SCIENTIFIC ABSTRACT NOVIKOV, B.V. - NOVIKOV, F.

GROSS. Ye.F.; NOVIKOV, B.V. Fine structure of the spectrum curves of photoconductivity in cadmium sulfide crystals. Piz. tvar. tela, 1 no-3:357-362 Wr '59. (KIRA 12:5) I.Lanin,gradskiy gesudaretvanny7 universitet, Tizicheskiy institut. (Cadmium sulfide crystals) (Photeelectricity)  GROSS, Te.f.; VOVIKOV, B-V- Effect of the mechanical processing of the am-face on the fine structure of spectral curves of photoconductivity In cadmium sulfide crystals. Yiz.tver.tela I no.12:1882-1885 D '59. (MIRA 13:5) 1. Leningradski7 gosudaretvenny3r universitet, Fizicheskiy institut. (Cadmium sUfide crystals--Zlectric properties) (Photoconduct i. vi ty)  24(7), 24(b) SOV/51--6-4 -~9/ 2? AUMORS Gross , Ye -F Fo7i ico7, B.V. , Ra zbi rin, B.S . and - us lina , L. 'J. TIT LE ..bjorAion ZFectra of ~;ry6tals of ~;artain Gallium :;halco;enideq (~ipolctry pogiosnchoniya kriotallov noicotoryich lchalicogonidcv Calilyu, Fo,,~IODLAL: Optie:a i ~'-poictrof:fopiya, 1~59, Vol t), Nr 4, op 569-E72 (*J~~SR) a P-5,rRA C T %Linear structure in trio edge of furioamantal au:~orntlcn ivas obs-irved in tno sj,octra of swo semiconductors kRofp 1-10j ihe-e lines vare a~;(.-ribad by soms) uutriors to axiton states and E)y otheirr to exco3n of ona of the ~cEaponentz of the semiconductor or tc a foreigi, impurity. Lne Prqniant pa,~or renorts an investigation of the ab-sorAir-n 3pectra, of gallitim sul-)hiede and salanide crystals (GaS and GaSa) with hexagonal laminar etntcture and cry3tals of/3-Ga-43 and GaIiSe~. crystals wora obtained by malting together at 1000-10500C amounts of rallium and sulnhur in ova,-ruated quarte anpulae ryt; V., I - of /j-Oa2S3 ware prepared similarly b-ut at a ni6nar t-3mPeratura t1200-1250'1- Pr*Daratiova of ~;aSa and Ga23093 synunatry,l w"-, described by 1~oryunova at al (Rof 13). GaS and wore used 1, tne form of nonocry3talq rf trii,nwarnos varying from several ml-ron5 to ICO G(L253 and Ga2z;03 vibro 50-100 Ii thi,--V,, Structuro in the fundamintil absorption adge vns obisarved in the spectra of' GaS and Gaza at 771K (Fire la and 2a raspeztive1v,,. Such structure was also visible in the  Absorption Spectra of Crystals ol' Gorivain Gallium Chalcogeni'las SOV/'51-6-4-29/29 absorption spectrum of GaSe at room temperature. In contrast to GaS and GaSa. no structure was observed in the fundamental absor-Aion edges of Ga2S3 and Ga2S*6 either at room temperature or at 770K (Figs 16 aLd 2d). The absence of structure in the absorption spectra of 11-Ga2S3 and Ga2Se3 is probably due to a large number of randomly d13tributed imperfections in these crystals. Such imperfections impede formation and migr,tion of excitons and consequently the exciton lifetime is very short. Under such conditions the exciton structure of the absorption bands may be very difruse or it may disappear altogether. From the absorption spectra the authors deduced the energy gaps In these semi- conductors. , table on p 571 lists the values of the energy gaps so deduced at 2900K (col 2) and 770K (col 3). These values agree satisfactorily with those deduced from photoelectric measurements at room temperature, which tLre listed in col 3. Acicnowledgiaents are ~",ie to N.,.. Goryunova for supyly of GaSe and Ga2So,3 and for advics on prepareition of GaZ and Ga2S3 crystals. -rhare are 2 figures, I table and 17 references , 10 of which are Soviet, 5 Franch and 2 3arran. SUBUITTED: November 27, 1956 Card 2/2 USCGrJ-,-~-C--60,717  7101=4 B-2-, and GROSS, Yevgeniy F. "Fine Structure of Spectral Curves for Excitation of PnotocorUuctivity and Luminescence and its Connection with Fxciton Absorption." REPORT TO be submitted for the Intl. Conference on Photoconductivity, 11UPAP, Cornell University, Ithaca, N. Y., 21-24 Aug 1961. Leningrad State Univ.  22()59 ,9/181/61 /003/C)C~'./_-25/~~-, 9, Bi 02/B20~ AUTHORS: Ye. F. and Novikov, B. V. TITLE: The relation bet,-;e,~n ba~,kfroua,,, and the "ine-struct,re maxima of the si!ectral curves of hoto_-onJuct.v_t. in C~ls single crystals PERIODICAL: Fizika tverdoec tela, v. 3, no. 1, 1?61, 1219-1252 TEXT: In previous papers (ZhTF, vy~,- 4, 913, V456 and DAN SSSR, 11C, no. 5, 761 , 1956) , the authors reported on the liscove ry of a com~l - structu re of the spectral photocurrent distribution at T - 770K in the ra~.je of the kncwn exciton absorption lines.. These distribution cur-j(-- may be divi'Je! into two classes: The first class contains those in wl,ich the exciton absor-,tion lines coincide with the photocurrent maximum, while the second claqs enccn- passes such in which the exciton absorption lin'?3 coincide with the phot,- current minima. According to this classification, the crystals differ essentially in the character of the short-wave Irop of photjc(,ni1i(,-t.'.'11tj. In a later paper, the effect of defects and surface condition of CiS cryst,ils upon absorption lines and photocurrent curves was otudied. These sVidies Card 1/4  S/1 eydT~?3/004/,-_ 2 The relation ... B102 B209 have now been continued. Both classes of CdS crystals have a structurt;less background. Fig. 1 shows Viat the relative values of maxia,a ani brickt~r(,jril differ greatly in different sperimens. In the c)~rves d--noted by a, E' was perpendicular to C (E - electric vector of the excitine lifht, C axis of the crystal), whereas in those indicated by b, E 'was liarallel to Like M. S. Brodin, the authors found that the background is consideratly polarized in the direction of the electric vector EIC. The structure if t.,,e photoconduction curves vanishes in manj cases if the surface of ti.e crystal is subjected to a sliCht treatment. In this manner, curve a ir, Fi~_. 2 WuB obtained from a3 (Fic;. 1) by wiping the surface of the crystal with uet cot- ton. The sensitivity of the specimen decreased. The structure of t.'~e curve after polishing had such a shape that the crystal tad to be assigned to the second class. The authors also determined tne sj,er ral diStribution curves of polycrystalline CdS films sputtared upon glass tackings. In such films which exhibited a structured absorption edfae, also A structure of the photo- conduction curven wan fou;A. ThF) background was very high int,!,; case, and the fraction of radiation sA to Jetermine the atr,cturo accounte'l C-nly for some per cent. These facto speak in favor of an interrelation between the photoactive background (or part of it) and the lat..ice imperfections. Films Card 2/4  The relation S/18 61/003/004/025/050 3102YB209 having no structure of the absorption edge had completely smooth photccur- rent curves at 770K. V. L. Broude, V. V. Yeremenko, V. S. Medvedev, M. K. Sheynkman, N. N. Chikovani, and 'al. S. Brodin are mentioned. There are 2 figures and 10 references' 7 Soviet-bloc and 3 non-Soviet-bloc. The two references to English-language publications read as follows: D. Dutton, Phys. Rev. 112, 785, 1958; D. G. Thomas, J. J. Hopfield, Phys. Rev. 116, 573, 1959- ASSOCIATION: Leningradskiy gosudarstvennyy universitot im. A. A. Zhdanova Fizicheskiy institut (Leningrad State University imeni A. A. Zhdanov, institute of Physics) SUBMITTED: September 26, 196C Card 3/4  The relation ... 2?059 s/iel/61/003/004/025/030 B102/B209 tic Figs. 1 and 2 a- z Card 4/4 cry tic 500 490 450 470  MA ~'-Y/77 (103!