;,CC 1.-t Porlrzl- of rathor stron,,; ~;eoma,gnetlc disturbances, leading to the 'Lo.-mation of wavos. 'Ji-te intensity of 'L::,,ci hard electrons in the outer radiation belt: ti-I'arefore i:; ~;ubjcct to long-period variations associated with the cycles of solar c'~: i v IY .',, o7i autaors thank B. A. Tverskoy for discussions of the work, and N. N.- for taking part in the processing the experimental materials. Orig. art. C'as: tables . [jPRS: 38,2307 SUB C.OD-'-*: 03,20 / SIJBINI DATE: 04Fob66 / ORIG REF: 007 / OTH RM 007  L 42150-66- - F S -S-.T I C ACC NR. AP6028350 TT/G~ SOURCE CODE: UR/0203/66/006/004/0661/0663 AUTHOR: Vernov, S. N.; Savenko, I. A.; Tel'tsov, M. V.; Shavrin, P. 1. ORG: Moscow State University. Institute of Nuclear Phy ics (Moskovskiy gosudarstvennyyi universitet.-i-nstitut yadernoy fiziki) TITLE: Observations of a diffuse wave of relativistic electrons in the outer radiation belt \7, SOURCE: Geomagnetizm i aeronomiya, v. 6, no. 4, 1966, 661-663 TOPIC TAGS: relativistic electron, radiation belt, - '_- geomagnetic storm, pbs" ~ p _ electron flux, geomagnetic latitude ABSTRACT: The generation of relativistic electrons in the outer radiation belt can be attributed to the transfer of charged particles across the drift shells. The pr,paga- tion of diffuse waves of relativistic electrons, first recorded by EIRL(Irer )~10, was also recorded by Kosmos 41~when it passed the outer radiation belt. At the high geo- magnetic latitudes, the propagation of the diffuse wave may be distorted by changes in the pitch-angle distribution. However, in the present case, the diffuse wave exhibited characteristics peculiar to the dynamics of a diffusion wave of hard electrons. The intensity of relativistic electrons decreased somewhat at the beginning of geomagnetic perturbation. It increased at distant L shells (> 5) of the magnetosphere several days after geomagnetic perturbation. Further shift of the intensity maximum toward Card 1/2 UDC: 523.72  L -1 1')," - -- ACC NR; AF6028350 the region of smaller L occurred in the absence of geomagnetic disturbances. This waE followed by a decrease in intensity and a shVt in the intensity maximum to its - initial position. During the magnetic storm'on 1 September 1964, recorded by Kosmos 41,the intensity of electron flux with energies greater than 2 Mev at L - 5 was 3.5 x 102/cm2sec. A peak of hard electrons with an intensity of 103/cm2sec was recorded on September 3-4 at L = 6-7. This eak was shifted to smaller L shells until it reached a maximum intensity of 104/cm3sec. Variations in the protonosphere were of smaller amplitude. The diffuse wave of relativistic electrons was thus first observe d in the outer radiation belt at high geomagnetic latitudes. This wave was not accompanied by low-energy protons. Orig. art. has: 2 figures. [EGI SUB CODE: 04/ SUBM DATE: 18Feb66/ ORIG REF: 006/ OTH REF: 003/ ATD PRESS: 2 / 2  Cve r-i- it pi  18(o); 5(2) f PHU-3E I E,-TT,01_".'ATIO1,1 SOV/3100 Akademiya nauk SSSR. Urallskiy filial. Institnt metuallurgii Trudy, Vyp. 4 (Transactions of the Institute of Metallura, Ural Branch, Academy 6f Sciences, USSR; iio. 4) Sverd-lovsk, 1S58. 157 P. Errata slip inserted. 1,000 copies printed. Editorial Board: H.A. Vatolin (Resp. Ed.), Candidate of Technical Sciences; A.S. Mikulinskiy, Professor, Doctor; V.Ya. Miller, Professor; P.A. Pazdnikov, Candidate of Technical Sciences; and S.S. Lisnyali, Candidate of Technical Sciences; Ed.: T.I.S. Baranovskay-a. PURPOSE: This book is intended for ferrous and nonferrous metn1bi gists. COVERAGE: The book presents results of investigaticns of theoretical pro- blems In metallurgy ancl cheTftiati-j and gives infomation on the efficient use of raw materials in ferrous and nonferrous metallurgy and on the de- velopment of new production processes in'the metall-urCical and chemical industries. The articles were written by J-unior and e:Terienced specialists of the scientific staff of the Institutes of Metallurgy, Cilemistry, and Electrochemistry, Ural Branch, Acedemy of Sciences,, USSR, Cexd 1/5  Transactions of the Institutc of (tlont.,, SOV/3100 Starkov, L.H., and M.I. Koch~nev. 0n, the Rech-int-jon of t.-e lo.,rer Sul-fides of Vickel and Cobalt 35 Starkov, L.B., and M.I. Kochnev. rTcidation of the Imrer Sulfides of N.Jckel and Cobalt 39 Chilkre3rev, D.Ya., and M.V. Smirnov. Polaxization of Beryllium -Oxide -Carbon Anodes in IPused Chlorides 45 Zhuravlev, I.T.M., L.K. Gavrilov, and P.A. Parzdiiikov. inw-stigation of the Conditions for Electrodeposition of Copper From Sulfate Solutions in the Presence of Ironj- 'Zinc,and Cadmi7m Cations and the T'itrate Anion 51 FrisbA)erg, I.V., P.A. Pazdnikov, and L.K. Cravrilov. Sazae E-rerequi sites for the Mec~rol~rtic Production of Lead Sponge Forom AU-1--Z.1-ine Chloride Solutions and Selection of insoluble Anodes for Electrolysis 59 Kozhevnikov, G.N. Some Peculiarities of the Reactic,m of H,?_Ienite With Soda and Lime During the Sintering Rrclc~ms 65 C ard 3/5  Transactions of the Institute of (Cont.) SDV/310() KozhevnikovY G.N., and S.I. Kitznctsov. Optim-m Copd--.tions for Leacl-Ang Soda- Helenite Sinter (,~,Jces 71 Diknlinsl~i~Y.. A.3., and G.I.T. 1rozherrJRo-%r. Production of 7-Tct-111-ic Sodium by Carbon Reduati,)n c,' tne -)Ulflte Or r -,tc-i7 - , tc (r-plor T~~sts) 77 Balalkirev, Yn.A. Vetrenko. 73-!,Z,~,Azhan. On the Prob1mi nf -`ass.-ige j~f -,-'inc "apper 'n phase During kir Blast 81 Deyev, V.I., S.A. Verma-vichev, an5- 1U.P. Di~~-v (Djecev-~ed-). Clomap-arative Date on the Cpxi-jing of Liquid Tnto the Gr~s-e:chaust 11oles in an E.,T-erLmente-1 Con- verter 87 Mikhaylov, V.V.' B.", -K-Lidinov, nnll V.I. anichkov. 0i tln of Oxides of Boron Durin.- the Meta-l-lurgical Treatment of R-ovor-.1-- Or-2s, 97 Thornobrovidn On t~i,? Z,kel -,Jng f~ull rp'rerheating of Pig Iron In the Cupola 101 Card 4/ 5  MIERAYLOV, V.V.; SHAVRIN, S.V.; CHEIITSOV, A.V.; KUSAKIN, P.S.-, SAPOZMfIKOVA, T.V.; OSINGVSKIKH, L.L. Continuous process of separating titanJum slags from iron-titanium concentrates. Trudy Inat. met. UFAN SSER no.2:47-54 '58. (MIRA 12:4) (Titanium ores) (Ore dressing)  SRAVRIN, S.V.; SAPCZffNIKOVA, T.V. LEPINSKIKH, B.M. Electric resistance and phase consti,;ution of briquetted ilmenite in the process of reduction roasting. Trudy Inst. met. UIPAN SSSR no.4:15-18 '58. (MIRA 12:10) (Ilmenite) (Phase rule and equilibrium) (Ore dressing)  sov/i-)3-5q-6--3/'i1 AUTHORS: Chentsov, A.V., Felldman, B.A. and --Sha,y_rinA S.V. TITLE- On the Problem of Drop in Blast Temperature in the Blow Pipes of Blast Furnaces (K voprosu o poteryakh temperatury dutlya v soplakh domennykh pechey) PERIODICAL:Stall, 1959, Nr 6, PP 495-496 (USSR) ABSTRACT: In view of the lack of agreement in the published literature on the temperature drop of blast in insulated and non-insulated blow pipes, thermal calculations (Fig 1) and experimental determination of the actual temperature drop in non-insulated blow pipes were carried out It is pointed out that the differences in the temper-ature drop obtained by various authors may be due to using unscreened thermocouples, As a confirmation of the above suppos�tlon, a compar�son of temperatur-e drop of blast along the length of a blow pipe measured with unscreened and screened (Fig 2) thermocouples was carried out (Fig 3). It was found that the temperature drop of blast,measured with screened thermocouples, Card 1/2 was 11-120C as against 20-240C when measured with  SOV/133-59-6 --3/41 On the Problem of Drop in Blast Temperature in the Blow 1-,ip(~s of Blast Furnaces i-inscreened thermocouples. There are 3 figures and 7 Soviet referencos. ASSOCIATION4 Institut metallurgii UFAN i Alapayevskiy III(, 0I.1.1iirg i-.