SCIENTIFIC ABSTRACT KARPOV, YA. - KARPOVA, A.L.

 At X~l ;I A,  KARPOV. Ya. Along the lines of technical progross. Sov. profsoiuzY 7 no.13:24-2741 '59. (MIRA 12:10) (Podollsk--Machinery iniuntry)  A UTHORS: Arnautovp L., and Karpov, Ya. 30V/4-59-1-7/42 TITLEz The Giant in the Steppe (Velikan v stepi) PERIODICALt Znaniye - sila, 195913,~Nr 1, pp 10 - 11 (USSR) ABSTRACT; One of the first structures to be completed within the 7-year plan of 1959 - 1965 will be the Karagandinskiy metallurgi- oheskiy kombinat (Karaganda Metallurgical Combine) which is being built in Temir-Tau, Central Kazakhstan. On the huge space from Temir-Tau to Ata-Sa, the combine and its auxi- liary plants are now being erected. Economists have cal- oulated that Karaganda metal will be the cheapest in the country because of the favorablo geographical location of the plant. It will be one of the best-equipped enterprises of great capacity. Its construction has been designed so as tc satisfy the requirements of the future. Its iron deposits are just below the surface 370 km south-west of Temir-Tau within the Karaganda Oblast in the Atasuyekiy Iron Ore Basin. The fuel - coking coal - is available 70 km from Temir-Tau at the recently-discovered deposits of Tenteksk4pe and Shakhanskoye of the Karaganda Coal Ba- y Card 1/3 . sin. The large quantities of' water required by the plant  The Giant in the Steppe SOV/4-59-1-7/42 come from the griat lake near Temir-Tau. Quite close to the plant, lime-stone, needed for both ore and coke, can be found. The air temperature in the blaat-furnmoo can be raised to 1,200 degrees instead of the 930 degrees in pro- sent furnaces. The author gives a description of what the Karaganclu, Metallurgical Plant will look like when ready in 1965, ,nd mentions in thia connection the famous Russian metallurgist, Academician M.A. Pavlov. The smelting of steel will be carried out in 2 shops - the open-hearth and the converter shops. The op,in-hearth furnaces will no long- er be lined up in on@ rank but situated like small islands or blocks each holding 2 units. Every block has its own RR line and loading device. Loading and refuelling# and all other work will be done by machines. The steel found- er will operate from the control desk. Competing with the open-hearth shop will be the Bessemer shop. This pro- cone attracted the mttallurgisto mainly because of the. quickness and inexpensiveness of steel produetion. A reliable index for the productivity of labor in a motallurg- Card 2/3 ioal plant in the quantity cf cast iron and steel smelted  The Giant in the Steppe SOV/4-59-1-7/42 by one laborer. In the USA, the highest rate of smelting cast iron per laborer is at ".he Gary Plant (United Steel Corporation) - 6,680 tons per year. At the Karaganda Combine, produotion will be considerably higher. This also refers to the smelting of steel. There are 3 drawings. Card 3/3  ARNAUTOV. L. , KARPOV, Ya. Marvelous shells. fauka i zhizn' -'? no.3:62-63 Kr 160. (HIRA13:6) (Bridges-Voundatior.a and Piers)  AR3AUTOV, ~.; KARPOT, Ta. "North supply" project. Sauk& i xhizn' 27 no.8:44-48 Ag 160. (MIRA 13:9) Q~Wsia, Northern.--Hydroelectric power)  LMAUTOV, L.; K&RPOV, Ya. Igor Sharov's three vocations. Znan.sila 35 no.3:10-12 Mr 160. (Technological innova-vions) (MIU 13:6)  KARPOV, Ya. (g.Bryansk) It is the turn of related industries. Sov. profsoiuzy 18 no.3:11-13 F 162. (KRA 15:3) (Bryansk-Machinetry industry)  KARPOV, Ya. Why do the seconft and lawiquality survive. Sov. proksoiuzy 18 no.21:10-13 'N 162. (MIRA 15:11) 1. Spetsiallnyy korrespondent zhw7nala "Sovetskiye profsoyuzy". (Kreenholm-Textile industry)  - KARMV, Ya, Norms, wage octedules and the central camittee of the trade union. Sbv.profsoiuay 18 no.23:13--15 D 162. (MM 15:12) (Food industry-Production standards) (Trade unions)  Riches bur*'UKAm--Wireo. Sov*prc,fvoiuzy 19 no~333-5 F 163o (MIRA'16$2) (Perm Pftvlnce-Fmeete and forestry) (Wood waste) (?em Provinct*-Trade mime)  KARPOV, Ya.(Grodno) Place the delivery of equipment under public control. Sov. profsoiuzy 19 no.17:7-9 S 163. (MIRA 16:11) 1. SpetsialInyy korrespondent zhurnala "Sovetskiye profsoyuzW  ~ARFOV Y, , ' 0 L-44. - -1-- "1 , [Trade unions in the efT-rt. Lo chemistry] pl-ofsoiuzy v bortle za b(O 'A"1411 I-lookwa, Frofizdat, 1) -k I 19 6", -IF9 F. (kIRA 1P,:2)  PAVIA)VA. Mariya Ivanovna;6aIKOVA. Darlya Msksimovria; ws&-.uk9y- BYKOV, A.P., retsenzezit; ZAYTStVA,. T.H., red.; MAN. V.7., tekhn.red. [Four-shuttle Britiah-Northrop loom] Chetyrekhchelnochnyt tkatakii stanak British-Nortrop. Moskva, Gos.rwuchno-tekhn.izd-vo lit-ry po legkoi promyslil.. 195?. 182 p. (MIRA 11:3) (Looms)  AMUTOT, Leonid Ippolitovich:-'~~~gv Karpo~v ch; MESMOTSUTA, Not red.; KU2NETSOVA, A.. ~.ekhn.red. [Secret of the Golden Yleacel TaIns zolotogo runs. Moskva, 14oak.rabochii, 1961. 6z p. (NMA 14:4) (Leather, Artificial) (Fur, Artificial)  KARPOV, Ye. (Moscow). Control of interference in television reception. Radio no.6:44 Je '53 (MLU 6. ':6) (Televie'Lon-Interference)  KARPOV, Ye. - ~.- Sports give strangtb and health. Hast.ugl. 8 no.6:22 -Te 159. (it!]RA 1?:10) 1. Ingtruktor Shakbtianskogo gorodskogo sovetua dobrovollnogo sportivnogo obahchostva "Trud." (Physical education and training) (Coal minern)  L i4268_6 FS5-2/EWT(j)/FS(v)_3* DD/RD ACC NR: AT6003835' SOURCE CODE: UR/2865/65/004/000/0010/0016 AUTHOR: Gurovskiy, N. N.; Yemellyanov, M. Karpov, Ye. A. .61, ORG: none '5 T1TLE, Basic principles of special cosmonaut training SOLWE: -AN SSSR. Otdeleniye biologicheskikh nauk. Problemy kosmicheskoy biologii, V. 4, 1965, 10-16 TOPIC TAGS: cosmonaut training, vestibular training, manntd space flight, centrifuge training, space physiology, space psychology, space flight simulation, spacecraft capsule, flight disorientation, physical fitness ABSTRACT: The individual characte ris tics of healthy humans are not stable; external. and internal stimuli may produce drastic nonpathological deviations from physiological norms. Resistance tq_external slFess, however, may be greatly increasdd by trainin . -.2-, Special W monaut = lysis of those fictoro'which- try lfig-idbik~ed on ana most substantially affect the cosmonaut and his activities in Wght. Flight factors faU into foiir groups; 1)_,q*tremal'envi.ronmental.facto,re -(vacuum$. Card 1/5  L 14268-66 ACC NR: AT6003835 I ionizing radiation, low temperatures),- 2) dynarnic flight factors (noise, vibration, acceleration weightlessness, prolonged vestibular stimulation); 3) ship environmental ;actors (cabin microclin-tate. restricted movement, special foods and clothing, time -deficit working conditions, - emotional tension); and 4) factors associated with landing (especially when the ejection -parachute descent inethod is used). Since protection against ex- treinal factors (group 1) is provided by the ship, it Is with factors of the last thi ee groups (2, 3, and 4) that the special cosmonaut train;ng program is concerned. The airns of special cosmonaut training, which simulates on the ground the conditions of flight, are twofold: 1) to provide a basis for the selection or elimination of cosmonaut candidates, and 2) to increase the resistanUt: W.the candidates selected to the unavoidable stresses of actual flight. Since certain factors (prolonged weightlessness, the unique psycholog- ical "atmosphere" of -flight) cannot be reproduced on Earth, the training program must include a number of nonspecific exercises designed to increa'se ,the general res1stAnce of the organism. Special. methods are used to in- crease tolerance to psychological stresses and predict behavior of candi-. dates in flight. Card 2/5  L 14268-66 ACC NR., AT6003835 4- In addition, the training program includes exercises designed to develop motor habits and skills needed in night and to train the cosmonaut in the performance of actual flight operations. I . The methods discussed are: 1) parabolic airplane flights. 