SCIENTIFIC ABSTRACT SHULGIN, B.V. - SHULGIN, K.

SHULIGIIT, i3.V.; GAVRILCIV, F.F.; DVINYANINOV, B.L. Diollec-Lvic r.-anstant of' 11thium hyaride sIngle cl-(stalr, Ent. iry.-. ucheb. zav.; fi7-. 8 rio.3-1-75 '65. lp,:g) 1. Ural I-.kiy politekhniclieskiy institut imeni S.I.I.Mrova.  L 04606-67 Ew'ror*,,1/EwP"1* ACC NR, AP6032851 SOURCE CODE: UR/0020/66/170/003/0552/0553 AUTHOR: Pinayeva, M. M.; Shullgin, B. V.; Krylov, Ye. I. ORG: Ural Polytechnic Institute im. S. M. Kirov (Ural Iskiy,politekhnicheskiy institutT- TITIE: On the luminescence of europium orthotantalate SOURCE: AN SSSR. Doklady, v. 170, no. 3, 1966, 552-553 TOPIC TAGS: europium compound, luminescence ABSTRACT: An investigation was made of the luminescence of europium. orthotantalate and lanthanum orthotantalate in view of their possible use in lasers. Excitation was produced by ultraviolet light with a wavelength of 265 mv from the full spectrum of a mercury vapor lamp. A monochromator, a photoelectronic multiplier with high sensitivity in the red region, and an amplifier were used to analyze the luminescence spectrum. All experiments were performed at 300K. In,the EuTa04 spectrum, the strongest line observed was 608 mp with a 22-mU halfwidth. Also observed were the 595, 695, 656, and 538 mp lines (given in the order of decreasing sensitivity). The measurements of LaTa04 showed high luminescence in the investigated region. Here, the presence of the 6o8, 538, and 695 mV Ems &nonstr~a,su'Mciently high luminescence intensity of europium contained in the LaTa04 matrix at a concentration of 0.01%. Because of the lack of a 220-mp excitation source, the maximum of ihe excitation +  L 014606-67 ACC NR: AP6032851 0 ' spectrum of EuTa04 could not be established. However, an evaluation of the measure- ments showed that at this excitation level the luminescence output of this material can be close to unity, i.e., twice as high as the estimated output of IaTaO4' Orig. art. has: 2-figures. SUB CODE- 20/ SUBM DATE- 25Dec65/ ORIG BEF; 002/ OTH REF'- 007/ ATD PRESS- 5100  -~s Vi U D. F. Flow about a 6mposite profile of variable. permeability. Akad. Nauk SSSR. Prikl. Mat. Meh. 285-292 (1953). (Russian) Envisageons un 6w4kment permanent plan du liquide, uniforme AL l'infini, inclinf! sur Paxe Ox. Sur une longueur finie de cet axe se ~robye r6parti un nombre fini dobstacies: ' rectilignes. Tchaplyguine [Oeuvres, t. 11, Gostehizdat,. Moscow-Leningrad, 1948, pp. 431-471; ces Rev. 14,'609] Hathematical R-wielws a form6 la fonction caract6ristique'du r6gime, L'aideur par Vol. 15 No. 4 un passage A la limitei 6tend ces conclusions au cas oa 1e A~r. 1054 nombre de 'segments atIgmerkterait ind6finirnent alors que Y&16hanics ]a longueur de chacun d'eux tendait vers z6ro; la den5it6 des parties pleines 6tant infkrieure A 1. Dans la dcuxi~me partie dp m6moire, Vauteur reprend la configuration .6tudi6e par Tchaplyguine, mais en supposant que les obstacles 5ont attaqu6s par un jet gazeux subson;que. Mo'yennant quel-w. ques hypoth6ses emprunt&s A !a Worie des ailes minces, le. proWme est ramen6 A une 6quation int6grale singuWre que Yon peut rksoudre. J. Kravichenko (Grenoble). HER" IA  SHULIGIN, D.F. ~- ~, - Motion of a slightly curved permeable rotation surface. Trudy SAGU no-54:137-146 154. (MLRA 10:3) (Aeradymaimics)  SOV/l 24-57-4-4015 Translation from: Referativnyy zhurnal. Mekhanika, 1957, Nr 4, p 24 (USSR) AUTHOR: Shul'gin, D. F. TITLE: The Unsteady Motion of a Thin Permeable Profile in a Fluid (Neu- stanovivsheyesya dvizheniye tonkogo pronitsayemogo profilya v zhidkosti) PERIODICAL: Tr. Sredneaz. un-ta, 1956, Nr 66, pp 61-67 ABSTRACT: The paper examines the unsteady motion of a slightly cambered per- meable profile. The change in pressure during passage through the porous surface is assumed in the form of Ap = av + X where a and X are experimentally derived constants characterizing the permeability of the profile and v is the velocity of the permeation, The author applies to his solution of the problem L. 1. Sedov's method [Sedov, L. I., Ploskiye zadachi gidrodinamiki i aerodinamiki (Plane Problems of Hydrodynamics and Aerodynamics). Gostekhizdat, Moscow-Lenin- grad, 1950, pp 46-80]. The author reduces the solution of the prob- Lern to a system of two first-order integral equations. He finds an exact solution of that system for the harmonic oscillations of a pro- Card 1/1 file superimposed on a steady-state translational motion with a con- stant velocity. P. F. Korotkov  51. Irreaular Notion of a Thin Porous Airfoil. "Irregular Motion of a Tbin Porous Airfoil in a Liquid," by ~D. F. Shullain, Tre Breduc&z. un-ta 1956, issue 66, pp 61-67 (from ReferatLynyy Zhurnal -- mekhaniks, No 4, Apr j, Ab- stract No 4015., by F. F. Kwotkov)  "This article discusses the irregular notion or a slightly curved, porous airfoil. The change of pressure vh1ch takes place during the- passing of the liquid aver the porous surface is expressed in the rors: A p = av + a - where a and A are the experimentally obtained constants which character- ize the porosity of the airfoil, and v is the velocity of penetration. "For the solution or the problems., the author uses the method of L. I. Sedov (Sedov, L. I., Plaskiye Zadachi Gidrodinamiki I Aerodinamikip (PI Problems in Hydrodynamics and Aerodynamics), Moscow-Leningrad, 195o,, pp 46-8o). The author reduces the solution of the problems to a system of two integral equations of the first order. In this system a precise solution Is found for the harmonic vibrations of an airfoil with a steady forward motion with constant velocity." (U)  SOV/24-58-10-8/34 AUTHORS:Vasil'yev, V. A..and Shul'gin, D. F. (Tashkent) TITLE: Flow of Percolation Water into Symmetrically Placed Water Intakes (Pritok infil;tratsionnoy vody v simmetrichno raspolozhennyye vodopriyemniki) PERIODICAL: Izvestiya Akademii nauk SSSR, Otdeleniye tekhnicheskikh nauk- -61% 1 1958, Nr 10, pp 46-50 (USSRj ABSTRACT: Precipitation falls on a strip of width 2k (Fig.l) symmetrically placed between two buried water intakes7 separ- ated by a distance 2L , The paper discusses the shape of the under-round water surface resulting from these conditions. 