~116yl) 3/181161/003/011/040/056 ~4 X~~-j B104/B102 AUTHORSt Grillot, E., Gross, j, F., Bancie-Grillot, M., and Novikov,_P_. V. TITLEs Dissimilarities of spectral photosensitivity of pure CdS crysta2e PERIODICALs Flzika tverdogo tela, T. 3, no. 11, 1961, 3519-3521 TEXTs Studies are canducted on the influence of the method of manufso- turer the thickness of the specimens, and the polarization of tho exciting light on the spectral photosensitivity of CdS crystalE of high purity. An inatz-Lunent described in a previous paper (Ye.F. Gross et &I., FTT, 1~ 35k 1959) was used for the measurements. The specimens coolod down to 77 K were exoited with ordinary and polarized light. At this temperature, the specimens exhibited a dark resistivity of about 10 10 chm.cm and, at the same time, a high photosensitivity. A rather characteristic fluorescence occurring at 20 and 40K in specimens produced by sublimation had been detected earlier ( E. Grillot et al. C.R., "29 1794, 119 61 M. Bancie-GrIllot et al., C.R., 246, 215, 19591 ZhOS' Card _75 V\  1101/61/003/011/040/056 Di sn, i:ii lari ties of -,pectral photosensitivi t. pol,irization plane of the excitin, light. Thii influonn.,? is particularly 3trikin~r, near the absorption edge. T*,i(,,re are I figures and 10 references: 3 Soviet and 7 non-Ooviet. The r-.~fnrenco to the EnClish-language publication reads as folloviss R. H. 13ub,-. J. Cn,,,!~i. Phya., 21, 6, 1409, 1,)53. AS36CILTIOrli Fiziko-tokhnichoskiy institut im. A.F. loffe AN SSSR Leningrad (Phycicotechnical Institute imeni A.F. loffe A3 Uj5R, LeninGrad) ~;U,3:.ITTZDi Ju1Y 15, 1961 Car,1 3//  ~00 3/181 '62/,r,04/005/011/055 B1 25/B104 Grosq, Yo. F., Lider, K. F., and Novikov, 13. V. 3nectral examination of the photoconductivity curves of CdS crystals at 17 and 40K in the rel-ion of the absorption e(Ice I 'J I CA:. Fizika tverdoro tela, V. 4, no. 5, 19621 1135 - 1139 C ? 1 it t c sof CdS sin[je cryustals affixed to quartz bnckingn were used VA to studs- the effect of temperature on the shape of the spectral curves of nhGtocurrent and the coincidence between the gboorption maxima and the vU1u-_-.s of piiotocurrent. Coolitij- from 77 to 4 Y produces the followinG effectE;-. tlie i-.bsorption spectrum, the curves ars also shifted toward Snorter All curves obtained at 4 and 77 K may be divided into two according to the coincidence bet-neon their absorption maxima Lnd 14,~.eir extre-,,.e values of photocurrent. In the first group, the absorp- tion lines correspond to photocurrent maxima, and in the second, they correspond to minima. On the short-wave section of the curgee, the photo- E;01-lSitivity o~ crystals belonging to the second Group at 77 K was higher ,-ard 112  )13126 S/181/62/004/011/026,'049 B125/B186 A'M~hS: NoviKov, B. V.t Sakol'skaya, 1. L., and Sr~cherbakov, G. P. TITLE: Fine 9tructur, of spectral dependence of the dutoelectronic emigsior, from CdS mon~_,crygtals GD1 CAL Fizika tverdogo tella, v. 4, no. 11, 19-2, 'EXT -,'h ef ine structure of trit elect., on spectra were stud ied i;. orour to P :ucidate 3tructures aticn snow ana~ogi vs t:~ ti.e spectral J i stri but ion o f p r~o t,) co nd u c t i v 1 ty , a 19 o t o o b t ai n !,,j w 11 a t a on au t oe 1 e c t ro n i c w: i 9 3 1 o n, qna to coapare the lata -Nitn tnose of p:,otoconductivity. t D n 3 a ri t ti t! x ~ e r it :.!U I I k" r- t Y pe e I ec t ro 11 , e fif, rat 0 r w I t!" a V'xC uum 0 f0mm ilt7' 4-!k0 utled. C~S Cry3talS, ,.L-9urinF .-l.')-0.01 m7l, were useu as emitters witt. no ipeci al imp~~rities introduced. To restore the Pr-to3vnsitivity of trie crjitals wtil ch was lost at 4860, 1 n *ne depassinj; process they .,ere bombar-,-A wi th ~electrons of 1.) ~ev. For worying at ION temperatures trie tn.-rr:,a. equilibrium of the crystal temperature was establisned at WK -gi n t r,e aid of liquid nitro6;en. A monocnromator witz, a dispersion of 45 A/mm and a spectral 31it Of 2-b was used to illuminate the entire crystal togt~tner Card 1/4  S, I ~-- I ,- e ') ~, - '. ~, *, 1 ~ - , , , ". Fl n (- fit r,ct iz-(. oi :i: ec t re, L5 12 tj 16 t) AI th t r, .,e 1" C, r, r, 3 5 C, e c t r, 'ToL I tj C~i: en t 0 t, G r, t ~A x . n 12 e v ~I N 111, ~I 0 c t ~n -I C t, C 0 jb 5o rp t n b t n A I 5,i rv u 1 X Z, e I I : k~r, t ri~ 7, t z; 7,) r, c u d r, t tf,,: c:, ~t:* Ats~r:.ti s ~ e i f I c rt~ a.,t,.ectron v - i s 3 c,,,. L r, c r,~ r ao., t - t r E~ro ~Zct~3slve rcat!:.6 'I, t. e V L'I C 7. r e p e a *, p d b 3 m ri ra -:.,, r, t G i a t n 6e t n t: i, o 9 i t i o r. a 3 f t:. t- t. x c to n 7. 1 n I Pno t ocond -ic t v i ty and aut c e ct ror.." c ec". 1 3 31 0 r. s.--ec t ra s tud i -, d toj CdS crest,. I u a ~ t -A * ~ v e ,Z r e em. un t b j t a v t~ r.,), s~..-Irpl~' ~Xj. Z' ~ S s 7. -A x I M U,-, t 1, 0 t 0 c 0 r-, Ic t . v ; * ~ U I r,- !~ t Autoelectrrn.Lc .,',s rpt,.cr, obt-~Lined -urtair, c,jrdito,-.!3 at 'x >,, Lig e & n tare no - x c , t o n . : r. ... s e x i -, t and w frL- ccm, t (-, I ~ o r p ~.r - I a , !,,, juenc ned by I R I igh t . 'he appearance of !one:-ov;jvf-- T,,,Ixirra I s attri muted to illumination and plate voltaf- P condi ti I he ~qe j;hc, noment, are , rov ~ 3., ona I I y e x..,,, a i ned Iy the f c I I o-v i rg ny, c, th C. 9 1 o Ca ra ~/4  F I ne v r-~cture of a,,, ~c t r a!... 8/1B1/62/004//C11/C26/049 B I 2z,'~ I e" I - tne ir.,.omc, enei ty of conauctivi ty -es-, I ting from the stron(,- fi el,J effect I a 1,y the em', tter , oint earlier than by th~,, rt-a,ai r,,Ier )," tne C ry ", t Hence it -t!i,t:rates a strong local field in certain parts --f the crystal ano consequently also a volume charge which is capabl, of 03C41".1ating. The electrooptica. effect which may occ.r in t?~e region of a strDnf-, field L. 7. Kel_,ysr,. Zni~TF, 34, 1138, 1~1_1')e) maj ~03sibly causc, tne ~xci latior, of t~lectror,3 by lignt witt, ) > I ed,~ e, ~~.eqe electronB miay diffuse into otner Drts of tne cr'-stal and may amplif,-, tne auto- c ctr ni c c-,~rrent In tni s respect, tne acti on of 1R li6ht is t!~uq. to that of vi sible liv~,t. -L:.e poz;siui I i ty of electrons being overneated in tree strong field reV.on ana of no,-equilibrium electrons diffu3ing into adjacent parts of tre crystal 18 riot excluded. There are 4 fiEures. A SSO CI ATI ON :Leni rgra1Bkiy t_-osu ar5tvennyy universi tet ' Len. ngrad State University- SUBwITTED. June 26, lq62 Card 5/4  NOY IKOV I - B.-V - Dissertation defended for the deeree of Candidate of Physicomthematical Sciences at the Technical Physics Institute inent L. F. loffe in 1.962: *Spectral Investigations of Photoconductivity In the Region of the Abrorption Licit of Several Crystals at TZ 770 K-8 Vest. Akad. Nauk SSSR. go. 4. Moscow. 1963. pages 119-145  LIDER, K.F.; NOVIKOV, B.V. Absorpti~,n, lwsinesconce, ar, I of polycryntnI lr,,- Aj,I films in the region ()f Ow ~'ibsorption odge at low tc-mporatur-s. Vest. LGU 13 no.lOs45-51 161. (MIRA 1b: 8) (SlIvf,r 11 ,IiIt~---Ai..,v)rption spectra)  AKOPYAN, Y. Kh.; GROSS, Ye. F.; DREYWGOLD, F. I.; N'OVIKOV, B. V-.-; TITOV, R. A.; SHERMAN M EVY R. I. "The Investigation by the photoconductivity and luminescence wthorl of the exciton states near the edge and in the depth of the fundamental absorption In crystals." paper submitted for Intl Conf on Physics of Semiconductors, Paris, 19-24 jul 614. Leningrad State Univ.  