2) isolation" in an echoless chamber, 3) cabin mockup flight simulation, 4) thermo- chamber training, 5) centrifuge training, and 13) special physical and vejstibular training. . The brief duration of the weightlessness created by parabolic flights ilimits their usefulwss for training, since adaptation to brief periods of !weightlessness does not necessarily help an individual withstand the pro- longed weightlessness of sUceflight.,'_t-,_,,, Prolonged isolation in an echoless chamber with deprivation of external infoirnation is a useful tool for neuropsychiatric studies of individual ability to perform assigned tasks under novel conditions, circadian physiological rhythms, the ability (with sudden stimuli) to pass quickly from the sleepiing to the waking staje and back. and memory.. attention,* and so forth. Card 315  L 14268-66 ACC NR: AT6003835 Even though space cabins are air-conditioned, thermochamber training is useful in discovering hidden pathologies and studying individual stress reactions. Centrifuge training is especially, important, both forfamilfarization Iand for increasing resistance to spaceflight accelerations. The most care- ful monitoring is required during this training, since existing information on the cumulative effects of acceleration is contradictory and uncertain. The cosmonauts themselves are emphatic about the usefulnessand importance of this type of training. Mockup training is 'all the more important in view of the fact that training flights with an experienced instructor, such as are used in training drivers or pilots. cannot be conducted for space crews. All training must thus be accomplished on'the ground A program of special vesti~ula'r training was instituted .after the' flight of G. S. Titov. who experienced some autonomic maladjustments as the result of vestibular stimulation in flight. This training is directed at 1) increasing vestibular resistance to a wide variety of external factors and 2) reinforcing ;he functional. interaction of the vestibular, visual, and Card 4/5  L 14268-66 ACC NR: AT6003835 ,kinesthetic analyzers in order to eliminate postural-spalial illusions under conditions of altered gravity and to increase inhibition of the vestibular function. This prograin must be custom -tailored to comper sate the indi- vidual vestibular weaknesses of each cosmonaut; which are identified beforehand by determinilig semicircular canal and otolith thresholds for adequate and inade quate stimulation. All special training must be supplemented by general physical training dosigned to improve the cosmonaut's physical condition and perfect the visual -motor coordination required by- spaceflight. The total program must be adjusted to the needo of the individual cosmonaut. The sequence, alternation, and spacing of the various kinds of special training are important here. [ATD PRESS: 409.1.43 SUB CODE: 05, 06 SUBM DATE: none Card 5/5  VOLYNKITI, Yu.14.; ARUTYUflOV, G.A.; ANTIPOV, V.V. ; ALTUKEOV, G.V. ; BAYEVSKIY, RA; BEIAY, V.Ye.; dUYAI;GV, P.V.; B10,7ANOV, I.I.; VAS1L1YEV, P.V.; VOLOVICH, V.G. ; GAGARIE , Yu.A.; GENIN, A.M.; G01WOVY F.D.; GORSHKOV, A.I.; GUROVISHY, N.N.; YESWIOV, N.Kh.; YEGOROV), A.D.; KARKX,--Y-eA.; KOVALEV, V.V.; KOLOSOV. '.A.; KOaESI!KOV,- A.A.; KASIYAN, I.I.; KOTC1VSKAYA, A.U.; FkLIBERDIN, G.V.; KOPANEV, V.I.; KUZIMILOV, A.P..; KAKUR11,11, L.1 ; KUDROVA, R.V.; LEBEDEV, V.I.; LEBEDEV, A.A.; LOBZB1, P.P.; MAKSIMOV, D.G.; MYASNIKOV, V.I.; MAIYSHKIN, Yo.G.; NEUMYVAKIN, I.P.; ONISHUMIKO, V.F.; POPOV, I.G.; PORUCHIKOV, YP.P.; SILIVESTROV, M.H.; SERYAPIN, A.D.; SAKSOITOV, P.P.; TEREDITIYEV, V.G.; USHAKOV, A.S.; UDALOV, Yu.F.; FOMILI, V.S.; FOM-Illi, A.G.; KHLEBNIKOV, G.F.; YUGMIOV, Ye.M.; YAZDOVSKIY, V.I.; kRICHAGIN, V.I.; AhULINICHEV, I.T.; SAVIKCH, F.K.! qTM'PIJHA, S.F.; VOSKiTSENSICH, O.G.; GAZMTKO, G.G., SISA AN, N.M., akadamik, red. [Second group space flight and some results of the Soviet astronauts' flights on "Vostok" ships; scientif-.Lc results of medical and biological research conducted durJng the second group space flight] Vtoroi gruppovci kosmicheskii polet i neko- torye itogi poletov sovetskikh kosmonavtov na korabliakh "Vostok"; nauchrWe rezulltaty medikobiologicheskikh issledovanii, provedennykh vo vremia vtorogo gruppovogo kosmicheskogo poleta. MosIrva, Nauka, 1965. 277 p. (MIRA 18:6)  L 14268-66 M-21EWT(.1)1FS(V) -3 DD/RD 7- ACC NR: AT6003835' SOURCI; CODE: IM/2865/65/004/000/0010/00I& AUTHOR: Guro"kiy, Nd* N41emeltyanm N. 4 Karpov, Ye. Ac i4/ ORG: none I TITIE: Basic principles of special cosmonput training SOURCE: AN SSSR. ' OtdeleniYe biologicheskikh nauk. Problemy kosmicheskoy biologiip v- 4P 1965P-10-16 TOPIC TAGS: :.cosmonaut training, vestibular training, manned space flight, centrifuge-training, space physiology, space psychology, space flight simulation, spacecraft capsule, flight disorientation, physical fitness individual -chaiiLeteristics of hcalthy humans are not stable; external, ABSTRACT: The and internal stimuli may produce drastic nonpathological deviations f rom -physiological norms. Resistance tg~_external stFess,, however, may be greatly increasdd by tra L I Mon -Wbi6bd oniinah fiat ra wh ch I Special 6s au t ysis of those 0 most substantially affect the cosmonaut and'his activities in flight. Flight factors fall into folir grou a:_ 1) extremal environmental factors (vacuum, P Card 115  L 14268-66 ACC NR: AT6003835 jr I Ionizing radiation, low temperatures); 2) dyiaamic flight factors (noise, vibration, acceleration, weightlessness, prolonged vestibular stimulation); 3) ship environmental factors (cabin microclimate, restricted movement, -special foods and clothing, tin~e-deftclt workJng conditions, -emotional itension); and 4) factors associated with landing (especially when the ej e ction -parachute descent method is used). Since protection against ex- i tremal factors (group 1) is provided by the ship, it is with factors of the last three groups (2, 3, and 4) that the special cosmonaut training program is concerned. The aims of special cosmonaut training, which simulates on the ground the conditions of night, are twofold: 1) to provide a basis for the selection or elimination of cosmonaut candidates, and 21) to increase the resistance Uthe candidates selected to the unavoidable ~stresses of actual flight. Since certain factors -(prolonged weightless fiesb_ the unique psycholbg7 ical atmosphere" of flight) cannot be reproduced on Earth,, the training program must include a number of nonspecific, exercises designed to increkse ,the general resistdnee of thelorganism. Special methods are used to in- crease tolerance to psychological stresses and predict behavior of candi-, ,O.ates in flight. Card 2/5  L 1426&66 ACC NR: AT6003835 In addition, the training program Includes exercises designed to deirelop i motor habits and skills needed in flight and ito train the cosmonaut the in p?rformance of actual flight operations._. The methods discussed are: 1) parabolic Airplane flights. 