-Iie!~ik iy kombinat (1~isti(.titc of Metf-tillirgy of the LIFAN aiid the Alapayevsk Metallurgical Comblite) Card 2/2  SHAVRIN, S-V.; SAPOZHNIKOVA, T.V.; LFPINhXIKH, B.M. Electric resistance and phase constitution of briquetted ilmenite in the process of reduction roasting. Titan i ago splavy no-4:28- 31 16o. (MIRA 13:11) (Ilmenite--Electric properties) (Ore dressing)  SHASRIN, S.V.; GfMiTSOV, A.V. Heat exchange in shaft furnaces. Izv.vys.ucheb.zav.; chern. met. no.5:172-176 160. (MIRA 13:6) 1. Institut metallurgii Ural'skogo filiala. Akademii nauk SSSR. (Metallurgical furnaces) (Heat-TransMiSBiOn)  WRAVR a IN, S.V.; CHENTSOV, A-V. Calculating the height of heat exchange stages in shaft furnaces. Izv. vys. ucheb. zav.; chern. met. no. 11-27-31 6o. (MEU 13:12) 1. Institut metallurgii Ural'skogo filiala AN SSSR. (31ast furnaces) (Heat--Traasmission)  MIKHAYLOV, V.V.; SHAVRIN, S.V.; CHENTSOV, A.V. Testing a metallurgical flowsheet Ar the treatment of disseminated ores. Titan i ego splevy no.5:65-68 161. (MIRA 15:2) (Ore dressing-Testing)  ZAKRAROV, I.N.; I?ATOV, BV. __.~HAVlq, Outfloy of slag through the re.-enerator into a counterflow. Izv. vys. ucheb. zav.; chern melC. 5 no.9:54-65 162. (YMk 15-10) 1. Institut metallurgii Urallskogo filiala AN SSSR. (Bla.3t furnaces-Desian and construction) (Heat--n-ansmission) 0  SH A ViQiiii, .~.V. Lov-zk ) i ZAKHAROV, I. I, (,'~ver-d I ovsk) ; KIJLIKCJV, G."). (3vo [,~: 1-1:10 Re:luction of an iron oxide melt by carbon. Izv. AN SSSR. Met. i gor. delo no.1:26-31 Ja-F 164. (MIRA 17:4)  SHAVRIN S.V.- ZAKIIAROV, I.N.; IPATOV, B.V. . g.. ~ .1 -, ~ -?~ --- ~. I Slag outflow through coke spouts. Izv. rys, ucheb. zav.; chern. met. 7 no.1:33-37 164. (MIRA 17:2) 1. Institut metallurgii Urallskogo filiala AN SSSR.  SHAVRIN) S. V.; 7AKFAROV, I. N. Kinetics of the reduction of molten iron oxides by carbon. Izv, vys~ucheb.zav.; chern.met.7 no. 5:7-11 164. (MIRA 17:5) 1. Nauchno-issledovatel'skiy institut metallurgii Ur-al'skogo filiala, AN SSSR.  ~,* I lp ;J, v ?I f fT l,; f , .- -~i - - :1 . .. . ell . I v 2 , , I ..~ l.- ) , , ~;. .; ,s . ',f .i, .'I. V* P, , ~ I ': - D ~, . 3 k ) . ., I .., - , I - c he-n 4. .-, -, ~, ,*-~! r , I - NA , - .1 I: -, . ;f af ~ nw "'laiT by ~arbo.,J. -.-. .. E!, ., I C." ~ ~, 1-. ` -T/ ( "!I tu Int'. Alit "I .. . 1, . 17-8)  S' t . . . e ~ S.V. (w-3rd'i,-,%,k ) ~'. ", ; 13r;~r,j'ov k.; PAVIV, B.V. (~'---Jl ~) -,rSk ) Kinetlc o~L ~,2 Of SIFIg tr,,f j, Met. I g ci T . I I. -, o r I. 3 .. ~ ~ - ~ , ~'Y_ T~% I -, I . 11 1... (MIU 1,7 87)  .~~AW.-',IN, -S.V.; CHIJITSOV, A.V.; 2~AKHIROV, I.N.; Pi~SHKEYEV, G.G.; .1 . I SH A 'j KOIT, D.I.; BANNYKH, S.S.; LEKONTSEV, Yu.A. Blast furnace smelting of high basicity sinter. Stall 24 no.8:680-684 Ag 164. (MIRA 17:9) 1. Institut metallurgiii v g. Sverdlovske i Chusovskoy metallurgicheskiy zavod.   IVA:,.-I'LSKIY. Favel Mefodiyevich; SHAVRIN, V., red., LEBEDEEV'. A,, tekhn. red ~ [Principals of financial estimates] Osnovy smetnogo firiansirovaniia, Mlosk-va, Gosfinizdat, 1961. 87 p. (141RA 14--9) (Public institutions-Finance)  LITOVKO, Semen Fedorovich; 11AKSIMIKO, Georgiy Dmitriyevich; TRUNBIA, Nlariya Vasillyevna; SFAITRIN, V red.; FIEDVEDEVA, R., red.; " LEBEDEV, A., [Reviewing and auditing the economic tictivity of industrial enterprisee]Reviziia khoziaistvennoi deiatellnosti predpriiatiia. Yoskva, Gosfinizdat, 1962. 149 p. (MIRA 15:6) (Industrial management) (Auditing)  SHAVRIN. V.A. [Local budgets in the U.S.S.R.] Hestnye biudzhaty SSSR. Izd. 2-e. perer. i dop. Moskva. Gosfinizdat, 1946. 14o p. (MIRA 11:4) (Budget) (Local finaace)  K=ZOV, Grigoriy Aleksandrovich; KUTYREV, S., red.; SHAVRIN, V., red.; TUEGINA, T., tekhn.red. - [Inspection in financial organs] Revizionnaie rabota v finansovykh organakh. Moskva, Gosfinizdat, 1958. 194 p. (MIRA 12:2) (Auditin-0  2' 5 ( 1 "OV/145 -:56-7/8-23/24 0 AUTHORS: Pluzhnikov, A.I., Candidate of Technical Sciences, C. Uemenikhin, A.I., and Shavrin, Yu.T,, Engineers TITLE: Cuttin- 1,11ultiturn Non-Round Toothed Wheels with Cha- U sing Tool by tl,,(, Mlethod of Rolling PERIODICAL: izvestiya vysshikh uchebnykh zavedeniy - Yiashino- stroyeniye, 1958, Nr 7-8, pp 202-206 (USSR) ABSTRACT: Non-round toothed wheels -Find applicatlon In certain branches of precision machine building. Up to the pre- C) sent, manufacturing of such wheels was performed by the method of copying with the application of slotut- ing tool. ThiS method possesses a number of shcrtcom- in:rs; reference F.L. Litvin and N.S. Yablonskiy, "De- signing and Cutting Teeth on Multiturn Non.-Round - L7. The Vlheels", "Priborostroyeniye", Nr 6,, lq57 f . cutting by the method,gf rolling was first'y intro- duced b,r the firms "Fellow" and "Bonp and Reyter", Later on, this method vvis develorea USSR- Re- Card 1/3 ~erence: F.L. Litvin, "Non-Round Toothed Whee-_is  --7/e-.2-4/24 Cutting Multiturn Non-Round Toothed Wheels with ChasIng Tool by the Method of Rolling Mashg_Jz, 1956 ~_g; F.L. Lituvin, "Non-Round Toothed Wheels", 'Stanki i instrument", Nr 9, i916 Z 7. The Dresent article deals with the multiturn toothed wheel cutting by 'the method of rolling offered by the au- thors. The general outlay of the cutting -machine is illustrated in Fig 1. The main components of this ma- chine are a toothed calibrating pair consisting- of a rack 3 and wheel 4, and a cam calibrating pair com- prising the smooth rack 5 and cam 6. These two pairs represent the rolling mechanism: it ensures bot:p_ the C, receDtion of the required pitch on the wheel surface and the obtaining of given dividing radii. The kine- matic out-lay of the cutting machine is Elven in Fig C> 2; its cross section in Fig 3. The installation is intended for a large serial production. It is expec- ted that a-'ter the introduction of this method of cutting, the labor efficiency will be increased by, Card 2/3 approximately, 15 times as compared to what it was V/  1. DTWRT--~', TS. - SEAVPIm"A, K. N'. 