 11 ') -  a 7 r4  T 1 1:1 1 , -   BELYAYEVA, A.I.; YEI'F-14"14KO) V'V' F --- on the spectrum of ,ffect of antiferromagnetic ordering tale. Zhur. light absorption by manganese carbonate crys (MIRA 17:9) eksp. i toor. fiz. 46 no.2:488-491 F '64. 1. Fiziko-tekhnicheskiy institut nizkikh temperatur AN UkrSSR.  VEERKIII, B.I.; PEI;IKH, L.N.; Y~P4MM,3t-V- Quantum oscillations of tle contact potential differ---%c--- of .1 the bismuth-cioblum Fair. Dokl. AN SWR 159 no.4771-774 T) 161 (MBA '18a) 1. Fiziko-tekhniaheskI7 institut nizkikh temperatur- AN Ukr3,9R. Pradatavlono akademikom P.L. Kupitsay.  YKMfENKO, V.Y.; BELYAYgVAp A.I. Optical absorption spectra of cryut-ras of antiferromagnetic cobalt compounds. Fiz. tver. Lela 6 no.120646-3652 D 164 (MIRA 18t2) 1. Fiziko-tekhnicheekly Institut nizk1kh temperatur AN UkrSSR, Khmrtkov,  lip-ht a]-'sor-PTivtl, ''r   I Carcl 313 ---- ---  IL--27741-66 -Dmf M r RC NR, ~M018705 S0JRCE CODE: UIR/ 03W/66/003/011/0447/04 AUMOR: Chiam, Y, Yeremenko,,-V. V. ORG: 11hyaicatechnical institute of low Temperatures) AcedW of Sciences UkrainiaAn S.'R (Fiziko-te icheskly lRatitut- ni-MR5 tempera U-r TITLE: Gingularities of the temperature dependence of electric conductivity of aluminum at helium temperatures llvlh~;n~dfperimentallnoy I teoreticheakoy fiziki'* ri'stma v redaktai3ni. Prilozheniye, v. 3, no. 11, 1966, 447452-ji TOPIC TAGS: aluminum, electric conductivity, temperature dependencep electron scat- tering, impurity scattering, resistivitylphonon interaction ABSTRACT: In view of the expected deviations In the proportionality of the con- --ductivity.of aluminum to Ts (T - temperature) at ve low temperatures# the authors have investigate-d-this tempera-ture-dependence-by_ a _procedure very,niml-M to that described by Do Vroomen and C. Van Bwrle (fts Ica Y-*---231- Ito; - 1957) i --- The measured samples had transverse dimensions 5 - 10 mm) which van much larger than the mean free' path for electron scattering by impurities, The measurements have shown that at '.em- peratures below 4.2K sufficiently puce samples exhibit a noticeable temperature de- pendence of the electric resistivi ' vhich does not agree with the empirical formula proposed for thia dependence by Be 11. Aleksandrov (Dissertation, Khartkov, M hT All UkrSSR, 19&). The experimental curves exhibited a stronger dependence than the  L 277b1-66 -ACC- NRs AP6018705 fifth power of.the temperature. FtLom-thisj and from a comparison of the curves for 'samples with bigh and low impurity content., it is deduced that the temperature de- pendence of the resistivity of aluminum has a singularity, which can be ascribed to normal collisions (,without umklapp) between the electrons and the phonons. For pure saMlen the singularity occurs almost entirely at hclium temperatures, -while for more contaminated ones it occurs at higher temperatures. Comparison of the experi- mental results for pure samples with theory shown agreement within -23%. It is con- cluded that to obtain more data on the temperature dependence of the singularity A in necevsary to be able to produce caz*les with a prescribed broad range of purityp and to carry out measurements in a broader temperature 1nterval. The authors thank B. 1. Verkin for continuous interest In the workp Rs N. Gurzhi for v valuable dia- cussion,, and'O. G. Shey6henko for help with the experiments* Orig. art. has:. 