SCIENTIFIC ABSTRACT MILOSLAVOV, V. K. - MILOSLAVSKIY, V. K.
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December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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~ mILOSLAVOV, VIX.
Mechanization and automatization of operatlono In the motion-
picture printing industr7. Tekh.kino I tele-ve 4 noo9:11-13 3
16o. (MIRL 13:9)
1. Leningradskly filial 01prok1nopoligrafto
(Notion-picture indumtry)
LITTIROV, S.M., insh.; MILOSLAVOY. Yu.K., inth,
-
Lighting WRVT'c_~wls subwair stations. Svetotekhnika 4 no.6:7-14
A '58- (MIRA 11:6)
l.Gosudarstyannyy proyektno-izyskatellnyy institut.
(Moscow--Subways) (Lighting)
LITEMV. SeK.. Inzh.j MILOSLAVOV, Yu,,K,, inzb,
. ~.
Idghting of "0; now Noscow submw statIons, SwetataidWim 4 no.g:
B-10 a 158e. (KIRA 110)
16* Goandaretvemn,proysictuo-izyiiimtel'Wy institut (metro),
(Jb*oov--9dbv&ys) (Fluorescent 141hting)
VOLOVIK9 A.A., starshiy nauchnyy sotrudnik; NIKITIN, Yu., mlndnhiy
nauchnyy sotrudnik; MILOSLAVOVA T.,, mla4p~Ay nauchnyy
sotrudnik; SIVENKOVk, v hiy nauchnyy sotrudnik
Potato wart and nitrafen preparation. Zashch. rast. ot vred.
I bol. 9 no.8:42 164. (MRA 17:12)
1. Nauchno-isaledovatellskiy institut kartofellnogo khozyaystva.
IJO: LE'TU; 1,~
BILICH, I.L.; MrWSLA.VSXATA, A.M. (Kazan')
wConeise manual an emergency diagnosis and treatment of in-
ternal diseaseew by 1.1k. Cherviakovskii. Reviewed by I.L.
Bilich, A.M. Niloslavskai&. Xax.aed.zhur. 40 n0.5:122-124
S-0 '59. (MA 13:7)
(KIDICINE, INTIRM)
MARAKOV, V.T.; MILOSIAVSKAYA,,G.M.
Dynamics of organic matter in turf-Podzolic soils plowed by different
methodag Nauch,d*l.vys.shkolys biolonauki no.4:211-214 160.
(KM 13: 11
1. Rekomendovana kafedray zemledeliya Moskovskogo gosudarstvennogo
universiteta in. M.V.Lomonosova.
(PCDZOL)
(HUMUS)
(PLU4ING)
MWMV9 V.T.; MIJWIAV5KAYAj G.M.
I--------------
Dynamics of organic matter in turf-Podzolic moils during the
period marked by the aftereffect of different plowing methods.
Nauch. dokl. vys. shkoly; biol. nauki no., 1:207-212 161.
(HIM 14:2)
1. Rakamendovana kafedroy semledoliya Moskovskogo gosudaretvemogo
unive1jitets. in. M.V. Lomonooova.
(HUMUS) (PODZOL) (PLOVING)
. I i , ~L
--L4I Js;A=VswfA L. I.: Malltor IW)d sci -- (-J, (,n
--v
I -j-
ficti-rit" of asTvgm!7inin,~ rinti -bitarnimne. of thn briln". Ryazgn',
t ~,
i - . " -
11 pp (R:;azan' Y10 Inot lm Acati I. P. Pavlov), 200 cupinn (KL, J'o 9, 1.050, jr,7)
KIWSLAVSKAYA, L.I.,
Ilffect of barbiturates on nopnraginase and glutftminnee activity of
the brain. (with flummary in Inglish]. Biokhimiia 23 no.3:347-35aD
NY-je 158 (MMA 11:8)
I* W"drm biokhimii Ryazanskogo meditainakogo institute Ju.
Pavlorm.
(BRAIN, matAboliam.
ampnraginnse & glutiminpoe, off. of barbiturates In rate
(Rue))
(AMIDAS-ES,
asparaginase & glutaminase in brain. off. of barbiturates
In rate (Rua))
(BMITURATICS. effects.
on brain aspnrnginnse & glutneinase in rate (Rua))
YAKIMCHUK, P.P., kand.med.nauk; MILOSLAVSKIY, Ya.M., kand.med.nauk;
MILOSLAVSKAYA? L.I.0 kand.med.nauk
Effect of nitrogen dioxide on the adrenal cortex in white rats in
chronic Intoxication. Gig.i san. 26 no.12:79-80 D 161.
(MIRA 15:9)
1. Iz kafedry gigiyeny, kafedry fakulltetakoy terapii Ryazanskogo
meditsinskogo inatituta.
(ADRENAL CORTEX) (NITROGEN OXIDES-PHYSIOLOGICAL EFFECT)
1. MILO SLAVSKAYA, N. M.
2. usm (6oo)
4. li'llurmanak - Mocomia Baltica
7- Changes in weight of Macoma baltica in different conditions of habitation.
Dokl. All SSSR 89, No. 6, 1953.
9. Monthl List of Russian Accessions, Library of Congress, April 1953, Uncl.
WINNOW
USSR/Biology - Ecology
r1ard 1/1 Pub 22 - 38/45
Authors A HiloslavBkaya, N. M.
Title Distribution-. of. bivalvia. mollusks in eastern Mvmmn in connection with the
temperaturelluctuatione of the habitation medium
Periodical 3 Dok. AN SSSR 99/4j, 633-635o Doc 1., 1954
Abstract The effect of seasonal temperature fluctuations of the water on the habita--
tic n and distribution of sea-battom fauna of bivalvia mollusks of different
Zoogeographical origin was investigated. Six references: 3-USSR; 1-
Norwegian; 1-Danish and 1-Garman*(1878-1951). Table; graph.'
Institution Academy of Sciences USSRp The S. M. Kirov Kollsk Branch, Biological Stationf
Murmansk
Tresented byi Academician E. H. Pavlovskiy, September 9j. 1954
USSR/ Biology bLexine zoology
Pard 1/1 Pub e22 45/49
Authors I Miloslavskaya N. M.
Title .1 "On the ecology7MIUMMIRM Baltica (Lt)
Periodical I Dak. All SSSR 10113, 565-567, Mar 21, 1955
Abstract V Biological data are presented on the nature of the mollusk Macoms,
Baltica living in the northern seas of Europe and in the far eastern
..seas. -Three referencest 2 USSR and I German (1926-1953). Tablei
graph.