2) Isolitiod I in an echoless chamber, 3) cabin mockup Right simulation, 4) thermo- chamber training, 5) centrifuge training, and 6) special physical and vestibular training. The brief duration of the weightlessness created by parabolic flights s for training, since adaptation to brief periods Aimits their usefulnes of weightlessness does not necessarily help an individual withstand the pro- longed weightlessness of spaceflight.",s-,_,,, Prolonged isolation in an ec with de -rivation of extern holess charnber p 3--ififorimation-is a u-seful, to-01 for neu'ro'ps-ychiatric studies of individual ability 1 to perform assigned. tasks -under novel conditions, circadian physiological rhythms, the ability (with sudden stimuli) to pass quickly from the sleeging to the waking state and.back, and.memory, attention,'and so forth. Card 3/5  k14268_66 ACC NR: AT6003835 Even though space cabins are air-conditioned, thermochamber training, is useful in discovering hidden pathologies and studying individual stress reactions. Cintrifuge training is especially, important, both for SamAfarizatiori I 'and for increasing resistance to spaceflight accelerations. The most care- ful monitoring is required during this training, since existing information on the cumulative effects of acceleration is contradictory and uncertain. The cosmonauts themselves, are emphatic about the usefulnessand importance: of this type of training ... ... Mockup training is iin -the- more important in view of the fact that -training flights with an experienced instructor, such as are used in training drivers or pilots, cannot be conducted for space crews. AD training must thus be accomplished,onlhe._Oound. -J A program of special vistAh6diiii-a'Wng was Instituted after the"flight- :of G. S. Titoy, -who experienced some autonomic maladjustments as the ~reoult of vestibular stimulation in flight. This training is directed at 1) increasing veitibular resistance to a wide Variety of external factors and !2) reinforcing !he functional interaction of the vestibular, visual, and Card 4/5  L 14268-66 ACC NH: AT6003835 -ldnesthetic analyzers in order to eliminate postural -spatial illusi (oris under conditions of altered gravity and to increase inhibition of the vestibular function. This program must be custom -tailored to comper sate the indi- vidual vestibular Nvealmesses of each cosm.onaut; which are identified beforeliand by determining semicircular canal and otolith thresholds for adequate and inadequate stimulation. All i ecial traiin-Ini-g--miust be'supplemented'by general physical training p designed to improve the cosmonaut's physical condition and perfect the visual-motor coordination required by i _.ppa.cef.1 ght. The total program must be-adjusted to the needs of the individual cosmonaut. The sequence, alternation, and spacing of the various kinds of special training are important here* CATD PRESS: 409141 SUB CODE: 05, 06 f 'SUBM DATE: none ..Card  L 38218-66 FSS-2/FWT M/ESC 00 -2 SCTB TT/DD/GW ACC NRg AP6019601 SOMM CODE: U4b-29-37661-0-N OT .70 /"69/041871 FADTHOR.: Karpov, Ye. A. Ono: none TITLE: Psychophysiological analysis of activities as criteria for spedal medical.. i.,preparation. of Voskhod-2 a SOT JRCE: KdeiLfcheakiye issledovaniya, Y. 4, no- 3 19", 469-401 -6 extravehicular activi TOPIC TAGSg marmed orbital flight, space physi logy, ty astronautt space medicine, ground crew training ABSTRACT. A Psychophysiological analysis is mmle of the Voakhod-2 astraimuts' activities as future criteria for the selection of a space crew. The hi i Shl. ghts of Ithe Voskhod-2 flight are reviewed with a special stress on tl~e two-cbamber method of Al"initiating the extravehicular activity by A. A. leonov. A detailed presentation is il.made of ground crew training with a special stress on simulated extravehicular. activi-, .:.i;.ties. These were performed by Leonov during several parabolic aircraft flights :.',simulating brief periods of weightlessness in a mock-up space capsule. The steps are -"~'reviewed of other ground tests for trainine Leonov for the apace walk. These consist iof Qmmstics followed by detailed -orientation testa on a "supportless" chair carable multiaxis rotation and the generation of unstable positions. Records are shoWA of i~the p a2 an&kgpthing rates. of Leonov and Belyayqv during-the.15-minute space wa 1k, I-Card-, 1 /2 DW: 629-108.61  ACC -IWI:D6019601 indicating a substantial increase in both breatUnG and pulse rates for both autronautE 'at the initiation of the space walk. This is attributed to emotional stresses in- -tensive ground training Is claimed to volved in performing "pioneering" tasks. The ex :have kelped Leonc- do some mmial tasks (disaes(mble and reasse2ble camera), oriimt I*mself I and mako some oboervations; It is conoluded that the seluctim of the crew' .'on th6 basis of medical studies followed by speoial. training prograw-.4a a rational .'VV Of gUar=te6ing a suacessful-maraned flight in a.pace Prig., art.,'.-hags. 6 figures. 4-f 1041 CODE g '0~3` MW '~'-'002J "-:,ATD PRESS SUB 22/'- SUM'MATE 23Feb66/,j t,' MIG: 10/ fib I'Ij Z Y14, A, v-." Y:!'I, P'l it Card 2/2  35382 S/10 62/017/003/008/009 D299YD303 AUTHOR: ~~oy,_ Ye _A . Member of the Society (see AssocJatio TITLE: Design and investigation of voltage-doubler rectifier circuits PERIODICAL: Radioteklinika, v. 17, no. 3, 1962, 71 - 77 TEXT: A design method is proposed for complicated circuits incor- porating rectifier elements. Relationships are obtained between the parameters of the circuit and the harmonics of the current flowing through the rectifier. The operat-Jon of symmetrical- and nonsymne- trical voltage-coubler circuits is considered. The method was ini- tially set forth by the author (Ref. 5: Raschet elektricheskikh tsepey s ventillnymi elementami. Sbornik dokladov Vsesoyuznoy mezh- vuzovskoy konferentsii no. 4, Tashkent, 1960). The application of the method to symmetrical voltage-doublers is considered; it is ne- cessary to find the first approximation to the emf-values of one of the rectifiers, while the other rectifier is short-circuited. This amounts to finding the first approximation of the initial pa-- Card 1/3  S/10 62/017/003/008/009 Design and investigation of voltage-... D299%303 rameters. Expressions for the emf of the zeroth- and first harmonic are obtained. Analogous expressions are obtained for the second reciifier. Assuming the obtained first-ai)proximations to be correct one obtains the distribution of the currents in the circuit, and then the second approximation of the initial parameters is found . lience the mean value of the rectified voltage Uo is obtained. Ex- pressing R in terms of Uo, one obtains an analytical expression for the external characteristic of symmetrical voltage-(!oubler circuits U 2 _ 121 2 (18) 0 V Ki 1 '00. A figure shows the external characteristics of a rectifier for va,- rious capacitance-values. Formula (18) was obtained after conside- rable simplifications; yet it permits a general analysis of the ope.ration of rectifiers. Other figures show the external characte.- rislics for an actual circuit (r r,, = 3 ohm, C C - 100 Mi- e 2 crofarad, U = 20 volt). For compariSOrLt the characteristics were also calculated by another method. It was found that the method used in the present article yields more accurate results.: The obtal- Card 2/3  S/108/62/017/7r3/008/009 Design and investigation of voltage-... D299/D303 ned characteristics show that the rectifier operates most efficient- ly if the capacitances are large. In this case tl-,erectified voltage is almost independent of the magnitude of the load current. For a nonsymmetrical circuitg it is not possible to obtain an analytic expression for the external characteristic. By using the method of Ref- 5 (Op-cit.) it was possible however, to determine the external characteristic for an actual circuit hELVing parameters, analogous tj the above circuit. A comparison of both circuits shows that the symmetrical circuit has a smoother external characteristic, that the pulsation coefficient of the symmetrical circuit is smaller, and that the voltage at the capacitors (of the symmetrical circuit) cannot exceed the maximum value of the applied voltage, whereas 11 can in nonsymmetrical circuits. The obtaind calculated values were confirmed by experiment. There are 7 figures and 5 Soviet-bloc re- ferences. A8SOCIATION: Nauchno-tekhnicheskoye ob,-hchestvo radiotekhniki i elektrosvyazi im. A.S. Popova (Scientific and Techni- cal Society of Radio Engineering and Electrical Commu- nications im. A.S. Popov) [Abstractor's note: Name of Association taken from first page of journal] SUBMITTED: June 30, 1961 Card 3/3  26467 Lzq')~100 S/117/60/000/011/001/003 D219/D302 AUTHORS: Buyanov, P. V., Galkin I A. V., Karpov, Ye. A.