KALININ, Ye.V dotsent, hApd.tekhn.nauk ~M-- Study of certain regularities of a pulse discharge. Elektrichostvo no.3:89-92 Mr 162. (MIRA 15:2) (Electric discharges)  KALININ, Ye.V.; KARPOVA, 0,V.; TSEPAKINA, L.P. Dependence of the discharge potential of wet insulators on tho duration of applied voltage and intensity of the rain. Izv. NIIPT no.8:343-350 161. (MIRA 15:7) (Electric lines--Overhead)  KALININ,._Tq~,V+,_--kand.tokhn.nauk; KARPOVA, ON., inzh.; TSEPAKINAy L.P.j inzh. Dependence of the discharge potential of wet insulators on the time duration the insmUUirbeing subject to the action of the potential and on the intenvity of the rain. Elek.sta. 33 no.2t5g.62 F 162. (MIRA 150) insulation) (Electric lines-Orerhead)(Bleotric insulators and  khr niuk , fir), 1 .;7, it; in the ~;f tho rw~asur rient r-f' ii(. Elektriclle.-Lw, ~6 (mllo. inst-;-'at pcj:~t,,yann-~,go  tj~7 [i ACCFSSION NR: AP50AO963 SIG 104/64100010169 /0068/00 73 AUTHCA: Kalinin, Ye. V. (Gambdate of technical scienctsm); TikhodAyev, (Can-JidaLe of u, -tencea); Kalmar, 0. (Can-lidaLe W t!ch; -aj- sciai 4. it I E; Ko outova, D. (Engineeri TITLE; Wflt flaorhover voltages of long insulallor itrings SOURCE. Elektrichetrldye stantiffl. no. 9, 1964, 68-73 TOPIC TAGS, insulato,: ctring, flashover voltage, Lnoulax0e tesl ABSTRACT: The results of wet flashover tests of superhigfi-voLtilqe SLring insulators are reportE!a. A 2 x750-kv cascado traneforml-T !,11pplieli ~-7-orr, it byrit;hronous generaEor was used as a source of. t4II&L Voluages. 5t.riniga 3v 10-32 PM-4,5 M.Suiatorfi and 12-30 F1-8,5 insu,144ora mere spray-lr. %inth cherr..:ally purified uhtn-crn) water at a rp-tc of 3 mrnt,'miti legt~ml for fiash:,ve ID tO DU kV. WAII-Ien--al dAa In tahulated. At Inno,-  ---------- overs cascaded the string. At higher voltagoo, sonic ax-cs atrual: tk4e suppi:4,tinj; steel gi.-der, awa frQm the string. at &till. h4gher vo~tape;,, Wheindily azd'Oelt Y flashover voltages came close to each other, pr act ic ally 41 &&O-.1irger occtiiriteAd between the shield ring and the girder. It io con,cluded that: for lir.es. the number of imitz in the string can be uelec-,!td on Ov~ bfullis of thia liry flasaover voltage. Orig, art. haii: 9 figuires, 5 formnlas, and ii tabla. ASSOQIATION; NJjPTj NII energetiki ChSSR (Scientific Research Powcor- Mafomorlavg Xnat4l Wto p SUBMITTED: 00 EKOL,: 00  7 7--,-- _77" 7"-i AT4o45616 AUTHOR, 3ronfman, A. rX[ead of' high voltage- laborallorf);, KAU _j44jjkx date of technical sciencea, Supervisor of a sector of high ;~Ltlgo Solomonov, 14. M. (Candiclate of teclucical sciences, Sonior rtseEmclt u9sociate T1,rLE: Investigation of the diatharge cliazacterin tics uf rinitilmotic iomlve dischurgeo for 500 lcv lines SOURCE: Dallmiye elektroperedachi 500 kv (long-distance Crumsmijauticill Of 500 W. electric powers; sbornfl- gtatey. Meacovi, ILd"vo Encrgiya, LIM4, IN)- 190 TCPIC TAGS: high voftage ljn-a,, powar tiae, ujeotrft,. power jr1wrisidigiolorg, VOINAge overshoot, voltage discharge, magnetic vallre discharger. 1;1gjh,,1ninj4 at-"ster, breakdown voltzge AWTRACT: The discharge chnracterlatics of two, types of m.4;neiAe disehargora; umid 10 kv I fnw,, -ere iyn,eatigatod- the. lightrang arrester. demeribi-A -nin-sously by t", .1 1., d ~ AA I I A,41~ 1,1, ni'd  . ..... ......... CoO -,NR- AT4.045616 --...ALCCEZIO -- ----- thus necessary to favesUffato =id lbe natx!rt~ b lho vi*lag~eol zor4u v"Joug Lileinfintg and to ascerWn that m cormt coordinatloth (Wa(lo betwem 64~ "-.41rk -% uniforro, and tho vnifivirm arrami tho valve olomOlls. ;Sivelfivatio4mi caltl  ----- ------ ---- ------- Card. ACCESSLOUNK: AT4045616 1250-1230 kv-0: The extol-URI inji of is nill, 60 1; v-~ tdtk* In iol*r to prevent deterioration ofthe breakdomi voltage. OrIg. mrC. has: i:,1fcpd1cj11S 1104, 11 figures. ASSOCATION: Vy*aokwrol'Way4 JaborMarlyet Mv4 t VOICq4I Laboratory of the "ProleWriy" Plant); Viftokovol, Maya labortfort.,M fruIPT (111g1h Voltage Laboratory of IMPT) SUBMITTED: 13Mar64 ENCL- EE NO REF SOV: 006 OTHE-11: 000 Card 3/6  --ACCENSIOM.N.%.*:~ AT40-15610-i St K, Ftg. 1. Simplified dlagi!am of a oombined- 500 kv die charger: I'- lighoing arrc4ttv put (1-multiple spark gap, Z-large aottitnear rosistance, 11--tervitte noitflAeux  OJF4,ca, JAW Am 1"'T 146v I &Iqi 0 KJ I , YV 44, Fig. 2. Probability of oporation of a IfghEafij, akrestar and tt MORIChI4, tirminiant discharger at 500 kv anti coordinatiou of, their perform. amce M: Industrw voltag-e frequencfea. I-brcakduom probability of lighmaull,* arnifiter.. ~~ - t-~ r o;-~ h 1~ frw r, nrf-On ahl I I tv nf qwl tahl n fr ov n r s hq>j t di s v. h.arti va. -. 3 - Dif-chabil I t-  IT:  L 1,; H 'I 14E Jill .7 :1., KALTNIN, Ye.V., kand. tokhn. nauk; KARPOVA, O.V., inzh. Design of flare-type line insulatora and wat discharge potential of suspension insulator chains. Elek. eta. 36 no.6163-66 A 165. (MRA 18t?)  ;KALININ Ye.V. kand. takhn. nauk v Construction of suspension Insulators with wedge-sbaped pins and methods for testing tbem. Elek. sta. 36 no.2:63-68 F 165. (KCRA 184)  KALININY YU.1 inzh. Optical calculating machines. Un.tekh. 6 no.1:26-32 Ja 162. (HIM 15:2) (Polarization (Light)) (Magnetic memory (Chloulating machines))  IKALININLYu., inzh.; RYABOV, L., inzh. Aimed into space. Znan.-sila 37 no.11:12-13 11 162. (MIRA 16W (Antennas (Electronics))  KALININ, Yu., inzh. Horse in the wind tunnel. Znanie-sila 38 no.ls8-9 Ja 163. (MIRA 16:3) (Wind tunnels)  AZERIIIKOV, V.; ARLAZOROV, M.; ARSKIY, F.; BAKANOV, S.; IJEIOUT.V, I.J; BILENKIII, D.; VAIELI, I.; VLADDIIHOV, L.; GUO'HWIEN, YELAGIN, V.; YERESHKO, F.; 7JIURBINA~ S.; KAZARVOVSKAYA, G.; KALINB; , Yu.; KFIER, V.; KONOVALOV, B.; KREINDLIN, Tu.; IX,13EDEV, L.; PODGORODNIKOV, M..; RJONOVICII, I.; REPIN, L.; cNOLYAN , G.; TITARENKO, V.; TOPILINA, T.; ADC)OKO, V.; EYDELINAN, N.; 2-24E, A.; NAUIOV, F.; YAKOVLEEV, N.; MIKHAYLOV, K., nauchn. red.; LIVAIIOV, A., red. [Little stories about the great cosmos] Malen41o rnaskavj o bol'shom Kosmose. Izd.2., Moskva, Molodaia pardlia, 1964. 368 p. (MIRA 18:4)  'It P UIA VI I I fill] Ig I I !111111rim ! I I '!I! I 5if I R [it PII V 1-i I "wal IW, Al L 2,3112 ACC NRt AF6001853 SOURCS CODS: URTOR016510001009IM1810048 qUnginear) AUTHORt uv 1, (Candidate-of technical sciences) n yull; ORGt None TITLS: A device for the purification of waste water SOURCSt Rechnoy transport# no* 9, 1965p 48 TOPIC TAGSt water purification$ fresh water, water puzifl6ation oquiptwnt ship, ship component ARSTRACTs The Leningrad Institute 6f Water Transportatioti:(Leniin5lr&clskiy institut vodnogo transporta) developed a new design of a Statidaril shipborn6' device for the removal of petroleum products from the Ail)' s wasto wwer. ~ The device, shown in Fig. I. ii-'designated'16-f-Diosel ships of the Irivix f leet4 The capacity of the unit.is 300 literAr.-,The device vras tested successf ul IV. on'the motor ship "Sochi" (SZRP). and motor ship "Reshtui".(VDRP)*: Orig* ;exte hast. 1 figure* 1/2 629,128t628.16,004 Card  113179-66 ACC NO' AP6001853 Figs 1. Block diagrairt of ilia unlfWd. shiptor" device for the remoVrAl of iietrolowum product) Iro" waste water (LIVT design).4; -- vmte waterii.- separated petroleum products; -4 -, air; outside water; I - pump with a Zt/lhr capao*, pum dischnigI3 p = 2 kg/cm.2; 2 - water )el. p; 3 air chamber; 15 vaccum taxik; 1; - valve; 4 kPA. chambex, 7 - one way vaI6 8 - 'o6vir6a ptwffloa- LI tion filter-, 1) - coke Wart-, 10 petftle= layar;: r 1 11 - ftm Pwffication filbar; 12 - vfvlod chips V6th sawdust; 13 - purified watbr foftbe ship; 14- ~j water over the side; 16 ~. witter kcam. over thts: side; 16 - petroleum collocting ijuik.  it t; j. -4F ACCESSION NR: AP5008332 SAII 15165folaotool tooes(00011 A --'0 1: K ~- b;i - E- A I, w a k c.-., A. S. K -ii r, r i ku ii 'V. Kali oi!: Y A. T- i 1) %f ;.5 1.1 SOUI-ICE: fzmeritel'nalya telcLnika, no. 1, 1765, 5-8 TOPEC TAGS: metrology, quantum radiophpsics ABS'r"-'-T: A brief generaL revirw of the measuremerit: prohicri-is orcuri-ing in modern devices based an quanturn-mechaltics phenomem-11 is pitevented. 