SCIENTIFIC ABSTRACT ARUTYUNYAN, F.R. - ARUTYUNYAN, A.

v S/022/59/012/05/05/0001 AUTHOR: Aru1ZgXgn,,,,,,F,_R. TITtEt Elastic Dispersion of Protons on Kernels PERIODICAL: Izvestiya Akademii nauk Armyanskoy SSR. Seriya fiziko-mate- maticheskikh nauk,1959,Vol. 12, No. 5, pp. 77-90 TEXT: The paper contains a detailed representation of the results announced by the author in (Ref. 1) on the dispersion of protons in lead- and copper plates in a cloud chamber. The author thanks Professor A,I. Alikhanyan and ".';.L. Ter-:'.Iikayelyan for dis- cuasion. There are 7 figures, 2 tables, and 15 references 1 4 Soviot and 11 American, ASSOCIATIM Fizicheskiy institut AN Armyannkoy SSR (.j~~iical Institute AS Armenian SSR) SUBMITTEDt September 28, 1958 0 Card 1/1  i)!~ UT ~VN ~ I)NII S/022/59/012/06/06/009 AUTHORz Arutynyan, F. R. TITLE% Consideration of the Geometry of the Instrument for the invest'4- gation of Scattering PERIODICALs Izvestiya Akademii nauk Armypnskoy SSR. Seriya fizAko- matematicheskikh nauk, 1959, vol. 12, No. 6, pp. 109-120 TEXT; For the investigation of scattering in most cases the projections of the scattering angles are measured. This restriction to plane condi- tions leads to the fact that the probabilities of the measuring of differ- ent scattering angles are different, it was referred t:) in (Ref. 3) for the first time . Let ID be the scattering angle, f)-p -its projection in the plane in wldoh the investigation is carried out,. and 0q, the projection in a plane which is vertical to the plane o:!' investigation. The influence of the geometry of the instrument leads to the correction function C( ;4 ) - C1( 0* ) - C2( 'D'P ). Here C1( gives the probability that the scattering angle rvp is observed, if there are no restrictions in the plane which is vertical to the plane of investigation. Inversely C the correction function which is necessary, if the 2( 'a measuring is bounded only in the vertical plane by the 6oometry of the Card 1/2 ~/B  3/022/59/012/06/(,16/009 Consideration of the Geometry of the Instrument for the Investigation of Scattering instrument. On the base of a gonQxaJ instrument schemE the author separately calculates C1( and C2( For C1( he obtains the expression (4) Cj( Olt F, (D) where P( is given by a certain integral, For vertically incident particles the result from (Ref, 3) is obtained. The mentioned integral Js explicitly calculated in some special cases, For C 2(GL'f) the author obtains a complicated multiple integral which, however, is approximately constant, so that the probability of the recording of different angles can be considered as constant in thia case,, There are 5 figures, and 4 references: 2 Soviet, 1 Italian and 1 English. ASSOCIATION: Fizicheskiy institut Akademii nauk Armyan3koy SSR (Physical Institute AS Armenian SSR) AR SUBMITTED: November 28, 1958 Card 2/2  ARUTMUAN, P.R.; ASATIANI. T.L.; KRISHCHYAN, V.14.: SHAMATUNrAN, R.O. - Scattering of A-mesons in copper. Dokl.AN Arn.SSR 28 no.31 117-119 '59. (MIRA 1217) 1. Irizicheskly Inotitut AN ArmSSR. Prodetavlono akadamikom AN ArmSSR A.I.Aliklianyanon. (Mesons--scattering)  24(5) AUTHORS: Alikhanyan, A. I., Arutyunyan, F. R. SOV/56-36-1-6/62 I------------------ TITLE: The Scattering of tP -?4esons in Lead (Raeseyaniye 14 -mezonov V sviAtse) PEKODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, 1959, Vol 36, Nr 1, pp 32-40 (USSR) ABSTRACT: In the introduction several investigations carried out of muon scattering in lead in various meson energies are dis- cussed. For the effective