- Samukhin, N.V., Terent yev, V. G._,__Shev'c_YFehko, A. I. TITLE: Contra-indications to the breathing of oxygen at increased pressure PERIODICAL: Voyenno-meditsinskiy zhurnal, no. 11, 1960, 64 - 68 TEXT: The authors wished to study thEi effect of systematic breathing of oxygen under pressure anel discover medical conta- indications to its use, especially with regard to personnel suf- fering from physical defects which do not render them unfit for flying duty. 125 persons, 20 - 40 years old underwent pressure chamber tests and prolonged clinical observazion. All were well and fit for flying duty. 43 had various defects such as pleural synechia and adhesions hypertensive neurocirculatory dystonia (5), 1st degree thyroid enlargement without malfunction (4) and so on. Normal clinical records were ',aken and analyses done Card 1/ 3  26467 ")/177/60/000/011/001/003 Contra-indication to the breathing... 11219/D302 plus X-Ray, neurological, electrophysiological and ENT exam- ination. Subjects took part in 1 - 97 experiments at 7 - 14 day intervals. Physiological effects were noted immediately; rise in heat and respiration rate, arterial pressure, bioelec- tric respiratory muscle activity; EGG variation; fall of oxy- hemoglobin level to 60 - 80% ( slowing Df circulatory rate; chan ges in latent period of conditioned motor reflexes; occasional subcutaneous emphysema. Subjects usually felt well after tests complaining rarely of fatigue or headacae. Clinical examination generally revealed slowing of pulse (by 6 - 18 beats), increase in venous pressure, moderate increase in arterial pressure, slight fall in pulse pressure and increase in heart size. In over 30% of cases heart murmurs - usually pulm=Lry and aortic- appeared: No pathological EGG changes save extrasystoles in 4 cases. Changes were often recorded in capillary formation, phethysmo- graph curves and in vasomotor reflexes. Aftereffects: Lung vital capacity decreased by 200 - 400 ml. A third of the rub- jects had scattered dry rales. Lung X-Eay showed occasional Card 2/3  26467 S/17-7/60/000/011/001/003 Contra-indications t-j the breathing...D219/D302 shadowing and local. disciform atelacteses. There was an in- crease in neutrophil leucocytes in the peripheral blood and a relative lymphocyte fall. Tendon reflexes became more and more sensitive,ifinger tremor increased, touch discrimination and co-ordina on deteriorated and signs of g-eneral fatigue appeared. All changes were reversible, usually in a few hours. As regards personnel suffering from rdmor defects, the effect of the-e deficiencies was varies. In some cases e.g., chronic gasturitis, they suffered no adverse effect either initially or after pro- longed experimentation, but it was clear that systematic parti- cipation in such high altitude tests was contra-indicated in all cases of pulmonary tuberculosis, neuroci,rculatory dystonia, leucopenia, pronounced emotional instability, endocrine defic- iency, chronic ENT conditions, or for persons.,who became rapidly anoxic, had undergone brain trauma or who were suffering from upper respiratory tract infections or exarcerbations of chronic upper respiratory tract disease. SUalITTED: August 1960 Card 3/3  KLIMAr,[[FV3KIY, E.L.; KARPOV,_Ye.A. New types of combined treatment of seeds before sowing. Izv. SO AN SSSR no.12. Ser. biol,med. nauk no.3:60-65 163. (KRA 17:4) 1. Dallnevostochnyy filial Sibirskago ote.(31enlya AN SSSR, Vladivostok.  I~' \ KARPOV, Ye. A., Cand Tech Sci -- " aen and Analysis of ele IAxm-'-L~ valvi? ele ctric ments." Tomsk, Pub House of Tomsk U. 1961. (Min of Higher and Sec Spec Ed RSFSR. Tomsk Order of Labor Red Bay-ner Polytech Inst im S. M. Kirov) (KL, 8-61, 244) - 239 -  KARFOV~ Ye.A. Performanee of a three-phase rectifier with active load. Trudy OMIIT 41:89-95 ?63. (MIPA 18:7)  KARPOV, Ye.A. Calculation and analysis of track circuLts with rectifier shunts. Trudy OMIIT 36:17-24 162. (MIRA 17W  KA'R OV, Yevgeniv,Fedor.GvJ-ch; KRAVCHENKO, Vladimir Sergeyevich, doktor takhn. nauk; LEYBOV. Ruvim Koiseyovich, doktor tekhn.nauk; BUYNBERG, Samuil Davydovich; MIRSKAYA, V.V., red.izd-va-, KOROVENKOVA, Z.A., takhn.red.; BERESLAVSKAYA, L.Sh., t-!)khn.red. tAutomatic protective devices in mines] Avtomaticheakie shakhtnye zaexhitnye ustroistva. lloskva, Gos.nauchno-tekhn. izd-vo lit-ry po gornomu delu, 1960. 111 p. (MIRA 13:7) (Electricity in mining--Safety measures)  KI?AVCIIEIIKO, V.S., doktor tekhn.Dauk; KARPOV, Ye.F., inzh.; PIRMIBIM, I.E., inzb. Continuous methane-detection relay. Bezop.trwaa v prom. 4 no.2%22-24 r l6o. (14M 13:5) 1. Institut gornogo dela AN SSSR (for Kravchenko. Karpov). 2. Giprougle-avtomatizatsiya (for Birenberg). Nine gase's-Safety neastres)  KARPOV, Ye. F. Cand Teo~ Sci -- "Study of tho themocatalytic (on carriers) m 4"i principle of detecti*"bthane in an ore abnoaphere, " Mos . 1961 (Min of Higher and Secondary Specialized Educktion RSFSR. Mos Mining Inst im I. V. Stalin). (KL, 4-61, 196) 4  KRATCHENKO, Y. S., doktor tekhn. nauk; KA F kand. tekhn. nauk; BMMERG, I. E.$ inzhi; inzh. ANT-2 therxiocataly-tic methane analyzer. Ugoll Ukr. 7 no-4: 38-39 Ap 163. (MIRA 116:4) 1. Institut, gornogo dela in. A. A. Skochinskogo (for Kravehenko, larpov). 2. Gosudaratvennyy proyeltno-konstruktorskiy institut avtomatizatsii rabot v ugolluoy promyshlennosti (for Birenberg). 3, Konotopokiy zavod *Krasnyy metallist" (for Erenburg). (Mine gases-Measurement) (Transducers)  KARPOV, Ye.F.,_~and.tekhn.naiik Thermocatalytin principle aa a bas.'s in constructing methane detectors for an automatic system of protention from gas. Hekh. i avtom. v gor, prom. no.3;252-267 163. (MIRA 16:10)  L 8447-66 ACC NR: AP5025732 SOURCE COM 1UR/0286/65/00MMS/0094/00U. AUTMRS s B Svetj 1, Irenberg. 1. E.; Chubukov, N KarDoy Dov!dov, i ;A. No; Gayrillchanko. L. I.; Ras Ye n-One !T ITLE: An instrument for measurigg methane goncentration, the resistance of the detonation circuit,, and the ignition of elocirodetonatorse Class 429 No. 174819 SOURCE t Byulleten' isobretenly i tovarrqkh 2;nakov, no. 18,, 196% 84 MPIC TAGS: methane, resistance -bridge. electric resistance, electric transformer, ~transistor, detonation, electric detonator iABSTRACT:: This Author Certificate presents an instrument ,for measuring the methaw concentration, resistance of detonation circitit.. and the ignition of electro- 'detonators. It contains a methane motor (seo Fig. 1) in the form of a bridge cir- ~cuit,, one am of wbich in the methane-combu-tion element. The second arm is a ,balancing elempt. The other two arms have :,,onstant resistances. Thin device also~ ;contains a realdta=w voter for the 4otountlon circuit and a detonation device ln~ ithe form. of a contactle"- transistor-transforser converter. The latter converts Card V3 M 622.817.9 002.56  I   L 41l82-.6-5 --'E7WT(d)/EWP(C)/EWP(v-)/T/E'WP(k)/rdP(l) pf-4 ACCIMIGN KRA AF5004677 S/M15/64/ooo/bo/br,58/6059 A.UTHORt none TTTLEt Fourth scientific end technical conferencP on *Cybernetic@ for the SOURCEz lzmeritellneya tekhnika, no. 9, 1964, 58-59 TOPIC TAGSs cybernetics, electrica - - ~Q~A icasurenent, #?.Lectric (V:w-tity instrument, digital computer, electronic equipment, electric -inginecring c.aZerence ABSTRACTj- 'The conCorence was hold 1-4 July' Rt t6 All-Unic* Scientific Research Institute or Hotrology by the Section of Electrical Monsurei nts or the Counoik_RtL_ the Probl sn*br "Sciontiric Instrtnont Mltkinj" of tho.Aj~q_te 'jommitlLo __ pord'inatiom .. .... -I- -, - - - """ - otjqn C 0 search Work in the ISSR together with the All-Union Scientific Rasonrch Institifto or Elactrical Mesa-u-ro.mant 1ns_trtxnents ind Technical Division rf the Instrument M kin industa, More tha_n_;1bW-d-oTe-ptos from 29 of -of -the 'country partIcipa-ted. Fifty-s.avon reports were hoard and discussod. Reports vs~ro given byl -P. V. I,OVITSKIX (Laningrad)--"Dofinition of the Concept, of Informational Irror In Nestaure- zront and its Importance in Practical Use" and Nhi the Problem of tho Average Informs- tional.Criterion of Aacuraoy' -Throughout the Entive Scale of an Instrument".1 Ya6A* Card 2/4  L 41182-65 =ESSION URs AP50046'17 ~KUPEIISIWIDT (Moocow)--"On Datarmination or the Criteria of Accuracy for Maastwoment, Dovicos"; S. U. MANDELISHTAM (Lenin &red) --report on a now criterion of accuracy of_. m0asuromont instrumonts; P. F. PARSIIIH (Lon ingr nd) --report on optimization when - using Fourier tranaform~--on- ctronic digital ovmputers:_,j. P. DMIURly, DOLGINTS-VA and A. A. IGNAMIL (Laningrad)--propot al of a now -nothod for solvTrg-- probloms of optimum filtoring for non-stntionary random signals and interfarencel 1. B. CH5,LPAT,'OV`--"Ca1culntIon or the Dynamic ChgrActeristios of in Optimum Complex -two-Channol Systom which Uios Sirnals rrom a Position Motor d fro - an n & Speed Motor*$ POI.J-,T V -"Optimum Periodic Ccrrootion in the Monsuroment of' ,-L~~K-P- (Leninrrad) Cnntinuous Signnld%_~. P~0A.:Iiq~LlCli-(?Aooolow)--"Ant%lyoia and Construction of Devices for Correction of Non-lingority and Soalinr for Unitary Codes; 0. V. G0Fr5LOVA (T-nanrog)--"A Mathod for Statistioal Optimization in GrAqdu,.kting the ScAlse or Eloctrical Monsuring Instrumonta"; U. A. U11P.LIMAN (Moscow)--"Anslog-Digital Voltage Convortar with Automatic Error Cot,774:N-fo-~`~- V. S, KALENCIIUK and I. A. YANOVICH (Kiov)--"Automatio Monitoring of the Parametore i;f -the gf;o~rioal Signals of Complox Radio and gleatronio 9quipment"I V. P. PEROV (Mosoow)--00poratioral Cybernatios &a an Indopondent;Soiontifio Speoializatioel Ye. N* GILIBO, (Loningred)-- "On the Problem of Erfootive Non-linear Scalos"I.A. 1. MARKELOV (Moseow)-wDeviose for PreliminarK Proceasing of the Results at Wessurseentg Presented in the IPOM OrAI Card 2/4  ,L 41182-65 ACCESSION Ints AP5OOb677 Graphic Recordings For Subsequent Introduction of the Information Into universal Digital Conputoro"; 0. 14. MOGILEVER and S. S. SOKOLOV (Laningrad)--"On a Method fori Roducing Excess Information"; T. V. NIKOLAB-A- (Lori Ingrad)--"A Device for Temporal Di serotization or Continuous Signals"; At_-L. LYOVVL and M.- L. BMIS (go 90aw)-- ."Optimi:ation of the Transmission of Tolemotric Inl'ormation as a Moans for Raisinr the Efficiency and Eliminatiing Intorforenoo"; D. E GUKOVSKIT (Voscaw)--"On a Sta- tistic Approach to the Detection or Svonta in Autorintio Inspection"; U. 1. LANIN (Lo ningrad? --"Va thod for Calculaiing the Holding TI.-.no or Go-rimunicationd In a Contraj .lizod Inspootiolk System or Constant Servicing Tima"I 0. N. BRONSHTSYN, A. L. RAYKIKI and V. V. RYKOV (Moscow)--"On a Singlo-Lina Unse SHLYANDIN (Ponza)--roport on circuit dosirng; for direct oomponantLon electrical digital moosoring instruments; A. H. KOIAOV Novoch-irkansk)--raport on a now mothod for componsation. or diritril bridGest It. 11. GLAZOV (Lon inrrad) --ro port on the problem ;or voltnro-to-angular irlotation conversionj V. S. G TNIKOV (Lon ingrad)--"Mothods for Construction of Frequency Capacitance Pickups with a Linear Scale"s R. aL- _-;SYROPYATOVA and R. R. XHARCHENKO (go scow) --ro port on the determination of the ampli-. -tude-froquency and phase characteristics or PFM and M- modulatorsile. 1. 149WAKOV/ '(Hovoohn rke oak) ;-"The Phototransistor an a Switch for Blectricoil Ve-souroment ". 1 liik-(La~lngrad) . -. -- k universal equip- ,Purposes"; 11. V. MALYGI . --a risport on ways for ma, Ing , 1. mont for maeaurement or ourrent, voltage and poweri -P. P. ORNATSKIY and V. ~7jLy jKkov.) n he conntruction-or.'etst.io-.vo.Itmoto!:so yattmQAmr't.jAd_ . ___n7F~Opqrts -0 ... t Card 3/4  L 41182-65 ACCESSIO14 fait AP50OL677 phnse motors; A. V. TRIMAN OV I.-G.. sMYSIMAYSIV, N. I. SAQLIN._jk_~1. RkZjR and Yi i.' GORBUNOV (Tomak)--report on a device-POW -au-t-o-m-a-tic' processing of the measurements'ofi .vibration amplitude or pneumatic hwmwrsi L. K. FWKINA and V. G. KNORRING (LeningrK4, --report on the development or a digital oompons r measuring pressure, forosol otc. ; N. 0. DADUKINA (Loningrad)--re port on a mot-hod for oonstruating f'requenoy! pickups ror gas analysis; Yo. U. KARPOV. V. A. BRAZIINIKOV and B. Ya. LIMITTSIND131t (.K*uybYGhev)--raport~ an a~i and recording ot boring speeds; Yu. V. PSFPIIICIDIIKOY (Kuybyshev) --"A, High Speed Volta go-to-Digital Code Convertor for,'aa Pickiips"; G. P. VIKhROV and V. X. ISAYSV (VIlna):::A Highly Aourato Digital Peak- to-PaRk VcT1G7ot_er'5 and S. M. RIMAIN incrad) A Low Level Analog-DigitalYolt- age Convertor." ASSOCIATIONs none SUBUrrTEDs 00 ENCLs Co SUB COM EE, M NO RU S0Vt*'OO0 UMM A 000 JM I)XA- .Card 4/4  .~iw Mae -,aG*(lka 4isciftm 4 1 lr n :7  ~cd  FAFPOV~' Y&.M. , BARFOUFlY, Yu.M. I ::.omr, problaw In the theci-y of a aymhrorioua tvo degrtes of freedom. Tzv. vys, ucheb, zav., pr-;";, 8 -A o. -49-53 165. (Y, TIR A 1 8,Cj I ~ n 1. Kqybyshavakiy poll takhn-Icheqkiy inatitut. ineni -kytrysheva. Rekomendovana krifadrcy slektro)'Lz3,wr-'t.f,.I',nuy teknnl'KJ,  :KLTLIKOVSKIY, L.F.-,.KAR,paOye.M.;P6PGVA, G.V.-, BRAZHNIKOV, V.A. Drilling footage recorder. Imr. vys. 'ucheb. zav.; neft' i gaz. 8 no.4:91-94 165. . (MRA 180) 1. Kuybyshevskiy politekhnicheskiy inatitut im. V.V.Kuybysheve.  KARPGVp Ye,M. ~-' Motion stability of the moving part of the receivver of a synchronous servosystem with two degrees of freedon. Izv. VY8. ucheb. zav.; prib. 8 no.5:62-&7 165. (MIRA 18:10) 1. Kuybyshevskiy politekhnichoskiy institut imeri Kuybysheva. Rekcmendovana kafedroy elektroimeritellr-joy tekhniki. .r  T. 03013-67 EWT(d)/EV1P(2) IJP(c) ACC NR. A dd!Mo-f--- -S--0-UAC-E--C-01--)-E--: AUTHOR: Karpov, Ye. M. (Kuybyshev); Kulikovskly, L. F. (Kuybyshev) ORG: none TITLE: The accuracy of the solid angle reading by the receiver of the synchronized servo system with two degrees of freedom SOURCE: Avtometriya, no. 3, 1966, 125-128 TOPIC TAGS: angle measurement instrument, servomechanism system.., ABSTILkCT: ~7hremote determination Is of special Importance during the measurement of angles of petroleum or gas bore holes during the dril If ig of wells. For this purpose, the authors earlier developed Induction sensors and synchronized servosystems with two degrees of freedom (L. F. Kulikovskly, Author's certificate No 104141, ByulletW izabretenly, 1965, No 9; Ye.,M. Karpov, Yu. M. Barkovskiy, Author's cerl'ificate No 171038, Byulleten' izo- I bretenly, 1965, No 10). In this paper they present apFcopriate theoretical expressions giving the sensitivity of the system. Orig. art. has: 7 formulas and 2 tables. SUB CODE: 13,14/ SUBM DATE: 21Jan65/ ORIG-REF: 003 - I I fl UDC.- 62--603.53  ''L ,985-66 (ip)/EPF(c.)/EP.F (n)-2/T/ETGtm) lfd/DJ ACO NR: AP5026519 SOURCP ONE: UR/0286/65/000/019/0050/0050 AUrHORS:Rlbusevi Ve Is; Mronov, So G.; tiolcalov L, Mq Karpov. Yo. N. OPVz none A TITLE: A device for lubricating vacugm-Pumps. Class 27, No* 175.165 fannounced by. ~Lryberpriqe of the Stite Committee for Defense Technology.SSSR (Prodpriyabiya goi3udarstvennogo komiteta po, oboronnoy tekhnike SSSR)_/ SOURCE: Byulleten' izobreteniy I tovarnykh znakov, no. 19, 1965, 50 TOIPIC TAGS: pump, vacuum pump, mechanical engineering A AW)TRACT: This Author Certificate presents a device for lubricatingvacuum pumpse- The device contains a cutoff valve operated by a centrifugal governor kinematic-- ally connected to the shaft of the pump (see iFig. 1). To simplify the construc- tion, the governor Is mounted on the shaft bracket,, and the movable clutch of the gavernor Is provided with a bearing which opeim or closes the valve when the pump is being stopped or started. Card 1/2 UDC: 621.521-72  --L-79j~5~-66 ~l  1"Ov I ye.s. Introduce on a large scale casing strings with minimum thicImeBe of walls, Neft, khoz. 39 no.4:65-67 Ap 161. (MIRA 34:6) (Bashkiria-Oil well imsing)  STAROGORODSKIY, Ilikolay Nikoloyevich; TIV"OVp G., red.; DARILINA, A.,-"~Wi.6.