0 To solve the problem, the rea-ion is transformed conformally, C3 and by applying complex variable methods, the theory of linear differential equations and the boundary conditions,, the required shape is determined. There are 4 figures and 3 Soviet references. SUBMITTED: February l-, 1958. Card 1/1  V.Auil"YLV~ V,A, (Ta5bkent)- SHUL"GIN., D.F. (Tashkent) u Performance of screem pipes -of-AftlIed wells. Izv. Lff SSsR. Otd. tok-Ii.nauk.1fakh. i mashinostr. no. 1,135-139 Ja,-F' 26.1. (Oil well drilling) (Filters and filtration) (MIRA 14*-2)  VASILIYEV, V.A.; SFIULIGIN,_D.F. Theory of the performance of the filter of a water-intake well. Nauch. trudy TashGU no.209. Mat. nauki no.23:3-15 162. (MA 16:8)  SHULIGIRIP D.F. Nonuniform perforation of well filters. Izv. vys. uch. zav.; neft' i gaz 5 no.9:111-116 162. (MIPA 17:5) 1. Tashkentskiy gosudarstvennyy universitet im. V.I. Lenina.  KOVUN, P.K.. NEVZOROV, A.P., ANTONIDPO, G.P.,; BUDDIA.L.V.; VOROKI.NLA, Ye.P.; GUSEV, F.I.: YKAGIN, M.N., ZHURAVLNV, M.A., ZALOZNTY, K.D.: KOKKOV,V.N.' KOROBOV, A.S.;KORCIIAGIN, V.N.; LAVROV, V.N.; LAPSHINA, O.V.; LUTIKOV,I.Ye.' M029VNIN, A.Ya.;MOROZOVA, F.I.;NEVZOROV, A.P.;PONOMARCHUK, M.K,;PUCH- KOV, A.M.; RAZMOLOGOITA, A.M.;RUBIN, S.M.; SELEZNEVA, O.V.;SEMENOVA, F.I.; SPIRIDONOVA, A.I.;SUSHCHEVSKIY. M.G.;USOV, M.P.; TARKOVSKIY, FI.I.; CHENYKAYNVA, Ye.A.-,SIIENDRIKOV, G.L~; SHULIGIN, G.Zh;TSITSIN, N.V.,aka- demik, redaI,-tor-.REVENKOVAf- A.I.,redaktor; KF='IA, N.M.. khudozhostven- ny.v redaktor; VESKOVA, ye I., tekhnicheskiy redaktor; PRVZNXRV.13.I.. takhnichaskiy redaktor. [Plant breading at the 1955 All-Union Agricultureal Exhibition] Rastenie- vodstvo na Veesoinznoi sallskokhoziaistvannoi vystavke 1955 goda.'Moskva. Gos.izd-vo sel'khoz.lit-ry, 1956. 667 P. (MLRA 10:4) (Moscow--Plant breading--Exhibitions)  SHULIGIN, G.T., agronom. 1. -- A ~qst important means for increasing production and lowering the cost of essential oils. Hasl.-zhir. prom. 23 no.4:14-16 157. (KLRA 10:5) 1. Ministerstvo sel'skogo khozyaystva SSSR. (Aromatic plants) '  SHULIGIN G _r agronom. .9'.. Aromatic plants in China. Hauka i pered. oo, v sellkhoz. 8 no. 7:74-76 Jl '58. (KIRA 11:8) (China--Aromatic plants)  SMMIGIN, Georgiy Tikhonovich; ZALOZNYY, Kirill Danilovich; BIKOTA, M.G., red.; GORIKOTA, Z.-D., tekhn.red. [Concise manual of aromatic plants] Kratkii spravochnik po efiromaslichaym kullturam. Moskva, Gos.izd-vo selikhO2.lit-ry, 1959. 16o p. - (MIRA 13:2) (Aromatic plants)  ALEKSMEVA, Ye.l., kand. sel'khoz. nauk; BUZDJOV, P.A., kand. sellkhoz. nauk; VODOLAG1111, V.D.; VOLKFOVSKAYA, U.V.; GLUSHCHENKO, N.N., kand. biol. nauk; GURVICH, N.L., doktor biol. nauk; ZHELEZNOV, P.A., kand. sellkhoz. nauk; KSON, A.T.; LESHCHUK, T.Ya.; LUKIYANOV, I.A., kand. sellkhoz. nauk; MAYCM4KO, Z.G., kand. sellkhoz. nauk; TMIASIYF14KO, F.S., kand. khim. nauk; ZNAMENSKIY, M.P.; PERSIDSKAYA, K.G.; PODLESNOVA, A.F.; ROGOCHIY, I.Ya.; RKNIKOV, A.R.; SHUL!q:pjj~' _G_T_; KHOTIN, A.A., doktor sellkhoz. nauk; LAPSHINA, O.V., red.; NINENKOVA, V.R., red.; MAKHOVA, N.N., tekhn. red.; BALLOD, A.I., tekhn. red. (A-romatic plants] Efiromaslichnye kulltury. Moskva, Sell- khozizdat, 1963. 358 P. (MIRA 16.-12) (Ukraine--Aromatic plants)  KLESHNIN,A.F.; STROGONOV,B.P.; SHULOGIN,I.A. New method for determining transpiration. Fiziol.rast. 1 no.2: 188-192 N-D '54. (MIRA 8:10) 1. Institut fiziologii rasteniy imeni K.A.Timiryazeva AkRdemii nauk SSSR, Moscow (Plants--Transpiration)  Av --------------- h ii , n- t-!-k -B.'-PZ dorq- cd mnc!~,In ~;X ZT amwplwa J P16 Wih W tus fs:ddd;~ tin .1 V a b bef e c I w tbLt' ClIergy vis pol 6' fit. I gr4)JM an tell lou"r, Up- 06 - tte ~euerp It Taulsp tic (31 mama  A;, USSR/Plant Mysiology - Water Regimen. Abs Jour Ref Zhur - Bioli, No 18, 1953, 82018 Author Kleshnin, A.Fi, Shul'gin, I.A. Inst Title The Intensity of Transpiratiou Mider artificial Light. Orig Pub Fiziol. rasteniy, 1957, 4, No 6, 548-553 Abstract Plant tra-aspiration under strong (35000-1.000.000 erg/ cm see) illumination by incandescent lamps attained its maximum during the first 15 zdn and then dininished and became stable. It was strongest iii the Solanum byeoper- sicum, Malus corimmis, Acer platanoides. It was weaker for the Cucumis sativus. It was smallest for Calla ethiopica, Ilex pyramidalis. The transpiration of 20 of 23 studied species is rigorously proportional to the il- luraination. The maximun transpiration ii3tensity (547 g/n2-hour) is noted in the Populus tremula in a hot-house and at 19-260 and under integral lamp radiation of Card 1/2  USSR/Plant Physiology - 'dater Reginen I. Abs Jour - Ref Zhur - Biol-, No 18, 1958, 82o18 1.000.000 erg/cn,2. sea. ---. L.I. Krasivskiy. Card 2/2 - 25 -  MSE211N, A.F., SMIGIN, I.A. Leaf temperature of plants in artificial light, Biofizika 3 no.4:43&-~6 158 (M3RA 11:8) 2. Institut fisiologii raeteniy AN SSSR, Moskras (PLANTS, FYFECT OF LIGHT ON)  SHnIGIN,,I.A.; KLFSIUIIN, A.F.; VERBOWVA, M.I. Photoelectric determination of the optical properties of plant leaves. Fiziol.rast. 5 no.5:473-476 S-0 158. (MJRA 11-11) 1. Institut fiziologii ras~eniy imeni K.A. Timiryazeva AN SSSR, 14DBk-va i Kafedra darvinizma 14oakovskogo goeudarstvennogo universiteta. Hosk7a. (Leaves--Optical properties) (Photoelectric measurements)  ,70) AUTHORSt Kieshnin, A. F., Shullgin, I. A., SOV/20-.122-5-53/56 Bokovaya, M. 11.1. 