Institution Aced. of So.. USSR, The S. M. Kirov Kolsk Branoh~'The Muxuansk
Biologi6al Station
Presented by_s Academician E. N. Pavlovskiy, December 25, 1954
CMNOVSXAYA, Yo.N.; MILOSIAVSKAYA. N.M., kandidat biologichookikh nook.
otvatetvannyy reUktor; GOIoOVNIN-. MA.. redaktor izdatelletwa;
TVIRITINOTA, K.S., takhnichookLy rodaktor
ClVdrologleal and hydrochezical characteristics of the littoral
zone of the eastern Murman Coast and the White Sea) Gidrologichaskie
I g1drokhImicheskle usloviia As 11torali Tostochnogo Murmana t
Belogo moria. Kooky&, lzd-vo Akademii nauk SSSR. 1956. 113 P.
(White Sea) (Murman Coast) (MLRA 9:11)
MIWSVR~WATA. N.K.
ure as a factor influencing the distribution of bivalvular
Izemperat
Mollusks of Bastern Nurman, Tru43r Wrm. biol. sta. 4:140-150 '58.
(KIRA 1l-'5)
1. Narmanskaya biologioheskaya stantsiya Xol'skogo, filial& As
SM
(Karman Ooaet-IamellLbr9jwhi&ta) (ocean temperature)
KILOSL,kVSrATA, N.M.
considerations on the benthos of Aastern Nurman and its role
in the We, of the codfish Gadus aeglef inus L. Trudy *m. biol.
eta. 4:151-156 158. (MM 1135)
l.' Marmanskays, biologicheakaya stantsiya Kollskogo filiale. AN SSSR.
(*=man Ooast-Codfinh) (Pi she a-7ood)
MILOSLAVSKAYA, U.K.
New warn-water mollusks in the fauna of Eastern Harman [with su=ar7
in Anglish). Zool. shur. 37 no. 6:939-942 Ja 158. (MIRA 11:7)
1. Marmanskoys biologicheeksys stantsiya ED11skogo filials AN SSSR.
Ourman Coast--Mollusks)
*V
MIIOSLAVSKAYA, N.M.
Applying the concepts of interspecific relationships to the study of
deep-sea benthic fauna. Trudy WBI no.3tl3l-146 161. (FIRA 15:3)
1. Laboratoriya gidrobiologii Murmanskogo morskogo, biologicheskogo
instituta.
(marine fauna)
MILOSLAVSKAYA. N.M.
Interspecific relations on the bottom of the sea. Trudy IAEBI
no.5:63-124 164. (MIRA 17:4,)
1. Laboratoriya gidrobiologii Murmanskogo morskogo biologicheskogo
instituta.
MrLOSLAVSKAYA., Ye.
- - - I... I I ~ - I I
Economic efficiency of high-speed, dry-cargo ships. Mor.
flot 23 no.7:7-8 11 163. (KRA 16: 8)
1. Starshiy inzh. Dallnevostochnogo filiala TSentrallnogo
nauchno-issledovatellskogo instituta morekogo flota.
.L 05317-61
ACC NR. AH6021383 Monograph L-~, U R
Magula, Valentin Emmanuilovich; Druz', Boris Ivanovich: Kulagin,_
TI-Ea-llv--Tm-l-t-r-lvg-vi-cll;--ITflo-slavskaya, YEketerina Petrovna;_!!qjoselov
Mikhail Vasil'yevich
Flexible shipboard containers (Sudovyya myagkiye yemkosti) Leningrad,
Izd-vo "Sudontroyeniye," 1966. 287 p. illus., biblio., 2000 copies
printed.
TOPIC TAGS: containers. packaging, flexible containers, disposable
shipboard containers
PURPOSE AND COVERAGE: This book is intended f engineering, technical,
and scientific personnel of the-shipbuildingAndustry, and of the
marine, river and fishing fleets. It conyins general information
on the latest types of shipboard packages, disposable elastic con-
tainers, including their design, ma crials, and special uses. The
authors acknowledge the following contributors: 1. 1. Korobkin, A.S.
Babayev, Yu. F. Andrianov, S. D. Knoring, A. R.
Pokromkin,_V. V�_~C~~O_Z, L. M. Mal tsev, F. R. Nitochkin, and
Harchenko.
Cord 1/3 UDC 629.123. 562
_J, %)'D 14 r - Y I
ACC NR- AM6021383
TABLE OF CONTENTS [abridged]:
Introduction 3
Symbols used 5
Ch. 1. General information on flexible shipboard containers
Ch. II. Design principles of flexible containers -- 46
Ch. III. Disposable flexible containers -- 100
Ch. IV. Free-form flexible containers -- 175
Ch. V. Special problems in the utilization of flexible containers
-- 223
Ch. VI. Effective economy resulting from the utilization of flexible
containers -- 249
Supplement --'267
Cord
MILOGLAVSKIY,A.I., inzhener; TRAKHTINMG,I.M., inzhener
,,,~ - .
Experience in working soils in winter. Mekh.sti-ol.12 no.11:23-
24 N'55- (MLRA 9:1)
(Frozen ground)
GOLIDIN, A,1f.j ~aLOSZAVSKIY, A.I.
Using the S-222 diesel-powered hammer mounted on the D-157 bulldozer
in ripping frozen ground. Kekh. stroi. 16 no.1:29-30 Ja 159.
(MIRA 12:1)
(Frozen ground) (Hammers)
"MILOSIAVSKIY A.M. inzh,; ROMANOV, Ye.S,, inzho
__ . I P
6- __ -
Substation with a deep lead-in using isolators in lieu of 6 kv.
cutouts. Elek.sta. 32 no.6:85-86 Je 161. OMMA 14-:8)
(Electric substations)
VASSM", I.M.; YEVDOK]240VA, M.I.; MARAMZIN, A.I.; MILOSLAVSKIY, A.S.;
TOISTOGUZOV, A.D.; FCM-INAp Ye.A.
Continuous method of precipitating basic nickel carbonate
with complex automation of the process. Met. met. 37 no.12s
25-31 D 164 (MM 1822)
HIMbIA'VSKIY. I.&.. Inshener.
-
Ways of oconoalslng metals In for" shops (from experionce of the
forging shop of the Moscow Stalin Automobile Plant). (I&; itrshkoveneAe I
ad. Ikon=IIA ustallov v kmsuachno-shtampovochnon prolsiodstvo. Mookya.,
19530 P-109-131) (ML 7:1)
(Forging) (Panching machinery)
IMYNAN, Pavel Favlovich; KIIDSLATSKIT, 'I.L., Inzhoser,. retmossent; X&SOWT,
)(,A,. kwAidat GWR&i-ilfiWi~ilk, rodaktor; SWLIXINA, S.I.,
takhnIchookly rodaktor; UTADDU, A.F., tokhaichookiv rodaktor.