Acassiou uRe AM39642 5/0101/64/b06/006A612/1618 AUTHORSo Kreyngolld# F. I.1 Novikovp B. V. TITLEt A study of the reasons for the variability of spectral lines of photo- conductivity of Gd5 crystals in the boundary region of absorption SOURCEs Firika tverdogo tela. v. 6, no, 6, 1764, 1612-1618 TOPIC TAGSs spectral line, photoconductivity, cadmium sulfide', absorption QXcitation, modulated light,, thermal conductivity/ ISP 28 spectrograph, SVDSh 5W illuminator ABSrRACTs The tuthors investigated the correlation between the changes in the fine structuro spectral lines of photocurrent in US crystals (originating from the process of cooling the crystals from 77 to 4K) and the changes occurring in the photocurrent spectra during transition from the modulated regime of excitation to the unmodulated regim. Experiments were perforrwd to study the thermally stimdatod current and the luminiscenco spectra at 77K. Yo. F. Grosa and B. Ve Novikov had shown earlier (FrT. 1, 357v 1959) that it was possible to claDsify these crystals into two groups according to the spectral lines. It is shown in the prooont work that the first group is characterized by one peak (0.15 ev) of the V3  Aj~CESSlojj rilti AphO396142 thermally stimulated current in the interval of temperature from -196C to 20C; alsog they do not show luminescence. The crystals of the second group are characterized by two peaks (0.15 and Oe35 ev) in the same range of temperaturop and they show strong green or orange luminescenceat 75K. Data on t1W spectra of photocurrent revealed that in a serie3 of cases the spectral lines differed essentially in the range of 77-hK. In the second group, some lines transformed into the first group on cooling from 77 to V. The role played by the collector was Investigated by the method of thermally stimulated conductivity,, outlined by A. P. Trofimenko aid G. A. Fedorus (UFZh, 3v 468m 1958) and by I. I* '1oykoq E. I. Raahba, and A. P. Trofimanko (FTT, 2v 109, 1959). The crystal aas firot cooled to 77K. and subjected to intensive 111unination. Then the light was shut off and the dependence of dark current on temperature was aeaGurede The rate or heating(at a value between 0o07 and 0*3C/sec, depending on the experiment) was kept constant, The intensity of the collector was obtained from the L'o1lowing formula E In where E is the intensity of the collector, tho rate of hoating# T. the tomper- aturo at which the thermally stimilatod corductivity is a maximumq and A is a constant, Along with this the luminescence of CdS crystals was also studiede The -sPWtra were obserw"# using an IW-213 qmctrograph a SVM-500 MumInator. Card 2/3  ,ACCESSION URs AP40396h2 These experiments revealed the connection between the luminescence and the presence of collectors at 0.15 ev. Luminescence originated at 77K only in such crystals in which collectors were present, The authors thank Associate Member of the AN SSSR, Professor Yeo F. Gr039, for his interest in this work and valuable discussions# and Ye. Andreyev,, graduate student at IZUv for helping with the experiments. Orig. art. hass 3 figures, 2 tables# and I forwjla* ASSOCIATIONt Leningradskiy goeud&r~tvenM%7 universitst (Leningrad State University) SUBMTEDi 1ONov63 ENCLt 00 SUB CODSI Ss HO W GOV# 012 OTHERt 006 3/3  ACCiZ51ON 1,21 A?403966o s/o181/64/oo6/oo6/172~/1728 AUTHORS: Sheklunametlyev, R. .; Novikov, B. V. TITI-Et Excitation spoctra of photoconductivity and edge emission in CdS crystals SOURCE: Fizika tvordogo tela., v. 6, no. 6, 19614, 172L-1728 TOPIC TAGS: excitation spectrum, pliotoconductiv-ity, edge emission, cad:.'uu1n Sul- fido, modulated excitation, monochromatic illuminator W14 2, spectroGraph 13P 51, photoolactric attachmon~ FU 1, applifier 213 11-1 ABST 110T : a-citation spectra of ad,-,o emission and of photocurrent in CdS crystals were studied at mocbilatod and unmodulated exposures at a temperature of 774. it was desired to compare. the characteristics of pi-iotoconductivity and excitation of ed.-e omission in a single sdOcimen. Tlio excitation of groan emission was produced by means of a mono clirorLat ic Muminator UNI-2; the source of 11Ght was en.1rcandescent lamp; and tho exciting radiation fell at an angle of 10-150. For recording the spectrum the apparatus used included a spoctrograph ISP-51 with photoelectric attachment FE-P-1, which gave a good resolution in the narrow ranges of emission of 0 20-30 A. The spectrum of excitation of photoconductivity was measured both at -Card 1/2  ACCF-&SION NRi AP403966o stationary and unmodulated exposures. At stationary exposure the photocurrent was reGistored by an olactromatric ampli-fier. Registration of photocurrent at modulated exposure was accomplished with an amplifier 26-IM. The siGnal was recorded by a mirror galvano,~oter with photopapor attachmont. The modulation of light was produced by a rotating disk with a notch cut in it. The frequency of modulation was 600-900 cps. In the spectra of excitation of edge Omission the lines of excitation corresponded to maxima in the spectrum for sznple 3 and to minina for sample 43. In the spectra of excitation of photocarrent at unmodulated exposure the lines of absorption corresponded to minima in both specimens. The authors thank Yo. F. Gross, associate member of the N Al SSSR., for his valuable conments. Orig. art. hast I figure. ASSOCLMON: Loningradskiy go9udarstvonn:y*y universitat (Leningrad State Uri:J.versity) S~73~11M!Mi 29Dec63 122L a 00 SUB CODEz SS ND REF SOVt 008 OTHERt 009 !/2  -L.30956-66 EaT ( 1 VEWT (m VT VAV1JiV11iE ACC NRI AP6613390 SOURCE CODE: UR/0096/66/000/005/0081/0 AUTHOR: Novikov, B. V. (Engineer) Z ORG: none TITLE: Some problems In designing-iZentriflu ____ Ygal injecl~~rs SOURCE: Teploeriergettka, no. 5, 1966, 81-84 TOPIC TAGS: fuel Injector, centrifugal fuel injector, centrifugal Injector ABSTRACT: Experimental and theoretical studies were made to determine the reasons for the discrepancies in experimental and theoretical values of centrifugal fuel- in ecto Previous investigations have shown that discharge L_dldischarge coefficients. coefficients based on Abramovich's theory (which assumes that in a nonviscous flow, the total pressure head in the injector is constant) are lower than those obtained experimentally. Experimentdl and theoretical relationships are derived for cal- culating the hydraulic and cavitational losses in the tangential inlet ports of a centrifugal injector. It Is concluded that: 1) Hydraulic losses inthe tangential inlet ports result in a decrease in the actual discharge coefficient. 2) The pres- sure head drop Increases as the relative velocity head at the inlet increases. 3) In fully opened injectors, (dn - Dch, where dn - nozzle diameter, and Dch - swirl chamber diamete-c). during discharge Into an atmosphere at large pressure gradientst the formation of cavitation is possible at the injector inlet, and therefore the Card 1  ACC NRt AP6013390 J discharge coefficient is reduced. 