11_~~ TITIE~ On the Specific Heat Capacity and the Bound Water of Plants I (Ob udellnoy teployemkosti i svyazannoy vode rasteniy) PERIODICAL: Dokiady Akademii nauk SSSR, 1958, Vol 122, Nr 5, pp 940-943 (USSR) ABSTRACT: In the present paper the results of the determinations of bound water according to the specific heat capacity of plant tissues are described. As it is known, the specific heat capacity of free watez- is equal to 1, those of iron, however, and of crystal water 0.5 cal/g.degree. In colloids (humus, starch, gelatin, gum arabic) the specific heat-capacity dec,reases with the decrease of the water content in the cciloid from 1 to 0.5 i~al/g.degree (Refs 1-6). This fact makes possible the use of the index value in question of diffprent states of the water as well as the elaboration of a method of determination for the various -forms of water ir. the plant by proceeding from the additivity principle (printsip add-i-tivnosti). The authors determined the heat Card VI capacity calorimetri,~ally in petroleum (for maize and pea  0 n -t- h e S pf ii oHeat Capacity and the Bound Water 9011/20-122-5-53/56 of Plants ne,lds) or in water (leaves of various types of plants). The results obtained are given in the tables 1-4 and figures 1-3~ The authcrs proved by these experiments that the specific heat capacity of absolutely dry maize seeds is 0,295, and that of the pea seeds 0,383 cal/g.degree (Pigs 1: 3, and 4). in the case of a high water content the specific heat capacity of the seeds increases linearly (Figs 1~1 and 2), whereas itt considerably deviates from the straight line in the case of a low humidity (to 25 %). This deviation means that the average specific heat capacity of the water C., calculated according to the formula C = Cf - Cm (1 - W) w W is not constant but changes to a high degree depending on the of the seeds (Figs 1:5). From all this the authors draw the following conclusions: 1.-In the plant tissue there are at least three forms of water: a) one firmly bound (specific heat caracity = 0.5 cal/g.degree) b) one loosely Card 2/4 bound (caDacity 0.5-1 cal/g.degree) and c) free water  On the SDecific Heat Capacity and the Bound Water SOV/20-122-5-53/50' in Plants (I cal/g.degree). 2.-The ratio between the firmly b6und and the loosely bound water in the seeds amounts to 1:2 (Fig 2). Wher, proceeding from the Dhysical heterogeneity of water the additivity equation is modified taking into account the plant tissues (2). From the equation (2) the authors derive the content of the firmly bound water H and of the loosely bound water 2H, respectively: H = ~ 'TV +~ Cm(i - w),7 - cf (3) Table I shows the calculation results according to formula (3) for 16 types of plants. The maximum content of firmly and loosely bound water was -found in the leaves of the mesophytes (32.46 16', Table 1) and of the evergreen xerophytes (24-99 %, Table 2), the minimum co'ntent was found in hygrophytes (8.61 %, Table 3) and succulents (5.76 01., Table 4). pecific heat capacity of normal living leaves also depends on the ecological group (Fig 3). Its minimum is found 1'n XE?roi)hytes (0.709, Table 2) and its maximum in succulents (0 956 Cal/g.degree, Table 4). Mesophytes and hygrophytes are Card 3/4 in between these two(O.820, Table 1, and 0.908, Table 3).  On the Specific Heat Capacity and the Bound Water SOV/20-122-5-53/56 in Plants There are 3 figures, 4 tables, and 6 SOV4 et references. ASSOCIkTION: Institut fiziologii rasteniy im. K. A- Timiryazeva Akademii nauk SSSR (Institute of Plant Physiology imeni K. A. Timiryazev of the Academy of Sciences USSR) PRESENTED; j,,ine 2':, 1958, by A. L. Kursanov, Academician SUT.1ITTE-D- Jtine 21, 1-958 Card 4/4  SITULIGIN, I.A.- KLESHNIN, A.F.; VERBOLOVA, M.I. Role of anthocyanins in the absorption of radiation energ7 by plant leaves. Nauch.dokl.vys.shkoly; biol.nauki no.2:166-174 159. 041RA 12: 6) 1. Rekomendovana Imfedroy da--vinizma gosudarstvennogo universitsta in. M.V.Lomonosova. (Anthocyanin) (Solar radiation) (Leav6s)  KLESMITO A.Z,,- SHULIGIII, I.A. Energy balance of plant leaves in artificial light. VesteMoskouno Snr.biol., pocbv., geol., geog. 14 no.1:23-30 159. (Plants, Effect of light on) (14IRA, 12:9)  17(l) AUTHORS: Kleshnin, A. F., $4iLl SOV/20-125-5-56/6i TITLEt On the Optical Properties of Plant Leaves (Ob opticheskikh svoystvakh listlyev rasteniy) PERIODICAL: Doklady Akademii nauk SSSR, 1959, Vol 125, Nr 5, PP 1158-1161 (USSR) ABSTRACT: The main part of the radiation energy which reaches the leaves is absorbed by them. It is used for all physiological processes and the processesof growth and development related to them. Although since Sachs (Ref 1, 1860) many papers have been published on the topic mentioned in the title, the number of modern papers is very low (Refs 5-9). Therefore it is necessary to investigate the topic mentioned systematically. The rules governing the distribution of the radiation energy abEoTtionwithin the physiological range of the speotrum have to be determined for most of the plant species under natural conditions. For this purpose the authors investigated approximately 60 species from the ceiLtral zone of the European part of the USSR according to the earlier,published method (Ref 1). These species were planted in fields: sunflower (Helianthus annuus), potato (Solanum tuberosum), et al.,altogether 6 species; Card 1/3 vegetables: tomato (Solanum lycopersicum), pea (Pisum sativum),  On the Optical Properties of Plant Leaves WV/20-125-5-56/61 cucumber (Cucumis salivus), black radish (Cohlearia armoracia) et al., altogether 10 species; vegetables with a high water content in the leaves: onion (Allium cepa), lettuce (Lactuca sativ&) ,:, common sorrel (Rumex domesticus), et al.- 5 species; ornamental plants: Perilla nankinensis, Phlox paniculata, peony (Peonia officinalis), Cineraria maritima, et al.