(Reating furnaces in forge shop@] Nagreval'shchik pechal kusaachao-
shtmpovocbAykh tookhtov. Moskva, Goo. nauchno-takhn. izd-vo mehi-
nostreit. lit-ry, 1956. 122 p. (KM 9:6)
(Furnaces, Heat treating)
MASSEN, V.A.; tgIk3UV5UY, I..L.; PAVLOV, S.P.; POGODILOV, M.N.; SHEVELEV,
A.Ye.; KUNITSA, S.S.; YAKOVLEV, V.G.; CHESNOKOV, V.K.; KRYLOV,
B.F.; SHIKHANOVICH, B.A.; YAITSKOV, S.A.
Proposals awarded prizes at the 16th All-Union Contest for
Electric Power Economies. Prom.energ. 17 no.10:12-14 0
162, (MIRA 15:9)
(Technological innovations--Competitions)
MILOSLAVSKIY, 1. M.
"Clinical Significance of Bronchograpy in Nonspecific Suppurations of the Ltmgs.11
Cand Med Sci, Dnepropetrovsk State Medical Inst, Khar'kov, 1954. (KL, No 2,
Jan 55)
Survey of Scientific and Technical Dissertations Defended at USSR Higher
Educational Institutions (12)
SO: Surk. No. 556, 21. Jun 55
MILOSLAV51g, I.M., kand.sed.nauk
Importance of bronchography In making a differential diagnosis
of various nonspecific pulmonary suppurntions. Trachodelo no.8:863-M5
Ag 158 (MIRA 11:8)
lo KafedrR fakulltetskoy khtrurgit (sav. - prof. A.Zo ?Seytlin)
Rhar1kovskoolo meditsinskogo instituta I OblRstnaya klinicheakaya
bollnites,
(BRONCHI--IUDIOGRAPHY)
(LUNGS--DISEASES)
MILOSLAVSKIY* I.M., kande*mednauk
Pronchography an a method for controlling the course nnd efficacy
of treatment of nonspecific lung suppurations; Sov.med. 22 no.11:123,123
N158 (min lial)
- (LUNG DISEASES. ther.
supuurativa dis., brouchography in determ. of efficacy
of ther. (Rua))
MILOSLAVSKIY, I.K.,-kand.med.nauk
Remote result of one-stage excision of the bladder in cancer.
Urologila 24 no-3:61-62 Yly-Je 159. (MIRA 12:12)
1. Iz khirurgicheskogo otdeleniya (zav. I.M. Kiloslavskiy) Kharl-
kovskogo oblustnogo'onkologlehookogo dispansera.
(BLADDIR, neoplasms,
surg., result of I-atage excie. (Ras))
-- MILOSIAVSKIYY 1.14., kand.med.nauk
experience with total gastrectomy In cancer of the cardia of
the stomach. Nov. khir. arkh. no-3280-84 My6Je 16D. MIRA .15:2)
1. Khirurgicheakoye otdoleniyo (zav. - I.M.Miloslavokiy) Khartkovskogo
oblastnogo onkodispanlerao
STOINIACB-CANGER)
MILOSLAVSKIY, I.M., kand.med.nauk (Khar'kav, ul.Artema, d.6. kv.4)
Total rOmoval of the colon and rectum in polyposis -iCth malignivation
of polypi. Nov. khir. arkh. no.4:102-101, Jl-Ag 160. (K[~,A 15:2)
1. Khirurgicheskoye-otdcleniye (zav. - I.M.M-Uoslavskiy) Kharlkovskcgo
oblastnogo onkolo%icheskogo dispansera.
(INTEST ES -SURM!dif) (INTESTINES-CANCER)
MILOSLAVSKIL I.M.
Total and subtotal combined resections of the stomach in cancer.
Vop.onk. 6 no.2:33-37 F 160. (MIRA 14:2)
(STMACH-SURGERY)
MILOSLAVSKIY~ I.M.
Surgical treatment of cancer of the 'rectum. Vop. onk. 6 no.4z9O-
94,A.p 160. (RECTUM-CA&ICER)- (HIPA 14-13)
MILOSLAVSKIY I.M., kand.med.nauk
-,-- ...
Role of bronchography in the diagnosis of nonspecific pulmonarY
suppuratian. Kaz.med. zhur. no.lt22-26 Ja-F'61 (MIRA 16:11)
1. Fakulltetskaya khirurgicheskaya klinika (direktor-prof. A.Z.
TSeytlin) Khartkovskogo meditsinakogo instituta i Kharlkov-
skogo oblastnogo onkologicheskogo dispansera (glavvrach-
Stanislavskaya).
-w-
MILCSIAVSKIYJ I.M.
Combined surgery in gastric cancer. Kaz. med. zhur. no.2:
34,37 Mr-Ap 162. (MIRA 15:6)
1. Khirurgicheqkoye otdoleniye (zav. - kand.med.nauk I.M.
Miloslavskiy) Kharlkovskogo oblastnogo onkologicheskogo
dispansera (glavnyy vrach - N.G. Stanislavskayn).
(STOMACH--G"CER) (STOMACH-SURGERY)
A-
MILOSIAVSKIY, I.M. kand.med.nauk (Khar zcv,ul.Artema,d.6 kv.4);
kO--STff1bvjk1yO I.M.
Morphological changes in the region of the esophago-intestinal
anastomosis after gastrectomy. Klin.khir. no.8tl8-22 J1 162.
(MIRA 15:11)
1. Khirurgicheskoye otdeleniye (zav. - kand.med.nauk I.M.
Miloslavskly) Khar1kovsko oblastnogo onk-ologicheekogo dispansera.
ISOTOMAGH--SURGERY)
MI40SLAVSKIY, 1. M.
Comparative evaluation of some types of anesthesia in transperi-
toneal total gastrectozy. Vop. onk. 8 no.3:39-48 162.
(MIRA 15:4)
1. Iz khirurgichaskogo otdeleniya (zav. - kand. mod. nauk I. M.
Miloolavaki3r) Kharlkovskogo oblastnogo onlcologicheakogo dispan-
sera,
(STOMACH-SURGER) (ANESTHESIA) (STOMACH-CANCER)
I~ite ohrervul Lcrc fo-hI.-w*,;.,., !,or C:Irlcer of
Sov.med. 28no.4:19-,~,~ A~) C)5.
1. Khtrurgichomkoye otdelenlyt- (-,,riv. doPrr
Yl Ios lavri ki y )illar 'RovoRcao ob-I n s taiofrcl orko I cii t c lwiskopro (I I s twa nno r,,.
(Flavny-y vm~h - visl.whonny,
y
ZAYTSEV, N,D.. VYTRIKUSA, Ye.V., MILOSLAVSKIY, K.Ve
Amwi~-~.