1,111-6e LLjp-,C!: --. f C tciuchct' Up-:n p rc,-- Li Lzion radk? apecil t yri' "i pma 1; ~- "i 1-'Aly r lu-ninesrence; quantun.,i paramagnetic ampli.fiern, weama ring W' Oiei-r piJim, P. I a 1 1 pn,x,- (- r P- r, rt s i rnp c r itt i i r t, a -q e r aji d t lh&i: r it, i i f!. -'IIIC: "'Id, ;j~ V'T' r --I I a. (i I fi el. Al I, Orig. -~.ri lilm -t,: and no tabie. Card  Card  F. '~, KA"I'll-,", ',u.A,,, E""MrCii~'V, V.M ..n L - 11 MoaEux-ing the ererej and power of opt-Iral qiiurtum ... 41 Fly 165. U-1:."F-fl, IS, lzm. tekh. no.5s37 18"  L 22138-66 'ACC NR, AP6012935 SOURCE CODE.- X1R/03J-5/65A1O0/O0~/O01VW4l] AUTHOR: Valitov,, R. A.; Kaj~j4q Kuzlmichev. V. D1- ORG: none TITLE: Measurement of energy and power of optic quantum las SOURCE: Izmeriteltnaya tekhnika, no. 5, 1965, 37-41 TOPIC TAGS: laser# ruby laser, calorimeter, elastic osalllation,..gaveous stat6. laser, photoelectric effect, thermal effect AWTRACT: A survey of presently known method memsuring the electrical charaoteristios of lasers. 3,easp.rIng deviaes Types 0v must vary for measurement of the various types which vary from low power, continuous operating Ho-Z-HiF gas laser's to very high power, very short pulse duration ruby lgLsors. T40 effects used in measurement are the thermal, pon6.ermotive and; ,photoelectric effects. A typical calorimeter for pourbi, measx.= ' ment Is described, Its operation and pr~nclple 80urceri, of error (errors in-calibration of dc or condensor energyp transparency~ of calorimeter sectional degree of "blaolmess" of blsO: bodyf readout, and energy lose compensation) are dlscussed.~ A drawtng .of a ponde,rmotor power me.asurin.g device is presented dind Its Card 1/2 UDC:~ 621.3-75-91  1111iff4vullilmn E111"IfAll Jill Dgul Ira FM L 22138-66 ACC NR% AP6012935 0 eration briefly outlined.' Main sources of e!rr6r li'sted arei P error In measurement of specific moment of rotation of.thread, and of Inertia of mobile system; Inaccurate bean,41mirigI reado4t error; radiometric effects; inaccurate determination of an1r.le or fall on. reflecting surface and of reflecting capacity of the surfa(lef The rormatic"it; of elastic oscillations and other effects are also noted &4 havi~a been suggested as bases for measurement of laser power. Orig. ;irts liftet 2 figAres. [JPRS3 SUB CODE: 20 SUBM DATE: none 01b MW: 016. oTif REJ?.- 09-0 it 2/2  KALININ p Y'u. D. Georiagnatic Secular Variations in the USSR and tfto Earth's Internal Structure. (Geromagnitnyye vekovyye variats'Li v SSSR i vnutrenneye stroyeniye ze%li.) Vorks of Sci-Res Institutions of the Main Administration of the !~ydro- mateoroloGical Service USSR9 Series VIp No. 0. i~~droneteorological Presis, Moscow/Leningrad.- 1940. 48 pp idtn Maps* (Yeteorologiya i Gidrologiya, N; 6 Nov/Dee 1947) SOi U-3218~ J Apr 1953 Also: Dok. AN 53, No. 1, 1946 Tnst. of Terrestrial YAgnetism.  A Ll u fez low mob 00 'S i ortw a 11! 9l dw op"M 0 t rdheio" 94) 001 W 'lip Inst. Pea. in Terrestrial Magnetism. ~ for L 06 Om lit - - --- ------ nn-, I.-T of iego go 0 e 0 o 0 0 0 o o 0 o 0, 4, so* no* we*  Ylj- U35'111  USSRA100-physion Msgaetiem, Terrestrial YAgaetic risids "Reterogeneity of the Depth of the Zarth and Goom netic Varlaticne," Yu. D. Kalinin, Soi Res lust of Terrestrial YAgnetiam, 4 pp "!"_ Ak Nauk SSW. Bar Geograf i Goof izu Vol XII, No 3 Studies of the fixed gemagnetic field and its secular variatian led author to tho omGlnsim that imide tb4 earth at depths approximately equal to ba-I of the earth2s radius there is unequal distribution of elec- trical conductivity. Question is mcplained on tho 66T63 USM/Geophysles (Ccntd) XV/Jun 2.948 basis of solar-diurnal variations. Submitted by Academician L. S. Laybenzan 2 Jun 194T. 66T63  KALINY, YU. D. "Secular Geomagnetic Variations and Fluctuations of the Length of Day," by Yu. D. Kalinin, is included in a list of translated titles of articles on geophysics appearing in Meterologiya i Gidrologiya, No 3, 10419. 0 SO: U-2551, 30 Oct 52.  Ono cl-laractucrirtic of -.0U.1,hutlo- C, tM, field ot a im-natic 3Lom. Dokl. A',.' 1;3~~ ~,2, No - 3, 1952. T-,jjtjtUt ZeMrj0,-0 '. intoLimma r(-,!. J,,.il-:- YPI SO: Mont List of Russian Accessionas Library of Congreas,, uncl.  /VW- KOZ Ie, S.M. professor; AFANASIYXVA, V.I., kandidat fisiko- matematichaskikh nauk; PSHMIGH. H.S., kandidat fiziko-matematicho- skikh nauk; GLUSHKOVA. To.?.; KUZENTSOVA, Z.S.; RNLOUSOVI, M.A,; SOIANZYCHIK, A.A., tokhnicheakiy redaktor [Manual on variation in the magnetic field of the U-S-S-R-3 Spravochnik po paremennomn magnitnomu polAu SSSR. Pod red. V.I. Afanes'evoi. leningrad, Gidrometeor.izd-vo, 1954. 265 p. (MLIRA 10.7) 1. Leningrado Nouchno-isslodovatellskiy Inititut semnogo magnotizza, 2. Nauchno-tooledovatellskiy institut samnogo magnottzma (for Xalinin. Afanaelyeva. Belousova) 1. Tashlwntskays nauchno-iseledova- tollskaya goofizichookaya observatoriya (for Kozik). 4. Glaynays Geofizichaskays observatoriye (for Penkovich, G-lushlrovs, XUzuetsova) (gaguetism, Terrestrial)  AFAUSIYJIVA, V.I.; .K&LININ, Yu.D. Some problems of magnetic cartography. Trudy KIIZK no.11:33-80 155. (Nagnetism, Terrestrial)  KALININ Yu. D. "Forecasting Secular Geomagnatic Variationa." The International Aesconiation of Geomagnetism and Aeronomy; Abstracts of the Reports at the XI General Assembly of the International Union of Geodesy and Geophysics) Moscow, Izd-vo AN $SM , 1957. 46 p. Abstract: Variation in annual values of geomagnetic elements Is the sumnary affect of changes in the geomagnatic field caused by internal agents ( ) and by geomagnetic activity ( ). The lat-ter could be completely elelminated by taking average values for 10-11 year cycles. The mprphological examination of such factors leads to the establishment of space-time ralAitionships. The effects of internal forces in Eurasia are ofa smooth, quasi-periodic character lastig a few decades and the geomagnetic activity follows an aloven year cycla. This makes it possible to forecaBt average values for a five year period vitb sufficient accuracy and to construct magnetic charts for the nearest epoch.  37-11-21/18 AUTHOR: Afanaslyeva, V.I.,Kalinin, Yu. D. _~b nekotorykh TITLE: Some Problems of Magnetic Mapping voprosakh magnitnoy kartografii) PERIODICAL: Trudy Nauchno-issledovatellskogo instituta zemnogo magnetizma, 1957, Nr 11(21), pp. 33-8o (USSR) ABSTRACT: The accuracy of collected data and methods of map mapping are discus6ed. The following authors are men- tioned: Smirnov, I#N., Tillo, A.N., TrubyatchinBIcly,N.N., Penkevich, M.S., Ivanov, M.M., Lazarev, P.P., Veynberg, B.P., Rykachev, M.A., Kuchinskiy, Ye-A. There are 11 figures, 10 tables, 'and 27 references of which 18 are USSR, 1 French, 2 German, 2 Japanese, and 3 English. AVAILABLE: Library of Congress Card 1/1  AUTHOR: Kalinin, Yu.D. 49-12-4/16 Petwork of Magnetic Observatories in TITIE: Organisation )f t the USSR during the Last 40 Years (Organ-izatsiya seti magnitnykh observatoriy v SSSR za 40 let) PE RIODICAL: Izvestiya Akademii Nauk SSSR, Seriya Geofizicheskaya, No.12, pp. 1469 - 147? (USSR) ABSTRACT: The history of the organisation of the network of mag- netic observatories is dealt with from the early beginnings up to 1957, outlining also the main results achieved. Para. 1 deals with magnetic observatories in Russia prior to 191?. Para. 2 deals with the network of magnetic observatories organised between 191? - 1930. Para. 3 deals with the network of magnetic observatories organised in the period 1931 - 1940. In 1941, 18 magnetic observatories were in operation in the Soviet Union. Of these, 5 were subordinated to the Main Administraticn of the Northern Sea Route (Glavnoye upravleniye Severnogo Morskogo puti), but tLeir scientific work was con- trolled by the Arcti6 Research Institute (A~kticheskiy nauchno- issledovatelskiy Institut); 10 observatories were subordinated