- 10 species; wild herbaceous plants: Rubus saxalttia, violet (Viola tricolor), strawberry (Fragaria vesca) et al,- 10 species; trees: white poplar (Populus alba), birch (Betula verrucosa), lime-tree (Tilia vulgaris), hazel tree (Corylus avellana), common (British) oak (Quercus robur) et al.- 15 species; aquatic plants - hygro- and hydrophytes: Caltha palustriq Menyanthes trifoliata,Thy1jh,-_ latifolia, Potamogeton praelongus, et al,- 15 species, which differ from one another by the chlorophyll content in the leaves and have different stands. It was found that the reflection, perm6ability, and absorption of radiation energy in the individual spectral ranges are rather similar in the major part of these plant species i4spite of their different systematic and ecological classification and different stands. This was confirmed by the spectral curves (Fig-i). From these results the conclusion may be drawn that an optical system developed in the course of Card 2/3 evolution of the plants: leave - plastides - pigments which got  On the Optical Properties of Plant Leaves SOV/20-125-5-56/61 accustomed to the optimum absorption of radiation energy within a rather narrow range, i. e. irrespective of the species characteristics of the plants. There are 3 figures and 11 references, 3 of which are Soviet. ASSOCIATION: Moskovskiy gosudarstvonnyy universitet im. M. V. Lomonosova (Mostow State University imeni 14. V. Lomonosov), Inatitut fiziologii rasteniy im. K. A. Timiryazeva Akademii nauk SSSR (Institute of Plant Physiology imeni K. A. Timiryazev of the Academy of Sciences/ USSR) PRESENTED.- January 10, 1959, by A. L. Kursanov, Academician SUBMITTED: January 9, 1959 Card 3/3  170) SOV/20-125-6-55/6, AUTHORS: Shullgin, I. A., Kleshnin, A. F. TITLE: On the Correlation Between the Optical Properties and the Chlorophyll Content in Plant Leaves (0 korrelyatsii mezhdu opticheskimi svoystvami i soderzhaniyem khlorofilla v listlyakh rasteniy) PERIODICAL: Doklady Akademii nauk SSSR, 1959, Vol 125, Nr 6, PP 1371-1373 (USSR) ABSTRACT: The pIgment content varies considerably in the plant leaves (Ref 1). However, there are no data on the effects of dif- ferent chlorophyll contents on the optical properties of leaves, in particular on the absorption of radiation energy. This effect was to be determined in the investigation under review. For 'his purpose, plants of the middle zone of the European USSR .Orom natural growth conditions were used, both light-loving and shadow-loving plants being employed: herbs, woody plant57 ornamentals, crops; and others, a total of 80 species. The optical properties were determined by the method indicated in reference 2. Figures 1-3 show the results. From them it, may be Card 1/2 concluded that in most of the above-mentioned plants (mainly  SOV/20-12',-6-55/61 On the Correlation Between the Optical Properties and the Chlorophyll Content in Plant Leaves mesophytes) the optical properties - transmission, reflexion, and absorption - are independent of the chlorophyll content. Chlorophyll is mostly present in excess quantities. There are 3 figures and 2 Soviet references. ASSOCIATION: Moskovskiy gosudarstvennyy universitet im. It. V. Lomonosova (Moscow state University imeni 11. V. Lomonosov) Institut fizio- logii rasteniy im. K. A. Timiryazeva Akademii nauk SSSR (Institute of Plant Physiology imeni K. A. Timiryaze-,~- of the Academy of Sciences of the USSR) PRESENTED: January 10, 1959, by A. L. Kursanov, AcadeM4cian SUBMITTED: January 9, 1959 Card 2/2  SHUL-GRi, 1. A., Cand Biol Sci -- (diss) "Optical properties of the leaves of plants in various geographic zones." Leningrad, 1960. 28 pp; with graphs; (Academy of SEIciiences USSR, Botannical Inst im V. L. Kom- ); 300 copies; free; list of author's work or, pp 27-28 (20 entries); arov, (KI, 1 22-60, l?55)  SMMtGIN, I.A.; KLESHMN, A.F.; VMMLOVA, I.I.I. ielation between optical properties and structural characters in plant leaves. Nauch. dokl. vys. shkoly; biol. nauki no-1:132-135 16o. (MIRA 13:2) l.Rekomendovana laboratoriyey biologii razvitiya rasteni7 Moskov- skogo gosudarstvennogo universiteta im. M.V. lomonosova i Institutom fiziologii rastaniy'AN SSSR. (Leaves-Optical proparties)  SHULIGIN, I.A.; VERBOLOVA, M.I. Optical properties of leaves of aquatic plants. Nauch.dokl.vys. shkoly: biol.nauki no.4:167-174 160. (MIKL13:11) 1. Rekomendovana kafedroy darvinizma Moskovskogo gosudarstvennogo universiteta, im. M.V.Lomonosova i Institutom fiziologii rasteniy AN SSSR im. K.A.Tiniz7azeva. (AQUATIC PLANTS) (LEAVES--OPTICAL PROPERTIES)  SHULIGIN, I.A.; KLESIININ, A.F.; PODOLINYY, V.Z. Optical properties of plant leaves in the ultraviolet region of radiation. Fiziol. rast. 7 no.2:141-144 160.- (mw 142.5) 1. Institut fiziologii rasteniy A~eni K. A. Timiryazava Ikademii nauk SSSR$ Moskva i Biologic~eskiy fakulltet Moskovskogo gosuda2- stvennogo universiteta imeni M.V. Lomonosova. (Leaves-Optical properties) (Ultraviolet rays)  SHUL 'GIN,_ I.-A.1, KjaSIMN, A.F.; BXMWVA, M.I.; PODOWZY, V.2. I Studying optical prop~rtiss of leaves in woody plants with the U-4 epee tr opho tome ter. Yiziol.rasto 7 W-3000-308 16o. (MIU 13:6) 1. 14A. Timiryazev Institute of Plant Physiology. U-S-S-R- AcadeW of Sciences, Noscow. (Leaves--Optical properties) (Spectrophotometr7)  KLE-SHNIN., A.F.1 SHUVGIN, I.A.; VERBOLOVA, M.I. Optical properties of plant leaves. Bot. zhur. 45 no.4:492-506 Ap 160. (MIRA 140) 1. Institut fiziologii rasteniy im. K. A. Timiryazeva AN SSSR i Laboratoriya biologii razvitiya rasteniy Moskovskogo gosudarst- . vennogo universiteta. (Leaves--Optical properties)  SHULIGIN9 I.A.; KLES11NINq A.F,; VERBOLOVAf M.I. Optical properties of plant leaves containing anthocyaninB ,. Biul. MOI.P. Otd. biol. 65 no. 4:77-03 JI-Ag 160. (MIRA 13:10) (LEAVES--OPTICAL PROPERTIES) .