scattering cross section in ener- gies of 100 to 300 MeV a 4.10-27cm2 /nucleon was found (Refs 1-3). For the effective scattering cross section of anomalous soattering.s. value of Cran = (I .5�1.0).10-27cm2/nualoon was measured in a depth of 60 m equivalent of water at muon momenta of 100 - 600 MeV/c in photoemulsions. This agrees with the results obtained by Alikhanov ani Yeliseyev (Ref 7) at muon-momenta of 200 - 800 MeV/c. Alikhanyan and Kirillov- Ugr,yvnov (Ref 13) investigated somo muon scatterings (80 - 140 MeV/lc) in thin copper plates. The present pnper investigates experimenta' results of muon scattering at momenta of (1.0 - 1.8).108 eV/c in 7 mn thick lead plates Card 1/4 in a cloud chamber. Investigations wern carried out with  The Scattering of 14 -Mesons in Lead sov/56-36-1-6/62 cosmic muons in an n1titude of 3,200 m above sea level on I Mount Aragats by means of a mnrnetic m~iss spectrometer and two cloud chambers with many plates, A description of the experimental device and data may be found in references 8, 12, 13. Particle analysis was carried out in the mass spectrometer according to momentum and range. The former was calculated from the radius of curvE,,ture of the particle orbit in the magnotic field, the range was determined from the material layer through which the particles penetrated. For 812 particles the masses were determined at 150 - 360 me with the following coordination: m K, 240 me-`w P -mesons; m > 250 me--i*Tit-mesons. Average values: -nuons with 209 me + + pions with 278 me. In the muon group there should be not more than 2 4, pions and in the pion group not more than 12 muons. Measurement of angles was carried out on the basis of photographs by means of a special protractor. Momentum measurement in the scattering point, if particle mass was known, was possible by two methodst 1) from the remaining range according to scattering, 2) from the momentum measured in the magnetic field. The lead plates in which scattering Card 2/4 was investigated had impurities, the effect of which upon  The Scattering of U -Mesons in Lead SC)'1/56-36-1-6/62 the scattering angle and on the distribiition fianction van dotormined. The offoct produced by the geometry of the device upon the measurements was taken into account to the widest possible extent, 2337 muon scatterings and 818 pion scatter- ings were investigated in the lead plaAes with a total range of muons with p = (1.0 - 1.6).10 eV/c in Pb of 19 m and for pions at p = (1.2 - 2.0).108 eV/c of 6.7 m- Figure 2 shows the differential distribution of scattering angle projections for muons, for which purpose the measuring points and, for reasons of comparison, the curves of multiple Coulomb (Kixlon) scattering a,~;iordtng to Ter-Mikayelyan (Ref 11) are given. Agreement is good. Figure 3 shows the same for pions. The number of muon scatte-ings in dependence on the angle is given in a table together with the corresponding theoretical values. Agreement is good. The authors finally thank M. L. Ter-Mikayelyan for his discussions and help, B. A. Dolgoshein and B. I. Dichkov for nasisting in evaluating Card 3/4  The Scattering of P -Mesonn in Lead SOV/56-36-1-6/62 measuring results, M. I. Dayon and V. G. Kirillov-Ugrytimov for discussions. There are 3 figures, I tnble, and 18 references, 7 of' which are Soviet. ASSOCIATION: Fizicheskiy insti.tut Akademii nauk ArmyanEkoy SSR (Physics Institute of the Academy of Sciences IArmyanskaya SSR) SUBMITTED: July 14, 1958 Card 4/4  21(l), 21(7) SOV/56-36-4-3/70 AUTHOR: Arutyunyanq