to the Hydro-meteorological Service (GidrometsluzhbA,), etc. The most important achievement of the Soviet magnetic obser- Cardl/7 vatories between 191? and 1941 is stated to be the successful  49-12-4/16 Organisation of the Network of Magnetic Observatories in the USISR during the Last 40 Years. participation in the Second International Polar Year, partici- pation in carrying out general magnetic mapping ~about 100 expeditions amounting to about 25% of the total number of such expeditions) and also supplying data on magnetic variations. Para. 4 deals with the network of magnetic observatories in existence between 1941 and 195?, enumerating -those damaged by the war and measures taken after the war to put them back into operation. The Pavlovo Observatory was completely destroyed and therefore, it was decided, in 1946, to re-establish the LeLT;an5rad Magnetic Observatory (Ijeningrads*p9agpitnMa Observat- or somewhere else, in Voyeykovo. The destroyed observatory at Aizhnedevitsk was substituted by one in Krasnaya--Pakhra, where observations started in 1946 in temporary buildings, and the permanent buildings were completed in 1957. After the war, the Scientific Research Institute for the Earth's Magnetism (Nauchno-issledovatelskiy Institut zemnogo magnetisma) started organising its branch in Murman k. From 1940 o=aards, obser- vations were resumed in Stepanovka.. Between 1949 and 1952, the magnetic observatory at L1vov was built and, in 1953, the fladivostok Magnetic Observatory was moved from May-Tun to (;ard2/7 voroshilov, where it resumed work in 1952. The work of the  49-12-4/16 Organisation of the network of Magnetic Observatories --":n the USSR during the Last 40 Years. reconstructed after the war and, at present, it can be used for measuging the horizontal componentwith an accuracy of + 10-~~' Oe [Ref. 57: v.n. Bobrov tRef.6] investigated the influence of humildity on the operation of magnetic variometers; V.1e. Shellting developed a number of designs of magnetic vario- meters in hic~,the magnet is suspended on quartz tensioning elements rRef. - in addition, some new designs of magnetic variometers U magnetic variational stations were evolved. (B.E. Bryunelli, Ref.8, and B.M. Yanovskiy, Ref.9) and also mag- netic theodolites (K.G. Bronshteyn et al. Ref.10). The results of magnetic observations have not been fully published [Ref.lij. Some of the material has been published in publications of' the Main Geophysical Observatory and of the Arctic Institute. After 1940, average hourly values of the magnetic measurements were not published and only generalised conclusions from such obser- vations were. Generalised data of observations of almost all the Soviet observatories between 1938 and 1921-8 are contained in "Manual on the Variable Magnetic Field of the Soviet Union", edited by V.I. Afanaslev and published in 1954 [Ref.123. From 1937 o4wards, data on magnetic activity are published systemati- Card4/7 cally LRef. 13 and A number of works are devoted to the jr  49-12-4/16 Organisation of the network of Magnetic Observatories in the USSR during the Last 40 Years. roblems of the method of operation of magnetic observatories Reft6 15, 16 and 17], these include:Annual Reviews of the gnetic Activity (N.P. Ben'kova, MABelousova et al. Ref-18)i Catalogues of Magnetic Storms (Ref. tatistictidata on the Magnetic Activity (8.M. Kozik et al. ef.20); Morphology of Sun-caused Daily Magnetic Variations (N.P. BenIkova., V.B. Mikh- alkov, Ref,21); Morphology of Long-term Geo-magnetic Variations Based on Magnetic Observatory Data (P.F. Kokovkin, v.F.Pushkin, Ref.22); Problems of the Theory of Magnetic Variometers (n.n. Trubyatdhinskiy et a1.7 Ref.23). The brief review given in para. 5 does not deal with the numerous theoretical works which were based on the results of the observations of the Soviet magnetic observatories. Para. 6 deals with the temporary, expedition-type maghetic, variational stations. Among these, the stations organised on drifting ice in the Central Arctic are of particular importance. In the north of the Asiatic part of the Soviet Union, an effort was made to organise groups of variational stations to operate for a season and to supply data for judging the local nature of the magnetic variations, (I.M. Card5/7 Pudovkin, Ref.24). A certain number of temporary variational  49-12-4/16 Organisation of the metwork of Magnetic Observatories in the USSR during the Last 40 Years stations were organised for shorter durations, for instance, for investigatint the geo-magnetic effects of the eclipse of the sun in 1936 Ref 251 and 1952, investigation of magnetic anomalies, etc. in i95b, a magnetic observatory was established in the Antarctic and the establishment of several more magnetic observatories is scheduled. The Scientific Research Institute for the Earth's Magnetism -.,. (Nauchno-issledovatellskiy Institut zemnogo magnetizma), created in 1940, is at present a complex system controlling the work of all the permanent inag- netic observatories of the Soviet Union, except those in the Arctic. An original method was evolved of critical analysis of data gained in observatories and it is claimed that no other State possesses such a method. This method is based on com- paring results of observations of a large group of observatories (Comparison of the changes of the average yearly, average monthly, average daily and average hourly variations at various observatories - M.A. Belousova et al.) In recent years, a tendency has developed to build new types of magnetic apparatus, the introduction of which will permit, in the near future, (;ard6/? dispensing with the expensive buildings of observatories without  LL9-12-4/16 Organisation of the Network of Magnetic Observatories in the USSR during the last 40 Years. affecting the accuracy of the obtained results. In 1956, a number of new designs of magneto-metric apparatus have been passing through the last stages of production (V-F. Shel'ting, V.H.Bobrov and B.Ye.Bryunelli). It is claimed that the accuracy of the observations of the main group of permanent,magnetic observatories is higher than that of numerous non-Russian mag- netic observatories. There are 25 Slavic references. ASSOCIATION: Scientific Research Institute: on the Earth's magnetism, the Ionosphere-anT~~ropagation of Radio:Waves;!i , (Nauchno-issledovatellskiy institut zemnogo magnetizma, ionosfery i rasprostraneniya radiovoln) SUBMITTED: May 3, 1957. AVAILABIE: Library of Congress. Card 7/7  AUTHOR i Kalinin, Yu-D. Profeasor (Maa-3-yw) 1,07-26-58-8-9/51 TITLE., Soviet In-"estigations of Geomagnetism (Sovetskiye issledo- vaniya PC geomagnetizmu) PERIODICALt Fr1roda, 1958, N. 8r PP 50-55 (USSR) ABSTRACT.- Research work into geoma~7,atim is Carried out by magnetic observatoriesi artificial satellites,, and th-~ only non-mag- netic ship in -the world ~'Zaxyall- The z,.?sultr3 of these in- vestigations ara impor-~a-nt not only for navigation, but also fo:~ aviation ard radio communication. I~ore than 250 magretic observatories are epexating throughcut the world, half of which were organized for the IGY. The USSR hao 31 such observatories. Two are on drifting stations in the Arctic region and 4 in C, the Antarctic regions They are nearly all eallipped with series of magnetostatics magnetic --a-riorieters., and some of them with fluxmetric devices recording on photopaper. They ar6 100 times more sensitive than the magretostatic -vario- meters. on the third sputnik a magnatcmeter is installed which measures the valuz of the earth:s magnetism. Solar activity at the present time causes many geomadnet�c dis- turbances which are espe-~ially inte--,~sting. Tlie sun ejects Card 1/3 streams of electrically charged rarti~:leu whi-.h affect the  Javiet Investigations of Geomagnetism SoV-26-58-8-9/51 magnetic field of the earth. In the equatorial plane of the earth an electric ring current moves around the earth at a height of 10,000 - 20,000 km. The charged particles are then attracted by the two poles of the earth. The magnetic data gathered by the artificial satellites show that the electric conductivity of the ionosphere is distributed among the dif- ferent layers. The electric currents are supposed to cause inductive interaction between these layers. The penetiration of the magnetic lines into the interior of the earth is also studied during magnetic "storms". The magnetic pulsations of the magnetic field of the earth are recorded by the flux- meters. Data gathered on this subject permits the coruiection of geomagnetism with electro-magnetic processes in interplane- tary space. The non-magnetic ship "Zaryall measures the mag- netic field on the ocean. It crossed the Atlantic 6 times and also conducts research in the Indian Ocean. The Institute of Earth Magnetism in Moscow is one of the four centere in Card 2/3 the world in which the results of magnetic investigations  Soviet Investigations off Geomagnetism SOV-26-56-8-9/51 are being gathered during the IGY. There are 2 maps and 2 diagrams. 