2. USSR (6oo) 4. Telater, Underaround - Talanguy Valley 0 7. Report of the Etyka hydrogeological party of the Fast Siberian Geological Administration on the work for 1942-1943. (Abstract.) Izv.Glav.upr.geol.fon. no. 2, 1947 9. Monthly List of Russian Accessions, Library of Congress, March 1953, Unclassified.  I I . .  !, 1 ~'. '. , 1 - . . , 'I I- : . , : . ~ -I-' , . .- . I . I i I , ;:,.. ~-, 11.. . . . ~ . I . . L C  KU'.,i.OXV, A.N., kand'. teklin. rinuk; ;HAk,:,(iNA, i-ed. of techn.;--il and ~concmic methods ,f Lsol% im-7 the main L.ro dems of coad mirdm:, applicable to the conditions in flat seams in the Donets Lasiri; report at tide All-Union Conference of Coal Inciustry Til---nnersl Ki.amk~,eristika teklmiko-ekonorde lie sk I kh metodov resheni-La c.~;novnykh zaciach proektirovaniia iornogo khoziaistva u~--clf- ny1ch shakht (priaenitellno k ujlo,._Jiam --azrabotki polog-ikh plastov v Donbasse); dukl%d n~. Vsesoiuzrom --o-..eshchanii p.-ock-TArc,.;s'_chiIr-ov ugullnoi proiq--h1ennoLfti. Moskva, In-t c-orno-c dela im. A.A.Skoc~inisko.-o, _196.,,. 27 p.  PANOV, Andrey Dmitriyevich, Lend. tekhn. nauk, ; TISHCHMKO, Nikolay Andrayevich, ; ZANYATNI11, Ivan Stepanovich, ; SHAVRINA, Raisa -Pedorovna.; PAYLYUCHMiKO, Dmitriy Hikolayerich,; GRIGORITEV, Vladimir Leonidovich,; pri uchastii:Adamidze, D.I.; Krasnikova, Yu. D.; Cherkasheninova, V.I.; Chu6yevoyYe. Y.. ; SOSNOV, V.D., otv. red.; RATNIKOVA, A.P., red. lzd-va,; PROZOROVSKAYA, V.L., tekhn. red. Ellarrow-gauge mining of coal in thin nnd medium seams] Uzkozakhvatnata vye,-ika uglia na olastalch tonkikh i -trednet moshchnosti. Moskva, Uglatekbisdat, 1958. 321 p. (MIRA 11:12) (Coal mines and mining)  7 tekhn. red. I-ETIIKOVAw~ SHAVIRINA, 11,F., red.; GERASIMOV, V.F.,, I-- - - -- ---- -- I ---- [Some types of centrifugal, starting, and safety clutches]Ne- kotorye vidy tsentrobezhn~%kh puskovykh i predokhranitelfr7kh muft. Moskva, In-t gornogo dela im. A.A.Skochinskogo, 1961. 30 v. (MIRA 15:9) (Clutches (Machinery))  PETHOSYAN, A.E., kand. tekhn. nauk; SERGEYEV, I.V., kand. tekhn. nauk; SHAVRINA, RJ.- GERASIMOV, V.F. p (Methodology of determining the gas concentration of workings in mining coal without men in the pits]Metodika opredeleniia gazoobillnosti vyrabotok pri bezl-iudnoi vyemke uglia. Moskva, In-t gornogo dela im. A.A.Skochinskogo., 1962. 36 p. (MIRA 16:1) (Mine gases)  D K red. -e si the to-~:~nica-L s--ie-tific I -,aL r of the coa.11 inciustr~ in -,,-ie .-urrent seaven yep-tr a, -he of ~r,: unc EL-.,. na- '.ugarisk Fconoric na zacedrT.-Ii te'~lin-*kc,-ekonr).,;l'c-,.fz,'-,Df',o S-Oveta Lugarl- skozc solmarkhoza. .'.oskva, In :7)  I j -d na! I 41. n8g coa-, brealk-inp- nri,~-hods a!id mecha- n, m-ind g mac -t-er fra-tionall c ornp, G s ninery rc~ be t-ii~rt f1f coal out7~~-u-- scientiflc rep-DrIj Icversheri-. 5-.,~~vanie trietrdnv zglia i ispo.1nitelInykh cn- .-anzv r--ernocrmyr,-,r. T-,~; s nin s uIuQhshenI-,a fraktsio-,i- sostava uglia c;-,-,-`-I,. 'Mos-Ja, P. 1. i7ec~ t-i'7n-isr mykh Lalx-,ratoriya mok~iari heF-.kk'i ,lpr p, r,-,d .  VIYArriN, Lekhn. nau~; SilAV?t?:A.. red. [0,.ti,mum 5ohit-ions of miming proble.,,,;s.- -e7.or-- a~- t!:e S"ci- entific Council on May 8, 19631 Ob odnom asilekt-e resher.1, :a gorr.- A y1ch zadach na optimum; doklaci na Uchenom sovete 8 maia 1963 g. t.'oskva, In-t gorno,ao delq Im. A,',S,-,Oc~irikrgG7 1963. 11 P.  CHESNCKOV, Mitrofan Mitrofanovich; SHAVRINA, R.F., red.; GERASD!OV, V.F., tekhn. red. [Hydraulic cuttijag of natural stone with high speed thin water jets] Gidravlicheskoe rezanie prirodnogo kamnia ton- kimi struiami vody vysokoi skorosti: kratkii nauchnyy ot- chet. Moskva, 1963. 50 p. (MIRA 16:10) i. Moscow. Institut gornogo dela imeni A.A.Skochinskogo. (iStonecutting)  B0111SENKO) L.D.7 kand. tekhn.nauk; SHAVROA, R.F., red. (Flow sheets and units of equipment for the hy,-:raulic hoisting and transportation of coal Pnd rock with the use of feeders; report at the All-Unim. Conference of Coal Industry Planners] Tekhnologicheskie skhemy i kompleksy obo- rudovaniia dlia gidravlicheskogo pod"ema i transporta uglia i porody s primeneniem pitatelei; doklad ne Vsesoiumom :~.o- veshchanii proektirovshchikov ugollnoi prouTshlonnosti. Mo- skva, Institut gornoCo dela im. A.A. Skochinskogo, IQ64. 17 p. WIRA 16:3)  V.A.; 31DORENKO, SOLOV:TEEV, V,!-; K;', ItY.''"Ir:, 1)1-,IIThOVSKIY, Y,--.B~; iLFAI~AS?E-V, T..V Prir.Lmli I-ItIKIV,YLOV, V,V,; Sli;,VRIT:ii, S,V,; CE",TS-V Developing a brocedure for I,he ele.:trict. smelting of perovskite and titarduri-magmetite sinter. Titan i ego splavy no.5-54-5-9 (m:'F.A !5z2')  USSR/Engineering - Refractories, Equipment Jul 52 "Electromagnetic Sieve," M.A. ShavrinovY Sukhoy Log Chamotte Plant "Ogneupory" No 7, PP 330-333 Describes new device for sepn of metallic admixts out of refractory powders. Electromagnetic sieve represents 410 x 890 mm plate with numerous round and slot openings and 90 electromagnetic poles under plate. In plastic process of fabricating refractory products this sieve is installed between dry and,vet mixers, retaining particles of metal and burnt pyrite when powders move through its holes. It has automatic control, diagram of which is given. --22.0.T49  1 . T., 1-I! , '1-. 5 . ; SFA-,", ~ '~C'." . 'M Aa 2. ;:---SR 4. Clay Industries 7. Electric heating of sieves for screening ground clay. OgneUDory 17 no.9 1952 9. Monthly List of Russian Accessions, Library of Congress, JanuarY -1953. Unclassified.  /Y 111f USSR Alcroblology, Medical and Veterinary F-6 Microbiology, Abs Jour- Ref erat . Z h. -Blol. , No ~ 9, 1957, 35644 A uthor Timakov, V.D.., Kudlai, D.G.; Shavronskala, A.G.; SD'Lrir., A,S. Title An Immunological Study of the Protein Fractions of Directly Altered Bacteria of the Intestinal Grcup Orig Pub- Zh. milcrobiol., epidemio.-I,, i Immunobiologii, 1955, No. 8, 20-30 Abstract; The antigen structure of Intestinal bacilli, Breslau paratyphous bacteria, alkali-formers obtained by the cultivation of intestinal bacilli in a culture of Breslau bacteria killed by heat- ing, and paratyphoid obtained by the cultivation Card 1/9  USSR /Microblology, Medical and Veterinary F-6 Microbiology, Abs Jour: Referat, Zh,-Blol., No. 9, 1)57, 35644 a carbohydrate nature. The extracts received were subjected to a fractional precipitation fiucCesslvely with acetic acid, alcohol and acetone. In alkali-formers the fractions of nucleoprotelds and neutral proteins precipitated by acetic acid and which are characteristic for three other strains were completely absent. The alcohol solluble protein precipitated by acetone from the salt extract of 0.14 M NaCl, in Intesti- nal bacIlli is not at all apparent, in alkali- for-mers Is weakly represented, becomes more appar- ent in paratyphoids, and is evident much more In the control Breslau culture, Rabbits were immun- ized with the nucleoprcteid and protein prepara- tions received by fractionization and their serum Card 3/5  USSR //Microbiology, Medical and Veterinary F-6 Microblolo&-_f, Abs Jour- Referat. Zh.