F. R. - ------------- TITLE: Determination cf the Mass of Charged Particles According to Scattering and !'asidual Range in Multi-Plate Cloud Chambers (Opredeleniye massy zaryazhennoy chastitsy po rasseyaniyu i ostatochnomu probegu v mnogoplastinnykh kamerakh Villsona) PERIODICAL: Zhurnal eksperimentallnoy i tooreticheskor fiziki, 1959, Vol 36, Nr 4, pp 985-991 (USSR) ABSTRACT: In continuation of an earlier paper (Ref 2) the present paper gives further measuring results of scattering angles and ranges of protons, muons, and pions for the purpose of verifying the method suggested by Annie et al. (Ref 1). Instead of operating with the scattering angles 9, the quantity ftj is used, where q = 0e (R - residual range of the partiole, a - 0-55# a con- stant for all elements). The theoretical distribution curves coincide with the angular distribution curves in the case of corresponding normalization. According to Ter-Mikayelyan (Ref it holds for the mean and the root-mean-squareq-value that N2 particle can be detected by way of the resulting photon emission. 4pM d., drn -TF7 -rill- 73-W041, wr)' (t + p:x wi)fIX X SW -P RI + a Card 1  S/056/'61/041/006/050/054 A way of detecting high-energy... B109/B102 is obtained according to M. L. Ter-Mikayelyan (DAN SSSR, 134, 316, 19601 Izv. AN ArmSSR, 14, 103, 1961) for the numter of photons emitted in the frequency interval-Aw per cm of layer thickness. The frequency is measured in terms of WImin l1r,o(N1+aN2 re is the classical electron radius, c - light velocityt a - I (N1 N )I(NI 2/11' p 2 + aNd' ,r,d me'll In-Ire -(I -a) iWl- + (LN')P"- (1. 6)9 /1 In-Ir, (I + ct) (Ni + aNO)".. 17). The photon spectrum is between Wmin and ii maxo where VAI 2 /--~L'2). 1214A - (,:F yr - (E /E) )AL, 0.8) max 11) IP and is shown in Fig. I for the case of E - 2.2 EiTT, a - 1. Fi&. 2 shows the total number of.quanta (mi 1) as dependent on the particle energy for a - 1 and for different w. For cL~ values between 1. 2 and 1 . 6 are shown to be the most convenient as regards the attainable number of quanta. The energy Card 2  A way of detecting high-energy ... 31798 S/05 61/041/006/050/054 B109YB102 of the exciting particles can be inferred from the energy of emitted quanta. The particle energy.range of 2-102 !!~ E/mo2e-5-'103 is covered by usinE proportional or scintillation counters (determined lines of a gaseous absorber are excited. The factors (bremestrahlung effects) affecting the noise level, and problems of recording of cosmic radiation are discussed. There are 4 figures, 3 tables, and 7 referenoes: 5 Soviet and 2 non-Soviet. The two references to English-language publications read as follows: J. A. Northrop, R. Nobles. Nucleonics, IA, 36, 19561 F. Reines, C. H. Cowan. Phys. Today, 10, 12, 1957. ASSOCIATION: Institut fiziki Akademii nauk Armyanskoy SSR (Institute of Physics of the Academy of Sciences Armyanskaya SSR) SUBMITTED: July 25, 1961 Card 3/#  S/04 62/026/006/011/020 B125YP,102 ;sUTIMIS: Alikhanyan, A. I., Artityunyan, F. R., Ispiryan, K. A., and Ter-Mikayelyan~ TITLE: The possibility of detecting charged particles of high energies PERIODICAL; Akademiya nauk SSSH. Izvestiya- Seriya fizichoskaya, V. 26, no. 6, 1962, 746-753 NEXT: The question is discussed whether resonance radiation resulting fron fast particle pa Isage through periodicall (periQd 1) alternating plates of thickness 1 1 and 12(1-11+12, a~ 12 1~ can be used to detect fast particles and to measure their ener&y. The main contribution to the processes under consideration is that of the harmonics lying below a certain threshold. If the particle energy is much higher than threshold energy, the emitted frequencies ti.) of all barmonics lie somewhere betmeen a maximum and a minimum, i.e. between 1/r and OB 2/E2 ; r is the order n Card 1/3  S/048/62/026/006/011/020 The possibility of detecting ... B125/BI02 Of the harmonica. At energies which are not too high, but already relixtivintio, the particle radiatoo only on harmonics of large r. iadiations with new harmonics arise when the partiol.