(ANTHOCYANIN)  "UnIGIN, I.A.;KHAZAHOV, V.S.; KLF.SHNIN, A.F. Nature of the reflection of radiant energy as related to the structure of the leaf.. Dokl.A?I SSSR 134 no.2:471-474 6 16o. (MDU 13:9) 1. Institut fiziologii rasteniy lm.K.A.TimiryaZ8va AN SSSR i Vsesoyuznyy nauchno-issledovatel skiy Bvetotekhnicheskiy insitut. -Predstavleno akad. A.L.Kursanovym. (Leaves-Optical.pr9perties)  -,SHULIGIN, I.A. Optical characteristics of xeromorphy and succulence in plant leaves. Dokl..AK SSSR 134 no.4:972-975 0 160. (MIRA 13:9) 1. Institut fiziologii rasteniy im. K.A. Timiryazeva AkELdemii nauk SSSR. PredBtavleno akad.A.L. Kursanovym. (Leaves--Optical properties) (Botany--Ecology)  SHCHERBINA, I.P.; SHULIGIN, I.A. Characteristics of some morphological and physiological corn types in the YWbardino-Balkar A.S.S.R. Rauch. dokl. vys. shkoly; biol. nauki no.3:169-172 161. (MIRA 14:7) 1. Re.komendovana laboratoriyey biologii razvitiya rasteniy Moskov- slcogo gosudarstvennogo universiteta im. M.V.Lomonosova. (KABARDINA-BALKAR A.S.S.R.-CORIT (M4IZE)-VARITIES)  SHULIGI.11.1 I.A.; KUPERMAN., F.M.; VYSLOUKH, V.A.; SHCHERBINA, I.P. Chlorophyl content as a physiological index of heterosis in corn. Fiziol. rast. 8 no.6:754-756 161. (MIRA 16:7) 1. Laboratory of the Biology of and K.A. Timiriazev Institute Academy of Sciences, Moscow. (Heterosis) (Corn Development of Moscow University of Plant Physiology, U.S.S.R. (Maize)) (Chlorophyll)  KUPERMAN, F.M., prof. dr. biolog. nauk; FOVOLINYY. -~ .7 -~!, ~ karid. biolog. nauk Changes in the shape and size oC sunflower leaves in connec',Icn with rhe stages of' Its organogenes.1s. Unh. zap. K~ab,-Balk, gos. un. nc. 1M-1-40 161. W--RA. 17.6~ j  SHMERBINAY I.P.; SHULIGIN, I.A., kand. biolog. nauk Characteristics of the leaf apparatus in corn in the Kaba-rdino- Balkar A.S.S.R. Uch. zap. Kab.-Balk. gos. un. no.10:41-46 161. Characteristics of the surface mass of corn leaves in the Kabardino-Balkar A.S.S.R. Ibid.:55-60 (MIRA 17:6)  VISLOUKH, V.A.; SHUL'GIN, I.A., kand.bLolog. nauk Effect of various climatic conditions under the conditions or vertical zonality on the growth of plants and changes in the pigment system of potato leaves. Uch. zap* Kab.-Balk, gos. un. no.10347-54 161. (MIRA 17:6)  KHAZANOV, V.S. I Light conditions in plant associations. Vokl. AN SSSR 141 no.6: 1493-1496 D '61. (LIJRA 14:12) 1. Institut fiziologii rasteniy im. K.A.Timiryazeva AN SSSR i Vseso~uznyy nauchno-issledovatel'skiy svetotekhnicheskiy institut. Predstavleno akademikom A.L.Kursanovym. (Leaves--Optical properties)  SHULIGIN, I. A.; IGIAZANOV, V. S.; RZILUIOVA, T. B. Ratio of the su--.-.Pace and deep components of light reflected by plant leaves. Nauch. dokl. vys. shkoly; biol. nauki no.3:133-136 162. (MIRA 15-7) 1. Rekamendovana kafedroy darvinizma Moskovskogo gosudarstvennogo universiteta, im. M. V. Lomonosova, Institutom fiziologii rasteniy ,01 SSSR i Vsesoyuznym naiichno-issledovatel'skim svetotekhnicheskim institutom. (LEAVES-OPTICAL PROPERTIES)  SHULIGIN, I.A.; KUPERMANY F.M.; SHCHERBINA, I.P. Relation between the chlorophyll content and stages of organo- genesis in corn. Fiziol. rast. 9 no.3:347-352 162. (MIRA 15:11) 1. Institut fiziologii rasteniy imeni K.A.Timiryazeva Akademii nauk SSSR, Moskva i Laboratoriya biologii razvitiya rasteniy Moskovskogo gosudarstvennogo ~niversiteta. (Corn (Maize)) (Chlorophyll)  5HULIGIN, ;gqr.!. Aleksandrovich; KUPERMAN, F.M.., prof., otv. red.; otv.red.; DANIL~ICHENKO, O.P., red.; GEORGIYEVA. G.I., tekhn. red. [Morphological adaptations of plants to light; optical properties of leaves. A lecture from the course "Biology of plant development"] Morfofiziologicheskie prisposobleniia rastenii k svetu; opticheskle svoistva listlev. Lektsiia iz kursa "Biologiia razvitiin rastenii." Moskva, Izd-vo Mosk. univ. 1963. 72 p. (MIRA 16:9) (Leaves-Optical properties)  SHULIGIN, I.A.; PODOLINYY, V.Z.; SOKOLOVA, S.V. A method for rapid determination of the chlorophyll content. Fiziol. rast. 10 no.3:383-386 MY-Je 163. (Ia~RA 16:6) 1. K.A.Timiriazev Institute of.Plant Physiology, U.S.S.R. Academy of Sciences, Moscow and Laboratory of Biology of Plant Development, Moscow State University.. (Chlorophyll) (Plants-Chemical analysis)  KHODORRIKO, L.A.; SHULIGIN, I.A. ...... Effect of different illumination conditions on the anatomi- comorphological structure of radish leaves. Nauch. dokl. vys. shh-oly; biol. nauki no.3.-149-153 t64 (MIRA 17t8) 1. Rekomendovana kafedroy darvinizma Moskovskogo gosudarstven- nogo universiteta.  :3'!jUT, Ff,-ect of visibi-le and in'rared radlla?,ion on Ihe g-r!;w".. anJ development of radishes, riziol, rast. 11 no. 3z 398-~~08 %V i_ Tlmi-iazev Ins--itute ol' Plan" rhys, AC ,)f Scienctis, Moscow,  ~s 7 F~, 4,42 C  sr,V~ -~rfC;. .-Z,~)r, and lr',crsity of IlIght ,)n the or r),;, t.1 ,a-, --A (:0-,d "ions of var! a us 7 C. 5 Mr-A-P 165. (KIRA 18-~6) v T.- em e -a 33 R 5 .o5 - L - yaz v PN SS - kva.  SHL11"GINY I.A.; MOLDAU, Kh.A. Spectral coefficients of the luminosity of plant leaves in natural and polarized light. Dokl. AN SSSR 162 no.621430-1433 Je 165. (MA l8s7) 1. Institut fiziologii rasteniy im. K.A.Timiryazeva AN SSSR i In- stitut fiziki i astronomi-L AN Estonskoy SSR. Submitted August 26, 1964.  