2 figures and 4 formulas, SUB CODE: 20/ SUBM DATE: 05Apz66/ ORIG REF: 004/ OM REF: 003 Card  3527h-66- EW(m) jW/JD ACC NRs Ap0104,5, (A) ~SOVRCE CODE: UR/0185/66ho~11/005/0520/05 AUTHORS: Zvyahin, A. I.--Zvagin, _A* 1. -, _Xprepeako.j. V" Skorobohatova, I. V.--Skorobogatov~at Ie__V. ORGi Physicotechnical Institute of Low TeneraturessAN UE;A, Khar'k2v (MyRotekfinichynyy I ut nyz kykh temperatur AN UYSR) TITLE: Infrared absorption spectrum of crystals of antiferromagnetic cobalt compounds. Part III. Absorption in COC03 and CoCl. , SOURCE: Ukrayinalkyy fizchnyy zhurnall v, 1l# no. 5, 1966, 5eo-526 TOPIC TAGS: co It compound, IR spectrum, IR absorption, electron transition, antiferromagnetic material J~'-.-,STRACT: A study has been made of light absorption by COC03 and COCle in the 600-e00O cm-I region and in the 10-300-K temperature range. It has been shown that..the formation of more absorption bands than expecte from splitting the ground ter,, 4F9/, of the Co++ ion in the crystalline field, taking into consideratiun sp-&-orbit interaction,can be explained by the presence of vibrational (and, possibly, electron- vibrational) bands. Using Lines arrangement (Linest Me E., Phyg. Rev., 131, 546, 19631 for splitting the lower triplet of the ground term  L 3597h-66 ACC NR, Ap6oi6o45 I4F9/e of the Co+* ion In CoCle and proceeding from the Identification of absorption bands in the CoCle spectrum, it vas possible to define the parameters of the intercrystalline field and spin-orbit-, inter- action. An analysis was made of the effect of the antiferromagnetic transition on electron and vibrational absorption bands. During the transition of the CoClR crystal to the antiferromagnetic state, anomalous frequency changes in the electron absorption bands were observed, the magnitude of vhich is chiefly attributable to the split-- ting of the ground state of Co++ ion in an exchange fields No changes vere observed in the maximum, shape, and halfwidth of vibration bands in COC03, COCI , and MnC03 spectra during the transition of crystals to a magnetoorsered state, The authors thank B. 1. Verkin. corresond- Ing Member of theAX UkrSSR for his interest in thi.s.work'4nd Ve I. Kutiko for his help in carrying out measurements. Orig. art. has: 6 figures* [Based on authors' abstract) (NT] SUB CODEs 1l;,.90/ OUBM DATE: l4jun65/ ORIG RZPiOO5/ OTH BEY: 005/ Cord 9/2  ACC NR A1,6020200 GOUlia CODE Uli/0056 /66o5o/o o6/ Ili7211147Y ;;;~J' AUT11OR: Belyayeva, A. I. Mikhaylov, H. H ; Pwilov, V. H. Petrov, S. V. ORG: Physicotechn1cal Institute of Low Temperatures, AcadecV_of Sciences, Ukrainia SSR (Fiziko-tekhnicheskiy institut nizkikh temperatur Akademia nauk Ukrainskoy SSR) Insiitute of Physical Problems. Academy of Sciences.SSSH (Institut fizicheskikh problem Akademii nauk SSSR) TITLE: Magaon and phonon excitation during light absorption in antiferromagnetic NiF2 SOURCE: Zh Eksper i teor fiz, V. 50, no. 6, 1966, 1472-1477 I TOPIC TAGS: magnon, phonon, magnon excitation, phonon excitation, light absorption, nickel fluoride, antiferromagnetic material. WICKr-l- 60n7#0cPvA..o0, "'400'et'Oe fidsoxprlaA~ %YFrerRun? , 6LeeTffl0M 79timSirleAll 11007- d)r0j7-,q r.,6,t) ABSTRACT: The structure of the 3A2 - IT29 transition in the absorption spectrum