- energy increa8ve gradually. The.energy los's due to resonance radiation depends only slightly on the thickness of the plates and decreases slowly with increasing a. The rapid decrease of the number of quanta beyond the maximum (for any har-monic-) at ro -;~ 1-5 :A) min makes it permissible to neloject the contribution of high frequencies to radiation intensity. The, particle energy in the rango E/mc 2 . 2-10 2 _2-103 can be measured by the method of energy release. The method of charactq?riatic radiation, applicable in the range F11mc 2 .5-10 2 _ 5- 103, depenIs on the radiation in the loyered medium being passed throurh an aboorbing gas which thereupon emits radiation which is characteristic. Using the method of Compton scattering, which is suitable for a wide energy interval, the particle produced in the layer medium undergoes simple Compton scattering. The y-quanta striking the lateral faces of the layer medium are recorded by liquid scintillatorB. The occurrence o.'," resonance radiation is Card 2/3  S/048/6',-!/026/006/011/020 The possibility of deteoting ... B125/Bl(")2 accompanied by back8round radiation. Cosmic rauons of -10 11 ev can be detected with a coincidence cirouit. Muons of , 5-10 1.1 ev and above can be detooted by the method of characteristic ra3iat:'Lon. Adequate experiments are in preparation. There are 4 figurou and 2 tables. ASSOCIATION: Pizicheskiy institut AN ArmSSR (Physics Institute AS ArSSR) koo" Clard 3/3  BtiSjPT(1)/WT(m) A~FXAMIASD JAMA25. : &SUCR BE AP30031" B/005i~63/C44/006/2m/2103 1 AUTHCRI MUtUWq, F, R. TU-=Wan, V. A., 27TIE: co"ton effe-e relativistie electrons and the poBsibilitol, of obtaining bews of hard Gw= somm 2hurnal ekaper. i teor. tizikio v. 46p no.'6.. 1063., L1100*2103 TOPIC TAGM Couzyton effecti zelativiatic electrons.. hard 0amma quanto~ bremsetrablung it is ohm that tk by ABST-RACTE: is energy distribution of hard photons obtained the Compton effect on relativistic electrons will differ sypreciebly h-om; the bremsstrablung spectrum, end that at relatively law energies of the scattered photons there vill be produced. monoewrgetic hard O=a quanta to some desme, i The fluxes of the Gm= quanta, produced in this manner are comparable vith the j.. corresponding quantities for tremostrablung. it is ouWated. that the hard Gems i ausnts obtained by using sources of pbotons harder then those of light viU be useful in -the solution of vmv, Mblets in physics. 'Vbe cuthors m indebted to Pn,f. A. 1. Mikharwan for inlarest and attention to the wor)c,, and to V. M,. Ar"t-MoMiLfor valuable advice. CrIg. art. bas 3 figuret and 4 formulas. Card 1/91 4SSOCIATION: Physics.Irsto GKABj Yer'6.van  AC~.ESSIW NR: AP3013324 8/0022/63/016/005/0119/0123 AUTHORS:' ~rutyun R.; Ananova, L. A.; Grigox7~an, N. 0, TITLE**. Highly directional Coronkov counter for relativistic particlee SOURCE: AN Arm;SSSR. I zvestiya. Seriya riz.