-Bioll., Nc., 9, 1957, 35644 -extracts of paratyphoid contains a group antigen, comn;~In. t~L intestinal bacilli, Daratyphoid bacilli and paratypnoid; an antigen, common only to alkali- formers and paratyphold; and an antigen common to int-stinal bacilli and paratyphoid. The chemical Ccmpositic.n and antigen striu--ture of paratyphoid is extremely close bu~; not identical to that of the Breslau bacteria, The app,~--arance of Identical an- t1gens in different fractions of various microbes is eviderce of the biochemicai reorganization of their nucleoproteids, Card 5/5  Fy A161 E.'iTk,. ';T(n)/EEC(k)-2/[:i'iP(i)/SYP(V)/T/EliP(t)/EiiP(k)/BiP(h)/EED-2/ ~P TP( -) ~P . .................. 10.V65b 76942 li,'Z: A!"',313332 '0 681.142.6 F,01,~ r c I i,~ n 1A. TITLF: A!-J-Union Conference on vl&netic olomento of automation and computer tochniquo j1vto-,7.-tti1m i te1or.--.ckhnnijza, T. 26, no. 5, 1965, 938-94? lmi'IC TAG!,: el,~ctrlc enr-incrring conforcnco, trnFnotirm conference, comptitor-. equipi-it, auto,.,.-ttion, cloctronic eata processing I'lif- 'Ninth Al -Union Confer li . , . an ~Mar, e1i Elc~w~nts. af Automation anki C.,:nputrr Technolng y.__11C1d-J-n Kaunzis from-7 to 10 Septern-ber 19-64. was j~-,vd by the National-Committee of the USSR on Automatic Control, the i 7:v'-titute of Power and Electrical Em,hicering the nian SS~i, the ____vAnian Scientific and Technical Society of the Instru-1 m rmt Buildin" I tr I and the Institute of Automation and Tele mechanics I or the Main Committee on InstrumcnL!3-uildlngr, Means of Automatlor.,~ and is under Gosplan and the Academy of Sciences USSR. Over 450 participants discussed some 90 reports concerning the theory, design, [C'."d 115 ie.  1AM,,5101,1 IGI: AP5013852 ~productlon, and application of magnetic and magnetic -semiconductor ele- iments. Reports werr, presented for seven areas: digital and anal ,memory devices, magnetic power devices, magnetic amplifiers and con- verters, parametrons, and power sources. At the opening plenary session, PNI. A. Rozenblat presented a survey :of the prcaent state of contactlean magnetic elements, which he considers to be one of the most efficient and promising technical means of automation and c6niputer technology. Problems of designing logic elements to provide iatable operation for various types of circuits were discussed in a series of reports, B, A. Ye"imov and G. N. Chizhilkhin reported on the developm?nt :of modules of ferrite -transistor elements (FTE) which can be used for vari- ouB types of *computers and also for discrete automation for general and ' - i special purposes. This system provides reliable operation at a 200-kc clock. irequency in the -10 to +5 00 C temperature range. The same authors ioge-the r with M. A. Altsenov reported on the devel- ,opment of a general-purpose heavy-dilty _rTE; iZFch-c6n be i:s"ed as a cell of' a clock-frequency pulse generator or as ari independent heayX-duty control  ACC~Z~Y:i UN: AP501Y~52 It Is capable of performing command recording or readout of in formation reachin,- it in large quantities from it low-power FTE. 1. A. Tvunn'n, 13. A. Yefir, ov, and A. A. Shnvrov reported on the development Rmil teotini, of biax-tyi)L logic circuits operating at I Mc and performing ';cvcral lo-ic operations. Advantages cited are: high aln ratio, about 20; h1t;:1i ii~,;Iltchinr, rate, about 2 Mc; and high reliability due to the simplicity of. tijo 7k*(~tiit. Such ch-cults may also be used in complex logic devices, Additional reportij discuosed logic circuits using biax-type elements in a worMnc: Morage device with it nondestructive readout cycle of 10 -7 sec and a recording time for now Information of several microseconds. Afinn,-enov et al. reported on discrete anti discrete-analog com~putrr units based on the use of the area of an emf pulse originating in i the wincling during magnetization reversal in the ferrite. Development of, ferrite niatrixeg which release a voltage pulse at the output with an area proportional to the code supplied at the matrix input was also discussed. Problenin. connected with the development of single-wire memory elements with multlaperture ferrite plates were presented b R. A. jg.Lev- -Y Card  ?;-R: AP5,013352 skiy et al. A. S. Sverdlov and others presented results of developing work: ,-infr S-torage-un~cs using miniature memory cubes made with multiaperture ferrite plates. Thin-film technology was discussed in several reports. A paper by Y (-,. F 11,~r (-zlinyy et al. dealt with the development of a super storage devices built"on thin-film matrices with conductive substrates with a capacity of 64 j56-1;il wordi3 and a cycle of 400 lisec. Experiments with magnetic-film jstor;iro devices produced by elect rochemical deposition on glass and metal icylindrical substrates were discussed, and a method of using an element of cylindrical magnetic film In a matrix storage device wala list-) reported. A. Tutauskas and R. Litvinaytis reported on a stable storage device with a short access time, a capi~~Itj-of 512 x 32 bits, an access rate of '500 kc, and a readout time of I usec. A. B. Lyasko et al. have developed a tamall decade counter of periodic and nonpeFl-odi-csignals in which a pars- I ~metric element with five stable phase states was used. The counter displays ibetter energy properties than other known counters, high reliability, and jhIgh no6e immunity. A. G. Rabin'kin reported on the characteristics of--NJ r-4 h/r,  L 54;V.,7-1-3 MI: AP5013352 -neN-y hi~h-coercivity (5000 oc) alloy!] of the cobalt-platinum system. M. A. 11.-rblkat ct .1. diGcu3sed the theory 'and d~aI6 Jmagneti~ analog comput- IIng devices (adder, integrator, multiplier) based on single-stage magnetic amplifiers using magnetic analog storage. A large number of reports was devoted to the theory and application of power magnetic devices. The papers presented by the Gorlkly school of A. 'M. Bamdas concerning frequency multipliers and voltage stabilizers were j -of groat interest in this field.. JUMCIATIONt none SUBIM"LLD: 00 ENCL: 00 SUB ODDEt DP, IS NO REF SOVS 000 OMER 1 006 ATD PROS 1 4021-3r ~Card  LUKIYAPIOV, fi.T.; PUSTYLINIKOVp L,Mo I SHAVROV, A,A, Numerical solution ot the problems of cher.!.cal kinetics by wana oC static electron integrators. Dokl. All S&SR 166 n0-3:651-653 Ja 166, (MIRA 1913.) 1, Kazakhskiy aosudarstvannyy universItet im, S.M.Klrova, 0 Submitted April 170 1965*  SHAVROV, A.L. Car of Iow frost resistance in some woody plants under conditions preya-,Iinr in t",e Pol-;rkInine botanical Garden. Dokl. X, SESR 140 r,-).2:410Q-I'-02 S '61. Ov,-MA 14:-7) 1. Polyarno-Al'piyskiy botanicheskiy- sad Kol'skogo filiala irq. S.1'.Yirova All SSSR. Predstavieno akademikom V.N.SukachevyM. (Kirovsk--Plants--Frost resistance)  SHAVROV, L.A. Anatomy of wood of the genus Zphedra in the Soviet Union. Bot.zhur. 41 no.9:1324-1331 S 156. (MLRA 9.11) (Ephedra) (Wood)  Deviar,ions In tne stricture of generative orgins of the poppy flower (FApaver sT)p.,',. 