Use of fluorescent lights for illuminption in microscopic
studies.' Lab.delo 4 no-5:4P,50 S-0 158 (MIRA 32:11)
1; Iz kpfedry gistologii i embriologil (zav. - prof. N.D. Zavtsev)
Stanislavskogo meditsinakogo Instituta;
(MIGROSCOPY-TECRNMTE)
(FLUORPISGPITT LIGHTTNG)
1411,OSIJIVSKIY, X.V.; YEVI)OKII",OV, V.P.
- . ......
Support for spectrographs. 7av. lab. 31 no.1:131-132 '65.
(I-0-al 19: 3)
1. TSentralInaya nauchno-issledovatellskaya laboratoriya
LIvovskogo soveta narodnogo khozyaystva.
OILD %IfI)V, 'r,
MIK*JaEV, M. N., ZRINEV, P. N., MILOSLAVSKIY, K. Ye.
Control with the 14elp
and of the r,.uality of
stroyeniya No 6-7. $0,
of a Coercion Meter of the Case-hardening Depth
Heat-Treatment of Motor tarts. Vestnik viashino-
1945-
do
NIMSTATSETY. K. Te., dotsent
Anniversary session in Kharkov. Tzv. vys. ucheb. zav.-. radio-
tekh. 2 no.6:754-755 N-D 159. (MIRA 13:6)
(Radio--Con ",@sees)
MIU)SLAVSKIY, L.P.
Electrolytic both. Tekb. kino i tely. no. 8:60-61 Ag '58.
(MIRA 11:8)
1. Moskovskaya kinostudiya nauchno-populyarnykh fillmov.
(Cinematography--Developing and developers)
KILOSLAVSKIT, N.G.
-- .
The technique of wood architecture in Russia during the 16th.and 17th
centuries. Trudy InstAst. est. i tekh. ~:44-ln 156. (KERA 9:9)
(Architecture-Histor.0 (Building, Wooden)
MILOSLAVSKIY, M.G., kand.arkhitektury
Work of Russian inventors of the begiming and middle of the 19th
century in the field of brick manufacture. Mat. po ist. stroi.
tekh. no.W20-344 162. (MIRA 1615)
(Brickmaking)
MIIDSLAVSKIY, M-Ya.v kand.med.nauk; GUSHCHINA, L.S.; MARIM'YAN, L~S.
Case of extremely premt=e puberty, Akush. i gLn. 40 no.3:12'1-
329 Itn-Je 164- (WRk 18:6)
l.'Mcrainskiyinstitut okhrany materinst-9 i detstva imeni
Xrupskoy (dir. Z- kand.iaed.neuk A.I.Kornilova)v kafedre skusherstva
i gihikologil pedintricheskogD fakulltpte (zav. - prof, V.F.
149tveyeva) Khirlk6vokogo maditsinskogo institute i Ukraihakiy
institut eksperimentallnoy endokrinologii (dir. - kand.med.nauk
S,V.Maksomov).
MILOS I a,; ZHUROVA, M.V.
Xetection and treatment of disorders of sexual development in
girls, Trudy Ukr.nauch.-Issi.inst.eksper.endok. 188323-327 161.
(GENERATIVE ORGANS, FMLE-ABNORMITIES AND DUORMITIES)
NVOR0ZHIlff. P.S. (Moskva); BF~TAKOV. A.A. (Moskva),- RUSSO. G.A. (Moskva);
BOROVOT, A.A. (Moskva); NXIMASOV, A.M. (Moskva); XILOSLAVSKIY.
J.A-A-J(Oskva); RGKOTTAK. S.S. (Moskva); RAZGON, T. " ini
TbTIRAVA, G.K.. inzh. %"g.3oksitogorsk)
Principal trends in over-all electrification. Alektrichestvo
no. 11:87-90 N 160. (MIRA 13:12)
1. Mosenergo (for Hazgon).
(Ilectrification)
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N.M.NNUSIWAVISH AND
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tMWmrtbnvI is
VarvirmAYA. J. Aj#$W Chew. (V. S. S. It.) 59 Ws) 7(ITrr
go lmm-d on the cantlMsstion Of 41C. mAns of the suIntjuKvq mutg CI in sit air strvion,
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SOV/97-57-11-4/10
AUTHOR: Miloslavskiy. N.M Candidate of Technical Sciences
TITLE: Concrete and Reinforced Concrete used for Constructions
of Hydro-electric Power Stations (Beton i zhelezobeton v
gidroenergeticheskom stroitel'stve).
PERIODICAL: Beton i Zhelezobeton,, 1957, Nr 11, pp 437-447.
ABSTRACT: This is an historical survey of various schemes of hydro-
electric power stations built since the revolution. The
total output of these stations reached 8.4 million kw
during 1957, i.e. 20% of the total output of the country.
During the 5th 5-year plan the following power stations
were constructed in: Wingechaur., Ust'-Kamenagorsk,
Gorlkiy, Tsimlyansk, C-yumushakaya, Verkhne--Vvirskaya, Kuyby-
shev and Kakhovka. According to the directives of the
20th Congress of the KPSS, the following power stations
are planned or are under constructionY for the years
1956-1960: Irkutsk., Novosibirsk, Votkinsk, Kremenchug,
Stalingrad, Bratsk and Krasnoyarsk. During the 4th
5-year plan 2.7 million 'm3 of concrete was used in con-
nection with the construction of power stations and 16
million m3 during the 5th 5-year plan. During the 6th
5-year plan 30 million m3 of concrete and reinforced con-
Card 1/3
SOV/97-57-11-4/10
Concrete and Reinforced Concrete used for Constructions of Hydro-
electric Power Stations.
crete will be used for the same purpose. Technical de-
tails are given of various early power stations., e. g. Volk-
hov; Dneprovskaya and Nizhne-Svirskaya. The application of re-
inforced concrete for bydro-electric power stations has
considerably changed and advanced since 1940 (see details
Figures 5A and B). New constructions and building material
have been introduced, e.g. the cable crane in conjunction
with the conveyer belt. Professor A.M. Senkov designed slabs
from aerated concrete which could be used for small bydro-
electric power stations. Professor S.G. Gutman is investil
gating stress conditions of these slabs using the method
developed by Professor V.P. Skrillnikov and Academician B.G.
Galerkin. The mechanization of concreting is rapidly increas.;.
ing as shown hereunder: In 1955 during the construction of
the.Kuybyshev power station, 3,150.,00(63 of concrete was
laid. The largest amount of concrete laid per month was
389,OOOm3 and per 24-hour shift 19,0500. The concrete
is unloaded from railway trucks by means of a pneumatic
Card 2/3
sor/97-57-11-4/10
Concrete and Reinforced Concrete used for Constructions of Hydro-
electric Power Stations.
installation S-362 or S-347. Their output is 20-30
and 30-50 tons por hour respectively. For the trans-
portation of large volumes of concrete mix pneumatic
installations S-296Y S-252 and S-284, with outputs of
lop 20 nnd 40 tons per hour respectively, were used
during the erection of the Narva, Knyrak-Kum nnd
Kujbyshev~. hydro-electric power stat ions. The pre-
stressed concrete construction of Sluice design by
Professor A.Z. Basevich was used in the Kachov, Novosib-
irsk and Stalingrad hydro-electric power stations.,and
is increasing in application. Winter concreting was
used in the construction of the Kams- power station
with the "Thermos" and electric heating methods. There
are 13 figures.