1. Te.-zestrial magnetism-Analysis 2. Torreatrial mapretism ---MPaSlZ'(!MaTlt 3. Satelll-",e ;ehicles-Applications Card 3/3  AFANASIYLVA, V.I.; K4LI11111, Yu.D. Method of forecasting secalar gemtgnetic variations for the nearost futurn yearo. Trudy Inat.goofiz,AN Gruz.SS2 171-7-31 158. (MIRA 13:4) (Magmotiam. Torrestrial-Secular variation)  KALIKINA, Natallya Yevgenlyavna; otv.rod.; BASHCM, "".4' V.I., red.; KARABILOVA, S.F., tekhn.red-e- (Terrestrial magnetio field] Kagnitnoe pole zemli. Moskva, Gos.izd-vo lit-ry po voprosam aviazi i radio, 1959. 39 p. (KM 12:8) (Magnetism, Terrestrial)  - ULININ-,.-Tu.D-.; -doktor fiziko-mat. nauk, otv. red.; KURIKOVA, H.F., red.; NOVICHKOVA, N.D.9 tekhno redo (CoLlection of artioles]Sbornik statei. Moskva., lzd-vo Akad,, nauk SSSR. No.l.[Magnotic and ionospheric dicturbances)l-lagn.Ano- ionosfernye vozmushcheniia. 1959. 72 p. (14IRA 15: .10) 1. AkademAya. nauk SSSR. MozbduvedomBtvennyy komitet po prove- deniyu Mezbdunarodnogo geofizichookogo goda. III i V razdal- programmy MGG: Zemnoi magnetizm. i zemvyo toki, iorLoefera. (Magnetic storms) (Ionosphere)  KALIN .14, doktor f1Z.-mn"lum. nauk , otv. red . ; ViTt -,'I AJK --94-lu G.V. , red. (collection of articles] Sbornik statei. Mu~ilom, Izdvvo All SSSR. No.4. ~eomagnitriye vozmshcheniia. 1960. 51 P. (I,JRA 28:11) I, Akademiya nauk SSSR. I,'ezhduvedorrstvenrryv kcrdtat po provedeniyu Mezhduriarodtiogo goofiziche.3kogo razpdel programmy MGG. Zemnoy mgnetimi.  KALININ, TV.D.. doktor fiziko-mi3tem.nauk, otv.rod.-. KWIUOVA. K.F., red.; MAKUNI, Te.T., tekhn.red. (Disturbances of the earth's electromagnetic field; collectioa of articles] Tozmushcheniia elektromagnitnogo polls zemli; abornik statei. III razdel programmy MOO (gemnoi wgnetizm i semaye toki). Moskva. No.2. 1960. 68 p. (KIRA 13:12) 1. Akademiya nauk SSSR. Mezhduvadomatvennyy komitet po provedeniyu Mezhdunarodnogo geofizichaBkogo goda. (Magnetism, Terrestrial) (Earth currents)  297214 8/169/61/boo/008/045/053 AoD6/A101 AUTHORS: Afanas yeva, Ti~ixl Very strong and strong geomagnetic storms and some problems of their .theory PMODICAL: Referativnyy zhurnal. Geofizika, no 8, 1961, 36, abstract 8CI251 (V sb. "Oeomagn. vozmushcheniy&, no:'4", Moscow, AN SSSR, 19C0, 5- 14,-English summary~ 7m: During the period from 1878 to 1959 a classification was mado of 1603 magnetic storms, divided into three classes according to their forcej (mo- derateP strong, very strong). For these three classes changes in the number (N) of storms from year to year are analyzed. Besides changes in the 11-year cycle, secular changes were revealed, which are synchronous with secular changes of solar activity, estimated by the relative number of sunspots (W). The authors discuss the problem pertaining to the cause of delay of the maximum N epoch from maximum W in the 11-year cycle. This is explained by the previously known la- titudinal shift of.the spot forming zone and by an increase In density of the Interplanetary medium during the years of W-maximum. The density of this medium card.. 1/2  2904 S/169/61/000/008/045/053 Very strong and strong,.geomagnatio stoma ... A006/A101 is from 1 to 100 protons per 1 cm3. In oQrpunoular stream interacting with the interplanetary medium, an external turbulent zone is formed where a magnetic field is developed because of the hundredfold amplification of the interplane- tary field in the path from the Sun to -the Earth. Active periods of storms correspond to the entrance of the Earth into the basio axial part of the stream. V. Afanas'yeva [Abstracter's notei Complete translation] Card 2/2  N, Tu. D. An attempt to explain magnetic anomalies of the world. Izv. AN SSSR.Ser.geofiz. no.6.-906-908 Je 160. (MIRA 13:6) lo Akademiya nAu SSSR. Institut zemnogo magnetizma, ionoefery I rasprostraneniya radiovolue (magnetic anomalies)  NALrNrN*..,Tu..D. Oeomagnetism. Nezhdnnar. geofiz. god no.8.-19-21 160. (MTI?A 13:6) (Kagnetism, Terrestrial)  KUD121,1j). D. (Prof.) IlMeenetic Observations by Artificial Sputnikfj and Rockets in Connection -with the World Magnetic Survey." report tmx_kmxV*mIt presented at the Co=d&HP51, an Space Research,- 2nd Intl. Sympoalwa arO~Tlenary Meetine, 7-13 April 1961, Florence Italy.  8/030/61/000/003/008/013 B1051B215 AUTHORs Kalinin, Yu.B. TITLEt Examination of the alternating magnetic field of the earth FERIODICALt Vestnik Akademii nauk SSSR# no. 3, 19619 109 TEXTt This is a report on a conference held by representatives of the USSR institutions concentrating on the examination of the alternating gea- magnetic field. The conference was held in Moscow from December 8, to 12, 1960, and had been organized by the Mezhduvedomstvennyy komitet po provedeniyu Mezhdunarodnogo geofizicheskogo gods, (Interdepartmental Commit- tee for the International Geophysical Year). It was attended by represen- tatives of academic and departmental scientific research and training in- stitutes. L summary was given on the research results collected in accor- dance with the program of the International Geophysical Year (IGY) and during the International Geophysical Cooperation in 1959. After their first evaluation, the majority of observations were submitted to the World Center of Data of the IGY in Moscow* The following reports were mentioneds Card 1/3  Examination of the alternating ... S/030/61/000/003/008/013 B105/B215 L*I. Borman on the physics of cosmic radiation and the relation between its variations and the geometry of the approach between the earth and the cor- Puacular stream of the Bunj BeI. Mogilevskiy on solar physics# the depen- dence of the flow of corpuscular streams of the sun on elootromagnetic phenomena on the sunj T.A.. Troitskaya on the examination of short-period oscillations of the electromagnetic field of the earthl R.0, Lfonina gavt a survey an the geomagnetic activity for the years 1952 - 1960; L.G, Man- surova gave general comparisons of the standards of USSR observatories for magnetism by a field magnetometer, and thus found that in 9one observato- ries corrections should be madej- N.K. Osipov reported on programs for the calculation of electric currents,in the ionosphere on the basis of obser- vations made by observatories; M.1. Pudovking on the results obtained by Gomparing geomagnetic storms with ionoopheric drifts. All reports which were heard. at the conference will be published in a special edition of the series *Annaly MGGOO, Some comprehensive monographs on various problems of magnetic activity are planned. Collaborators of the Institut zemnogo mag- netizmaq ionoefery i rasprostraneniya radiovoln (Institute of Terrestrial Magmetisal,lonosphere and Wave Propagation)q and the Arkticheskiy i ant- arkticheskiy nauchno-issledovatel'skiy ins titut (Arctic and Antaratia Card 2/3  ILI L) Jt-~~ AUTHOR: TITLE: PERIODICAL: 24601 S/004/61/000/009,,/001/003 D264/D304 Kalinin, Yu., Engineer