L E71lo-66 ACC NR, Ap6ol7474 SOURCE COM.. UR/0020/65A62/006A430 AUTHOR: Shullgin I A.; Moldaup Kh. A. ORG: Institute of Plant Physipiogy im. K. A. Timiryazov,, AN SSSR ~InGt'itut fiziologii rasteniy AN SSSR); ~:.Institute of Physics and Astronomyp AN EstSSR (Institut fiziki i astronomii AN EstSSR) TITLE: Spectral coefficients oftbrilliahce of plant leaves in natural'and pc light SOURCE: AN SSSR. Doklady, v. 162, no. 6, 1965p 11*30-1433 TOPIC TAGS: plant physiology, biophysics., light polarization ABSTRACT-I.Th- authors used a speC'trogonidgi6ph"t6 measure the spectral .coefficiUnts of brilliance of corn leaves in reflected and transmitted lightf. PF-42 filters were used to obtain polarized light and to determine! :th~ degree of polarization of the indicatrices. The nature of light diffusion by the leaves was found to vary with the absorption, degree of. ;polarization, and location of the plane of oscillation-of the electric ,,'vector of incident light relative to the leaf surface. Moreovert the polarizing action of the leafwith Incidence of nonpolarized 1-ight was different from its depolarizing action with Incidence of polarized light. .It was largely dependent on the region of the spect'rum. Polarization was slight in the regions of weak absorption of radiant energy by e leaf-,   LU 1: ~-t i-j 17, g D 1:1 i t V,.y a v 'v:u -.,L;rw rc-p- late ater heat.1 s 7T*,-,t,,-,-r'(.',.,regu34-.-upm,,,rkh sistem vcdianog,~ L 7 P. (N 1 HA 1,8 z 8)  Issl-dovanie aliminievvkh trub. Kosk-,,ra, 1931. 16 p., tables, diagrs. (TSAGrI. 11. irutr, no r-0) Swmmiry in English. Title 'ur.: Investigation of aluminiun tifoes, QA911.165 no.80 SO: Aeronutical Sci4ences and Aviation in the Soviet Union, Library of Congress, 1955  SOLIGE.-l', I.G. 13sle,iovanie di-aralia!:dnievoi provoloki. vloOkVa, 15-31. 43 P., illus. (TSAGI. Tru-:y, no. 63) S-,uijuary in Eh~-Lish. Title tr.: InvezAj4,-ation of duralum.in wire. W1911. M65 no.83 SO' Aeronutical Sciences and Aviation in the Soviet Union, Library of Congress, 1955  SiFOL I(-- T7~ .-I, T C Issledovanie diuraliwiniewykh zakleT)ok Moskva, 1931. 79 p., il-lu-- ta~)les, diagrs. bibliography: p. 77-7i~. Surrm-ary in I~n'-li3h. Title tr.: Investia~.-tion o duralimin rivets. QA911-,"65 no. 1-1 SO: Aeronautical Sciences and Aviation in the Soviet Union, Library of Congress, 1955.  3&JL'GLI.? I.(~. Isslet.lovanie -ipt-uroi i plasylcheskoi de,'uniiatsii dw-aliuminievjkh li~;tov pri zagibe. Mosk-va, 1932. 36 P.) illus.' tables, diagrs. (TjAGI. Trudy, no.11h) 6wm-.iary in -Inglish. Title tr.: Investigation oC elastic and plasTic deCorniations oC duralwn.-in sheets durinc, bendina. - QA911.1-165 no.16 SO: Acronauticall Sciences and Aviation in the Soviet Union, Library of Congress, 10,515.  1 6 It 1 11 1: It 14 Is It "M Ox'1111 414 4 P. L h U SoI I It AA 14 CC OL (IF, W 7 L*0 : 0 Investiestim of duralumin rivets L *0 ["'ONS Ont'. Aff".11 /lilt i It: 2t,"Ififillog I,- Illn-1). J)mjwfllr.,~ 2r; CIS, f2$ cmltr.. 2 5 3 .5~*r (*it. 1311 -ith 4 A% Coo, 4 j I I, ow. SO. Alive-1% how Ilwtvj%. 'Itrilig.11%. Ankicatt lfwt,-G~lt- I.- I.-I high pumicliv slid -fight lwgolli~, lit, h, n( (21 %htww tumn mcch. stmigth, torowl. silk 1-t, aloof .1yr ruin( %iticuble Itir airplAtir citfwtur6-ti. Thot- So( 13l %1).)w trbitiveh Ijigb mn-b. vernigeh Wir korr hArd I., w,Nk I roo vwi(fl. M G., M-w goo 0 0 9 X1 goo -00 see go Zfe 00 7 NO* 00 ;:66 00 00 It I - , U it AT '03 it r) It "1 11 1 .4 a a Q it (I IS it it, I to, 3 7 00 00 a If 0 0 ----------- ---------- 0  .HJL'GL7I)T G. issledovanie duraliuminiev-jkh tolstostennykh profilei. 1-ioskva, 1033. 38P., tables, diaFrs. (TSjkul. Tru-dy, no. L3) &xm;,.ai-,,r in Title tr. : InvestiR-jtion oC dural-unin thic1cualled 5ectioni. i~911-11-1.65 no - M3 SO: Aeronutical Sciences and Aviation in the Soviet Union, Library of Congress, 1955  N As L 0 0 0 P4 .4 III Afto 09 ifflip fit 00a 0;: .: on 0 Or Nil 321311 Savo 3040 $1 a 0 44 As j 00 AT is 1% IND A-0 $In 050101 soup$ OMMIASS113 110111111J1.11 IT36919411YANNO 11-1 A oar trA P-Pelle" =iem. 71 d ehenLIW lrrm~,w Ak Oda owl n. and 809ftPhic at,,, (1). Iri-t lar., O= I 06 : a tva IF a Is a, 119 10 f IT 00000 0 41 yes 99  0! i i I ! ? ? IL 0 4 08001111 AND IVeptaft 0: *1 T'"'WSM DIEfshEldu TOM L M Shulgin ffeAtik jUagimeent owl Ve-A-m-lWii-40. left (r,). TAxibw c I%. tu W a wall-thicktomm I distrurter fatii, 4 ovrr 1: 4o. T'Wic tlwta abovrcd that high nwchwilmd prij,1111im (jejoik, "14011 43 kg.jium.- aM A-Watim A*.) am obWnr4 in tbp abownce uf surf*Av drfivu. Iitudinsl tvitta'showed that thin.walled tubm %efe mom ecummi= thick-= Trwavem brMing tmU showrd the thmacivantWof mmit%.xhort tube- Irngths. Tbr data on. given in lohniAr 00 middiagmin films-N. 00 logo ~0-166 a u U AV 0 SITALLUNWAL LITERATURE PC Lf tp 0&0 0049 Kit WIR Kalt jig 110 A I 0 0 All I I a 1w a 0 0 0 0 : : : : 00 00 -00 no* =00 93 00 roe .00 :.goo =0 woo  a S 6 7 6 1 10 12 1) a b U It I X 00 002.-, -C XIll JJU 340 JAY uses) 43434 6 Tt" jilkh-Ptitornsatm At-wito. Alloys. 1. 00 (VtAlnik Ingrnerov i TAnikov J.Ifeamnger Eng. Ttrh.). UK (9).542-5-M). 00 [in Russian.1 Two improved Duralumin alloys were inyratiptAvIl', tIM-Y 99 voritAinml (a) copper 4-3-4-5, ilicon (J-77-1-0. and iron 0-04-0-75%. and (b) copper 4-3-Z-42). manaarm-ne 0-7-1-2. magnesium 0-"-7. silicon 0-0-0-8, iron 0-61. and titanium (P. 15 Theoptimum mochanioO properties weroobtainixi byaping At DW-1711,C for 15 lira.. the values to-ing: kmalln atrength 4913-30-11 kv./tum.1, yield. L!gint 38-43 kg.jeass.s. elongation 8-10%, limit of proportionalitv 3441) 3 t li f l jmm. ~ nux u ia o e asticity 6060-7527 kg./m k The alloy frm fn)m ' m titanium in nuperfor to that containing titanium. - A. . 00 2! to S L A &ETALLURGKAL LITER.TUM CL.SSWICAM- IT- -0 1 l U , U l p PW D it Cr H a 19 ~D a 00 *0 00 og*g* 0 All L S 0 Od 0 0 A I It N 9 AD 104� lo: -0 0*6 -00 x90 Bee see IND*  - UK *' 0'0 Ed, 0 00 JA 15 J6 Ir j#A49 1 1 41 QQ bodes V 11 12 13 u Is is )a 1 V It U a is B 26 V a it m 1 III I IF Z Mi k t - - - -00 0 ic *Tbe H*41-Trestment and Properfies of K"necium Alloys. I r , IL,Vkac 31.1ally (I.,ght 1936. (12). X, 31.11. ifo l'jI_izkjt j The . of Alto $If of IIIagnc~iuIjj uith (,I) zol.. 1 a'611t 4f-26 a, ' . . lwrylliumi) ).a n4l Alu njiniu its 6"'~. stiff (b) I he N"1111. -11,41 it uvoto ill thl. rat io 0 it-, 4) 6. Wilt aml It" werr tt~tcd after extruitinn. Annealing at 411tl*(*. for ' : It". Alid lurnehift g. And After sulw4luent normalizing at I7A V. (,,r 49 " see 0 .11 hr.. Alh,.