1. Power plants--Construction 2. Concrete--Applications 3. Reinforced
concrete--Applications
Card 3/3
AVAILABa:
B30HIN, Aleksey Petrovich, MILOSLAVSKIY, N.M.. kAnd.tekhn.nnuk, red,:
MCESKOY, K.L., red.izd-vR'O; MELINICHINKO, F.p., tekhn.red.
[Wnre of shortening construction perioda and lowering labor consumption
In concrete work; from experience in the construction of sluices for
the Upper Svirl and Kakhovka Hydroelectric Power Stations] Puti
sokrnshchentia srokov stroitelletvs I anizhenits trudoemkostj betonnykh
robot- is opyta stroitel'stva shliuzov Verkthne-Svirskoi i Kakhovskoi
GES. ionkra. Goo. izd-vo lit-27 po strolt., arkhtt. I stroit. mAterialam.
1958. 43 p. (MIRA 11:9)
(Concrete construction)
(Hydroelectric power stations)
NEFOROZIL111Y., P.S. (Moskva); BELYAKOV, A.A. (Moskva); RUSSO, G.A. (Moskva);
BUROVOY A.A. (Moskva); NEKRASOV, A.M. (Moskva); ROKOTLAH, S.S.
(Moskva~; MIWSLAVSKIY,,_N,,M,- (Moskva); SYROMYATNIKOV, I.A.,
doktor tekhn. nauk,, prof.
Principal trends in the realization of over-all electrification.
Elektrichestvo no.8:77-82 Ag 163. (MIRA 16:10)
HILOSLILVSIIT, P.B., Inshener.
Reconstructing a Trubkin feed water regulator. Xlek.sta. 24 n0-8:53-54 Ag
153. 00-RA 6:8)
(Feed water)
MiLOSIAVSKDr P.Z.
14i-loslavskiy P. %, "Modification of the Feed Regulator in the Trubkin
System,," Elektricheskiye Stantsii,, 1953., No 8. Pages 53-53,
2 figures.
U -T i IR I Wjiloslav8kiy, P. Z., Engineer !z OV/ l 9 _,.-; 6 7 ~r.
I T LB; Percentual Barometric VacauEameter (Protsentnyy barovak-,.-,rjme,..,-~
I r:.q 10 1) 1 CA 1, Priburostroy._,niye, 1~)58, Nr 9, pp. 51-"02 (w,"'I(I)
Ji "I T?7. C , T i '.. 1. q'L-zh,,ik:-,*i, the liend of the Department of Heat Contr,,~! of
the Laboratory of zhe Lenenergo, designed ;~nd built ~j d~~vjc~-
-rhicri graphically records tne degree of 7acutim in a dJ.:-ecL man-
ner. This device ij produced from the -nrts of the normal
mercury float differential manometer DP-610. The dijae~nsions 0.-
th~? "minus vessel" and the connection to 'the float :hUmber are
illustrated in tvo figures. The float chamber of the differential
MRnometer is by a tube connected with the condenser of the
turbine. The "minus vessel" is closed on top. and i-. is com-
pletely evacuated above the mercury level. Hence the pressure
is zero and the reading of the differential manumcter Is pro-
.-)ortional to :he absolute prensure in the c~,ndenser of she
I
rurbine. There are 3 figures.
Card 1/1
MIWSLAVSKIY, S.; FUPMR, A.; AMMIY SMA, A.
Njectives of the seven-year plan are beiqg fulfilled ahead
of time. Stroit#ll no.10:3-8 0 160. (J(IU 13: 9)
1. GjavWy inxbqner uprawlemlya stroltelletva Dnepropetrovskogo
soynarkhosa (for Miloslavakly). 2. 41avmjy takhv%olog upravlaniya
Duspropetrovskogo smarkhoss (for Fleyer). 3. SpetsialInvy
korrespondent shurnala "Stroital" (for Andriyevmkaya).
~Dnepropetrovok Province-Metallurg'ical furnaces)
MILOSLAVSKIY. 3.L.; XHOIMLEV, K.I.; IUUDIIIK, F.S.
Use of large-size reinforced concrete sl&be for walls of industrial
buildings. Stroi.prom. 33 no-3:10-12 Mr 055. (KUU 8:5)
1. Daeprovskpromstroy (for Miloslavokiy).
2. Dasprolmtrovokly filial TuZhNII (for Mwkholev and Ikidnik).
(Walls) (Reinforced concrete construction)
IHOLHOLNV, I.I., Inzbener; NIIA*UVUIY, S.L., inzhener; IAFSHIN. N.G..
.AO Inshener.
Uperience with making and erecting precast reinforced concrete
elements for oiqgen plants. Bet.1 shol.-bet. no.6;202-203 Je '56.
(NM 9:8)
(Precast concrete construction)
MILOSLAVSKIY, S.L.; SHMAKOV, V.P.
Rapid method nf reconstructing blast furnaces. Prom. stroi. 42
no.4t4-11 065. (MIRA 18:4)
1. Zamestitell nachallnika Glavpridneprovstroya (for 14iloslavskiy).
2. Glavnyy inzh. tresta "Dzerzhinskstroy" (for Shmakov).
M116 OR VS
USSR/ Physics Intvfft of scattering FD-1034
Card 1/1 Pub. 153 5/23
Authors Shklyarevskiy, I. N., and Miloslavakiy, V. K.
Title Interferometric method for determining the dispersion of liquids
and solids
Periodical Zhur. tekh. fiz., 24, 1387-1391, Aug 1954
.Abstract. Describe newly developed interferometric method of measuring
dispersion of liquids and solids which is freed of the deficiencies
of the OBREINOV method. Give results of measurements by new method.
State that attempts are being made to extend the interferometric
method to the ultraviolent region of the spectrum. Thank Prof. K. D.
Sinellnikov., Active Member of Academy of Sciences of Ukrainian SSR.
Seven references 5 USSR (e.g. N. V. Rapp and I. N. Shklyarevskiy,
Kharkov State University, 1950-1953.
Institution : - -
Submitted 28 December 1953
Uc Physical Optics K-5
Category SSR/~~/ics -
Abs Jour Ref Zhur - Fizika, No 2, 1957, No 4938
Author Shklyarevskiy, I.N., Milaalamakix, V._K,,Pakhomova, O.S., Ryazanov, A.N.