-matem. nauk# ve 16, noo 5a 1963,t 3.19-1 123 TOPIC TAGS: Corenkov counter,, relativistic Cerenkov counter, particle detectorp charged particle detector ABSTRACT: A highly directional Gerenkov counter has been designed for relativistic particles of threshold magnitude (112 n2) 2 e 1 2 Othr sh using the principle of total reflectioa from the base of the radiator (detector) as well as fromthe side wall surfaces. The trapped radiation in the detector can then be used to detect particles with. ap > 0.995, which,, in terms of the angle between the normal to the radiator base and the incoming particle beam direction., 1/2 C ard  ACCESSION NR: AP3oi3324 can be represented by thresh ed%T Cos YT where n, - reflective index of the radiatorp and n2.- the reflective index of the media surrounding the radiate r, Orig. art* hass 2 equations and 2 figures* ASSOCIATICNt none iSUBIXITTEDs, War63 DATE AOQ: 22NOV63 ENCL: 00 SUB CODE; PH NO IW SOV&: 001 OMER: 003 oi card 2/2  L 101"3 EWT(u)/BDS AF M /ASD AR AGC=CN NR: AP3DD3285 '3/0056/63/04r)/002/0312/0315 AUTHat: an Tumany F. R.; Golt an, V.A. TITIR: Polarization phenomena ILn Compton effect on a moving elect.on and possibility ~ef 9btaining beams -of polarized gamma quanta __Ziur. 45-, -ao.-2~- 1963, _F___ SOURCEt. TCPIO TAG3: game quantum polarization,, Compton effect,, relativistic electron 1wer polarized photon beam -AWM=: The polarizatioa of _gammtCquanta resulting from Compton scattering of soft photons by relativistdo elootrons is analyzed. This problem is or We at I becruse the polarization of the primary photons can be chosen in arbitrary maaner,, rw Aasers. --It -is -shown -tha:.- the- -degree-Of- polarization c= f ~ cam at -a of h p=113 om - approach- 100% both -in-the __owa - o~_ photons- scatterad _gi 4 __ V-6 __v~s4 asimth Wle and in the case ahen the -polarization state is average o' r this angle. This show Com on relativistic electrons-to be an efficient pton scattering means of obtainlin polarized gamma quanta,# vddch can help in the solution of MMY eroblems Duch as p~otojproducticn prccesae3, and nualear photodisintogration. rip. art. hss ASSOCIA:UON., PhIhysicO9MYm'_'9't": Main Atomir, Nnorgy Porn.  ARUTYUNYAN, V.14.; ARLrTYUNUN,, F.R.j ISPMAN, K.A.; TUWiYkN, V.A. Light scattering on light. Zhur. eksp. i toor. fiz. 45 no.4.' 1270-1272 0 163. (MIRA 16:11) 1. Institut fiziki Gosudarstvennogo komiteta po ispollsoymniyu atomnoy energii SSSR, Yerevan.  ARTITYUNYAN, F.R.; TUMANYAN, V.A. High-energy quasi-monochromatic and polarized gwm qnants, 11sp. fiz. neuk 83 no. 10-34 Yq 164. OURA 17t6)  ACCESSION NR: AP4038548 6/0053/64/083/001/0003/0034 AUTHORSt Arutyunyant F. R.1 Tumanyan, V. A. TITLEs Ouasimonocbromatic and polarized Gamma quanta of high energy SOURCE: Uspekhj fizicheskikh nauk, v. 83, no. 1, 1964, 3-34 TOPIC TAGS: gamma Iquantum, high energy particle, bremostrahlung, Compton effect, pair*production, relativistic electron, scattered radiation, polarized radiation ABSTRACT: The two most promising methods for producing quasi-mono- chromatic and polarized gamma rays are discussed -- bremsstrahlung or'~ pair production in crystals, and*scattering of light by relativistic electrons. Such gamma rays can be useful in research on pion phot;- production and pi~on-pion interaction, and there is no systematic ex- position of their production in the literature. A theoretical analy-' sis and a review of the experimental resedrdh are presented for each Card  ,:ACCESS1014 NR: AP4038548 method. The section headings are: I. Introduction. II. Brems- strahlung and pair production in crystais. 1--Qualitative treatment*. pf interference phenomena in crystals. 2. Theory. 