Training of the brave. "Room" flight Znaniye sila, no. 9, 1961, 9-11 TEXT: The article describes the purpose and applications of flight trainers for simulating all the normal and abnormal features of actual flight. A brief account of Yuriy Gagarin's training in preparation for space flight is also given. Gagarin was accustomed to weightlessness in planes and was subjected on a centrifuge to stresses equal to those encountered in rocket take-off and braking. He parachuted onto land and into water and spent long periods alone in a soundproof chamber. He was subjected to vibration on a test stand and to prolonged exposure to cold and heat in hot and vacuum chambers. Gagarin learned to drink, eat and write in a space suit. His preparation also included instruction in a special trainer com- Dlete with instruments and controls and a computer to set the ilight route. The author believes that such trainers will play a Card 1/2  24601 S/004/61/000/009/001/005 Training of the brave. "Room" flight D264/D304 due part in space technique. They will be used for studying satel- lite communications in space, for simulating the meeting of satel- lites in orbit, for compiling "interplanetary stations" and for sim- ulating landings on various planets, etc. There are 3 figures. Card 2/2  31658 S/570/6',/000/018/002/004 Bl16/BlO8 AUTHORS: Afanaslyeva, V. I~, Kaliniri--Y[u. D. TITLE: Geomapnetic storms in the years 1878-1959 and the solar activity SOURCE: Akademiya nauk SSSR. Institut zemnogo magnetizma, ionosfery i rasprostraneniya radiovoln. Trudy, no. 18(28), -1961, 27-41 TEXT: The authors give results of studying the list of all geomagnetic storms in the years 1878-1959. This list is a compilation of data from the Leningradskaya magnitnaya observatoriya (b~ Pavlovskaya, ili Slutskaya) (Leningrad Magnetic Observatory (previously Pavlovsk or Slutsk)) (N. P. Benikova i Yu. D. Kalinin, Katalog magnitnykh burl Slutskoy magnitnoy observatorii. Kosmicheskiye dannyye, no, 125-128, 1941) for 1876-19409 the data from the Spravochnik po peremennomu magnitnomu polyu SSSR (Reference book on the variable magnetic field of the USSR). Published by V. I. Afanaslyeva L., Gidrometeoizdat, 19511 for 1938-1948 and of the catalogue for 1949-1959, compiled by one of the authors of this study on the basis of data in the periodical "Kosmicheskiye dannyye". The Card 1/3  1658 S/570)61/000/018/'002/004 Geomagnetic storms in the years.. B116/B108 investigation is restricted to the cyclic (11 years) and secular variations of the number of geomagnetic storms as well as to the relationship between these variations and the corresponding fluctuations of the solar activity. It was tried to consider the possible effect of the variable donsity of interplanetary matter during an 11-year cycle. It is pointed out that the secular variations of the magnetic activity correspond to the secular variations of the solar activity. The authors considered the Interplanetary matter. This made it possible to determine from the delay of the geomagnetic phenomena the velocities at which the corpuscular fluxes are emitted from the surface of the sun as well as the density of interplanetary matter. These velocities amount to 4'102_8.102 km/sec, the density varies from 1 to 60 units of measurement. Both quantities vary periodically, corresponding to the cyclic variations of solar processes.. The corpuscular fluxes are assumed to increase the density of interplanetary matter. The investigation showed that the cyclic variations of the delay of geomagnetic storms are mainly caused by the cyclic variations of the initial corpuscle velocities, and only partly by the density change of interplanetary matter. The shift of -the maximum in the geomagnetic cycle, relative to the maximum in the solar cycle, is connected with the cyclic variation of' the Card 2/3  31658 S/570/61/000/018/002/004 Geomagnetic storms in the years,_ B116/B108 heliographic latitude of the active formations on the sun at a relatively small solid angle of the corpuscular fluxes. The corpuscular flows seem to be connected with the flocculi, The authors thank A. K, Bychkov, A. V. Seleznev and V, M. Treshchetkin for calculations and A, K Bychkova for graphs. E. R. Mustell and 0. n. Mitropollskaya (Astron, zh, )5, 1958 and ~.6, 1959) are mentioned.. There are 6 figures, 7 tables, and _ 24 references: 20 Soviet and 4 non-Soviet. The four references to English-language publications read as follows; S. Chapman and J- Bartels. Geomagnetism, 337, 1940; W. H. Bennet and E. 0, Hulburt. Theory of the aurora based on magnetic self-focusing of solar ion stroams.. Phys. Rev. J.~, no. 2, 315-319, 1954; W. H. Bennet and E. 0.. Hulburt. Magnetic self-focussed solar ion streams as the cause of aurora. J, AtmosDh, Terr, Phys., 5, 211-216, 1954; W~ H, Bennet.. Auroral and magnetic-storm theory. Astroph., J., 127, No. 3, 731-742, 1958. Card 3/3  KALINIII, Yu.D, Conference on geomagnetism. Geomag. i aer. I no.12128-129 Ja-F 161, (141U 14:7) (Magnetism., Teriestrial-Congrasses)  I t~ILIKIL Yu. I ".econd Inteniational Sympositua on the Exploration of the Cosmic 'i ~.,pacrj. Geomrg. i aer. I n0-3:1,46-450 MY-Je t6l. (14MA 11': 9) (Outar space--Exploration)  KALITTIN, Yu.D. -_-.KC6_0t_,c observations from artificial satellites and rockets in connection with the world-wide magnetic surv-ey. Georag. i aer. I no.4:618-619 J1-Ag 161. (ItilitA 14!1.2) 1. Institut zemnogo magnetizma, ionosfery i rasprostraneniya radiovoln AN SSSR. (14agnetism, Terrestrial) (Artificial satellites)  KALININ,-Yu.D. Secular geomagnetic variatione, irregularitioa of the earth's rota- tiont and radiation zones of the carth. Geomag. i aer. 1 no.5: 795-802 S-0 061. (MIRA 15:1) 1. Institut zemnogo magnetizma, ionosfery i rasprostraneniya radiovoln AN SSSR. (Magnetism, Terrestrial--Secular variation) (Eartb--Rotationx)  KALINII, Yu-,.D. , - Observations of the magnetiq field from the American satellite "Explorer X.11 Geomaly. i aer. 1 no.5:844 5-0 161. MRA 15:1) (Magnetism, Terrestrial)  KAMM, Yu,D, Fifth Conference of the Special Comaittee for Antarc tic Research. Geomag. i aer,1 no.6tlOl8-1019 N-r 161, (MM 15s2) (Antarctic regions-Geophysical t4fsearch-Congresses)  KALININ, Yu.D. ,r--.. Anniversary of the Kazan Magnetic Observatory. Goomag. i aer. 2 no.2:370 Mr-Ap 162. (XIM 15:6) (Kazan--Geophysical observatories)  42145 S/203/62/002/004/006/018 1046/1242 A UT r 1 OX-S Afanaslyova, V..T., Mogilevskiy, E.I.. Pnd Kalinin, Yu. D. TITLE: lnber~nl ctriictiire of solar oorpuseblar streams from g6o-.aqgnetJ.(- dsta PER I ODI"AL Geotmigns3fizri I aoronomlya, v.2, no.4, 1962, 659-662 TEXT: According to 1W. 1 (E.I.Mogilevskiy. Goomagn. i seronomiya, 1962, 2, No. 1, 48-55), the steady geoeffectiveolylar corpuscular stroam is a soquence of plssna clouds of/%) 5.1 - :.012 cm in diameter moving away frorri tho sun. The geomagnetic d-sturbances result from the internetion between thQ t6rrestrial imignetosphere and the magnetic field (definitely not the plasma) of the stream which is forceloss ( H-roti =0) and essentially reazricted to the .surf,ice of the plasm Flo,idF: the field of the Gorpuscular stream, rioving vi'th % suporsonic velocit-y with respect to the magnetosphere tosphe- (M>- 10), generotes magnotoacou3tle shook waves In the magne L~ Card 1/2  S/203/62/002/004/006/018 1046/1242 internal structuro of aoiar... ric plasma. The anergy trnn:!ported by these low-frequenc7 (T-?, 0.1- 10 see) waves (-2.10 Org/cm`.soc) provides ra)onero fliLx suf- ficient to produce mmgnetic disturbances (-~~-'10 , ergl~ec),. The earth passing through t1ne corpuscular stream twice crosses i+u*s tr. F- R., netic field, and since .--Ithlri the stream the rragnatic field 'Is almost zero, each major inngnatic storm should have two intensity maxima .