4) The injector's geometric characteristics are affected by the deflection of the jet issuing from the tangential port. Orig. art. has: 4 figures, 2 tables, and 8 formulas. (AS) SUB CODE: 21/ SUBM DATE: none/ ATD PRESS: q -z 3 -r Card 2/2  ACC NRi __AP603632l'_______ -----SOURCE _CODF:_ GE-/0030/66/Ola/011/KO01/KO04 ~AUTIIOR: Lider, K. F.; Novikov, B. V.; Permogorov. S. As ;ORG: Institute of Phvs1c9. State Universitv. Leninarad TITLE: Application of bound-exciton optical spectra in the study of radiation damage in crystals SOURCE: Physics status solidi, v. 18, no. 11, 1966. Kl-K4 TOPIC TAGS: radiation damage, k_rx=di77rt71:on-_dnt-,,,e, ionizing irradiation, exciton, AnSTRACT: Radiation damage in crystals was investigated by meanG of excitona bound to lattice defects. The radiative annihilation of bound- exciton states gives rise to emission lines which are resonant with the i absorption lines. Of the bound-exciton lines. the most intensive are the 11 line (4888.6 A) and the group of 12 lines (12A: 4867.2 X; 12B: 4869.1 A; 12C : 4870.2 X). flound-exciton emission was studied at 77 and 4.2K in CdS crystals bombarded with ions and deuterong. Ion bombardment caused the 12 to appear In the luminescence spectrum at 77K of thoGe opecimens for which it had not been observed before bombard- ment; it intensified thooe which had been present before bombardment. At 4.2K a new line with a 4870.1 &wavelength appeared in the luminescence Card- 1 /_2  ACC NR, A P 6 0 3_63 21 and ab6orptton spectra of ion-bombarded crystals. The ntimulated iine corresponded to the 12C line. To prove that the changes obnerved in the luminescence spectrum resulted from the radiation damage, CdS crystals were bombarded with a flux of 1016/CM2 6-Mev deuterons. Essentially the same changes occurred in the luminescence spectrum as occurred afters bombardment with ions. At 77K a line appeared in the luminescence spec- trum with its center near 4686 A. As compared to the line obtained by ion bombardment. it was considerably broader and did not exhibit an apparent dependence on light polarization. All the radiation induced changes were'stable at room temperature. The appearance of an emission line at 4886 X at 77K as well as the emission and absorption line at 4870.1 A corresponding to it at 4.ZK can be associated with the in- creased sulphur vacancies in the near-surface layers They act as donorsi and produce a change of dark resistance. When ouch crystals are excited by light. exciton neutral-donor complexes are formed near these vacan- cies, which cause the appearance of a now spectral line. The energy of the bombarding ions and deuterons is sufficient to displace atoms of both sulphur and cadmium. However, in this case sulphur vacancies are primarily formed. (WA-951 SUB COM 20/ SUBM DAM- 29Au&66/ ORIG RM 003/ OTH REF: 005  ACC NR: AP6036321 SOURCE CODE: AUT"IiOR: Lider, K. F. ; Novi,..Ov,_ Permogorov, S. A. OR.' Ins, t itute o f- P-hys ics , S ta te Unive rs i t y . Leningrad T:TLE: %pplication of bound-exciton optical spectra in the study of radiat'-on dsiaage,, in crystals SOURCE: Phystca status solidi, v. 16, no. 11, 1966, KI-K4 TOPIC TAGS: radiation damage, ~L_ ionizir.,-, irradiation, exciton U A5STRACT: Radiation damage in crystals was inve3tigated by -..canr of excitons bound to lattice defects_.--,-The radiative anni~iilation of bound- exciton states gives rise to emIG5ion lines which are resona;lt with the i absorption lines. Of the bound-exciton lines, the most intensive are the 11 line (4888.6 X) and the group of 12 lines (I 2A: 4867.2 1"; 12B: 4869.1 ~; I2C : 4870.2 A). Bound-exciton emission was studied at 77 and 4.21~ in CdS crystals bombarded with Ions and deuterons. Ton bumbardment caused the 12 to appear in the luminescence spectrum at 77K Of those GpCCi.MCnG for which it had not been observed before bombard- ment; it intensified those which had been present before bombardment. At 4.2K a now line with a 4870.1 A wavelength appeared in the luminerxer4e Cord - _1 /_4  ACC NRi AP6036321 and absorption spectra of ion-bombarded crystals. The stinu_"aze(~ !.~ne corror-ponded to the 12C line. To prove that the changes ouserved in the lumiaescence spectrum resulted from the radiation damage, CdS crystals i were bombarded with a flux of 1016/cm2 6-Mev deuterons. Ess'2r"'ially the same changes occurred in the luminescence spectrum as occurred afteri bombardment with ions. At 77K a line appeared in the luminescence spec- crura with its center near 4886 X. As compared to the line obtained bj ion bombardment, it was considerably broader and did not exhibit an apparent dependence on light polarization. All the radiation induced changes were stable at room temperacure. The appearance of an emission line at 4886 A at 77K as well as the emission and absorption line at 4870.1 X corresponding to it at 4.23K can be associated with the in- creased sulphur vacancies in the near-surface layer. They act as donors and produce a change of dark resistance. When such crystals are excited; by light, exciton neutral-donor conplexes are forned near these vacan- ;cias, which cause the appearance of a new spectral line. The energy of ithe bonbarding ions and deuterons is sufficient to displace atoms of "both sulphur and cadmium. However, in this case sulphur vacancies are ;primarily formed. (WA-9 5 SUB CODE. 20/ SUBM DATE: 29Aug66/ ORIG REF: 003/ OTH REFt 005 Card 2/2  NOVIKOV, D.A. Settling of the pressure filter mud In the field of centrifuj;~a: forces. Tnidy MTIPP 16:67-77 '60. NIRA 16:6) (Sugar manufacture) (SoparatOT'S(Machines) )  NOVIKOVI D.A. W NOMM-0 ft Investigating the settling of pressure filter mud in the field of gravitation forces. Trudy KTIPP 16:1,34-122 160. (MIRA 16:6) Suaar manufacture) eparators(Machines)) 8  NOVIKOVY D.A. Investii?atin.r, t~,! ;-jrformince of :-opirators with varifibla inclination of pnrtitiorp. 7~-,d-7 (MIRA (Separn tors (Machi nee j' )  ~ ! - 4 ~~ 4- 30V IKOV, D. A. Crind Tech Oci -- "'Audy of the ss3ttling, pr-oaexv of shturption mud in a field of centrifugnl for,~es." MoB, 1961 ( Min of Hlg?~er Pind :~f-condjriry 6ppci;ilized Eduention R~F',T?. Mos Technologicni Inst of Mf'nt nnd Niry Industry). (KL, 4-61, 199) -t/;? -W-  NOVIKOV, D.A. Efficiency of separators for settling carbonation mud. Izv. vya. ucheb. zav.1 pishch. tekh. no. 2:1"-151 161. (MIRA 14:5) 1. Moskovskiy tekhnologicheakiy institut pishchevoy promyshlennosti. Kafedra protsessov i apparatov. (Sugar manufacture)  NOVINOW, D.D., ref.go inihoner. "I AnRVsIs *f traumas occuring In Czech mines. Gor.chur.no.8:56-57 Ag 156. (Czech*mlovakio*--14ia~ accidents) (KLRA 9:10)  HORAK, R. Inxh. MRNKA. Z. lash.; PROKOP, S., lnzh.; ROVIKOV. D.D. [translator], gorny7 Inzh. Mining Iron ores in Sjpovice. Gor.thur. no.10:34-39 0 '57, (MIRA 10:12) (Czechoslovakia--Iron mines and mining)  SHTILLER. V. [Stiller, V.], tnzh.; NOVIKOV, D.D. Ltrani3lator), gornyy luzh. Ore mining at the Chvaletice open pit nine. Translated by D.D. Noviko. Gor.zhur. no.10-40-43 0 157. (MIRA 10:12) (Czechoslovakia--Iron mines and mining)  NOVIKOV, D. G., Docent of the North Caucasus Mining Inst Pyrometallurgy of Cooper." Sub 3 Feb 47, Moscow Inst of Nomferroub Metals and Gold_jmeni M. 1. Kalinin AG-f ~11.,* Dissertations prenented for degr,!on In scieiico and engincering In Moscow in 1947. SO: Sum.No. 457,, 19 Apr 55  r~. r F  NOVIKOV, D.K. Skin homotranaplantatIon in rate following administration of the recipients' aplean ni,opension to the donors. Biul. eksp. biol. i mod. 59 no*6t95-97 Je 165. 041RA 18W 1. KafedrQ patologichaskoy anatomil (zav. - prof. :.:. Khlopinu'~ Vitobskogo, mraditainakogo inatituta.  