-red. (Volga giant] Volzhokii gigant. Moskva, Gos.izd-vo polit. lit-ry, 1959. 78 P. (MMA 12:12) Station) (Stalingrad Hydroelectric Power  IIARPOV, Yu. Devices for removing air from hydraulic brake system. Avt. transp. 36 no. 7:26 J1 158. (MMA 11:8) (Aut omob ile a--Irake a' )  AUTHORS: Karpov, Yu., Engineer, Krasnoperov, V., SOV/29-56-9-26/50 I ,-MM7rS-zrMrV,-T77unevj Yu. , Eneineer TITLE: An Unusual Motor (Neobychnyy dvigatell) PERIODICAL: Tel-hnika molodeThi, 1958"'.1ir 9, pp 3-1 - 3-1 "USSR) ABSTRACT: In the couxse of their studies at the Leningradskly elektrotekhnicheskiy institut imeni V.I.Ullyanova (Lenina) (Leningrad Institute of Electrical EngineerinE~ imeni V.I.Ullyanov (Lenin)) the authors of this paper invented an electrical motor which they called "dielectric motor". This is a description of its principle of operation- This motor has neither a conventionzil steel stator with a copper winding nor a massive rotor. It operates by using the principles of static electricity - the interaction of stationary electric char.-es. The disk does 6000 revs/mill. Attempts were made to increase the speed of the motor by producing the rotor from different materials. The best results were obtained with ple.Kiglass. The speed can also be increased by placing the rotoz in a vacuum, thus Card 1/3 reducing air frJotion. The por.,,rer, of th(! motor can bp increased by  An Unusual Motor S07/12 9 -:18 - G - 2,~/~ placing it in a high-prezsure Chamber . In a fluid di- electric the nominal voltaje is reduced al,;iost by a factor of 10. As a compensation the speed is conside-rall-ly reduced owin&~ to the increased friction of the rotor in the fluid. The diee-lectric motor is still anythinE but perfect. Never- theless it is capable cT being used in practical aork. If a vane is attached to it it may serve as a ventilator, If the shaft of the rotor is ar:rested by a spring this motor is transformed into an instrument measuring high d.c.tension. The angle of deflection of the rotor will be proportional to the potential applied to the electrodes. The high speed of such motors an 'he lackinC of a commutator recommends such motors for use in gyrosco-,-.,;.-s. Although at present it may sound phantastically, there is no denying that in principle such a motor could be used in connection with a radioactive electrostatic generator. There are 3 figures. Card 2/3  ACCESSION NR: AP4033096 5/0120/641000/OOZ/0005/0016-. AUTHOR: Karpov, Yu. A.; Kontor. Ye. L. Talenskly, 0. N. TITLE; Magnetic -discharge cold-cathode pumj;e (A review) SOURCE: Pribory* i tekhnika eksperimenta, n'*. 2, 1964, 5-16 TOPIC TAGS: magnetic discharge pump, vaCUILM pump'. fine vacuum pump, magnetic discharge cold cathode pump, Vacion pump, Penning discharge pump, XEM Soviet make pump ABSTRACT: A review of the exhaustion mechanism, designs, and applications of magnetic -discharge cold-cathode pumps, based on 1956-63 Soviet sources and 1937-61 Western sources, is presentee , Both 1he advantages and disadvantages of these pumps are listed and characteristics ofoome Soviet-made puznpa are au.,plied. "In the Soviet Uniont pumps of this kLnd are built for a rate-of- eximustion of 0. Z, 8, 30, 100, 300, and 1. 000 Utrlsec; also, oilless exhaustion--.", Card 1/2   ACCESSIDE 110; hPj!02004'4 S/0032/64/030/003/0306/0308 Glav:.n, rz. G.; Karpov, :Yu. k. TITLE: Determination of oxygen in rare earth metals and their fluorides SOURCE: Zavodskay, a laboratoriya, v. Ni no- 3, 1964, N6_3oa TOPIC TAGSi oxygen, rare earth, rare earth metal, rare earth fluoride, yttrium oxide, gradolinium oxide, argon chambers vacuum furnace, graphite liner, vacuum fusion ABSIRACT: The authors have worked out a method for determining oxygen in rare- eari4 metals and their fluorides by vacuum fusion, using a platinum tank, graphite linets, and an argon chamber. They have undertaken this ctudy because of the lack of sensitivity or , precision in other method,-. The vacuum-fusion method makes use of oxygen extraction from rare-earth metalv and their fluorides by ther:nal dissociation of oxides. The authors used the riethod of Yu A. Klyachko and Ye. M. Chistyakova (Zavodskeya laboratoriya, XXVI, 12, 1335, 1960i for reducing the oxides. Degassing of a set of graphite liners was carrLed out for an hour at 1900C in the vacuum furnace of an argon chamber. '--he aamples were then placed in the graph--'to Cord  ACCES)SION NO: AP4020044 liners, which were set in a charging apparatus. The gas was extracted from the .samples at a temperature of 1850C for a period of 15 minutes. Pree F was not Civen off by the vacuum furnace, but formed fluorine-carbon co--ipoundsi%--zfc=cd.U')Zada,-,mcf fluorides did not affect the extraction of oxyCen from yttrium and gadolinium .oxides. The sensitivity of the method is 0.01~ and tho eeproducibility in the concentration interval 0.1-045 is 20j~-'). Orig. art. has: 2 figures and 3 iables. ASSOCIATION: Gosudarstvenny*y nauchno-issledovatellskiy i proyekthy*y institut reftometallicheskoy provj*shlennosti (State Scientific Research and Planning Institute of the Rare-Metal Industry) SUBUITTED: 00 DATEE ACQ; 2Afar64 ENCL: 00 'SUB CODE: PH NO REP SOV: W3 G=: 003 Cool  CIRIC1~1;'HIE, M.S,~ Cl',-VIN, G.G." 'l, " I " F, , ,KOW, ; '. , : 'i"Y N, D . '.., . --l- y . ML,~ analys Ll i." nyyg,~n ir, Al' S~Sft 'M nc.~,~ .-L .1 n - I ., ,~ 08,1.-691 S, 164. (Ml RA 17, 10) 1 . -,n s t. -i t t i t g t, oln- h i ir. 4 .-:. I a na ;( 4 , -~ (.- h o:-, - ki ~y 'r,-, i ' T, i 41 -T~ * . ',~-;-rna-lskogo PN Pr,-lintrpfl6no- alindomi~,-,vr,  P4; QLAVIN ;,'G iG. Analysis of gases-in-metals. Zmv. lab. "!I no.2sl39-142 165. (WRA 1837)  KARPOV Yu.A ; GLAVIN, G.G.; ZAV'YA,C-V, 0.1".; IVAIVVA, R.V. Evaluation of the sensitivitv of ax-jgefi detoction in nioblfwa by tho vacuum malting metho'do 'Aw.ltth. 31 no.3.0:1190-11-()l 101j. (,',',IRA 19-1) 1. Gosudarstvannyy nauchno-issiedovatellgkiy i pray,-.ktnyy Institut redkometallicheskoy promystlennost.i.  CAI ti-a I.j 14 oil i OTa 0; It s. I U; -3 'mia all  PhALE : b0Q!~ UPLr,1,ATAVS fllt-- d. 19se Trawatti-ins of tha 24 A11-1= C-f-rolcl -0 'b" Phyni- or Clol-tri, I&J-vo All 53-P, 19W. !32 P. Errata slip Imaertwi. !,000 ~pi:" cauk Imstit.t L-i P.5. orjPbII:1-rC H.%;, T.jL.Cst tr at B. 'd , (P. . W. D,,.-or of Phy a azi ad! -mld Ate *! ?I-Y.i:a arA ?'Ath~ti!v. Of for tb.& hil.1- . di. t.. :m the "I,. f bald 1. COVERAG Th. r-od All-ni- th. F111!b.1k t --tut 1--i P-1. 1,at-j... P.N. t~bejgr) In 19-tl~ 19~4 If %m, of tt. =2 :,j C.- r , -ttr .a. .1"'. ::.1- -.t of t!,. pr .... td .1. th. Lmd Of tiA diocuns'-f wttlcA Th~ -~rt, 1. thl. -IlatLom d.&1 vl-h dialettrta Lool4s, &A! and with s;aLrtc~j ~ I md ~tvw capaciteoc4 of vw--~z Tryltala, am roct- srt~ ra-.1ta "3, 00 d"I"'tZlem Tm* -1--e "r-taln, a 1-sot of othar P.*AtMtfl at '.L1 totfor With ;Vlarl,,t~.1c, a br..k'cw`M2 f di.1--,11is, hj.-h .0 in the jc~Al 'Zvostiya AN -1 lk'ay., 1- d2~ 11W. 5, are ISM, Or,,* '121- a E.Ta . Liskor. ;,g;Z Texp--.-~. 21 -T x Of Certain Zzd-ti- .4 !.a... or 3- I. Jtr~-C R--;~-Fr--ccy Zl,.tvc P1.11s at Rijim T-;-turv [Sibl"kly Phy.1c. -4 sci-tific 1M.musal- 37 _JRLLJ~ Ot t~. of th, S--ti,t 2;-Iflio 1~4 ti- C.p-jtam~. of 34t.rOls- DiOlac-rUS [Tor-LbAkAY 2.1 koLb1&yayv-.v0=m" Ims-11t4t (Toramesh ACricultural Zmetituta)) 39 11* ---rIC lar-t- of D-hle Liquid Syst~ In the Lcft~-at-.l 49 Aa4P LVorom.