-Iith a relatIve 2.1ill In between. From tho way geomr-ignetic disturbances are generntod, the time dependence of theIr Intensity should vary with tho geornngnatic latitude. Experimental results for moderate, lnrge tind vary large storms confirm these theoretical c one lus Ions . ASSOCIATIO', institut zcmnoi- ,o tmgnetizma, lonosfery i raspross- trananiya radiovoln AN SSSR (Institu'Ll-le of Terrestrial 10,'agnetism, the Ionosphere and Propagation of Radio Waves, .11.!~ SIM MITTED: April 26, 1962 Card '2/2  1~kLIIIJIN, Yu.D. Siberian conference on geoma&netism and aeronomy. Geomag.i aer. 2 ro.1:182-183 Ja-F 162. OURA 15: 11) (Siberia-Geophysical research--Congresses)  KALININ, Yu.D. Expression in spherical coordinates of the magnetic dipole potential situated at any point in space and having a magnetic moment of any direction. Geomag. i aer. 3 no.6tlO89-1093 R-D, 163. (MIRA 16:12) 1. Institut zemnogo magnetizma, ionosfery i rasproatraneniy& radiovoln AN SSSR. .  AFtlil I V.Sl lyll"VA, V ~, 1 . , ZHU I' I if) I A. ; K A Ll,'! fl, 't i. o. ;H.V, j',. I. ,y oC g,~~omagnetic dist-~rbanc~. ~ rt-r. ~ ric,.E:* 7-113() Ene rg I ~., L.L2 w I TD 1 4,. 0 '%IIIRA a8-J), 1. Institut zeinnogo migneutzma, I rw~;prostranenl.ya ruelovoln Ali  L5 Peb ACCESM0"NNIL- AT50(19973 TITLE: Results of Lnvestigatle-nig of magnetic activity during the ICY SOURCE: AN SSSR. Mezhduve,domstventW gooffAche-n-Tcly Imimitat.. OwfizicNeeldly byulletx-.n', no. 14, 1966, 15-541 TOPIC TAG3.- IGY ~6~ ctivity, Antaxotiolmagneltle tt~_r_esearch, Arctic nls,%netic a activity, magn ~tic gtorm, geioE,7wl)A--lv fFe-ld, 13012X C01-PUSCUlaT cv-rrent, rmil ation belle ABSTRACT- Aftor presenting 2-wioraJ information about the lmt;ej-natj,jjn.IL: one-p-ritcifir I 1,j! f dl I' ALI 011) T c~n-eijt.- ;te t,!  'g ILI I ACCESSION Nb: AT50C99713 ASSOCIATION- none SUBMITTED- CO ENC U 00 NO REF SOV-. ooo crrTmi.- 000 &T.TEl OODII,'.: ES  L 3283-66 it4T ACCESSION MR.i AT5023606 AUTHOR: Kalini~, Yu. D.; Mogilevskiy, C. 1. TITIX: -1-tructure of the solar corpuscular stream and Interi'actiort of this a1ream; with the eArth's magnetosphere uznava konferent e3koaa IL03i: SOURCE Ysesov ajyd 20 fizike kosmieb P 1965, Issledovaniya kosmicheskogo prostranstva (Space reie-i;ca t, trudy konf erelltsifo.i Moscow, Izd-vo Nauka, 1965, 368-381 TOPIC TAGS: geomagnetic field, solar plasma, solar radlatfon, s0lar wind, satellite data analysis structure of wuscu!3r q; Mar. ABSTRACT: A model is proposed for the the -vjar--Qp in an attempt to determine the mechanism by which energy is transfe.1pred from this stream to the magnetospheN of our planet. The theory proposed in the papbi~. is,; ba0ed on magnetic vector ob;,16rvations made by "Mariner-2,11.. "IKP,"jlll and other! satel- 1*fea and rockets. Itjs assumed that the magnetic'-field 6nd probably the~pjzd;ma) of,the corpuscular stream corresponds to a Plow model conalating cifseveral,dis4'xete laige-scale plasmoids (I'M-elements") which have an intrinsic quaol-forceleDiri-A, C*d -2-  L;3283-66 ACCESSION MR: AT5023606 s magnetic field. This structure is a direct consequence of the whrrietic field ob- served on -the sun, and of the mechanism responsible for emiiision of the corpuscular ~stream in -the active regions. Present theories for the interacilon between the ~o- examineJ in the light of the-earth's magnetosphere are Lar corpustular stream and Isounding" observations of the-fliagnetic vector at the periphery of.,the magnetosphe ind close -to the earth, which show that the magnertic field Of thod, solar Istream play i considerable (if not decisive) part.in the ene~rg3* transfer between the stream ~nd :he magnetDaphere. A comparison of "sounding" and surface observ4tions shmis that there is a direct relation3hip between D-variations in the ':geomqgnetic field and I rariations in the field beyond the eartPs magnetosphere. in i6nClusion, the au- thors are sincerelygrateful to V4,,I. Afanaslyeva who directed *~e 'preparation of nuch of the information from surface magnetic observatori a., Used 'in this pat*r, and iho was also responsible for'oeveral Of the illustrations u;~Ang these data atid d4ita -1.11 Orig. Art. hash 11 figures 0 2 formulasi From "IMP tl4j WSOCIATIM: none 3UBMITTED: 02Sep6s EMCG: 00 UQ CODE:~M M 10 RU SOVt 6 OTHERt 018, ATD 8:.  ... .......... fill 1041111 [lilt [its, U53.40 le".11111. 1111 1- L .112g2-66 -XC-C' NRff AP6002756 SOURCE CODE: UR/020316511105/00611098/1099 AUTHOR: Afanaslyeva, V. 1.1K.41inlirl. YU. ORG., Institu:e of Terrestrial Magnet ism,jonosehere and Auwama's 41 Waves, AN SSSR (Institut zemnogo magnetizma, lonoefery i rasprobtrapp-miya radio. voln SSSR) TITLE: Diurnal changes I title rokaWi n the velocity of the ear and,passLbla reasoas for changes SOURCE: Geomagnetizm I aeronomiya, v. 5, no. 6, 1965, 1098-1099 TOPIC TAGS; earth rotation, velocity vector, magnetic field, magnetic momeat, AkjL14-Z4m, ABSTRACT: Data of the International Time Service on the Irregular rotation of the earth is not an accurate enough source for judging the cNinge Lit rotation from day to day. V. I.. Afanas'yeva, Yu. D. Kalinin, and E. I. Mogilevakly made an~ attempt to. find the real source causing this Irregular rotation. They imagined a metallic ball. hanging on a thread. A magnet moves along this ball horizontally at a steady speed. Its magnetic moment coincides with the velacit :y vackor. Tha 01an1je in the magnetic field caused by the moving magnet forces the ball to rotate. The rotation is stopped by the torsion of the thread. The direct:k)n of-the ball's rotation depends upon the side along which the magnet. moves. Solar _Sorpuscular Card 1/2 UDC., _5256.3~__  lit 1; .--M, HIM 1 L 1125?--46 NRs' AP6002-756 streams pass the earth either traveling In the opposite direction or orvertaift it. Whan the corpuscular stream and the earth pass each other in opposite directions, tj~is creates forces which decelerate the earth's rotation. In contrasttl0lor cOrputictilar streams overtaking the earth initiate forces Which accelerate the eakth's rotatl~,n. The experiment with the ball was applied to the earth with ita Magnetosphere. The experimenters developed a formula for computing the acceleration and deceleration of the earth's rotation when a corpuscular stream passea the eartli at willected dimtancea. OrIg. art. has:; 4 formulae. SUB CODE:OIP3/ SUBM DATEI 12Aug6S/ ORIG REPI 005/ OTH ROVI 0021 ATD PREM 40 Card 2/9-  11411IM111111111MR I 'TRIll I IBM 0)7142 SOURCE COOBs UR/3148/60/000/004/0005/0014 AUT11OAs Afanafilyovaa V# If YaI1212~ X?, hl~ Poctor of Phlysico-mthomatical sciences) ..... . ... ORG r None TITLEs Very large and large geomagnetic storms, and some topicsof their theory SOURCE: AN SSSR. Mezbduvedomstvennyy geofizicheskiv komitet.111 razdel programy NGG: Geomagrietizm i zemnyye toki. Sbornik statey, no. 4, 1960,. 5-14 TOPIC TAGS: xnxn -Xiantrq solar activity, magnetic storm, -solar corpuscular radiation,.. interplanetary magnetic field, tnta p1xxff1xrxxxx0UHmXd&XXi4 sunspot 0- ABSTRACT: This paper del 'yes into thenature and theory of significftnt_&~~.!&nttic storms. The statistical basis was prbvided by observations of 1603 magnetic .storms over a period of 82 years, - 1878 to 1959. Included were atoms with at least one of the three elements exceeding 150 gammas (or 351). Amplitudes to 300-gammas weve cla-, ssed as moderate, 300'- 500 as large, and those over 500 gammas as very large. Be- sides the well-known 11 year cycle, a 30 year cycle of summary duration of moderate storms has been detected. The time series of mr.gnetic storm activity is found related with the sunspot activity, as shown in Fig. 1. The displacement of the maximum of a storm number withfespect to the maximum of the relative number of sun spots, -;- aa a function of j&jjL\bpots zone displacement along the latitudep is connected with the time variations of the density of the interplanetary medium. Corpuscular sun stre 3 -card 1/2  ACC NRs A76CP07142 Time series of the Sun and ge(aag. Pttic activities from 1878 to 1959- W - av. yearly rel. mmbers of sun- spot$. 