7 fl  240) AUTHORS; Glazov, A.A. Novikov, D..L. 307'57-28-10-!" !C TITLEs Investigation of a Higb-i'requency Resonance Disc-narge (Issledovaniye rezonananogo vysoxochastotnogo razryads, PERIODICAL: Zhurnal tekhnichesioy fizikt,",'(0, _A e C, _ , Nr 10, pp 2294- ~, I ~JSER ABSTRACT: This paper contains a description of tne theoretical and ex- perimental inve-3tigatior. of' a nign-frequency rejonan-e discnarge in a magnetic field in the irequericy range uf' 500 -C~ Mc , This ii.vestigation was carried out in the Laboratoriya yadernyKn pro- blem Ob"yedinenriogo Lnat,_tuta yaJerriykh issledovaniy 'Laboratory for Nuclear iroblems at the ,Jnltad Institute of Nuclear Research in 1956 - 19~7. A spec~a! apparatus nai ',o be ~7ont3tr,,icte I for the investigation of the proper*.ies of a hieh-frequcncy rejonanoe discharge, henceforth referred to by the term RHD. The RHD is produced due to the secondary electrons, the time of' flight of which in the most simple cage 13 equal to the nalf'-period of the high frequency. The conditions prevailing In the formation of a RHD are investigated for trie following two cases: 1, The cathode is simultaneously the hign-frequ,;ncy electrode, 1 - C. 2, The cathode projects into, ',h3 r lgn-frequen~y electrzie, 1>0. 'The ex- Card 1/3 perimental investigation of ~ne RED ~rcceeded in two sections:  Investigation of a High-Frequency Resona,,~P 3 U/ 5 7 08 - 10 - 5 1/4 0 Discharge 1) An investigation of' trP :c--iiti-na prevalling in trie formatlon of the allD and the resonance pr,,pertias of the RHI). e,' An In- ventigation of the '_'hLtkrR1,:*Q7'_FtfC3 ':-f* the -1132tiarde plasma. The experience galned in a 3er4_e!3 rf experizents substantiated the correctness cf the res,Alts r~f *!,e -heoretical study of the spark- over conditions of ,ne M;) _ - C, and algo with the existence of a drift space 'I T'le _--atlons c;,Ita-lned _i this :,,nnec- tion can be utilized in the c)f tne sparXavers ;r, , r. e acceleration (,hamnero for tne pur~,~qe r' an effective arc :3'_1 p - pression and in the design .)" ;rn e~-urces utilizing a RED mechan- ism. The analysIs of' t"e Jis-naige. 2haractt~ristics showed that an ion source Dperating _,i RJI,-', -,. r.c:i~les e xh i b It j Certain aj- vantages as compareA tc a ar: JLs~,,narge and tc ordinary high-lreqler.-~ E-j.-- _'t Jif!er3 the f i r s t by a high percenta8e ut' h*, an~ a practic5:.y in'imiteJ -*- Lf the catnodej. Yrom the it differs Gy tne low va-1,_ies of 9parkover voltages and a E;table performance in a higfi va-A;;~,. This work was unlertaKen i,_e ~c ',ria iri_~tiutlve ol 7.J.,KE1ty;jhev Card 213 (deceased). The mechanc 7.A. ~eperin assisted r. *ne ex:_eri:,.erts.  Investigation of a High-Prequency Rei3onance SO V/ 5 7 - 28- 10- " 1 11'4C Dimcna,rge There are 3 figures, I table, and 9 re:er,~,nceg, ' c-` whicr, are Soviet. SUBMITTED: October 26' 1q,)" 0 Card 313  DANIWV, V.I.; YENCREVICH, I.B.; ZAMOLCDCHIKOV, B.I.; MARCHFNKO, B.N.; KOYMM. D,L._- POLFEROV, E.A.; ROZANOV, Ye.I.; SAII-EIP'07 . L.- SAFCNM, . . n - , , .. ON Increase in intensity of a proton beam in a six-aeter synchro-cyclotron of the Unitt-d Institute of Nuclear Research. Atom. enarg. 16 no.1-9-11 Ja 164. MRA 17:2)  ACCESSION MR: AP4042004 S/0057/64/034/007/1272/1284 AU7MOn:Glazov,A.A.; Kochkin,V.A.; Novikov,D.L.; Onishchonko,L.M. '49 TITLE: A high frequency resonant cavity for accelerating protons to I we~' SOURCE: Zhurnal tekhnicheakoy fiziki, v.34, no.7, 1964. 1272-1284 TOPIC TAGS: particle accelerator, proton accelerator, Injector A13STRACT: A ra-entrant resonant cavity is described which, when operated as a sin- glo stage proton accelorator, produces 20 microsec 10 mA pulses of approximately I 1(eV protons at a repetition rate of 50 see-1. The accelerator was developed during the years 1960 to 1962 at the Joint Institute for Nuclear Research as an'injector for the phasotron described elsewhere by D.F.Vasilevskaya and 13 other authors (Pre- print Mal R-930,Dubna,1962; Nucl.Instr.21,85,1963). The accelerator consisted of a 1 m diameter I m long steel cylinder with 30 cm diameter copper cylind,3ra projecto Ing radially inward fro* each end to within 2 cm of the center. One of these cylin- ders was vvivahlo in tho axIal direction for adjustment of the 4 on accelerating gap, and the other containod the cold cathode Panning discharge ton source. The Interior of the cavity was covorod with polished copper; a Q of 14 000 was thereby achieved. Card  ACCESSION NR: AP4042004 The cavity was -3x,_1tP-d by a self-excited grounded grid oscillator of which the cavi- ty was the frequency determining element. Difficulty was experienced with resonant reflex discharge in the accelerating gap at an amplitude of about 1000 V. The cavi- ty was therefore pre-excitqd at each pulse by a separately excited oscfl'lator,' and the self-excited oscillator took over only after the resonant discharge region was past. When the inatrument was operating under presumably typical conditions, the beam was 3 cm in diameter 9M contained protons with energies,from 0.7 to 1.1 VeV with half the protons In the energy range from 0.83 to 0.95 KeV. The possibility of employing a buncher between the Lon source and the accelerator to obtain a more nearly monoonergetic beam is discussed, and it is concluded that this would be fea- sible. It is pointed out that although the accelerator was desAgned as an injector for a phasotron, it would be suitable as a primary accelerator for low energy nucl- ear research. For this purpose it has over electrostatic accelerators the advan- tages of compactness, low cost, and high pulse current. "In conclusion, the authors thank V.P.Dmitriyovskiy for valuable advice in planning the work and for discussing the results, Ye.Shvabe and H.Ku=yqk for assistance in developing cortain critical parts of the accelerator, and also comrades V.V.Kudryushov, V.A.Akkuratov, P.T.Ry*-, bakov and M.G.Akimov for participating in the assembly of the electronic accessor- Jes and the construction of.the accelerator." Orig.art.hass 17 formulas and 8 fl- Co.rd 2/3  IACCESSION KR-. 104042004 cures;. ASSOCIATION: none SOMITTEM 16Sep63 ENCL: 00 SUB CCDEs NP MR REP SOVt 010 OMMI 005 Card  ACCESSION NR: AP4018359 S/0120/64/0001001/00-V,/0037 AUTHOR: Glazov, A. A.; Kuzmyak, M.; Novikov, D. L.; Onishcherxk,:), L. M. TITLE: Ion source for a I-Mev proton accelerator SOURCE: Pribory* i tekhnika eksperimenta, no. 1, 1964, 34-37 TOPIC TAGS: proton accelerator, I Mcv proton accelerator, ion source, impulse ion source, Penning discharge, ion beam focusing ABSTRACT: A Penning -discharge impulse _~on f;ource in which a cold aluminum cavity-type cathode is used is described. The source is intcnded for mounting in the hollow projection of a torus-type resonator -accelerator. The anti-cathode aperture towards the ion escape is 1200, the drawing-electrode angle is 900. The 0 source is supplied by'an electronic device which de-,-clops 50 -Microsec -long ignition pulses and 20 -micros ec -long ion-drawing pulses. It was experimentally found that a systern of diff e rent -potential electrodes with grids ensures the bcst Card 112  ACCESSION NR: AP4018359 focusin.a. The effects of the size of the emission aperture in the anti-cathode and of the drawing voltage upon the extraction current were experirnontally deter- M.ned (curves supplied). It was ' und that the source is capable of producing a A 10 a current of ZG-40 ma (pulse) at 20-25 kv, and a focusing of 10 rnm, The cold cathode ensures the constancy of characteristIcs during long periods of operation. The source is used in a linear accelprator that c-.nploys a high frequency of 1. 2 Mv and a pulse intensity of 10 rna. Orig. art. has-: 5 figures. ASSOCIATION: Ob"yedinenny"Ay institut y-nderny*kh iisledovaniy (Joint Nuclear Research Institute) SUBUMITTED: OlFeb63 DATE ACQ: IBMar64 ENCL: 00 STUB COD7,-. PH, NS NO REF SOV: 004 OTHER: 005 Ccrd 212  ~ ;i. I 110V , 1-.; ," ) L.; !~.A.; I 1~ I. A.,;. ; .-*', K- '; , 1. 