- at Audio t.j 37 and of 77 and A.M. L~barmrm Ztjdy Of C! am, t,6 in ?.IT-. rmcc tic. Tm- Y--Ykb1*Yfadin`--1fttras " (Instit- .Y AN 3ZM, LaOCtd (Im,ti, of jet V41. L-alzrad)) C-Va;cumds, A3 91 t95 ) of 1-,r. -.t-d Cable I to 4mI r R.I.. %b. P-,-rti-, of the C---ts (P.por tl C11) EM IL*-kly ..rCtI*h,"jj I_tlt.t ?-r 105 L..I-OkiY Prcbl~ c: the Th-Ir7 of Th.r..I Fb-am, in 0)-" and v t6a --!ZZtrz%4k) J -mimr -diWli 0 1-41 12J. -d T.A. ch-, - or C-6.1 It.:.mat.'s ?I, ld'ati, Cap.. if RolAtiom -0 Clost-tuto of At.d-y of Sciences U=, Ls~jradj 132 -d the 4r;-1: 3 s S.:L of C'sla, l.C-phy: AIA!-eV of M--)] 139 Gt*"G. AL-11.I ia~md Y.F. ~-.ZZISamka~Cm Charge Zt4b1litj of vm~rganlc 9*~trsts ?JI. A-! USIR~ Y:3zmj 150  S/194/61/000/009/036/053 67, 43Y Z) D249/D.302 AUTHOR., Karpov, Yu.S. TITLE; On the subject of fluctuating noise temperature dependence in junction transistors PERIODICAL: Referativnyy zhurnaL. Avtomatika i radioelektronika, no. 9, 1961, 22,, abstract 9 D14L (Izv. Leningr. elektrotekhn. in-ta, 1.960, no. 43, 174-182) TEXT-~ Results in the form of graphs,are given of noise factor (F) measurements carried out at 1000 cls and in the tempera- ture range of 60 - 850C on transistors types JrJ401 (P401), F402, P403 and P101 'n-p--n).. In the above temperature range all samples exhibit a mini mum value for F whi'ch.. appaxently, is explained by the surface noise in the c-ase of th~, Joirer ICemperatures, and by the lealtage noise in rhe- case of th.e higher temperatures. The measure- r~ents show that for a given emitter cur-retit the fluctuation noise is independent of teMDerature whiLe- ,'r..e thermal. noise increases C ard *L/~2  IS,, 1.94//61/000./009/036/053 On the subject o.t' ... 1) ".) 4 9/D 3 0 2 monotonically with temperature, for the two Lypes of transistors,, to v7a:ach other. A description is of the transistor noise-measuretn~--nt of the order of a few mill,..ons. note% Complete -ranslation Tfie ~-4perimental curves obtained rhe n,-p..n and p-n-p, correspond giver..., including the block diagram, set -'u[), whose voltage gain is I references. CAbstracter's C ard 2-/2  23127 8/18 61/003/005/032/042 Cy. L' ~16 0 3/ IN 3) B108YS209 f' AUTHOT: Karpov, Yu. S. TITLE: Temperature dependence af low-frequenoy conductivity fluctuations in reversely biased.germanium p-n junntions PERIODICAL: Fizika tverdogo tola, v. 3, no- 5, 1961, 1571 - 1573 TEXT: The author presents the results of measurements of tae temperature depejadence of low-frequency conductivity fluctuations in p-n junctions In germanium with reverse bias. The junctions were obtained by introducing indium. into n-typs germanium (resistivity of about 1 ohm. am) by fusion in a hydrogen atmosphere. The samples were OtChed electrolytically, rinsed, dried in a vacuum furnace, and sealed in dry air. The spectral density of the noise current served as a measure cf fluctuations, where 1 2 4f n is the mean square noise current of the short-circuited diode in the frequ;.-~ncy band Af. Measurements were made at 75 cps. The noise band Af passing the measuring amplifier was 8 cps. The fluctuations at this Card 1/3  Temperature dependence of... 23127 S/181/61/003/005/032/042 B108/B209 frequency are considerably higher than the shot effect and thermal noiaes. so that these may be neglected. Figs. 1 and 2 chow the spectral density of the noise current as depending on,temperature for various voltages. The rise in fluctuation intensity shown by some of the samples at highs:: temperatures is related to leakages. It is believed that the rise in fluctuation intensity at low temperatures observed in all samples is connected with a carrier avalanche in the junotion layers. The most prob- able site where such a particle avalanche wilL aria& is the boundary between a p-region and an n-region reaching tiae sur%e of the germanium sample. There are 2 figures and 3 references: I So t-bloc and 2 non- Soviet-bloo. The reference to an English-languageipli, lication reads as follows: W. Ponger. Sb. "Transistors P, ROA Lab.'.Princeton, 239, 1956. SUBMITTED: November 30, 1960 Card 2/3  AUTHOR: TITLE Karpov, Yu. S. 24911 Experimental verification of components of low-frequency p-n junctions S/181'/61/003/006/008/031 B102/B201, the existence of two fluctuations in devices with PERIODICAL: Fizika tverdogo tela, V. 3, no. 6. 1961, 1691-1693 TEXT: W. Fonger (Transistors I, RCA Lab., Princeton, 239,1956) introduced the notion of two chief components of low-frequency noises in studies of low-frequency noise in semiconductor diodet3 and triodes; the first com- ponent is caused by fluctuations of the rate of recombination surfaces, and the other is the leakage noise. With it view to checking this assump- tion the author of the present paper studied the noise properties of jun3tion-type transistors at low frequencil?s. He succeeded in showing that there are at least two different sour-~es of low-frequency fluctua- tion5, each of which having a frequency spectrum which is about inversely proportional to the frequency. Fonger?s theory was confirmed and completed. The author worked with germanium p-n-p transistors having Card 1/3  24911 S/181/61/003/006/008/031 Experimental verification of the B102/B201 the following parameters: resistivity; I ohn-cm, reverse current A 30a (at ~v collector voltage '). current amplification A 0.95. The noise coefficient was chosen as the noise characteristic to indicate by how many times the total level of the inner fluctuations in the transistor exceeds the thermal fluctuations of the generator impedance R 9(all referred to the input). Tf the noise coefficient is denoted by P. the following relation will hold for the mean square of the noise voltage (referred to the transistor input): 7 F4kTR Af (k being the Boltzmann constant, T n 9 the absolute temperature, f the narrow frequency band in which the noise is measured). The measurements were conducted at different frequencies in the frequency range from 20 cps to 16 kc/sec. Experiments showed that all specimens concerned could be divided into two groups. The transistors of the first group displayed a monotonic growth of the noise coefficients with growing emitter current (in the frequency range in which the low-frequency fluctuations prevailed); it was found typical of the specimens mentioned that practically no low-frequency fluctuations occurred at frequencies above 500 cps with any emitter currents (P was frequency-independent above 1 kc/sec). At IJCO kc/sec the low-frequency Card 2/3  24911 S/ 1 a 1 /61/003/006/008/031 Experimental verification of the ... B'102/B201 fluctuations were considerable with 0.2 ma emitter currents. At 175 and YX 75 kc/sec the low-frequency fluctuations prevailed upon the remaining noise components. Transistors of the first group displayed practically 'no deuendence of F on the collector voltage, In transistors of the second group, F was considerably larger a-.; cciDuared with those of the ftrq-t group. In those transistors, the low-frequency fluctuations were the chief noise component in the entire frequency range concerned. In specimens of the second rfroup, F was dependent on thA emitter ~,urrent; it grew, however, quickly with growing colleotor voltage. This difference between the two groups may be expLained in that either one or the other rompcnent of low-frequency fluotuations prevailed. This could al,go be proved. The two sources of low-freq,ioncy fluctuations have a spectrum of tho form I/fn, where f i9 he fr~~qupncy and n--!. There are 2 figure:A and ~ references: I Soviet-blr,~, and ? nor- Sovie- -bloc. The referepces lo Eng-1--sh-lang-urige ~7(aad as follows W.Ponger. Trans:istor.q 1.. RCA Lab. . Princeton, A.Van der Zikil.ilroc.ME. 116. uo. 6, 1 ol 91 c)rp, . SUBUITTED: Dec~ember ?3, 1960 Card '1/5 ~Ii  :;/ibi /62/004/003/022/045 B125/B108 D. N. , and Karpov, Yu. S. 111 E R.,!coi,lbination fluctuations of the i,'~otocurr nt from t, i llumtin at io,-, of i)-n tritrui i tions 0 ri7.iki tvc-rdogo tela, v. q', no. 19S2, 2 The intensity spectrum 1-J, = i- 0~ ;-he f ,)notocurrent fluctuations o-.,.