Title Interferometric Method for Determining the Dispersion of Liquids in the
Ultraviolet Region
Orig Pab Uch. zap. Kharlkovsk. un-ta, 1955, 6, 147-150
Abstract The previously described (Referat Zh. Fizika, 1955, 23123) interfero-
metric method for determining the dispersion of liquids and solids, based
on the application of the lines of equal chromatic order, has been
expanded to determine the dispersion of liquids in the ultraviolet region.
The investigated liquid is introduced into a gap between aluminized quartz
plates, which are attached to the alit of an ISP-22 quartz spectrograph.
The thickness of the gap is regulated by means of screws. The resultant
spectrogram. iB.used to determine the wavelengths of many interference
lines,"to detexmine their interference order, and knowing the thickness
of the gap, to calculate the index of refraction for many wavelengths.
The order of the interference is determined by filling the gap hal with
Card 1/2
Category . USSB./Optics - PhyBical Optics
Abs Jour : Ref Zhur - Fizika, No 2, 1957, No 4838
K-5
liquid and hal with air and obtaining on the 8pectrofram tvo systems
of lines. The accuracy of the measurement is 5 x 10- . The above
method requires small amounts of substance avA is applicable to absor-
bing liquids.
Card : 2/2
o1-3-8/14
AUTHOR: Miloslavakiy, V. K.
TITLE: Optical Properties of Thin Layers of Cadmium Oxide in
the Infrared Spectral Region. (Opticheakiye avoystva
tonkikh sloyev okisi kadmiya v infrakrasnoy oblasti
spektra.)
PERIODICAL: Optika i Spektroskopiya, 1957, Vol.III, Nr.3, pp.251-257.
(USSR)
ABSTRACT: This paper reports results of studies of absorption by
cadmium oXide (CdO) in the infrared spectral region
from 1 to 16 using samples of different electrical
r
conductiviti
s. Thin layers of cadmium oxide were
prepared by sputtering. A disc of metallic cadmium
served as a cathode. Sputtering was carried out in
air and oxygen. It was found that electrical
conductivity and colour of the films obtained depended
strongly on the conditions under which t4ey we;e p;epared.
-
-
-l-cm
-L were
Conductivities In the range from 0.01-100 ohm
obtained. With increase of the sputtering rate and
Card 1/5 improvement of vacuum the probability of oxidation of
,51-3-8/14
Optical Properties of Thin Layers of Caamium oxide in the Infrared
Spectral Region.
cadmium atoms on their way from the cathode to the
deposition base decreases, i.e., the excess of metal in
semi-conducting CdO increases. This is accompanied
by a rise in electrical conductivity and a change of
optical properties. The absorption coefficient w a
measured on layers with low conductivity (1.2 ohm-10IM-1)
and of grey colour. The results are given in Fig.l.
From the absorption maxima shown there it is concluded
that these maxima correspond to excess of cadmium in the
crystal lattice of CdO. The excess of cadmium is in
the atomic state. Its energy spectrum consists of a
series of levels which approach the conduction band of
the semi-conductor (Fig.2). The most intense absorption
band corresponds to the transition from the 5s ground-
state level to the lower edge of the conduction band.
This transition bridges a 0.410 eV energy gap. At
temperatures above 200OG the CdO layers are gradually
decomposed, in a gaseous medium or in a vacuum, producing
excess cadmium. On decomposition the electrical and
Card 2/5 optical properties are altered. Electrical conductivity
51-3-8/14
Optical Properties of Thin Layers of Cadmium Oxide in the Infrared
Spectral Region.
increases with increase of temperature. Concentration
of conduction electrons increases also and the colour
of the layers changes from grey to yellow. Absorption
of samples with low initial electrical conductivity,
subsequently heated to 250-4000C in air was measured.
Electrical conductivity was measured also. The results
are shown in Fig.3. Curve 1 represents an untreated
sample with low electrical conductivity (0.8 ohm-l=-l).
Curves 2-5 give absorption of the same sample after
treatment at 250OG (curve 2), 3000C (curve 3), 3500C
(curve 4) and 4000C (curve 5), The Initial sample
had absorption due to electron transitions from the
ground-atate level to higher levels and to the conduction
band. With increase of the amount of excess cadmium
and electrical conductivity, absorption increases in
practically the whole spectral region studied (curve 2).
Absorption due to the impurity atoms of cadmium increases
Card 3/5 particularly strongly. Concentration of conduction
61-3-8/14
Optical Properties of Thin Layers of Cadmium Oxide in the Infrared
Spectral Region.
electrons also increases from 1020 to 6 x 1020. With
further increase of temperature (above 25000) increase
of electrical conductivity in accompanied by increase of
absorption in the long-wavelength part of the spectrum
(curves 3, 4, 5). A decrease of absorption in the impurity
band region-now occurs. At these verX high concentrations
of impurity atoms (more than 1021 am-0.) almost complete
ionization occurs. The semi-conductor acquires metallic
properties and absorption by conduction electrons in the
predominant feature. 3-electron theory calculations
yield the curve shown dotted in Fig.3. This agrees well
with the curve 5 for wavelengths greater than 12 -
Disagreement between the theoretical curve and ccve 5
below 12,A& is due to cadmium-impurity electron transitions.
It was found that absorption at 15 in various samples
of Fig.3 rises, monotonically and axost linearly with
increase of electrical conductivity. This is shown by
the continuous line In Fig.4; the dotted line in a
Card 4/5 theoretical curve. The author thanks Academician of the
51'4; 3'-8/14
Optical Properties of Thin Layers of Cadmium Oxide in the Infrared
Spectral Region.
Ukrainian SSR K.D. Sinellnikov for direction of this
work. There are 4 figures and 9 references, 1 of which
is Slavic.
ASSOCIATION: Kharkov State University imeni A, M. Gor'kiy.
(Kharlkovskiy gosudarstvennyy universitet im. A.M.
Gor1kogo.)
SUBMITTED: January 4, 1957.
AVAILABLE: Library of Congress
Card 5/5
Ll
AUTHORS: Shklyarevskiy, 1. 11. and Miloslavskiy, V. 4.
51-4-11/26
TITLE: A New Modification of the Polarization Method of
Measurement of the Optical Constants of Metals.
(Novaya modifikatsiya polyarizatsionnogo metoda
izmereniya opticheskikh postoyannykh metallov.)
PERIODIGAL: Optika I Spektroskopiya, 190, Vol,III, Nr-4,
pp.361-367. (USSR)
ABSTRACT: The present authors review briefly the variants of the
classical Drude's method of measurement of the optical
constants of metals kRefs,1-7). The method described
here is based on multiple reflection of light incident
on identical parallel samples (Refs.6, 7). It can be
used both in the visible and infrared regions. The
angle of incidence which makes the phase difference
between the p and s components kpolarized in the
plane of incidence and at right-angles to the plane of
incidence respectively) equal to - 1800 is used.