3o?~.zhur.42 no.8:1249-1253 Ag '57. (,qU-A 10: 9) 1 . Botanicheskiy institut imani V.L.Komarova Akndemil nPuk SOSR, PopDy I ri-.- lurfi--lconco) (Abnormnlities (Plnntq))  Cal)-:-iol Sci -- (diss' "Anatorico-:.'or-l)j'iolo~,4-cnl trl,,aysis of Variability cf Plantst ':raiisplanted uryl-3r Conditions Lan-Kirovsk, 1958. 19 pp (Af- USSR. L-ot Inst Ko -'~'A' iri V.L. Koriarov) Kirov'. 120 ccpies. ('a, 10-5st rO).  -122-2 -4,~, TTLE: j.,7-e c,,,, 4n- t, Plan's Transplanted to an Arctic Alpine Botanical Garden folo :o-~,,n.-Lormic~teskiye chertj i:Lm-2ncI,.-i-,ros4Ui ra.;teni- T 'ri I:erc-,:~eienii v Polyarno-,--11!,iysk4-Y 1)otanicheakiy sLd), PERIODICAL: DoLl:c!y '..kademii nauk SSSR, 1'1)50, Vol 122, '!r 2", p!) 30fl-311 SIMI'L CT ',otanical iarden is situa%el on the Kola 1'1~r.Jnsula (Koll~:Iciy -~oluostrov) in the southern part of the :--ountain 1 0 ::massif Khibiny (33 391 eastern longitude from Gree.,wich and 0 1 ;)' northern latitude) (Ref 1). The natural an.! climatic conditions are -.,ery severe ara -peciiiiar, -~E the 7arden is situated in a mountain basin 12o km north of th,a -.)olar circle. i~ true in particular for "'-,e dayli,-',it con'litions. rr '-~cco:,;es a ~rk. 11ant species sum:.ier days it never a t r ~zn S _,4 01, ],,Z;V(~ %o under-o considerable orred to this re[ an-11 --tructural in orIIIe--- '4o become ~,o tl,,is clip 7ia-~ic con- -iate an.! to able ~o Ztan:l clli- -;- 0 te t-.cso I IcLl nd o-s in or 1~2r-  S."! ;,IC -I or. 7 Transplanted to an Arctic Alpine Botanical Garden which in iloo 1 i C, 7.- 1 E: 1, fic-aLion of Lhu flower un(I of' L1.10 I n I jF ~-ro.!ucing sf--eclo the flower ,rolific:3 a !"loot flower or even a,.-bole inflorescence i zi i: r ol u ce d of -Ultis shoot. ':7oi-eovei-, a and In- -n ~ur,-.-fcrrcA cell rlivicion is O,S,,rVL_.d 4 cell ;roup.7 %vith a e:.-- lain 'Bile frequency of several tu:,iors in or:--,ns ancl !ant ~ar'4-- an,! t6he frequency of c.-uL.lescence of in'~i-viclial o, ~:ven in c-ompletely n-. ",-re 2 fi.,~mres C -,f e arc i7 rr rences, 4 of whic sf)vIC, botaniclicslri-. s a o1 f 1-1,ulu 1-. Ki-rova A:ademii nauk SS~711L !,.)h;r i~l--;ne 71otanical -'ar.-Ien r~f 41-': eKola 73--anch, -',S TSSR Kirov)  SHAVROV, L.A. The nature of fasciations. Bot, zhur, 44 no.4:500-505 Ap '59. (MIRA 12:10) I.Polyarno-Allpiyskiy, botanichaski7 sad Akadanii nauk SSSR, g. Kirovsk. (Abnormalities (Plants))  SILAV.,iMr, "A. Some characteristic featuren of the intraspecific variability of. plants introduced to a polar-alpine botanical garden. I:.-v. AN S4SR. Ser. biol. no.4:582-590 JI-Ag 161. (IE:,A 14: 9) 1. Polyarnyy botanicheskiy sad i Botanibbeekiy institut im. V.L. Komarova AN SSSR. (AGGLIMATIZATION (BOTANY))  SHAVROV, L.A. Fasciation, in plants of sub-Arctic regions. Biul. Glav. bot. eada no.41:58-66 161. (MMA 14:11) 1. Polyarno-allpiyskiy botanicheskiy sad Kol'skogo filiala AN SSSR, Kirovsk. (Kirovsk region-~-Abnormalities (Plants))  SHAVROV, L.A. Ecologico-geographical patterns of structural variability in introduc ed plants [w.s.i.e.] Bot. zhur. 46 no-3:328-336 Mr 161. (MIRA 14:3) 1. Kol'skiy filial AN SSSR, Polyarno-allpiyskiy botanicbeskiy sad, g. Kirovsk. (Khibiny Mountains-Plant introduction) (Botany-.44orphology)  L 2471o-66 EWT(m)/ETC(f)~EPF(n)-2/9WG(m) WW ACC NR: AT6008415 SOURCE CODE: UR/3136/65/000/993/0001/0017 AUTHOR: Ambartsumyan,_~.. S.; Goncharov, V. V.; Glukhov, A. M., Yegorenkov, P. M.; Smirnova, R. F.; Shavrov,F. i. ORG: none TITLE: Increasing the power of__VVR-S reactors A SOURCE: Moscow. *Institut atomnoy energii. Doklady, 1AE-993, 1965. 0 povyshenii moshchnosti reaktorov VVR-S, 1-17 TOPIC TAGS: water cooled nuclear reactor, water moderated reactor, reactor fuel element, nuclear reactor power/ VVR_S water cooled nuclear reactor ABSTRACT: The authors consider the possibilities for using slightly modified MR fuel assemblies for increasing the power of VVR-S water-cooled water-moderated reac- tors. A figure is given showing the construction and dimensions of the MR fuel as- sembly. The assembly consists of five tubular fuel elements of circular cross sec- tion. The heat-transfer area of the MR fuel assembly is 2.35 times as great as as- semblies using EK-10 elements. The elements are interchangeable, i.e. they may be Card 1/2  L 247lo-66 ACC NR: AT6008415 placed in any ceLl of the reactor core. The efficient design of the MR elements assures that 90% of the water passing through the care flows througli the fuel assem- bly. The assembly contains 173 grams of U-235, i.e. 35% more than an assembly with- EK-10 elements. The use of these elements makes it possible to irradiate specimens- in experimental channels or ampules with an outside diameter of 14 mm. Larger Spec- imens may be irradiated by using fuel assemblies with fewer tubular fuel elements. However, use of the MR fuel assembly cuts down the volumetric. fraction of water in the reactor core to 0.65 as against 0.7 when assemblies with EK-10 elements are used. The volumetric water fraction il cut still further to 0.52 by the use of beryllium moderators to reduce nonunifdrmity In heat release due to localized in- creases in neutron density in the water spaces between adjacent MR fuel assemblies. The use of these fuel assemblies increases thel;ower of the reactor to 8-11 Mw and the maximum neutron intensity (U-235) to n,9-10 neutrons/cm2 see. The auth6re dis- cuss the experimental possibilities of the VVR-S reactor with MR fuel assemblies. Orig. art. h93; 6 figures, I table. SUB CODE: 18/ SUBM DATE: 00/ ORIG REFc 001/ OTH REr: 003 Card 2/2  L 24711-66 EWT(m)/ETG(f)/EPF(n)-2/EWG(m) WW ACC NR: AT6008414 SOURCE CODE: UR/3136/65/000/992/0001/0025 AUTHOR: Goncharov, V. V.; Chernilin, Yu. F.; ShavMv*.P,.,-I.; Chernyshevich, V. N. 'Yegor-enkov, P. M.; Zh-igachev, V. M.; Larln-, 1. 1.; Korneyev, V. T.1, Yashin, A. r. I ,ORG: none ,;TITIX: Remodeling the IRT reactor at the Institute of Atomic Energy itreni 1. V. 'Kurchatov ~SOURCE: Moscow. Institut atomnoy energii. Doklady, IAE-992, 1965. Rekonstruktalya reaktore IRT v IAt im. I. V. Kurchatova, 1-25 ITOPIC TAGS: nuclear reactor, reactor fuel element, nuclear reactor core .!ABSTRACT: The authors describe steps taken to redesign the IRT reactor at th" stitute of Atomic Energy. The following units and systems were alterod to, Imere"!W th~.ner o~ the,ivaid*tor, expand its range of experimental poosibilittes, 484 ope 1. fuel elements and reactor core doqlgnj.'