1947 N-.numberz of atorms per, year '1937 1 59; W 1893 1 17 1928 I .1 83 883 perturb. the interplanetary mediumt and the magnetic.storu field (which is to a con- sidekable extent an;AntexplaneftEy magnetic field) is intensified ten hundred times by the -turbulent movement caused by the strew$. orig. art. has: 11 figures, 4 tables, SUB.'CWE: 00, 03/ SUB DATE: None/ ORIG REP a W4/ OW PMP: 002  3(6) PHASE I BOOK EXPLOITATION SOV/1934 Leningrad. Nauchno-issledovatellakly institut zemnogo magnet~izma, ionosfery i rasprostraneniya radiovoln Trudy, Vyp. 13. (Transactions of the Institute of Scientific Research on Terrestrial Magnetiam, the Ionoopheret and Radio Wave Pro agation. Nr. 13) Moscow, Gidrometeoizdat (Otd-nie), 1957. 119 p. 1,120 copies printed. Additional Sponsoring Agency: USSR. Ministerstvo xvyazi. Ed. (Title page): Ya.L. Allpert; Ed. (Inside book): V.I. Tarkhunova:; .Tech. Ed.: V.V. Mayorov. PURPOSE: This issue of the Institute's Tgansactions is intended for geophysicists and technical persohnel working in research organizations as well as for advanced students at universities and technical vuzes. It is also of interest to communications personnel. Card 1/3  Transactions of the institute (Cont.) SOV/1934 Kushnerevskiy, Yu,V, An Experimental Set-Up for Studying the Homogeneous and Non-Stationary Structure of Ionosphere 7"? Kalinin Yu,K. The Problem of Phase Velocity and Direction Fth'e Kal Toward the Front of the Radio Waves Above a Non-homogeneous Surface Lopatina, G,B. The Changeability of the Signal Strength of Long- Wave Stations 110 AVATTART : Idbrary of Congress M /lob 6-22-59 Card 3/3  30V-10)-3-4-16/23 AUTHORL: Kalinin, Yu..K. TITIE: Perturbation of the Field of a Plane Radio Wave b3r the Ir:i~e,,_;Ularities of the Earth's Surface (Vozinushcheniye polya ploskoy radiovolny neodnorodnostyami zenr,'Moy poverhh- nosti) PERIODICAL: Radintelchnilm i Elektronika, 1953, Vol 3 , Nr 4, PP 557-561 (USSR) ABSTIUCT: It is assumed (Ref.1) that the perturbed field E can be expressed by: E = E0 +~Iy) (3) where Ax is expressed by Eq.(4); A y is given by a similar equation, Y. (9) is the Sommerfeld attenuation f unction and E0 is the field in the absence of the irregularities of the Earth's surface. If En '.(4) is inte- -rated with respect to y -the expresoic-)ns for the perturb- Card 1/3  30V-10)-5-4-16/2'a Perturbation of the Field of a Plane Radio Wave by the Irregularities of the Earth's Surface ation due to the profile of the surface and due to the nature of the soil are given by Bqs.(5) and (6) respect- ively, in which the x A is the distance from the point of observation to the boundary of the irregularity, H(l) 0 is the Hankel function of the first Icind of the zero order, and s = k(x A - x)cos 9 ; h(x) and g(x) in expressions 5 and 6 describe the electrical and the geometrical proper- ties of the Earth's surface respectively. B(Is.(5) and (6) were used to evaluate the perturbation for a "slight slope'l- type of irregularity and for a "sea-dryland-3ea" discontin- uity; the results are shown graphically in Figs.1 and 2 Card 2/3  SOV-10()-3-4-16/28 Perturbation of the Field of a Plane Radio 'Wave by -tile Irregalari- ties of the Earth's Surface respectively. The paper contains 2 figures and 2 Sovio-t references. ASSOCIATION: Nauchno-issle(tovatellskiy institut zemnogo inagaetizma, ionosfery i rasprostraneniya radi.ovoln (Scientific Research Institute of Terrestfial Magnetism, Ionosphere and Radio ivave Propa,r,-ation) SUB"'AITTED: June 1, 1956 1. Radio waves 2. Earth-Electrical properties 3. Earth-Reflective properties 4. Mathematics-Applications Card 3/3  ;jv*/ lo )..3 ~20 AUTHORS:Kalini4,Yu. K. and Feynber-, Ye. L. TITLG,: Propagation of the Ground Wave over a Non-Uniform Spherical Earth Surface (11asprostranenlyo zelanoy volny nad noodnorodnoy sfericheskoy poverld-inosb,yu zemli) PER'IODICAL: Rad--;ote'tthnika i elektronika, 1958, Vol 3, k;r c), pp 1122-1132 (USSR) AB13TRACT: For the purpose of analysis it is assLuned that the field is .;roduced by a vertical dipole situated on the surface of the Barth. The vertical comoonent of the electrical field En satisfies: (0) + E v~ dS En ~ '~a n - - (1) 4Tr On On Where E(0) is the volume integral of the source function n multiplied by v n is the normal to the surface (directed toviards the centre of the Earth) and v is the Green function which can be expressed by Eq.(2) where 0 is the are an-le of a great circle connecting two points, k is Card, 1/4 Ulie wave number, a is the radius of the Earth and z is  1/ j V C) P!ropa-ati~n of tlae Gr-)und Iffave over a Non-UniforTa Srherical Ea, r t h Surface the vertical co-ordi-iote; the coefficierit (10 where A = (1/2 ka)1/3 ; on the other hand, V (t9-" z0 q0) denotes the attenuation function. F:)r L"Ollic case of z 0 tiie function V cmi b~,, ~)xprc:3sod 10y Eq.(3), where w(Q is t~ie Airy function of a complex ar-LuLient. For this easel the C-1 boundary conditions are expressed by Bcjs.(4), so that :43n is in U"he form of Eq.(5). The soluLiou for E 11 is in the form Df Eq.(6) where W is a slowly chaogin- a'-tenuatian fanction, u This can be written in the form of Eq.(5a) or in the form of e Eq-M. The integral in Eq.(7) is ta'~en along the great 0 - circle connecting the points of transmission and roception. If the transmission route consists of N se,,:--gients which e i,. at, are uniform Eq.(?) can be writ Eq (8) w1lere 1 1 j is the au-ular length of the j th se-ment and qj is a U 0 0 parameter describin- its characteristics. For a route Card 2/4  jJV/1'))-3-9-2/20 Propal-ation of the Gr-,)Luid V'Iave over a Non-Uniform Spherical Earth 3 L Surface c,-)r,sistin,,- of two sc -~,aeats the a~tenue.U,J.on function is ex- I ~j .iressed by Eq.(9) or Eq.(10'). can also 'be -ariLten as L Eq.(12). For a rou'c consistins o' 3 Scj~..mezits Ulie attenua ZJ tion function 1013 can be written as Eq.(15). It is of in- terest to define the attenuation of various senvients Of ~L transmission route; this can be done by emplo.1-ring Eq.(18). This was used to determine the attenuation of a number of systems. The results are shown in Fi,-s.1 and 2; the atten- uation functions W are plotted for sea-land-sea and land- sea-land systems as a function of their relative angular T,Adthl ~ . Similar results are shown in FiSs-3 and 4; Fi,-,.3 shows the field as a function of distance D over a land-sea system, while Fig.4 gives the field for a sea-land system; the crosses and circles in the fir,ures denote the experimental points (taken from Ref.?). For systems in which q = q, and q = (12 , the so-called boundary refraction Dhenomenon is observed (see Fi-.5). The attenuation function ~or this case can be written as:' Eq.(21) or Eq.(22), from wnich the differential attenuation can be ex-oressed by  R"U/ 1 Prop,a:,-,-Lion of Llie Gx,,:)und Wave over a Non-Unifor.'-l Spherical Earth Surface Eq.(23). The paper contaills 5 fi,-ures and 8 roference:3; 5 of the references are, English and 3 Soviet. IISSOCIATION: NII zemno-o ma-netizma ionosfery i rasprostraneniya 0 0 ? radiovoln i Fizicheskiy institut im. Y. '-I. Lebedeva, AN ;3,~SR) The Scientific Research Institute for Barth Map-netism, lonosi)here and Radio Wave Propagation and the Physics Institute im. P. 14. Lebedev of the Soviet Academy of Sciences) SUBI'~iITTED: June 26, 1957.  AUVOMR: Kalinin, Yu.K. SOV/109-3-10-6/12 -unif orm, -TITLE: ~MM~c ion of Radio Waves Over a non Earth surface (K voprosu o difraktsii radiovoln nad neodnorodnoy sfericheskoy poverkhnostlyu zemli) PERIODICAL: Radiotekhnika. i Elektronika, 1958, Vol 3, Nr 10, pp 12?4 - 12?9 (USSR) ABSTRACT: A theory of the propagation of pround waves over a spherical, non-uniform Earth surface was developed by Furutsu and the author (Refs 1 and 2). In particular, it was found that for a route consisting of two sections which are cl-aracter- ised by parameters q, and q 2 1 the attenuation fuzict.-ion is given by Eq.