Elliptically polarized light becomes then linearly
Card 1/7 polarized. The authors derive Eqs. 6 and 7 kp.362)
61-4-11/26
A New Modification of the Polarization Method of Measurement of the
Optical Constants of Metals.
for the refractive index /t and the absorption
coefficient ew in terms of measurable quantities:
angle of Incidence qD , azimuth of reduced (relative)
polarization * , and phase difference between the
p and a components after one reflection 6 . The
apparatus used is shown in Fig.l. A monochromatic,
parallel, linearly polarized (by polarizer P, at an
angle of 450 to the plr;.ne of incidence) beam falls on
plates (1) and (2) wit-i mirrors of the studied metal
deposited on them. Thq two plates are attached to a
goniometer trable; one of them is fixed and the other
can be moved parallel t6 it. The light, reflected
three tijnes by the meta.'.lic surfaces, falls on an
analyser, A, whose anglo of rotation can be read down
to 2 minutes of are. P is a receiver of radiation.
Yirst the second plate -s in the position 21. Its
displacement to positi0i 2 makes it possible to obtain
quintuplet reflection '!' necessary. In the visiblo
region the source of 1:,;ht is the exit slit (5) of a
Card 2/7 monochromator YM-2- jr1lan prisms serve as the
61-4-11/26
A New Modification of the Polarization Method of Measurement of the
Optical Constants of Metals.
polarizer and the analysar. in visual observations an
eyepiece focussed at infinity is used instead of the
receiver, T. In the infrared region the source of light
is the slit of' a munochroinater U11-2. Uian prisms are
replaced by selenium piles consisting of 6 plates placed
at an angle of 660 to the incident beam. The optical
constants of metals for light emerging from glass were
measured using, the apparatus shown in Fig.2. This is
a prism-like piece of glass in which triple reflection
of libht at the boundary glass-metal occurs (surfaces
AV and CC' have metal la 9ers deposited on them). Angles
AIAB and AA'Blare both 45 This arrangement is used for
the study of metals which, on vacuum deposition, do not
produce specular surfaces; or for metals on which thin
oxide layers are present. Measurements were made by
rotation of the goniometer table until an angle of
incidence was found at which by rotation of the analyser
Card :~,/7 it was possible to extinguish completely the beam reacaing
61-4-11/26
A New Modification of the Polarizat-lon Method of Measurement o1' the
Optical Constants of Metals.
the receiver. This anglo of incidence was measured
soveral times, and a mean value was taken. Mean values
of 'Y . were also obtained. Knowing It .4 111 and A
= - 600, the optical con8tants of the metal could be
calculated from Eqs. 6 an(, 7. Measurementsof the optical
constants of metals for light falling from the glass side
(Fig.2) did not differ in:principle from measurements
using light falling from the air side. The authors
applied the method to mea:!urement of' the optical constants
of aluminium in the visibli3 re6ion. These constants
were measured earlier by )'Bryan (Ref.1), in vacuo
because a layer of oxide V3 always present on aluminium
in air. To exclude the effect of oxide the present
authors used the apparatus ~)f' Fi6.2. Aluminium layers
'oere deposited on the sizatoeLl, ; AA1 and GO' at z) x. 10
mm Hg. To avoid any contw,-'nation, for the first few
moments aluminium was evapor,\ted on a special screen and
only then on the surface of tl4e prism of Fig.2. Table 1
gives the results of measurem,',.nts thus obtained (triple
Card 4/7 reflection with A = - 600)-'~~ This table gives (in
col-4-11/26
A liew Modification of the Polarization Method of Measurement of the
Optical Constants of bletals.
addition to ~ , j , 14 and AX /to which is
the refractive index of glass used for construction of
the prism of Fig.2. Identical results were obtained
on measurement of the optical constants after one month.
One of the present authors (Ref.8) described earlier
an interferometric method of measurement of phase-shift
dispersion at the boundary ZnS-Al. Fig.3 shows the
results of Ref.8 by a continuous curve with open circles.
In the same figure the dashed curve represents O'Bryan's
results, while crosses represent values obtained by the
methods described in the present paper. Table 2 gives
the results of measurements of the optical constants of
aluminium from the air aide. The values in Columns
marked 1 refer to samples 6 hours after deposition of
the mirror and the removal from the vacuumichamber.
Columns 2 give the same quantities measured on the same
samples after 50 days in a desiccator. Optical constants
,.r,ard 5/7 of Table 2 differ considerably from those given in Table I.
-W-CL.L U.L11LV0 LLJ.6iier rnan
those calculated by Hriss (hef.10). This 15 because Hass
did not tL-ikc Into ticcoLmt th(,, oxide layer formed in vacuo.
The authors thanl~ Professor 1,.D. SInel1nIkov for valuable
discussions and his interest. There are 2 figures,
Card 6/7 2 tables and 10 ref evences, 4 of which are Slavic.
61-4-11/26
A New Modification of' the Polarization Method of Measurement of the
Optical Constants of bletals.
ASSOClATION: Khar1kov State 'University. (j1har1kovskiy gosudarst-
vennyy universitet).
SUBMITTED: February 5, 1967.
AVAILABLE: Library of Congress.
Card 7/7
SOV/51-5-5-18/23
;.itkj mo:nS "ilr-blLvskiy., V.K. and Kovalenko, IT.A.
TITLE Absorpti-%, by Zinc Oxide in t~.e Infrared Zpoc';ral Ra6ion. (FoClozhch-3riiya
oLiai T;sinka v infrakrabro:, oblaj"-I spektra)
d
PKiNDICAL: Opti,ca I Spaictlroskopiya, 1958, Vol 5, 1Tr 5, pp 614-617 (USSR)
.IBS !:"JT: ZnO layers rare produced by sputtarinG in an ,47rosphere containing
oxyi,on. Theso layors exhibit hi0i electrical conduc,ivity and are
tmasparent in thu visible re6ion. Thair hi6h eonduc-Avity is due _L0
axcass of Za. Uonductivitiras of the layers d 3pand strangly an the
rate of sputtering. At hi6~ sputtering rates (10-4 em/hour) the
layarb possess resist-aaces of 100-500 ohm/CM2. Lagers producad al-,
ionar sputtering rates have hi:-hor reaista -,co: 10 to lO6ohL,/QCi2.