~2~ ip ts r#tional qualities: to*- 6g system, 3---gXperimental units; ~41 controland shielding syd itoritig systemi fij special-ventilation. Figures are,given shov MOP big the tard 1/2- 'J61  L 24711-66 ,ACC NR: AT6008414- 4 Jongitudinal and transverse cross sections of the reactor as well as detailed dia- grams of the reactor core and the channel for the "cold" neutron source. The new ,fuel assemblies have nearly twice as much heat-transfer area as the rod elements :formerly used. Each assembly contains 155 grams of 36% enriched U-235. Metallic !beryllium is used as the reflector. The core contains 54 cells in all and has a 50 mm lead shield for stopping y-radiation. The experimental units include horizontal and vertical channels as well as a "cold" neutron source and a thermal neut, ron ~Iltrapll. The modifications made in the reactor give a maximum thermal neutron flux ~(U-235) in the core of 5-1013 neutrons/cm? sec, a maximum fast neutron intensity ~(E>0.5 Mev) of 9-1013 neutrons/cm2 sec, and a power of 4000-5000 kw. The procedure used for disassembly and reassembly operations in the reactor pool is described. Some of the physical and technical characteristics of the modified IRT-M reactor are* tabulated. Orig. art. has: 10 figures, 3 tables. SU3 CODE: 181 SUBM DATE: 00/ ORIG REF: 000/ OTH REr: 006 I'ard 2/2  s 0! Acc ;7- :C).,) (~QjQ L UL C rl (21, UTH -7 A ov c I ev) a A rcv, G,c)iicha f At f - v - r, i Z;.t Cr;InCy ORG - I-ce on th17 ---o 'r1"4 ~icscuw (Goasu'Ual -it att inateriais ro n Pok-ladY is-piri-aully W-EL i mater- pla TOPTt, Mat- e, r iI - 0 -It C. c 1, 1e; ar, de C,-  ducTion. 7.1. .-jperuti(-- c i ial "I.CT, C reactor. a) Fuel burnll.-~. 1.) 7--Ifficieuc,,- cc.-I~x"'i 3r-I,ITI fuel asscfblic~;. C), Z,*:":,-."~~ C -;I (.)f "he ea t jor, Gy S CIq loop for 1-.~ I el leme I I t L? s C- i"o :,~i . b loo'-p L'ur th~-: reaclor C) 1ntcI-!Ierha-,.,2 cri-liinr L(-,.oi) o' reacter. 'T',jZo J, f or tlne i;ra-,, i e stac I, 'u c :Z L .100D iflstalirt~ ior und T-,o-cfcrvlanc~- G est"S "1-I e e r J- a 1 0 S ~Ie C c C, -t r G 1 a;j i 0-t 1'. 11 G!', ,-af, -oc-en in sincc 2'-,f rid Ls --~jwe- "las ~ezj t, -- ju-u- a - fez,.~3~~u Lc init-iAi-L to '7~01 MrW. 'D -i e i i.,7,u up at j - 0 r. C reacLer iia-, -,.coij with "' as:mciated anc"cristics u~. the fcacuor at different Pcy4er ratlings are taI-lilatcd, i-'~,.Jor co,,-.- tributions to the aC-j-u~7tment cf the M a7eactcr Wele maue by I.. Ye. Aiek-eyev, 21-, Iilekseyev, S. 'i. -BeC;achcv, A. B. Eua~ ~enko, Yli- 1. Kcrral V. K. L-ebeoev, A. Rolankov, V. 1). PUGOV, ki. V. Se-.E~rchev, Ye.. S. Qh rnorotoll, and Yu.. A. 1.3. art. 11 I~gures and o tables. SbB CODE: SUTIV D-ATE : 00/ ORIG RF-F: 0-01 Card 2/2,'  SHAVROV, K.P., dotuant, kandidBt tekhnichaskikh naiik, dotsent. nauchnyy redaktor; ZNA14ENSKIY, A.A., radaktor; KTY- NOGMIDIA, K.Y., tekhnicheskiy redaktor EReconditioniag of tools] Voss tanovle.-iie instrumentov. 14oskva, Yses. uchabno-pedagog. izd-vo Trudrezervizdat, 1954. 38 p. [Microfilm] (Cutting tools) (KaA 10:4)  -, ~ ~_' Vhk2-v , " . 'j-, . Peat Industry Overations gra,,~h at "Tesovostroill. Torf. c;mm. 29, no. 6, 1952. 1. Nonthl - 9 r -v list of Russjan Accessions, Library of Congress, September 1952. Uj' LASSIFIED.  umAbdicine - shenf ish Jan 1948 "New Forms and Occurrences of Donacil (Coleoptera, Chryzcm elidae Subfam. Donaclinae) in the Fauna of USSR," V. B. Shavrov, 4 pp "Byullet Moak Obahch Ispyt Fri, Otdel Biolo" Vol No 1 Continuation of a previous articll~ which appears to b taken from a German publication: Coleoptera. Zentral- blatt 1930, Vol 8, No 1, page 29. This part disousse briefly the Plateumaris consimilis crientalis subsp. n.; Donacia, imprease. Rauk. ab. (morphsT) armillats, nova; Donacia appendiculata Abrans ab. coeruleans now (ab. coaralsens Reitt. i.1.), and seTeral others. BrI passage on new localities vhere Doaacii have been fan IM 61T68  Prl'tich~skii sar,ol~t- (Tn: 1.7oz,:!usm--e ruti ',"os'-Vao, 1~433. 437-) i 11113 Title tr. : The Arctic aircmFt. I L5 2. Vt, T S,"~: A3ronauti-cal Sciences and "Niption in t.he Soviet I-Inion, Library of Con~r-,!ss, 1955.  "jr:;S+r-., 04' in 1;4LID)l  SHAVROV, V. B. Shavrov, V. B. - "Russian Airplant Building (1869-1917)." Moscow Order of Lenin Aviation Inst imeni Sergo Ordzhonikidze, Moscow, 1955 (Dissertation for the Degree of Doctor of Technical Sciences) SO: Knizhnaya Letopis', No 24, 1.1 June 1955, Moscow, Pages 91-104  SHAVROV, V.B. M.V.Lomonosov's helicopter. Trudy Inst.ist.est. 115-119 t62. (Lomonosov,- Mikhail Vasillevich. i tekh. 45: (KRA 15:8) 1711-1765)  iZAESOI.) Alek;,alidr Nlikhnyiuvich; r-11L', cioktor tekim. zi~luk-, feLOenzent; 3'1;-'Z;-EVSKFI, S.Ya., kand. teklin. nat&,, dots., re-Lsenzen-t; S7HAWPOV, kand. teld.n. nauk-l retsenzent; GILI.-E.',G, L.A., red. [Soviet helicopter irdustry] Sovetskoe vertoletostroer-ie. 1,Toskvp-, llashino~stroenie, lc)64- 310 P. (MIRA 17:6)  AUTHORS: Rodionov, K. P. and Shavrov, V. G. 126-3-1/34 TITLE: On the problem of anisotropy of t",'Ie electric conductivity in ferromagnetics. (K voprosu ob anizotropii elektro- provod.nosti v ferromaGnetikakh). PERIODICAL: "Fizika Metallov i Metallovedeniye" (Physics of Metals and Metallurgy), 1957, Vol.IV, No.3, pp.385-391 (U.S.S.R.) ABSTRACT: The problem of anisotropy of the electric conductivity was considered by several authors (2-4). Baroody, E-IJ-0) determined the anisotropy of the electric conductivity by solving the kinetic equation. He investigated tso cases, namely, when the function characterising the inter-relation of the electrons with the lattice oscillations is isotro * and the energy depends on the wave -vector (and not on J!k4fc) and when the energy is isotropic and the anisotropy is taken into consideration as a function of the inter-relation of the electrons with the lattice oscillations. The work of these authors related to non-ferromagnetic metals and were based on the single electron approximation. Akulov,N.S. (6) has shown that the anisotropy of electric conductivity in ferromagnetics can be determined phenomenologically from Card 1/4 the symmetry properties of the crystal alone. On the basis of the quantum mechanical model of the ferromagnetic,  126-3-1/34 On the problem of anisotropy of the electric conductivity in ferroma-netics. (Cont.) 0 consideration in the kinetic equation. The maEnitudes a2 and o~ , eq.(19), to which these deviations are due, include the isotrODic as well as t1ae anisotropic part. Eqs. (20 and 21), p.390, express the resulting relative changes in the electric conductivity as a function of the direction of measurement and it can be seen that the signs of the longitudinal and transverse effects coincide, which is in agreement withL experimental data. Bates, L.F. (10) has established that there is an anomaly in the relation between the signs of the longitudinal and the transverse effects in the case of high coercive alloys, whilst Drozhzhina, V.I. and Shur Ya. S. (11) have established the existence of sucii anomaly for high coercive as well as magnetically soft materials; the si6ns of the effects were equal. On the basis of general symmetry considerations, Vonsovskiy, S. V. (12) explained this anomaly by the presence of "volume" effects and he established a criterion governing equality of signs of the two effects, pointing out that the microscopic theory should explain, at least in Card 3/4 principle, the possibility of existence of this criterion. The eqs.