1 . [Caicu-atior. of the Initial regi~,n of :TtaDie fhase o-,-,c..- lations ir, a :~:!nchror,,,clotronej 101,!Ct.et riaO.ii,''noi otlagti ustoic-iwikh ,~olebanii v Dubna, Ob"e-i- ne w :i,ierrykr. iss- -1. ~ . (:'Ii,-A 1-:7) y i ir.-t -  1, 58861-~65 t -1-1 -------- W(c)._ as iACCESSION HR.' AT5007940 S/0000/64/000/000/0591/05114 AUTHOR: Danilov, V. I.; Yenchevich, I. B.; Zamolodchikov, e _ jj~ ~11 I M4Lqh nko A9.V,1_k2YA.hW10- P(Ilferov, E. A.; Rozanov, Ye. I.; Savenkov, A. L.; Safonov, P.. H.; A. Shestly TITLEt Licreasing the internal beam current of the OiYal synchrocyclotron to 680- Mev SOURCE: International Conference on High Energ Accelerators. Dubna, 1963. 1~rudy. Moscow, Atomizdatj.1964, 591-5194- TOPIC TAGS: synchrocyclotron, high energy accelerator ~ABSTRACT: The Laboratory of Nuclear Problems of OIYaI modified the synchroc Yclotro~ ,to increase the intensity of the internal beam, with the work being conducted in !two directions: (a) obtaining a high-frequency program in the synchrocyclotron such! i ~that the current atthe terminal radius of the accelerator would be a naximun; and 11%b) croating 6 focusing system that compensates for the defocusing action of the Ispatial. charge at the center of the accelerator and thus increases the mean currentt ;of accelerated protons. The phase motion in the synchrocyclotron is analyzed-in Card 1/5  L -58861 -6 ji~-CESSION HR.- AT50079.40 two principal stages: first, the capture of the particles at the center of the syn-I chrocyclotron during #e accelerating regime; and'second, their phase motion duringi the acceleration process up to the terminal radius. Ilie equations of D. Bobm and 1. L. Foldy (Phys-rev., 72, 649 (1947)) are insufficient for the solution of the probi lem of the optimum capture of charged particles in the accelerating regime in syn- ichrocyclotrons of several hundred Mev, This is explained by the fact that ifie I .!growth in energy per revolution in the first stage for a constant accelerati 'ng po- itential 00=const.) depends upon the radius of the orbit. -The curve describing tfiel !relative 9*Vowth of proton energy per revolution as a function of radius was calcu- Uated by means of pictures of the dee potential field which were obtained fl~om a ,model of the central region of the Mal synchrocyclotron in an electrolytin tank. :Experimental measurements of the current at the radius 1?--30 cm determined the Mag- ~nitude.of W (growth of the circular frequency in units of radians per second2i s nit !,that en3ures optimum capture conditions. Choice of this radius necessitatea exclude ~!ing the influence of variations in the phase conditionc during proton ar.,celaration. !in tha rogton of the middle and terminal radii. The magnitude of ~ varied init 'over a wide range with variation of the magnetic field strength at t~e cent,ar of ithe accalerator, ror voltage at the doe of UO=12 kilovolts and for* exi'sting geom- ;Cc3rd  58861-65 A CCEZSION UP: AT5007940 jetry ~f the accelerating gap, the dependence of the intensity (capture effectiveness) 1upor w for the O1YaI synchrocyclotron showed the optimum value to be 2.25x s init 11011 rad/seC2 (B.1. tamolodchikov,. et al..PreRrint OIYal P-720, Dubna, 1961). iCorrection ofthe parameters of the accelerator's resonance system in January 1961 1 iled to a frequency program with the indicated value of ~ it at the beginring of s in .1acceleration, which led in turn to increasing the internal beam from 0.3 to 0.8 .16icroamperes at the terminal radius R-274.5 cm. Th,-3 proton current-vas meacured b ion A12V '!means of the Induced activity of an aluminum target, according to the react 1(p,3pl)Na24, obtained at radii Rz-270 to 280 cm. A target with a lead backing was .1calibrated against a beam of protons, extracted from the synchrocyclatron chamber, by means ofa Faraday cylinder. The serond stage of the work consisted in creating' frequency characteristics of the syncbrocyclotron M and U-=U (W ) such high VW8 0 0 !that they ensure simultaneously the optimum conditions for the capture of the ions land their subsequent acceleration up to the terminal radius without phase loss. IDuring selection of the frequency program of the synchrocyclotron consideration ?*as taken of the-damping of phase oscillations during the process of proton acceleratiofi ~AIR.-to-the--!terminal--radius-of-,the--actelerati~,r.--LL-e--was-made-of--the-invarianc~.e-of-~he- integral of-action J during the adiabatic variations of the system a parameters. Card 3/5 --- -- -----  ACCESSION 11R., AT5007940 Further Increase In the intensity,of the synchrocyclotron was reached by introduc- tion. of additional vertical (axial) focusing of the accelerated ion beam in the I-region-of--the-accelera,~or.1, Investigations of the focusing systems demon centriL Istrated the ad7antage of electrostatic focusing over magnet1c 'acwing- at--the- cen__l Iter of the accelerator. The aystem of focusing electrodes used in the Mal syn- Ichrocyclotron was constructed with the possibility of regulating the gap between !the dt~c and supplementary electrodes. Moreover, the configuration of the electric )field cArt he varied by regulation of the arrangement of the grounded screen placed between the dee and the potential electrodes, The Hill equation can describe the motion of the ions in the accelerator's magnetic flold and in the electrostatic field created by the supplementary electrodes. The optimum arrangement of the elec.4 i trodes of the focusing installation was found by experimental study of the proper- tties of the system according to the dependence of the beam current upon U (focusing 1 f !voltage in kilovolts) for various dist.ances of the electrodes from the center of the t iaccelerator., 'rhe internal beam current for the indicated conditions was approxi- 1mately doubled, amouating at the present time to 2.2-1.3 rAcroarper'es. Orig. art. 1has: 7 fig'ures4 Card   SSION HR: AT5007941 S/0000/64/000/000/0595/059) AUTHOR: Danilov V. I.; Yenchevich. 1. B.; Novik I Polferov, E. A.:; Wo-1 r A. _D~ .11 1>q elk TITLE: Calculation in the region of the origin of the stable phase*oscillatJ1.(5ns inj the syn hr2r.XC12=n__ SOURCE: inigMilILonal-C-mference:~M--~Higiv- leratoTs. Dubna, 1963. Trudy. F~~S-cowl Atordzdati 1964, 595-599 TOPIC TAGS: synchrocyclotron, high energy accelerator ABSTRACT: The capture and acceleration of charged particles in'the central region of the symcbrocyclotron is not adequately described by the phase equation primarily! lbecause the maximum possible energy .growth per revolution is an increasing fuaction~ lof the radius and approaches the slit value only at radii 5-10 times larger than the aperture of the dee. The phase motion of protons in the central region of the synchrocyclotron is now obtained by solving the equations of motion of charged par-, ticles in electric and magnetic fields of an accelerator on high-speed digita;1 com-: puters. . Considering only the motion. of charged particles in the median plane of the - magnetic field,po~s sessing ax ial~symmetry. one has the following set of 4ifferimtiall: WIN  I ACCESSION RR: ATS007941 equations (S. P. Lomnev and G. A. Tyagunov, in,vokoz-lteli, G. A. Tyagunov, Editor, No. 2, ibscows Atomizdat, 1960): AO (I r2 29t where the dot indicAtes differ-ppifiiion.with respect to et, zo,is the impedance of free spacej and Aj=e1mc2; u=M; - - - - A,-1,+a7oBx;! B -magnetic inductlo~; .. ---- ~ 1-4 a I I E E.