The hiFher conductivity is exhibited by layers produced by sputtarlng
in nitro-on, argon or In mercury vapours . Loviar conductivitios ara
obta;.nad an sput,;oriL6 in ataospheric air. The ilLitifil rosis-.snis of
"he layer may be altered by subsequent treathi3at, a-G. by oxpouuro to
air. This chani;e of rosistaace, wt.1ch occurr. at roota taiAp-3raturtj,
is du~j to adsorption of oxy~;en and other nlec+rn-noc;ativo wolocules on
Card JA the surface of ZnO. Th5Ge layarz, atsorL fairly strnngiy it.- the iiifrarud-
.P
"'bsorption by Zin.-- oxide in the lnfraZ-od Spozt-ral Region
0
SOV151-5-5-W23
Laye.,%i of high resistaica (greatar than 106ohm) ara -.ransrraren,", ir 4-he
0
ragica froin 1 to 16 Y6~ !,aye-_(-s with lo-ner resistarices exhibit contiriuru-5
Ubsorption fron 3 to 16 ~& wita a shLrp fall of absorption at the short-
wavelenGth end. Thera is no *iiAple ralatlon&hip bo4-vjoen the coef"icient
cf abscrptior, and resistivity o.'L* layars prepared under diffaran-u
condit.ious. On -~ha other haLd, if the sau.ple resistunce Is al-,~ered
by scLia traatmant, than th.3 atserption of t-his saiaple changer. L:onctcnically
with. thri ,harige In the reaibtsiee. Ujaiiuromentt; of absorption wer3
curri,3d rfat uvin6 an infna.~ed spoctromater IKS-2 vorking iri tho roLion
frou 1 to lbix. The lavers e,-jra deposited on rock-salt plates. The
al-sorption coefficient K kFig 1. continuous curve) rises rapidly between
I and 4t&, thon passes through a maximum at 5.5p. (K,..,,,. - 2 x 104-cm-1)
and finally slowly falls with incre4se of wavelength. Calculatiozis of
the absnr~ytion coefficient using the classical Drude theory &ava values
rhich aro shorn by the dashed carve In Fig 1. The calculated curve
departs strongly from exporliLent in the 1-1016 region. Koasurp_L.ents
of the optical atsorption by ZaO as a function of adsorption showad
that on adsorption of oxygen and oth3r wolecules on thin layers the
optical absorption and electrical conductivity decrease monotonically
Card 2/4 time. IrraUation with ultraviolet light Increases both electurical
SOV/51-5-5-18/23
Abaorption by Zinc Oxide in the Infrarod Spoctral Region
conductivity and optical absorption. Fig 2 gives a series of optical
density curves (-log T) as functions of wavelength, which wer3 ob',;ainod
during adsorption. The curvou were recorded after aqael intervals of
tWo. Simultaneously with recording of thase curves resistaice of
the sample was also weasur-id. 73hen curve I was recorded the resis-tanzo
was 6300 ohms ; wheL curve IX was recorded the resistance rose to
30000 olvns - All these measurements were made within 1.5 hours. By
constructing the dependence of (-log T) on (1/R), where R is the
electrical resistance, we can find the change in the conduction electron
d-3nsity N (taken to be proportional to 1/R) as a function of chances
in optical absorption. This is shown in Fig 3 viharo the lines 1, 2.
3 and 4 were obtained at 5.4, 7.3, 11.2 and 15 1& wavelenrthe reap3ctively.
The proportionality betweer, absorption and conductivity shown by Fig 3..
Card 3/4 Indicates that absorption in the Infrared region is due mainly to
Absorption by Zinc oxide in the lnfrared Spectral Region
SOV/51-5-5-18/23
conduction electrons. The authors thanic K.D. Sinollni:cov for his
advice and I.N. Shklyarevsiciy for discussions of this subject. There
are 3 figures and 6 references, 4 of which are Soviet, 1 German
and 1 American.
SUBUITTID: March 26, 1968
1. Zinc oxide films--Spectra 2. Zinc oxide films--Electrical properties
Oard 4A 3. Infrared spectroscopy
KMO5TAVMayv V. K.P Candidate Phys-Math Sci (dlsF;) -- "The optical and alectrt-
cal properties of semiconductor layers of CdO, ZnO., and SnO2". Kharlkov,, 1959.
15 pA,(Mn Higher Eduo Ulcr SSR, KharIkov order of IAbor Red Bamer State U im
A. M. GorIkiy), 120 copies (KL, No 24, 126)
-'NTHOW: E loslavakiy, V.K.
SOV/51-7-2-10/34
TITIS infrared Absorotion by Thin Layers of Tin Dioxide (Infrakrasnoye
poglo3hcheniye tonkikh sloyev dvuokisi olova)
PERIODICAL: Optika J oDektrosiropiya, 1959, Vol 7, Wr 2, pp 244-248 (USSR)
ABSTRACT: Thin layers of SnO2 -were obtained by pyrolytic decomposition of SnC12
and SnC14 vapours which occurred at the surface of a glass plate heated
to 500-6000C. The tin chlorides were prepared in the form of solutions
in variousinedia; the solvent used affected the conductivity of the
final layer of SnO2. Thickness of the SnO2 layers vas controlled by
means of their interference -col6uks.-; The refractive index of the
liyars was found interferometrically; it vas n = 1.96 � 0.02 at 5900
Absorption spectra were determined for layers deposited on thin rocksalt
plates, using a spectrophotometer IES -2 In the wavelength region 1-18 11.
In all layers two absorption bands (Fig 1) were observed: a narrow
band at 16.4 IL and a wide land with a maximum at 8.5-9 It. Samples of
SnO2 prepared by oxidation of thin vacuum-deposited layers of tin were
found to have a much lower conductivity (^a o~=-Icm-l) than the layers
Card 1/3 prepared in the way described above; Sn02 layers prepared by oxidation
!.nfrar-ad Absorption by Thin Layers of Tin Dioxide SOV/51-7-Z-'-6/34
differed also in their optical properties; they were transparent in tka
whole range of wavelengths studied here. Appearance of absorption bands
in SnO2 produced by pyrolytic decomposition of chlorides is probably due
to a large number of impurity atoms introduced during the preparation
stage. These impurities affect also the electrical properties of SnO-.
To find out more about the nature of the impurity bands shown in Fig 1
the author studied the temperature dependence of absorption in the infrared
region and of the electrical conductivity (samples used in the conductivity
studies were deposited on glass plates). It was found that with decrease
of temperature (from +Z20 to -1400C) the absorption coefficient of both
bands rose considerably (the long-wavelength band intensity rose more
rapidly than tbat of the short-wavelength band, Fig 2). Both bands are
ascribed to electron transitions from the ground level of the Impurity
centre into higher energy states: the long-ravelangth band corresponds
to a transition of an impurity atom to an excited state and the short-
wavelength band indicates a transition to the conduction band. The
temperature dependence of the electrical conductivity was determined
between -150 and +300OCs above +3500C the resistance of the layers was
found to increAse irreversibly. Below +15000 the resistance of the
layers was practically constant in a wide ranre of temperatures but
Card 2/3