% (,I) after linwing.h" a Irtwileotri-agthuf3l kg. nim.l.an O,toxit- 6 Ili, I ti,- I And a Brinell hardnem of ILI -. after qwnchinir &nil normalizing zoo 0 0 J! , tf~ -rrvilpotufing values are 33-3 5-311... And 72, For Alloy (N. 00 fill- n~rn-opolidifig valuca An-: birforr quenching. 32 kg.imin.1, IV And lid; 0 _ after quenching, 34 kg."Him.1, 3-50,.. and 67. anti after4jut-nehing and normalix- ' ing, 43 51,11. And 112. The hardnew of the second Alloy in bart-Ir 290 00 ~ All-t(A by The quenching temperature between 320' and 420' C., Lut after 121100, 00 'a FlulwA-queiit annealing the harvinnis im a maximum when quenchine is done .1 - 4 OW C. The hardnem incn-aws with inemaxe of normalizing temperatum 81100 00 Z 111ir and 17P C. anif time betwm-n 0 And 7S hro. but after 49 so 00 i2d , 4S Jim- At 2(W)* C.- 1). N. S. 1111110 - see =0 0 too 7. PATUNE CS.ASSAFKATMON I L A a[TALLURGICAL LITIE lee see s Aw 0 , X a 11 A] fw a N a I Is v 0 9 It Ill 9r K q 0 0 0 0 9 0 0 0 * : : : 0 a 0 0 0 0 a 0 0 a 0 0 0 0 : : 0 0 0 0 0 006 a 0 0 90010  0 a 0 0 0 0 0 0 0 0~0 0 0 0 0 0 0 * 0 0 0 0 0 9 0 0 0 a orw- out jo 31 32 U 34 b 1i V ]l 39 40 41 Al 43 U 45 $1 CM AT U TS OJF V a c t 0 pa --I A 's it L -C-0 -I __L Islivalill 1091lem 'Z 'll o *t. .1.1*va U! )tau %) J!v u! Suipuanbapqm j3)zm tq 3utq3uanb 3w 2ui;adwaa popuana jaz1v A' ~Gla A! ..m IM.'ad- u! lutq3u.3t'() *J!z u! Sullow Aq qlnojoql _q JtIl IJUN AZJVA~ U! jupalmu aql 2tulow Aq Ru!rj 7~ -,I,, %,% Yupadwal luinbvqns q;!At Jut43u3nb 42sx)JO43 I-Im' ,qj, '%j!sjadajd *q3atu acuts Iql I nNir saA!2 Lnpitu IUII.N -1111 HE u! 2u'q3u3ub 12q) ALOqs Silmaj aq.L -vqpjiu ,,tli u! (-siq tz Put zi 'y -j P134) .9!1 1e p"adwa) Pur go J.%,Uallb (Ale pug J!v U! pug '(.oz;i 1!0 1 *001) J210A Intl "airm ploa L.! (~sjq 0 joj plaq) tZt it: papuaub ajaAt ir %1*,) lul.; %i;t*o In %o,t'iy %t-r noqv Y1114") Sif)llr, 'ON 'OV61 IIOWWIVSICA~-14 I -tioav unisoulma jo topladaid IV3!uvpaul qqj JI.InIpaw Sumvenb eta lo 1"um 00 0 00- v 00 00 t A T 21 43 1 U I tZillffli, fill "it M. 11 11 A #-goo 00 o o 0 0 0 0 0 0 0 0  rpo f , r /-, & a 7 f Alloys with Cobalt. 1. 1 P. 13% 112 -. 1% 1912.33U.:ls I), I I., it-'. -, -.ul .. ..... I,r 61-1- -. -J I.;-, .-I inam. W' A~-, i., 11, .. . ........ W- -1,01 10 1- -4 N r ,%Ilimi.l- I-_ 1:-1-- Im..'411d 1111P.. 1-'mm 1-1-1. -1, I-m 1.. 11, ki... dm 11:11 011- Om I, If.. -1 . ..... hlt-m- X1 r-t-w 0-0 If -).- 1-- 1'.., v10t. 0,-W -,- `.; 21.. Or. Shm th. u 1111N.d r I,,,, .If"Oh-t MA, hm at Ili On. I. "A I-wo w-1 I, 1-1, .1 r, It . A~ 1'. 1, -1 1, -,,1- , 'hw. Iw Imp, x0 ppma, L It.% . %; A I,%- Ill.. l-".. -1-11m1, in-, 116' 1'. Iwl-lil, 11 1,1 , vA -1 ... ... 6,~. -mh .. 'I I,, I tI. ~J"l iti"f, "1.0. fit.. A1- - 1.1 m, .10-t -1.  00 *&"UIIY ad J' m s -x4irtw-d Altalyse-A of the -ly. of Ili is l 00 Ar 4/. 011tr 00 -C lite authur the M l m it at QW. 4% 3 00 a A all 11ALLUM41K AL U111116TWel CLASUPKAtm Wdidilulk aye System gtfttrt m, AY. d.T age ii MARDWaim below 420'. Affha. low. No. P, thermal. flictallopaphic and hardrim hi-mc. The r"ults show that the thau previously showel by Combe Cktt. 49, Am-rdills 1.1 LA 10. by wei4bl. isarproxi4% at 42)", and 2% at MIr. 3 refem.- U. N. Dallilud it a Ic it n OT40 '00 *',1* O;e sewi 400,9000*1111-09 0 4 an o-V m &T7 g- a est a it 4 1 it a a Q a 3 0 r 0,0966666 0000000000609 ~; too see tio Me*  SHULIGIN, 1. G. , DOCerit "Solderint~ of Aluminum Alloys on Salt Baths." Sub 14 May 51, Moscow Inst of Nonferrous Mletals and Gold imeni 1. Kalinin Dissertations presented for science and engineering degrees in Moscow during 1951. SO: Sum. No. 480, 9 ~IaY -z5 A  &HULiGIN., I.N.; KHAZANOV, V.S.; YJA,-'bHIIIN, A.F.; RZHANOVA, T.B. Scattering of radiant energy by plant leaves. Biofizika 6 no.6:734- 739 '61. (PMU 15: 1) 1. Institut fiziologii ratteniy imeni K.A.Timiryazeva, Moskva i Vsesoyuznyy nauchno-issledavatellski *eVetoteklmicheskiy institut. kPLANT PIDIS10LOGY) (RADMION-SCATTERING)  SHULIGIN K. (UA3DA) - - - - - ~1-1 - -- -- Sing-l-a-sideband elactromeclanical disc filter. Radio.no.1:22-24 Ja 164. (MIRA .17:8)  S1111LIGIN, K. USSR/Radlo Receivers, B~ttisry Apr 48 Radio Receivers, Superheterodyne "Battery-Powered.W Superheterodyne," K. ShalOgin, 5 pp "Radio" No 4 Describes battery-povered superheterodyne receivers manufactured primarily for Installation In agri- cultural communities. It has fire bands (io, 14, 20, 40, and 160 meters),,and operates on.five tubes. Gives circuit diagrams, and performance. wr 4/49T78  6MULICAIN) K. Eli 51/49T79 LMR/Radio Jul 49 DOSAM4 "All-Mion Chmpionships" 1 P "Radio" No 7 Representatives of all 16 republics and almost all MSARK radio clubs took part in the ompeti- tions. Many short-vave operators Of CzechO- slavakia, Rumania., and Rungary also participated. K..A. Sliul!gin'Moscow, again vas avarded the title, vChmplon of the DOSM.w AW 51/49T79  SHUL'Glff, K.A. [Building a-teur ahort-wave receivers] Konstruirovanie lirCoitellskikh korotl.-.ovolnovylr-h priemn:U.-ov. Monkva, Gos.energ.izd-vo. 11)53. 142 p. (MT-RA 6:7 ) (Radio, Short-wave-Receivers and reception)  ..USSR/Radio -.Receivers, Short-a-Wave Feb 51 "OrEanizing the Production'of Receivers 7or Short;~- Wave Communications, K. Shullgin, UA3DA "Radio" No 2, pp 38, 39 Commen4-s on Kostandi's artielp in "Radio" No 8, 1950. Kostandi's combination amateur-and pro- fessional "ist-Ciass" receiver is not feas ible, because amateur and professional use i s so. dif - ferent that necessary characteristics could not,be::-. combined in one receiver. Makes recommendationr.--,".1- for mass-produced short-wave receiver which could..- be used by amateurs-andalso in inter-,and int, oblast communicatione,lines. 