-components of the electric I field stre.ngth. After a number of transformationsi. . the depondence of the electric fi eld strength u;~on radius is represented in-the following form 16 mn 0 '(2) o3 C I + A I ~ - ( ) ( r' sInI 0 14 2 where I dar (3) d l i. 4a I Card 213 A -  L 58859-6.5 ACCESSION NR,:. AT5007941 E ZU ID,' V -amplitude of the accelerating voltage; D-dee aperture; w ~ 0 ('1 0.1 - 0-frequency of [revolution'of an ion at the center. The present report discusses the solution of the equations of.motion (1) for-given boundary value conditiorir, and paramoters in the case Of the OIYal synchrocyclotron. A high-speed digital computer was used to .,obtain curves of (a) radius and phase versus time, (b) capture effectiveness versus gamm-coordinate for various accelerator parameters (e.g. aperture),, (c) damping of amplitude of radial-phasal oscillations versus radius, and (d) regions of stab lityl of ~ veraus 4. (# -phase). The trajectories of radial-phase oscillations were sed i parameters-and also the,-ion beam coniiguration during -the- acceleratlor,- of the ions' from the center to a-radius of 50 em.'. Orig! art. has-. 5 figures. ASSOCIATION.6, Obl'yedinennyy institut yadernykh issl .edovaniy, Dubna (Joint Institutel of Nuclear Research) SUBMITTED: 26May64. ENCL: 00 SUB CODE: KPt ER 110 REr SM! 002 OTHER: 001 !card 3i3~*  Acz -A~ Ant-'  NOVIKOV, D.P. Basic problems of the chemical community in the struggle for furthar development of chemicRl science and industry. Soob.o nauch.rab.chl. VKHO no.4:18-23 '51. (MIRA 10:10) 1. Zamestitell ministra khlmliheskoy oromyshlennosti SSSR. (Chemistry) (Chemistry, Technical)  NOVIKOV, D.P.; SOKOWV, A.D. Scientific and technical conference on plastic materials held in Stockholm. Xhim.aauka i prom. 2 no-5:642-610 '57. (MIRA 10:12) (Stockholm--Plastics--Congresses)  A'U'T h 01H Novikov, D. 11. 7L "-/661/61/000/006/002/08-, D205/D302 T I T L Development of the or-ganosi i icon products industry and the task of the scientists 60,LFROE: Khimiya i prakticheskoye primeneniye kremneork;aniches- kekh soyedinen.4y; trudy konferentsii. no. 6, Doklady, diskussii, resheniye. II Vaes. konfer. po khimii i prakt. prim. kremneorg. soyed., Len., 1958. Leningrad, Izd-vo AN SSSR, 1961, 20-23 T-EXT: In their resolution of July 23, 1958, the Central Committee of the Commurlist Party of the Soviet Union and the Soviet Govern- ment have designed the production rises of the organooilicon in- dustry. If the output in 1958 is taketias 100%, the output in 1965 w'-!-' be 10 times as much in organosilicon varnishes, 20 times as much in hydrophobic liquids, 5 times as much in ethyl silicate, etc. The present methods of ,roduction are far from satisfactory. The following problems should be solved: Design of new methods of Card 112  '1)'/661/61/000/006/002/01,,1 Development of the ... D2()5/;)502 sy:,t,qesis suitable for industrial application. Design of methods for the economical use of byproducts. Production of new si'Lico- organic materials having better mechanical properties and higher thermal stability. Improvement of the technology of alkyl and aryl chloro3ilanea. A proceu3 for CheLlpulr pruduction of Si~,'I from ferro- sili'con and the waste of Ti Industry is also to be designed, the Technology of polysiloxane resins is to be improved and the use of silicun plastics in the industry is to be widened. Until the ne- cessary high output of organosilicon products is achieved, they have to be used economically and only where they are indispensable. ASSOCIATIONI Gosudarstvennyy komitet Soveta Ministrov SSSR po khimii (State Committee for Chemistry of the USSR Counc~,Iof Ministers) d-ard 2/2'  NOVIKOVP D.R. Arboretum of the Whits ftasian Agri cul haoLl Aca4emy. Sbor.mauch.mbe Bel.otdoW no,1:1-10-122 159. (YLIRA 14W (White ftasia--Arboret=g)  AUTHOR: im 0 " e ()Cert and -ovl~ov ",orki, T, . " N TITI E: The 40th Anriversary of t~-e 7n, ~jr~q+ior ell.v ~1_4ro--Pli- ration Activities in ~)elorussrl I ER I ~_D I C 1~ T': 7idrotekhnika i melioratsiy-i, IT r j ABSTRACT: marked tl~e 41-'t1,, anniverpary -,f the Qydro-~melior-tion Pnculty at t'~e 7~f~lnr ~~--_an ~gricul-ural Academy in -,orki, At piesent, has `~; attending ~-tljdents and 177 exterril The has three rhairs: Agricultural tion and Porestry, Water lupply a-! Hylrotechnical lonptructi-nq arl rialq. The tertc~ I nf, c3 t,n 4' 1 ne I us qarkusha and Professor 7. 'ak'-+arov Tr. from lqlr3 - 1934, the co-.-;orkprs of +-e vnc over 5r) scientific works Find 6 textto,~ks, 7n ros+- Card 1 war years, co--.-iorkers of t~-r~ Tard T)Pclqm.-i + 1 n  The 40th Annive-sary of tvie 7oundrition of I`,.,Iro-'-',?lIor'qtion Activities in Pelorussia are working -n the problem 11"ethods of ~mellor,.+.Ion of ~Iineralized, periodically rver,,,:-,i+ereI ',olis in the P')73R". Ilocent n.T. YakovIev, Teushev and lenio. lznst~--'ctor ~ 7. 'Pogdqnovic- ara- cipating in this work, assistant "' T-, ','Ilipnert iss conducting research on the computation an~ -nerRti-n of draining systler.,~s in peatbogs, locr-nt . "'t-na- I-enok is carrying on with his work on imrrove7ient of Ao .9 wor'~. drainaFe constructions. ')ocent JI.T Tuch;_ , -inr out schemes for the rural economy w%itpr suprly cent V,'T. Tsinger in busy with rl,Aeatlonn of consumption transformation of rivers ~','/ .-,,ater itornr.-P basins. The Phair of Ilydroinstallations un.-ler "'orent -.,-I ~%Ya. 'Novikov is working on the pro!~Iem in the Drained 7wamps of ~-oles*ye". Card 2/2  NOVIKOVY DJI, Intrcduced treen and slirul)L3 in th~,, arboretum of t1lie 1.1hite ~,ussian Agricultural Sbor- ,,.-.lch. r~,b, i~el. otd. IMID ro.3:~9-11C ,61. (;::v-'~ 14- 12 i-logilriv h-,vince)-Arboratum ) (Gorki (Mogilev .-']--tnt in'~rc,,Iuction)  IiOVIKOV, U.S. Performance of glass furnacps operating on fuel oil, 6tex. i kfr, 19 no.3:3(-37 Mr '62. (mlh- 1~:3) (Glass furnaces)  U L I YANOV, I. A.; :", :,,I - ; NOV I KOV, :,- '- ; ..~IDA'F:ir.lN, A. P. :n --r,)(iu :I. cn , f e -f,,-!,r (,.,i 1, , - , mp, *;. -.,) I,- -c,;- j e -.. - ."f - .:r.i7. -4 P, "I I i ~ m , ~--, A - - " 30 no.i.- 0 Ugo 1.5 -  MOVIKOW. D.Z., kandidat takhnichaskikh nauk. Speeding up wood gluing processes. Der. prom. 6 n9.5:3-5 vq 157. (KLRA 10:6) 1. Mucha*-losladovatel'skiy institut derevoobrabatyvavushchage mehinostroyaniya. (Gluing)  ITOVIKOV, D.Z., kand.tekhn.nauk - 11 Zxperience in gluing parquet board flooring* Dereprow, 7 no,3:3-5 Hr '58. (KIRA 11:4) 1.11auchno-issledovatellekV Institut derevoobrabatyva"hchago maahinostro7aniya. (Parquet floors)  NOVIKuV, D. Z. "Inv0ffttVf'tl(n of the Procesm of Prasai , LUR;I, S,ij~ar.ll Sub , Technological Inst of the ?oo(j Induatr, J , stay ', . . A r, .4 - r, .0 DIsBertatimis presentel for 8clenne an(i en,-inef-rint, devrfl- in k0scow lurirl,- 1, 1. SO: Sw- - 110. 480, 9 May ~~  N"I'lliKoll , T). 7. Iu,,,-- Ir,hstry -1 ~ X.-Oking suFnr rut---s hy Fressurc., fr!)m two sideq. -Sakh. prom. 27, '17, . -4, - I :-Ionthl~ ~j~ of Russian Accossi ons, Library )f Con.,rp::q, J,,,r,,~ ' 953, ~:, .  NOVIKOV, D.Z. I I - -, - , 11". - -.." 1 .. Importance of dimensions and form of lumps In the process of pressing refined sugar. Sakh.prom. 28 no.6:24-25 '54.(KY,;?A 7:11) (Sugar industry)  IIOVIKOV,,jJ.Z.;..LU.-,IYZ, Ye.b., naucIm. red.; ',-'ktKOV, L.A., red.; FOLYALSKAYA, Z.F., tekhn. red. (Standard nutorr.tic li-nes for the production of particle boards] Tipovye avtorzticheskie linii dlia proizvodstva 9truzhecImykh 111t; obzor. Vo~,,kva, 1963. 