(20 and 21) derived in this paper indicaze that this  "~Ll. ?qOO 80305 _2 9. ~2.7) 0 0 SOV/81-59-7-2240-) Translation from-, Referativnyy zhurnal. Khimiya, 1959, Nr 7, P 46 (USSR) AUTFOR3: Turov, Ye-A., Shaviov, V. Q-1 - X TITLEP. A Phenomenological 1heory of Ferromagneti,2 Pnenomena~ PEKODICAL: Tr. In-ta fiz. metallov. Ural'skiy fil. A3 USSR, 1958, Nr 20, pp 101 - 109 ABSTRACT: The foundations of the mathematic method of a ohenomenolog"cal theory of ferromagnetic phenomena were laid down. The essenoe of this theory consists In the viewpoint that a solid body (crystal) is considered not as a discrete but as a compac-, medium which is characterized by the densities of certain pbysi_~al quantities (magnetic moment, electrical polarization, impulse, etc,) For finding the energy spectrum of such a medium the expression ofr- the energy is presented in the form of an expansion by the simolest invariants composed of planes with allowance made for ,he symmetry of the crystal lattice. Moreover, copsidering that const~Lnt density values correspond to the principal' state of the system, Card 1/2 the HamiltD-nia-n ---an be expanded into a series by the powers of the  80305 SOV/8-1-59-7-22403 A Phenomenological Theory of Ferromagnetic Phenomena weak, oscillations around these constant values. Then the Hamiltonian ob- tained for weak oscillations of the interacting classical fields is quantized according to certain rules, and the main part is singled out from It. This part is the energy spectrum of the system in the form of a sum of the energies of the individual quasi-particles and a small addition describing the interaction between these quasi-particles. It Is evident that the whole theory is applicable, in such a formulation, only to those cases, when real motions actually represent weak oscillations around a ground "zero" state (e.g., in the case of the consideration of magnetic phenomena at low temperatures). Although in the theory considered, as in any phenomerological theor-y. ~several undetermined constants appear In the final conclusions, which must be determined by experiment or from concrete model notions, it neverthe- les~~ makes it possible to obtain a series of general informations on the energy spectrum and the properties of solid bodies at a minimum number of model assumptions. L4__~ A. Pakhomov Card 2/2  L) c rj l -C 2/-.~ 7 ;_k~riveu 0-- ZI-le .~Ie ,r 4 C C-~ C L V C curvc: i.-zlY non- i i t t i Q 1 0 C~ e N. r' C! S 13 On E 3, U ~ -,etzil lov A:~' S f k-, tu-Z:L~ Uf P.Ilysics of AS USSR) octo-Ocr "96-1  7 7' , S/056j621/042/005/014/050 3104/B102 Irl-hi n, Yu. P. , -.Qhav rov, V. G. '2he theory of the spontaneous Fall effect in ferromagnetics PERIODICAL: Zliurnal eks:)erimentallnoy i teoreticheskoy fiziki, v. 42, no. 5, 1962, 1233-1240 T 2~'T : '11he k-intic eOUaZiOft --F'Gr the 3catterin- of electrons on i)honons is sot- u-D by t'-e density masrix method of ',V. .':.'ohn and J. LM. Lutting'er (Phys. 106, 590, 1195,7; 114) 739, 1958), hiCher terms in the interaction wiz'- --he scats'arer---- be4nr' oaken into account. Gnly the field terms in the Second consain linear spin-orbital interaction terms. 7~ "j 2 , -.-ere R Js she spontaneous Hall coeffic'ent arid the electric s .reS4 _I-Vj t,'r. 7xperii;;ensal results, hov;ever, show that R n , where V-L - ~ - - s 1.9 (Fe) and a = 1.4 (N-4). There-.Core, the phonon scattering mechanism 0 4-S inadecuase To exnle-4n the snontaneous Fall e:fect in -the higher ranj;e also. Ta'~in.- account o-;~' the band-to-band transitions, , h-~ve been ected in thi s calculation, does no, change the result ch v V . The scattering on magnetic irregularities, which may be regarded as Card 1/11  C/G5Y-2/042/005/01 '.,.,3ory of tne 3~on'~an,~Ous B1 04 B1 G-2 at hicher te.-.pcrazures, is one of The possible causes of :3 t a -t -;*. Sa I - 2. -aszic scattering from these irregulan.ties devia ion f-07 :-ives a -Lirlear te-=.. in R (Q). S ASSCC!,L'.2-10'~1 :T:-.stitut fiziki metallov Akalem4i nauk SSSi-(Institute of P"'Ysics of "Ietals of the Academy of Sciences USSR) S U B1 TTS D July 28, 1961 0 / V 4/C50 t ,'ard 2/2 C  'IA12112 S/056/62/'043/000'/051/067 B102/B186 AUTHORS: Turov, Ye. A., Shavrov, V. G. TITLE: Galvano- and thermomagnetic effects in antiferromagne ties PERIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, v. 43, no. 6(12), 1962, 2273-2276 TEXT: The static eff--cts related to the existence of a separate axis,of antiferromacnetic ordpriniz in certain crystals (cf. e.g. ZhETF, 42, 1562, 1962; 33, 807, 1957; 36, 1954, 1r,-'59) have been investigated already. Here the kinetic erkfects. naihely galvanic and thermomagnetic, are studied in a general phenomenological manner. Antiferromagi~etic crystals with various crystalloCraphic and magnetic structures are considered, the variety of the latter being restricted by the assumption that collinear or weE&ly non- collinear structure.- axe describable by two sublattices with the magnetizations 7? --* -* la where L = M - Y, is the axis of antiferromagnetic ordering. Between 1,21 1 2 'roa-ces and fluxes the relation F = Q (rjF.-L)j must hold; in the case of .L - OL ap 9 1 p -6 galvanomagnetic effects F will be the electric field strength and j the Card 1/4  Gaivano- and ther.-nomagnetic. S/O 5 6162/04311100 6/051/06 7 B102,/B 166 current density. First the spentanecus Hall effect is considered for a 212 rhombohedral lattice structure. The spontaneous transverse galvano- magnetic effect F") R'jL., F(s) RsiL,,, F") = Rsi,,L.+ QmLy. (6~ 2 For a structure of th-j type 3+2- z x RJH, - RjH,, F, = R2jd~, -Rli,H,, F, = R, (j.H, - jH (6) and 'or L z 3 in hematite below 2500K or FeCO below 350K), jfjb,) + aLi.-HV, Fy = ajL (j.Hy + i,H.,) - a-jLj,,H, (7) F. = c4L (j.11, Card 2/4  S/05 62/C43/0061/051,/067 Ga'-'vano- and thermomagnetic ... B102YB186 make it rossible to discern antife-rromae-netic states with different directions of L. Tho ~,reqence of a domain structure with oppositely. directed L's enables the effects 1inear in to compensate each other. Therefore one can conclude from, the presence of 'these effects whether in uniaxial anti f erroma.-ne ticg,.vith L:I-z* 180o'd*omain boundaries exist or not. ASSOCIATION: Institut "izi'k--' metallov Akadem i4 nauk SSSR (Institute of the Ph~'sics of 1",'etals of the Academy of Sciences USSR) SUBILITTED: Ju!y 9, 1962 Card 4/4  TUROV, Ye.A.; SHAVROV, I.G. Galvanomagnetic and thermcmagnetic effects in anlCiferro- magnetic and ferromagnetic substances. Izv. AN SSSR. Ser. fiz. 27 no.12:1487-1495 D '63. (MIRA 17:1) 1. Institut f-;ziki metallav AN SSSR.  