-in ',; to fluctuat:Lono in the recombin.-ation xtke s durin,, the illumin:.ttion of 1)-n junctions- ;.,ith fuzed-in in6ium) was studied in the fret-luency rFne of 10 2 5 ZeIkl den,)Lez the ideal net current of the photodiode; I ii-, the number of libght quunta absorbed per unit ti-m,,, q the quantui yield of the photocell. Twelve samoles with distance: of d = 0.05 0.~ between tll~e illuminated ,;ur -ce and the junction. surface v,,ere 4,- ,V(!:3 t 4-at ed .Fig. 1 :;hows the tyoic~41 curves for the spectrum of the intensities of photoc.rrent f-luctuations for three samples with d = 0.0,-,, 0.11, and 0.4 mmm. JiLh some kilocycles per second, the fluctuation intensity whici is practically Card 1/�  Recombination fluctuations of the ... B125/BI08 equal for all samples lies near the shot noist, lovol (25-35 pa) -)f the vacuum photocell . At lower frequencies, an increase in d notably increases the fluctuation intensity, in the thickest samples- to about tn order above the ohot noise. In the spectruzi of thin s,imples, which is continuous in the 41 Irequency range investigated, a low-frequercy componont appearo, when the.--t., samples are illuminated with a broad light b0fL111. In L-in sam 1e , th Q p 0 e intensity of fluctuations is nearly proportional to the first power of the photocurrent, even at low frequencies. in thick samples,however, -~i2increases as i k, k lying between 1.6 arid 2 for the different samples. On irradiation of the samples with small absorption coefficients, tl-e intensity of low-frequency fluctuations decreases. On longwvve irradiat-~-on, the pair production is rather uniformly distributed over the ensire thick- ress of the sample, and the effect of surface recombination on the photocurrent is less. M. I. Kornfelld and G. Ye. 1?ikus --r- thz~nked for discussions. There are 4 figures and 11 references: 5 Soviet and 66 non- Soviet. The four most recent references to English-langulge publications read as follows: M. I. Kornfeld, D. N. I'Airlin. Proc. Intern. Conf. on Semicond. Phys., Prague, 2052, 1960; U. F. )ianola. J. Appl. Phys., 21, 51, 19)6; D. E. Sawyer, R. H. Hediker. Pro,.. IRE, No 6, 1122, 1956; Card 2/4   Ti o~f In  KARPOV, Yp.~~.; POLYAKOV, Yu.A. Errors in measuring the noise coefficient of transistors at low frequencies. Izv. vys. ucheb. 2av.; prib. 8 no.2:7-10 165. (MIRA 18:5) 1. Leningradskiy elektrotekhniches~iy institut imeni U11yanova (Lenina). Rekomendovano kafedroy av-tomatiki i telemekhaniki.  ACC N'R- AP6034939'_ A*LMHOR; IMertins , V. Karpov, Yu, S. ORG: Leningrad Electratechnical Institute im. V. 1. Ul'yanov -Lenin, Novgorod Branch (Novgorodskiy filial Leningradskogo elektrotekhnicheskogo instituta) TITLE: Low frequency voltage fluctuations in film resistors SOURCE: IV*JZ. Priborostroyeniye, v. 9,'no. 5, 1966, 20-22 TOPIC TAGS: fixed resistor, signal to aoise ratio , low frequency ABSTR.ACT: Low frequency noise in the 120-20,000 cps range of -,;nin film and 1WER, VS, and ULM type commercial resistors was measured. The corjrerc.-al resistors had nominal values from 3.2 to 180 kf]; the thin film resistors, made from .-%cuum-deposited: 'N.-ichro-me on a glass base, had nominal values from 2 to 70 ksl, The measurements were made by comparing nois& voltages developed across samples to those developed across a standard, reactance free, wire-wound resistor. The nea6uring equipment Included a low-noise tube-type preamplifier with EL calibrated attenuator, and an R,%]S voltage analyzer. 7he noise for all of the siurples decreased with frequency and was relatively independent of the applied voltage across resistorr. Orig. art. has: 2 figures and 1 formula. SUB CODE: 091 SUBM DATE-: 3lJan66/ ORIG REP: 003/ CTH REF: oo8 Card 1/1 UDC: 621.391-822.3  KARPOVAI, A.; ITEWEVENYO, G. Machine Tools Improve tools and technolop_7 Tekh. molod. no. 3, 1952 Monthly List 2f Russian Accessions, Library of' Congress, August, 1952. UNCLASSIFIED.  KARPOVI~, A. AND OTHEEF- Efriciency, Industrial Attention to spare time. Tekh. molod. tic. 3 (1952) Monthl_v List ~f Russian Accessions, Library of Com,;resS, August, 19':2. UNCUSSIFED.  ARBUZOV, G.A., prof., doktor tekhn. nauk; AFANASITEV, A.A., dots., kand. tekhn. nauk; TEGOROVA, Te.L.; KARZINKINA, K.D.; KARPOVA A A - MURVANIDZE E.M.; MIKRAYLOV ,A.N., prof.,, io--Ot~O-r-tei~;;~: nauk, red.; KACHKO, I.L., ins*h., red.; -ICRASNOBRODSKAT4; L.L., red.; TURGHENKO, D.L., red.; MIKHLIN, E.I., tekhn. red. [English-Possian leather and footwear dictionary] Anglo- russkii kozhevenno-obuvnoi slova:rt. Pod obshchei red.' A.M.Mikhailova. Moskva, Fizmatg:.Lz, 1963. I~v2 p. (MIRA 16:7) (Leather industry-Dictionaries) (English language-Dictii)narieo--Russian)  0 Prot"ting crops from Hessian fly hjury by treating dit $oil with hexachlotan. A. 1. r I -ta . I. -'s. "I kad Sil'&' I,,;. A'11'k : L 15, Nw 2' M-M I I). I 11r., f" h%'. kr'. ..I I h, ilign-41CIII J~l 11'.. It'nLrd illto 111C 11-1-. l1v -kh'. applk=liulk "I 11w Illoting lite w('I' I K. kg. .)f llloio i, A- d. (vowe ill lVdUcillit 16 llo. of di-. No 1-101-1, '~~ th, cloll wt:fv 1. S- i'd1v  GRIGORIYZVA, T.G.; KAMYA, A.I. 7eeding specialization of the frit fly Oscinella pusills. Meig. in the trans- Volga region. Zool.zhur. 32 no-5:893-902 3-0 153. (MLRA 6:10) 1. Veeiioyuznyy nauchno-lealedovatellski;r inatitut zashchity rasteniy. (Volga valley--Irrit flies) (Frit flies--Volga valley)  XARPUVA, A.I. -1 -- Some data on the ecolo&7 and harmfulneve of the frit fly. Sool, z4ur, 35 no-5:729-740 My 156. (MI2A 9:9) l.Vsesoyuznyy nnuchno-Issledavatellskij, Inatitut zashchity rantenty. (Frit flies)  YARPOVA, A. I. Development and harmfulness of the frit flies Oscinella pusilla Mg. and 0. frit 1~ (DI ter&, Chloropidae) occurring on corn in non-Chernozem re;ons Ewith summary in English]. Int.obos. 37 no.4:812-819 '58. (KIRL 11:12) 1. Vaei3oyuzrqy institut zashchity !."asteniy, Leningrad. (Corn (Kaize)-Diaeases and pasts) (Frit flies)  KkRPOVA, Aj.- Development and food relations of the corn borer Pyrausta nubilalis Hb. (Icpidoptera, Pyralidne) innew corn regions. Nut. oboz. 38 no.4;724-733 '59 (MIRA 13:3) 1. Vaesoyuznyy nauchno-issledovatel'skiy institut zashchity rasteniy (VIZR), Leningrad. (Bryanek Province-Airopean corn borer)  KARPOVA, A.I. Fauna of frit flies (Diptera, Chlo.ropidae) of wheat fields and virgin steppeB in t~,) ncrthern pro-iinces of Kazakhstan. Trudy Vses. ent. ob-va 5C:73-88 165. (MIRA 18:5)  KARPOVA, A. 1. Species and population dynamics of Injurious ineects in seedless corn fields* Ent. oboz. 44 na.3t-1,95-502 165. (MIRA 1.8.9) 1. Vsesoyuznyy muchno-legledovatel"okiy Lrmtitut zashchity rasteniy, Leningrad.  A.-L. T-E-ff-eel, c-1-It"Int-on-th-e -th-erm-a-I'decolorization of tricarbo- cy and the chemical nature of the sensit' "I" d yg T-zM-, Chemical Abstracts component -of gelatin. -YuKjI- 'MnAkrivskif jnTA. I- J;AQ . DAIddy Akad. Na"T S.S.S.R *- 91, 2f)q-aOO May 25, 1954 (i933).-The effect of 3 gelatins an the decolorization of FhotogTaphy 3,3-diethylthiatricarboc5~inine imlide (1) w.Ls detd. at 41.3* for mIxt3. of 100 mi. of 4% aq, solit. of gelatin mid 12 nil. of 4 X 10-6 H I in Et,)H. 'rite chem. seti5itizer content of the gelatin samples was detd. by reaction with Ag ion. Gelatin retards the decolorization of 1, and the effectiveness Increases with sensitizer content. Na,9:03 also retards decolorization, Conelti.-lon: tile sensitizer is NatSiOa or an Itiorg. compil..otsimilar structime.