59 p. (Seriia 111-74 (1-fI:?A 17: 1) 1. TSentrallnyy in.,titut nauchno-t(--khnicheskov informuts-ii po avtort,*,izatsii i r-,z3hinostroicniyu.  IUYIKOVjL . mladshi7 nauchn7y sotrudnik __k Sand 4esor7es jiisticp. Zman.sila 14 no.2:29 1 159. (MIRE 12:3) (Sand) (cla7)  110MOV, Snargly Alaksayevich; ZILIBZMIM. L.V.. red.; KRTUCHKOVaIT. S.A., bibliograf.red. CEngineering in every-day life] Takhnika v bytu. Leningrad. Goo.publichnoia bibliotaim Im. H.E.Saltykova-Shchodrins, 1960 17 parts in folder). (KIRA 13:11i (Technology)  NOIVIRO~Vgn~e ~ekseys ichi KRYUCHKOVSKIY, Semen Arkad'yevich; ~~_v ZILIBERMISTS, L.V., red. (The world in which we live; conversations about books) Mir, v kotorom my zhivem; besedy o knigakh. Leningrad, 1960. 12 fold. 1. (MIRA 16W 1. Leningrad. Publichnaya biblioteka. (Bibliography-Astronomy) (Bibliography-Geology)  IIOVIKOV. R., inzb.-I,nolog [louses are built on pertmifrost. Zrian--sil'A 35 no.2:3 F '60. (14IRA 13:5) (Prozen ground) (Building-Cold weathor condition3)  NOVIKOV, 9., inzh.-gsolog foundations. Znan.eila 35 no.8:44-45 Ag 6o. (MIRA 1):9) (soil mochtnicn)  5/004/60/000/01 1 Al 14/A126 AUTHOR: Novikov, E. TITLE: Mineral resources - visible from the aircraft PERIODICAL: Znaniye-sila,Ano. 11, 196o, 16-17 TEXT: The author describes experiments with the first Soviet pre-war air-borne magnetometer on Lake Kovgolovskoye near Leningrad. Magnetic bars were stuck into the soft bottom of the lake and the place marked with buoys In a boat, the scientists made their observations by means of different meas uring instruments and of a rotating drum with a paper tape. On this tape the attracting magnetic forces were recorded. The recorder showed upward deflec- tions when the boat cameto the marked places. It was an ideal anomaly model. Soon after these studies the first test-flight of an aircraft with an aero- magnetometer was made on the route Novgorod - Valday. The chief de3if;ner of the first Soviet aeromagnetometer, Aleksandr Andreyevich Logachev, now doctor of physical-mathematic sciences and professor at the Leningradskiy gornyy institut (Leningrad Mining Institute) participated in this flight. The aerc- magnetometer and its operation are described. It is a plastic frame with Card 1/3  S/004/60/000/011/002/C)Gr, Mineral resources - visible from the aircraft A114/A126 windings of wire on it. When moved in a magnetic field, an electromotive force is induced. Not only iron-ore is prospected in this way. It is aloo used with success at tectonic fissures, e. g. in Siberia along the Lena Ri~vr. or in the Tungusskaya Depression, where years ago - it is the place of an ex- treme anomaly - Turchinskiy, an engineer-geophysicist, made explorations. The author then describes Oersted's fundamental electromagnetic experiment of 1820: the deflection of a compass needle by a current sent through a near cable. It is the principle of another method of geophisical prospectinK, with an air-borne electromagnetic device. It is used where non-magnetic de- posits are expected. The writer himself worked once with the Soviet UR-4 radiometer in the taiga together with a geologist drawing field maps. They made every day 25 km. Novi the radioactivity prostpecting is already done by aircraft. In this geophysical prospecting method r-rays are measured. They are, however, very weak. They are measured by a radiometric computer But this prospecting can not immediately be done by an aircraft; a preliminary radiometric survey is to be made. An automatic machine or geophysicist eval- uate the data and with the aid of a geological map the maximum r-ray radia- tion can be plotted. Not only radioactive elements are traced by that means, Card 2/3  S/004/60/000/01 1/002/005 i.lineral resources - visible from the aircraft A114/A126 but also oil resources, diamonds, usually embedded in kimberlite rock, and uranium, thorium and radium, showing different radiation intensities. Final- ly the author points out that the nuclear aeromagnetometer, which is not des- cribed, is only in the beginning of intensive Soviet investigations. There are 4 figures. Card 3/3  ROVIKOV, S.A. Absolute age of matemorphooed schloto in the Tarkhankut Penincula (Crimea). Test.U;U no.24&142-143 162. (KIM 16:2) (Tarkhankut Peninsula-achists) (Tarkhankut Peninsula-Goological time)  NOVIKOV. E Age of roof rocks in the Paleozoic basement of the Crimean Peninmaa. Geol.nefti i gaza 7 no.2:49-50 F 163. (HIRA 16s2) 1. Geologicheskly muzey AN SSSR im. A.P.Karpinskogo. (Crimea-Petroleum geology) (Grimea--Gas, Natural-Geology)  I NOVIKOV, E.A. Now data on the age of rw~kq ~.,j :r!r., ,,, -,j-jrI 1~ Vest. ILU 18 no.18:172-173 I o 3. ; MIRA 16'. ~ I -  NOVIKOV, E., inzhener-geolog How to search for whtir. Znan.-sila 38 no-4:46 Ap '63. (MIRA 16:8)  MOVIKOVI E.A. New data an the absolute age of Taurian shales in the Crimea. Dokl. M SSM 153 no.5:1152-1153 D 163. (MIRA 17:1) 1. Laboratoriya geologii dokembriya AN SSSR. Predstavleno akademikom D.V. Malivkinym.  .1 , . I , I .' . . I . I . I I I . I . - ..  N( VIY()'I, E.A.; SHALWWI, A. I. :7r),,ie r-w datr. r,-,. thf~ occ-urr-aj -,q tiril ap- of 'f= - - ~* , !! ~5 ., n ' a I - , r c r - ,--I I.,; the Crimettr. ~,'( un ta Ins. Izv. -r-7r . ucl.eh. viv. ; go"A . I r, z-,r, 8 no. 12-.25-la D 165 (v I 1~ i9:1 ) I . I on 1 1 y i-myy in:, I I tut Imer. I PI n~ htTinvn.  - - Novi KOTTJ.L-~ The "ground" is catching up, Grazhd. av. 17 no.8:32- if 060. OGRA 13:9) 1. Glavnyy Inchener Upravlenlya kapitallnogo stroitelletva Glavnol,o upravlenlya Grazhdanskogo vozdushnoro flota. (Airporta)  W-NUMV, F., starfO ly Inzh. Precast rpinfor~-J concrete in rural c-)nEtruction i- lam'~ov Prov nce. Sel strc i . 1 ' no, 7: 1 -f 1. Tambovskoye oblupravleniye pu ~troitel'stvu i vodnomu kh07yayStVU, vnpsY)tatny.v k)rrpFrDndpnt 7burnal;~. "Sel'sk)yp stroitel'stvo." (Tambov Frovince-PrecAst concrete construction) (Farm huildinis)  NOV IKOV, F. TJhdar constant control. Kast.ugl. 9 no.4:19 Ap 160. (MM 1,1:11) 1. Fredsedatelf profsoyuznogo komiteta shakhty NO-38 raragandinskogo sovuarkhoza. (Karmunda Basin-Coal miners)  HDVIKOV, F. - - - Pior~ant from lareb bark. ?rom.koop. 13 no.6:21 Je '59. OGRA 12:9) 1. Tekhnoruk artelt "Ural". 9.Btyanka, Chelyabinakny oblasti. (mordants)  ORWTA. U.; MUM. F. , , Output of the sausage casine section was increased. Klas. ind. SSSR 29 no.2133 158. (KM 11:5) l.Kazanskiy myssokombinat. (lazan-Sausage casings)   GATOW.Borts losifovtch; WHINSKIT.Nam Grigorlyevlch; ZINOVIM. Mikolay Afmansly6vich; KALAKHOWSEff, Grigoriy VIL-torovich; K(IVIKOVYedor Androyevich; ZUDIKOW.Leonid MikhRylovich; RRZNICHgftt),-!Yred Saltoy - Mikolay Nikolaysvloh; MING. L.Tu.. [deceased) re - daktor; TRUMV.P.S.. tekhnichaskly redaktor (Production of cast, welded and forged chmne) Proizvodetvo litykh. avarnykh t shtempavannykh teepet. Leningrad. Goo.sotuenoe Izd-vo sudostroltellnot prowyahlennosti, 1955. 267 P. (KLRA 9:1) (Chains)  14AS L OV . V. I ~ ; NOV 1 KOV , i, r,. Some :Dmp. 1,~ at I on,3 foL-I-i; r.,' , --,' . -;jr '10~ 9t. . -. W. r,-,. . - 98-102 Jr, 1". l1cf", 1. 1 z 1--y' k I,'. ru-rg I --hc,.Fikoy k III r, t ,k1 w3-worshenstvovanlyu vrfj-~Iry (riachallnik - P.A. Ku~rllyan~v [deceast)d)) ordenr Lenina inin'. Kirova, I.Onll'Krad. Admi nvtozovi I.enln- gr(id, ir,9 F-iii-Ir, Md,riii(j, ! . ') Kh 1, rurV, I r. i.,~.a,,.n pi K , . ri 1 x i .  ;,II . . . . I . - - 'a : 1 .1 1 . . . . . r . . K-', I .. - '1, .11- . 1. . . . . .