189T105''..  'USSR/Radio -Transmitters Apr 51~~; Tubes "Selection of Tubes for the Output and Inter- mediate Stages of a Transmitter," K. Shullgin "Radio" No 4, PP 36-40 Gives calcn:~ anO axamples 'showing how to select tube for emplification stage in telegraph op- eration, for frequency-doubling stage, for grid-modulation stage, and for plate or plate- screen modulation stag6. Gives table of charac- teristics for tubes used in transmitters, in- cluding tetrodes G-832, G-829, G-807, G-1625,* USSR/Radio - Transmitter--; (Contd) AP?~ 5 1 6P3, G-813, and Gn-100, and pentodes P-6, P-15, G-41I, G-412, G--413, G-414, G-44o, G-471, G-837, P-50, P-800, and RL12P35. 181T99  - _11OLU _Lr! , M - "Automatic Calls (Radio-Telegraph)," Soviet journal- "Radio," Issue No. 4, 1952.  SHUL-GIN, USSR/Electronics - Transmitters Jun 52 "Calculation of the Output Stage of a Tra-rismitter.0 K. Shul'gin NANA) "Radio" No 6, pp 40-44 1 Gives a mthod for calculating the output stage of a transmitter for a given input power under telegraph operating conditions. Method is illustrated for the case of a G-807 beam tetrode as the output tube. 236T29  'SHTJLGI.'-I, K. "Depending on the Taore active members." So. Radio, Vol. 1-9, P. 10, 1952  8HUL'GIN, 1. A. Building amateur short-wave receivers. Hoakvat Oos. onarg. Iz4-vo# 1"~. 142 p. (Masocyala radlobiblioteks., wrp. 171) (54.i8go6j T199%.351,6  i~Y4, F/~ KAZANSKIY, N.; KAKALYAGIN, A.; SHUL-*GIN, K~; SPILHEVSKIY, I., redak;O,r; ZHURAVLEV, A., tekhnicheskiy_~_4aakjo'r_. -_ [Handbook for short-wave radio operators; reference and Instruction manual for radio amateurs] Spravochnik korotkovolnovika; spravochno- metodicheskoe -posobie dlia radioliubitelei. Izd. 2-e, perer. I dop. Moskva, Izd-vo Dosaaf. 1953. 424 p. [Microfilm] (KT.RA 7:11) (Radio, Short wave)  3HULIGIN, K. itiadio, Short-Wave First book on ultra short waves. I. P. Zherebtsov. heviewed by K. Shullgin. ?adio NO. 3, 195,3. Monthly List of hussian Accessions, Library of Congress, June 1953'. Uncl.  'JilUl" 1111111, Y'. A,.r;-'-ifiers, Vacuwn - 'I'ube Input dev-ice and high frequency amplifiers. Radio No. 5, 1953. a 9. Manthl List of Russian Accessions, Library of Congress, June -1953, Uncl.  SHULIGIN' K. How the radio receiver works; low-frequency amp-lifier and regenerative de- tector. Radio no.6.,52-55 Je '53. (MLRA,6:6) (Amplifiers, Vacuum-tube) (Radio-Receivers and reception)  SHUL'GIN, X. '-- sets at the 11-th All-Union Radio Exhibition. Radio no-7: 36-19 ii '53. (MI-RA 6:7) (Radio, Short wave)  SHULIGIN, K. USSR/Electronics - Transmitters Dec 53 "Selection of Operating Conditions and Tuning of a Radiotelephone Transmitter,"'K. Shullgih (UAZDA) RadioY No 12., PP 36-4o Gives general discussions of amplitude, grid bias, and suppressor grid modulation with formulas, graphs, and diagrams. Concludes suppressor grid modulation is most advantageous of grid modulation systems. 276T35  USSR/ Electronics Radio desien Card 1/1 Pub. 89 16/28 Authors Shul'gin, K. Title What radio Amateurs should work on in the short wave and ultra-short wave fields Periodical Radio 1, 31-33, Jan 1954 Abstract A few problems in the short and ultra-short wave.fields are outlined for radio-amateurs, to find good and economical solutions for such problems as the construction of a antenna array, the.construction of, short-wave transmitting and receiving radios etc. It was also felt that measuring devices for the short and ultra-short wave radios will also be designed and constructed. Institution: ..... Submitted: .....  USSR/ ElecLronics Heterodyne receivers Card 1/1 Pub. 89 31/40 Authors iShullgin, K. Title tThe operation of a superheterodyne receiving set Periodical IRadio 10, 44-48, Oct 1954 Abstract IGeneral technical information and instructions for the-operation of a superheterodyne receiver are given. The following pertinent points'are discussed: principles and characte'riatio.features of superheterodyne reception;,frequency -conversion; ".gangm-tuning" of,sup6rh eterodyne cir- grams) cuits, and others.,Diagrams (including circuit and block dia graphs. Institution: ..... Submitted;  SaMFGIN, K. How superheterodynes work. Radio no.11.44-a_9 N '54. (MA 7-12) (Radio--Receivers and reception)  KAMINIR, Lev Borisovich; SHULIGIN, K.A., red.; VORONIN. K.P., tekhn.red. LCathode follower] Xatodnyi povtoritel'. Moskva, Gos.energ. izd-vo, 1955. 55 P. (Hassovaia radiobiblioteka, no.226) (MIRA 12:3) (Cathode followers)  ZHMBTSOV, I.P.; SHULIGIN, K.A., redaktor; GRIGORIYEVA, A.I., redaktor; KARYAKINA, M.S., T8Xtffftt4feskiy redaktor. EMeter wave techniqua] Tekhniku metrovykh voln. Moskva, Izd-vo DOSAAF, 1955. 181 P. (MIRA 8:5) (Radio waves)   USSR/ Electronics AmDlifiers Card 1/1 Pub. 89 - 20/24 Authore Shullgin, K. Title flow does an amplifier function? Periodioal I hadio 5, 50 - 53, MaY 1955 Abstract I The rerformance of mi electron low-frequency amplifier was demonstrated.q to a beginners class byusing a two-s,tEac Mh-amnlifier as an example., It is explained that LF-amolkfiers are -divided into voltaae and'p6wer. UPP ~e needed for. amplifiers, the first of- which amplifies the s lied yoltag the excitation of the -::ower W-Tplifier. The -task of -the. latter is to in-: crease the LF-oscillation.intensit~ to a level -necessary. for. normal per--,--. formance of the loudspeaker.connected to the amplifier Output. ~Sirfce electron tubez are inteqral parts of amplifiers the lecturer also e:-.nliains, the basic characteristics of such tubes. Diagremns; graphs. Institution Submitted  RIZKIN, IoBif Khaimovich;_.3W4l,GIN,,,K.A., redakt-or;.SKVORTSOV, I.M., tokhnicheskiy redak-tor [Yrequency division] Delenis chastoty. Moskva. Goo. energ. izd-vo, 1956. 37 P. (Massovaia radiobiblioteka, no.245) (MIBA 9:10) (Radio ciruits)