L 16908-63 EWT (I)IIWP_(g_)_/EYT BDS' __AMq/AqD/IJP(P~ _ GG/JD ACCESSION le,: AP3005292 S/056/63/04-5/C,02/03.1,9/0352 AJUICR: Shavrov, V., G. Turov, Ye. .1. TITII';: Galvanomagnetic effects in ferrimagne s near the cornoensation uoint SCURCEE : Zhur. eksper. i teoret. fiz., V. 45, no. 2, 1963, 3497352 TOPIC*TAG3: galvanomagnetic effect , ferrimagnet , compensation point manfranese Igermanium compound, magnetoresistance, Hall effect, Ettingshausen effect, Alernst effect AMT-RACT: A list cf the various galvanomagnetic and thermomagnetic effects caused b~r ferromagnetic orderin which can occur in ferrimagnets near the nagneti c p~,nsation point, is obtained from an analysis of the syi=etry properties of ferri- magne tic crystals. These effects was predicted in earlier papers by the authors (ZhETFI V. 43, 2273, 1962 and Izv. AN SSSRI ser. fiz. v. 27, 1963) on t1-- basis of Athe general relations between the fluxes and Xcroes, and include characteristic adALticns to the usual coeff icients of transverse (perpendicular to the f lux) ef 'k*- etic fects (Hall, Ettinghausen, transverse Nernst-Ettinghausen, Righi-Laduc) 3 10-gitudinal effects that are odd in the magnetic field (change in resistivity in rd 1. Cc  -L 1690.8-63 ACMSI CN IM: AP3005292 a magnetic field, Nernst, effect., longitudinal Nernst-B"ttingshausen and Ka.ggi- Pdghi-Icdue effects),, and specific plane-transverse effects such as the "plarie Tal-I effect. A qualitative explanatim is given for the odd br/f effect experi- .monta-l-ly observed near the conmpesation point in the ferrimagnetic. compound Fn5% (ZMTr-, V. 45, 52) 1963). Crig. art. has 6 formulas. :A3SOCIA7ION: Institut fiziki metallov Akademii nauk SSSR (Metal Physics Institute of the Academy of Sciences SSSRI SU =TED: 16Feb63 DATE AC'j: 06Sep63 ENCL: 00 'SUB OME: PH NO REF SOV: 006 OIM: 000  ACCESSION NH: APLO11758 S/M81/64/006/0M/M10/0228 AUTHORS: Mitsek, A. I.; Shavrov, V. G. TTTTE., Piezor&ignrtism in anti'irromagnetics and ferrimagnetics SOURCE: Fiztka tverdogo tala, V* 6, no. lt 1964~ 210-218 TOPIC TAGS: piezoi-,iagnetism, antiferrcciagnetic, ferrimagnetic, sublattice, magnetic crystal, ccmpensation point, piezomagnetic coefficient, antiferromagnetic structure, ferromagnetic structure, spin wave, spin wave spectrum ABSTRACT: The authors have investigated the piezomagnetic effect in magnetic crystals having two sublattices. They have examined the symmetry of crystals that permit piezomagnetism and have computed the tensors of piezomagnetic coefficients for all types of antiferromagnetic structures. Piezomagnetism can be observed only in antiferromagnetics the structure of which permits the existence of weak ferro- magnetism. If the antiferromagnetic is found in a state in which the weak ferro- magnetic moment is absent, then piezomagnetism can be observed against a "zero background." When a weak ferromagnetic moment is present, the piezomagnetic effect supplies an additional field tnat may be distinguished (in principle). Thus, like ea I iromagnetismy the piezomagnetic effect is impossible in triclinic crystals t ar~ 7  ACCESSION NR: AP401-1756 or in cubic crystals of the classes T and Tb* Piezomagnatism may probably be ob- served in ferrimagnetics as well, bUA only against a "zero background," at the point. of compensation (if there is.one). Actually the effect will appear on one side of the point of compensation or the other when elastic stresses are applied to the sample. The authors computed the temperature dependence of a piezomagnetic model and the spectra of spin waves, taking into account the elastic stresses, for the antiferromagnetic crystals Mrir,*and CoF2. "We express our deep thanks to Ye. A. Turov for his constant interest in the work and for his valuable discussions, and we thank S. V. Vonsovskiv for cliscussing some of the results." Orig. art. has: 3 tables and 29 formulas. ASSOCIATION: Institut fiziki metallov AN SSSR, Sverdlovsk (Institute of the Physics of Metals AN SSSR) SUBMITTEW 26jui63 DATE AOQt 14Feb64 ENCL: 00 BUD GOD111 PH NO REF SOVt 018 OTHERt 007 Card 2/2 F-  ACCESSION NR: AP4042402 S/0056/64/047/001/0296/0299 AUTHORS: Turov, Ye. A.; Shavrov, V. G.; Irkhin, Yu. P. TITLE: Hall effect in a ferrimagnet with compensation point. II; Theory SOURCE: Zh. eksper. i teor. fiz., v. 47, no. 1, 1964, 296-299 TOPIC TAGS: Hall effect, ferromagnetism, antiferromagnetism, Hall constant, temperature dependence ABSTRACT: This is apparently a continuation of a paper by two of the authors (Turov and Shavrov, Izv. AN SSSR, ser. fiz., v. 27, 1487, 1963) and is devoted to an explanation of the temperature dependence of the Hall emf in a ferrimagnet near the compensation point. Such a temperature dependence was observed by V. N. Novo- grudskiy and 1. G. Fakidov (ZhETE' v. 47, 40, 1964) in the compound Mn5Ge 3' A qualitative variation of the temperature dependence of  ACCESSION NR: AP4042402 the ferromagnetic and antiferromaanetic Hall effects is obtained by deriving expressions for these Hall constants using the mechanism of scattering by spin inhomogenei-;ies and a generalization of the calculations made by one of the authors (Yu. P. Irkhin, Sh. Sh. Abel'skiy, FTT v. 6, 1635, 1964) to include two magnetic sublattices, for the calculation of the anomalous Hall coefficient. No accurate and detailed temperature variation can be obtained for these coef- ficients because of the crudeness of the approximations and because the Hall constants cannot be expressed in terms of the part of the electric resistivity due to the scattering by the spin inhomogenei- ties. The main conclusion is that the coefficients have no singu- larities as functions of T at the compensation point. The best that can be expected is no pronounced disagreement. "The authors are grateful to Sh. Sh. Abel'skiy and N. N. Voloshinskiy for advice and remarks." Orig. art. has& 12 formulas. ..ASSOCTATION: Institut fiziki metallov Akademii nauk SSSR (institute 2/3.    L ~6954 65 ' .- NR ACCESSION-z AP5003439~ l e sivel~ro b - ...'defcpri~at-i-6h'g.~~pi,ay-'A cI 6i 1, a uc i n ,of- .,spin- r a t 0 gap in d s.p. to s jum. As part. of the- _--caI6 dIatiorib i'- the ~Aulthoi-s con-6.1--: l -i on sl*`-an -piezomagnetibn the A sider the..Influehce of externa s resse t --astic -gap he LUCA911 oel in t Ei-ferromaqnd sj --acvounr'ls~ -case ot 1 taken in the maqndtoelastici energy-bf cause-,-* ;7,~ on,,: but:al 6.:of pie2;0_7!~-:,-~t'.: the magndtobtricti s -.tfidse xesp6hsi or;-.,. e zo-, o,v----an_ magnetismi" The Authors ithank A~- -.-S--,*--'-Bd'-"' A 1k6_ma_n_ ~A6 _. suggest d' RudasheVskiy e , k Y,%.----j~ Ah -mairi,. -th- -"pres ent d e': I !~-a ~ of e _-'wor i ni also B. ldii: Ishmukhainetov for a disi cuss, on Orig'~: ar~.-_ -bes formulas. Inst ,itiit fiziii:_ tAl me ASSOCIATIONi: _ f_Me' :AN:SSSR)-- 0 taf~ PjjjSiCSo L - _ _ " ~ 4 SUBMITTED: .14ju!6 AS ENM REP. ~NR mg. Card w