(l), where .6, e1 and A % are anCular measures of the two sections; 49 1 + AG~ 2 ~ QA nhile ti(qi) is the i-th root of the equation: wl(t) q67,(t4j) where w(t) is the Airy function of ta complex arEurient; a is the radius of the Earth, A = (ka/2) 1/2 and q, = iA/ t T-*ne attenuation function ~e T, 41 Gardl/4 for a route consistinG of 3 seg,.ients VMS P.1.6.0 found in luhlc  SOVI0?-Z-lC-6/12 P�oblem of Diffraction of Radio Waves Over a von-uniform, SartlL .Gurfoce above works (Fcj.(2)) and it was indicntled how the function could be derived for a larger number of se:~*ments. Hcre I the author shows the attenuation function for n se.gLients; W is given by: n n-l 1~ o a A Wn r IA "Am ~Clj - CIj+j)X j=l 00 -XP iA ita.(qj) X af~-t (q.) _ aj a CIj tccj(qj) - tUj+j(qj+j)j~ The proof of Eq.(3) is done by induction; thus, it is proved that if W nis expressed by E(-).(3)) 11711+1 is iii Card2/4  SOV/109-3-10-6/12 Problem of Diffraction of Radio Waves over a rion-uniforra EfirL. Surface the form of Eq.(4). It is shovon that if all the segments are large, i.e. -A ~~l , the attenuation function is in the form of 15q.(8). At lono waves, Eq.(8) can be written as Eq.(9), while for the short vaves, it is in the form of -Wq.~10). If one of the segments is small, the attenuation function is given by Eq.(11)- in particular, for a = 2 1 Eq.(11) can be written as Eqs.(12) or (13). The attenuation function for a route with continuously variable parameters can be found by solving the integral equation expressed by Eq.(14). This can be represented in the form of two integrals, as shown on p 12?8, so that the final expression, for the attenuation is written as Eq.(16), where V M is the volume of an m-dimensional wedge whose an6les between its sides are equal to J'r/4 . It is shown that the series expressed by Eq.(16) is uniforr-aly converi-ent, provided the following condition is fulfilled: Gard3/4  SOV/100-3-10-6/12 Problem of Diffraction of Radio Vloves Over a llon-u_niforr~ Earth Surface 2Aq iA ()A< The author thanks Ye.L. Feynber6 and Y-a-L. Al'pert for discussing the results of this wor1k. There are 4 references, 3 of r-,,hich are Soviet and 1 English. ASSOCIATION: N.-i. in-t zemnogo magnetizma, ionosfery i rasprostraneniya radiovoln (Scientific-research Institute of Earth Magnetism, the Ionosphere and Radio-viave Propagation) SUBMITTED: June 26, 195? Card 4/4 1. Radio waves--Diffraction  0 0 S/141/60/003/01/001/020 E032/Elli4 AUTHORS: Borodina, S.V., Kalininj Yu.K.. 16likhay.Lova, G.A. and 1~11gell, D.S. TITLE: A Review of the Present State of Research into the Propagation of VerX Low Frequency ElectromaEnetic Waves PERIODICAL% Izvestiya vysshikh uchebnvkh zavedeniy, Radiofizika, 1960, Vol 3, Nr 1, pp 5-32 (USSR) ABSTRACT: This is a review paper treating both theoretical and experimental problems,, In the first part a review is given of calculations on the propagation of electro- magnetic waves taking into account irregtilarities in the ionosphere, the finite conductivity and the spheroidicity of the earth, In the second part a review ir. given of experimental studies in the frequency range 10 cps to 50 Kc/s. Above 3 Kc/s there is good agreement between experimental and theoretical data,, It is pointed out that it is necessary to develop a gelieral theory of propagation of very low frequency electromagnetic waves Card 1/2 taking into account both the spheroidicity and the finite.  s/141/60/003/01/oc)1/020 E032/E4-0 A Review of the Present State of Research into the Propagation of Very Low Frequency Electromagnetic Waves conductivity of the earth, particularly above .3 kc/s. The review is based on 109 published papers, Acknowledgement is made to Ya.L.Allpert, Yu,G.Ishchuk and G.M.Sosnovskaya for their help, There are .14 figures, and 2 tables and 1.09 references~ 1i of which are Soviet and 98 Western. ASSOCIATION:Institut zemnogo magnetizma, ionosfery i rasprostraneaiya radiovoln AN SSSR (Institute of Ter-res i!H1 Ma timm, Ionosphere and the Propagation of Radio Waves, AS USSR) SUBMITTED: September 19, 1959 Card 2/2  S/194/61/000/008/084/092 POO 0 OV6, /3'7) D201/L)304 jUJT11OR: TITLE: Certaii,. problems oif radiowave. propagation over -the inhomol-'r one ous, spherical surface of the Barth P M-10DICAL: Referativzyyy zhurnal., Atitomatika i radioelelktronika, 110. 8, 3.961, 70, iim3tract 6 1476 (Tr. In-ta zemn. wagn, ionosfer-y i x-asprostr, radiovoln. AN SS'Sa, 1960, no. 17 (27), 50-129) TEXT: The rcl.,Mlt is given of various inve stigat ions into the scoDe of problems concerned with the r,idiowave propagation over a spherical inhonio-encous carth, In solvin8 t1w.. problem the transi- tion is rriadc from the diffnrential to irtegral fonu of Ilam,7ell's equations by applyinff, the Green functions so that the ancilysis is rcduced to solvin 'f the integral equation for calculating the elec- tric field E. The itcritiye mothod of- soluti.on is possible for a x-ride range of functions fl(?n)) where El - the complex dielectric earth constant, P and rr, aro the coordiuates. Ls, a result, the Card 1/3  20524 S/1914/61/000/008/084/092 Certain i)roblcmr,. D201/L)304 solutions is found to be proportional to the att.,_Inuatio functio W as datermincd from the 1TILOfral ellitation,, From the proof of con- vergence the required numb~x of teimis 1) is de-telmlacd mich that the first p tems I)c grrcatcr than thEi remaining temus by a givei-i number of times n. SoDitions may be ol-_)tain(~d fox, 1) = I and n = 0, p = 4_5 and n = 20~ The analysis is rdven of various particular cases of the attenuation function. The cases are coiisidered of boundary refraction of dif-ferent earth radii. at differeat sectio-,,,; of the propagation path, of local field inhomogerize i tier, of -,,mtvcs propaga- ting along the boundary and of statistical itihomogeneity of the path. The use is considered of the double Fourier integral for the solution o-f certain problems together i-rith obtaining the attenu- ation function fror,.i the parabolic equation. The use of the theory given above is considercd in view of many experimental results pub- lished in litcrature, Of special interest is the cffect of increa- sing field amplitude, when the wave crosses fro[,-l one section of the path into mother, whose conductivity is grcater - the so-called recovei-y effect along, short soctions of the propa~,ration path, Card 2/3  I .cl,I, ?14 S /1113 It 8 84/092 1) /61/000/00 /0 Certain 201/U304 Theoretical calculations are in good ag'l-cemcut ul.-th exPerimental data. The rccovcny-cf L',.-'Ct IL3 itut o.-Oservc(I alow-t Iong sections of the :-,ath and if ouc scctimi is m:mIL mid Lhe other long, this effect is much less -noticeable., I'liasc. re-latiormships giv-n- satisfactory agreement betircei thoury anicl practice. The thoory shous that the Process of Propagation han flip propo:.-ty of ,;Ij.divqr ad.ong the earth's wirfacc, (AfFrac!:inLf into !;Ihadm, rcngio-as. 45 refercuces. Z7,\I)str,nctor*s notc: c'cmp~-ctr- t:rmir>lation---7 c, W-cl 3/13  30934 1~a 00 S/57o/60/000/017/004/012 ~/v 0 E032/EI14 AUTHORS2 Borodina, S.V., Kalinin, Yu.K., Mikhaylova, G.A., and Fligell, D.~S. TITLE3 A review of the present state of research into the propagation of ultra-long elettromagnetic, waves SOURCE: Akademiya nauk SSSR. Institut zemnogo magnetizma, ionosfery i rasprostraneniya radiovoln~ Trudy, no.17(27). Moscow~ 196o. Rasprostraneniye radiovoin i ionosfera. 130-172 TEXT- Long and ultra-long electromagnetic waves are defined as those with wavelengths between '2~ - 5 and some tens of thousands of kilometres. Part I of this paper is concerned with a review of the theory of propagation of ultra-long radio waves, beginning with G.N. Watson's paper (Ref.l: The transmission of electric waves round the earth. Proc6 Roy. Socal "r-95, 546, igig). It is indicated how the various equations formulated to describe the propagation of elec-tromagneti-t waves in the earth-uniform- ionospheric wa-re-guide can be evaluated. This is followed by a summary of the methods which can be used to take into actount the Card 1/6