of antiferromagnetic nickel fluoride at temperatures between h.2 and 77K has been analyzed on the basis of experimental data on its vibrational frequencies. It has been shown that band V = 20,622 cm- and band V = 20,717 cm7l are due to electron- magnon transitions with the formation of one andIlwo magnons, respectively, with maximum frequencies. The maximum frequency of the magnon VM a 100 cm-1. Me magnon  ACC NRj AP6020200 nature of band VI has been confirmed by an analysis of its shape, temperature depend- ence of spectral position, and half-width. Orig. art. has: 5 figures, 1 formula, and 1 table. [Based on authors' abstract] [NT SUB CODE: 20/ SUBM DATE: 13Jan66/ ORIG MF: oo2/ On riEF: 005 Q  kand. rl-mle.; XWPt'%YOVp S.V., h,1-1. telllm. mvk .,..,tulea "t,thod of rcintrolling the con.-,;3t(may of thn protectIve M~ -ce. 1, for rabfol ment. Strol wit. 10 no.9t2l-22 S 164 CallIA IW)  !4msm a A, -1 6A 4. L a 14 r'i4 1 1 tow 1 4 &A Ps mtv ItiIt 00 A slag 00 W as 01 A-Lisk, X 6 es 9 Masao 1 0, . am, to 14(ju of Coo 7 s '-'Pa. jwrtt." the merhanksl Strength of the varpest. but the 0 0 a The dvrma fattis with the incticarAffif tMP lace only during the OWIY b4ld"IFIS b" t d 00 arreame a p Period arA mwly disappews in 28 day*. Ilia wiling time of the ec"wist dmirawit only BRIMly. A drying temp. .1 mm), is m--mmumided fur lht- come lwv"l Issiod. 9, K. 14*know*y 00 -460 :.o0 -0 0 -00 00 zoo w Ki -0 41 :09 4.110UPKAIM. ..06 S2. Ile- -.0 4k ilf 41 M It *1 ; ", - I ,, ' "i" it K 04 0 p o o 0 0 0 0 0 0 0 0 0 0 0 a 0 0 0 ; * o 0 0 o o s o Is 0 0 9 9 0 0 0 0 00 000 0 a 0 a IS 0 ~:"j let 01's 0 00 0so 0000 0 0  11 94 Is ii 1ji is it 0 is is V a 10 bp VII N* us? 11*4414tumisto I,- I ~ V131 a a is A -A X l' 0 1- It, l-&-l-L PA -0 (m DR-0t, ~k-j J, g k j 1-0-0 J~JLIJ- V 0!0 I.T-pirples , , , - ~ - ~ , --l- _,.r ..0, (601011, T-00 go: 00 so A taflusece of tsiba amadde Do tke attivity of platimitim get catill nw,,,dm of OWIU M44 to sulfur NIVuh. Issra. -00 nienk. ..I A. 0# 00 4 (IM): X him. Xrl~rvt. Zhor.l. No. I 1 -12, 1041 iJO. During the smelling of it Coal , a nortual amt. of V (not over 5%) the formaMmWONImptolialite. FJNMIl A Co for"Mmi take place. It Is temilly f4mvirtled 1111.0 (when passips over the catalyst) Which Is wit a ri-n- m fact r"will. 111P tspis. lieffoonlrd Willi P*11tv, collig. MOO "V 44 E, Aow-41 the I"Vormt, (4 11.14-0,41m% 14 VO Its thf-jam. T"digurrmweir Immeyrr within Ow limil-ii.1' expli, emir. The Up iorfn~i ran either Im"m the &.4tit. roe 66 al 1y", thos I~nmr its activity, or It can Intm with NO, ZCOO the polsoneus COS or other substances. 11w Influence 1i of CO on a Pt calmilpt was Investigated when Ili# amt. of jtoo 1 3% Nadri-rejuirolthe !, doe artivily lot the i:=. The CO was torn - plerfly cmktl"d to on In. In gases leaving the "mo. tact app, no CO a-.xdd be drid. W. R. Henn 0, 1 360 ;boo Ole At Cc tj - tio o 00 go ti Art fi~~iT -------- A I '-K Q.- 0, 41 V 0 U W) it Is If It itx All a I a ad 0 4 w 9 &A a 3 9 0 0 0 0 0 0:0 o 0 0 0 0 6 o a 0 0 0 q 0 0 Q 0 0 0 0 0 0 000 000,00 0 *a 0 0 0 a 0 0 0 9 -4 *-:4- : -:! 0 _0 -0 o 0 00 go goo*$ 0 0 00 0)),  Ali 00 1114111 13 00 a 0 W 'VI I A 14 h IS V 14 pacKitsli M,Oil U13 34114 %V It M041 U&k 04140 N4 ak k b e W o. elli and G. K. Ifiro"ir 41-4* Kkimm. Mimi. Zksr. _M+R No 2 ) 19j9 . . . ' No. It, 90-1~Durfng the'PlOdUttim'01 them*- 100 , janthrarite Ia the Miroshnfichirolict furaw" UP Ili 20% of /anthracite is ga"ed, by blowing with sielam-(h or air- stcSM4)~ the contents of CO and H can be hKTrs*d to l tb f NH ano . fne j or o -itame for the syntbesisol L1d productim of itic.-mosuibrocitr and Ice the = C Mi Ago ml syntliesh lowerit the cost. W. Co to Ia. I IT, a 19. ass 4o Oo 0 too too o p, 9 1 W 0 0 0 0 0 ::Joe 0046 so 00 0 0 0 0 0 4 9 0 a 0 0  Is It 9 Is v is x AT AS n I I I . b 1 6 . . . , Is? #.D " t"lle L~l I Iti ..9 11. P.Dtai- P. *sews 01, 00', AU1.08 041 7 - NAVINIAs.11 MORS 1 go 00 son UIN-j -Z '11 -113AIS aJV 'OdU= ftl JQ*-IFW~W T"13.1 m q 0aflL ptm dos 8 *go Aiessinj oqi as nl aq3 jo qmjddw qita savan" 0 ja *sum 0: 00 oes .j auWKlqd- Bus s- -j" * j-- ( 'KI- lu - s- 00 o p- q pM ! q j q jvqio 1mv -31vqiqd- p 3-39c0 l 00 lix Put Wirt) aq--q Put 'HIP To-ro 9111 To ' l , 1 d 00 - r 9C-g l) im 11 11 CZ-1Z 00 al a iggg ():) 0 0-- j1dumy , ujjvumwpjd0:)wup-Hqs1m-2-P-d d iwqi Iss a"3 dww v M nS mp mamun) sipwtpun l * tlwjl - o moo diu3i- l a u l 0416 qj q j lq v= ot q l r a VA 00 A-u 00. go 0 0. 00 *0 0 Is 441 .40 00 if ft It a0 it a Is ,61 0 0 al 9 0 0 4100 M Vf a Is 0 . - 660 0" 41 -ll 14 4 4 4 3, %%11. 4 A is 0 - -- U~ gg  ymnw)(0-f- V. -YA* Yeremenko, V.Ta. 'On a study of vaters of four mines ofhthe Meavetayantrateit trust," (reference), Soolshch. o nauch. rabotakh cblenov Vaesoyuz. khim. o-va im. Mendeleyeva, 1948, Issue 2, p. 25-26 SO: U-2888, Letopis Zhurnallnykh Statey, No. 1, 1949  A rapid method for determining a low quantity of Iffurdne" to water V Va-Ecculaishn (i(Ilithokidin. ln,t . Nots%h-t- L44v%k Ulm. Maleft'lly (llylh`(X'llVlW MAIrliAll), 15, 72-01(1999).-The methad t% Itmed on tfw furl)Wily prop. lltwrd by shr olealre #4 Ca and Mg Fivir fill. of Ifir *41rr Oil I"t Out" fire Irruted with OA nil, K olC4fr -411 . ad' Illitting the lAtttf U10111 the! Wall of the It4t IUIW. '111V %(andar& wW tfse unknowns am quickly milled 4nif affir 15 inin, the turbiclity b compar"I nepheltirimirork-Ally ins u blach hatlivourid. Previnu. ,, ml%ing , Ith the K oltate. the water i- ficutr6dixed, boiled to drive off the C(h, arid m to inake it alk, to phervAphihAvin, by dil'olving 11% fill, of nicir i1cill ill Th.. JC -I-,. - ,., I. -f tx'~Oz - 400 rid. of 11,0 1, m1ded. and I S. KOII dimolvetl in it. After 3 4 ddy% the u4n. i% clear avid reatly for use. The prescrivir of salts, arg. nwfirt, and S4 phosphate do not ill.it"Irfe with the dt-In.  Igo.. tM AW 10 by Now wo ism now low OMAA4.6 S~ is ON" b to". jWWm tMos. The to 44 *6 at daft as gtbw tbo The and "oleo data. we  DgtefMlft&tfOn Of OWSPIC 10 WatCf. V. %A. VICMCOM (Ilydripchem. Inst. At-44. S& USSR. N`uiiWhFrWxW 61j'OkAim. Relfrialy (Ilydrow4em. kd;rrialt) to, IA-2I (11#19) -The ormi-filtrallon meth,of by &little* and 1161, grit (C.A..iis, the Zmeger-lihick inelhod. Ilor As tijuirat ot ().()I -4.7y.'f fir ""W .1ki nm exeml 0.01 al". F.-r over 0.7 V. rmw rim-$ I;Apidly and I'W ovvr 1 7, drtn. ' its mi use of dark. it 13001 Vning of the field. In "talking the eta., 150 Mi. cunni. ad, IICI to Mi MI. of water 10 analylefti), all 7 j. Z", maiii. lain Vacuum at 510 min. at first (Io~v tale"n ve sepa. of Its) and then it .3W trim, after min. treat dis a with It)% K I it solm. wash. dry. and cornpue "is. It. Z. Namwil