3. The polariza- tion of the radiation. 4. Experimental investigations. III. Tho Compton effect on a moving. electron. 1. Production of high-energy .gamma rays by the scattering of light on relativintic electrons. ;2. Polarization effects. 3. Exi)erimental investigations. Orig. art., :has: 24 figures, 68 formulas, and 4 tables. ;ASSOCIATION: None iSUBMITTEDs 00 DATE ACQ& 09Jun64 ]kNCL: 00 I.SUB CODEs NP NR REP SO.Vt 010, OTHERs 038 Card 2/2.  lot, o K i-i'~ F1 I 15 "1 t:l'.; '50 -'J !~7- s Y -u  AT500-792Y  ~ACCESSION NR: AT5007929 do 1 139 1 C- 11 " ( - , f I . -2 tt'at ,-',n -rife !,e r~ e,!. in tlie case of the -t Y-quanta Qi z5evci-a, ---v'~,  .!~)N NF: A T 5 0,0 e V a section wi 11 be T^-6. 10 the scattering angle ~,f the ;-.,at-red photon is expressed in tems en 7 ~T 5tA 5 a rIF i t lie C.,a 3 4  L 46i 48-65 ACCESSION NR: AT5007929 'dseT- w.*- )f t~,irsst ~-~f nf photcms eq,,kilS 2-1021)t then if -Lae lasei Is Gperated witri a f re, k" lic-11 of -Y-juanta wiTh enerpy up to w 3 500 Mev will be equal to approximateiv twu x :I mp 'J. E sI-, ea r Z  EWT(m)/FCC/-T IJP(c) ACC'NRo AP5024657 GOU1KX ODDBt UR/OD48/63/029/009A769/1771 AUTWR: Owl Phy Institute, Stat Oammittee cheekly institut Oosudaretvennogo komitets po, ispollsovaniyu stomnoy energii 688R) 14 TITLE: florizont-Iflux ol-muoni with energies exceeding 700 BeY /Peport, All-Unlon confe-renee on WO Ray igslon -held.. at_ARMj&y_ 24-31-Aux""O.W.- SOUR= : AN-SSSR, Irvestlyn. Serlya fiticheakaya, v. 29, no. 9j, 1965, 1769-1771 70PIC TAGS: eecondary cosalo ray', muon, charged particle, electromagretic radiation, Inbomogeneous medium ABSTRACT: The horizontal flux of'high energy cosmic ray muons was employed to inves- tigate the radiation, discussed by M.L.Ter-Mikayolyan and others (2h. eksperim. i toor f 1z. , 39, 1693 (1960) ; 41, 1,1002 ('1961) ; Nucl. Phys. , 24, 43 (1961)) , produced by the uniform notion of a charged particle -through a periodic laminated medium. The 300 cm, long laminated medium consisted of 300 equally spaced 0.2 =,thick sheets of paper. Cosmic ray muons entering from a solid angle of 0.29 sterad at zenith angles between 73 and 900 were selected with a counter teleacope. Electrors were discouraged by a total of 117 radiation units of matter disposed in two absorbers, and spurious counts due to cosmic ray showers were eliminated by neveral. surrowiding counters in anticoin- cideace. Photons emIttod In the backward direction by muona traversing the laminated  L 4459-fi'-- ACC NRt AM ,24657 medium passed through a 10 x 10 x 40 0=3 chamber containing X* (pressure not given) where they excited the 35 keY characteristic Xe x-radiation$ The Xe x-radiation was rcoorded with eight 8 cm diameter 5 an thick Na1:T1 crystals which could detect pho- tons with energies between 20 and 100 keV. An event was recorded when at least two such x-rays were detected simultaneously with the passage of anuort. In 3465 bouza events --recorded, - of- which 9 are ascribed to bAckgrounl. The background was p~l- i i-c determined by recording events with a 11.5 an shle Id- betweenthe- I aminated medium and the Xo chamber and to imerlbed to direct excitation of Xe x-rays by pas- sago of charged particles through the Xe chamber. This counting rate Is compared with muon fluxes measured by others, and it to concluded that nuots with energies above 700 BeY were recorded end that the hypothesis that muons radiate when traversing a laminated medium has been confirmed. The authors find it difficult to dror any defin- Ito conclusions from their data concerning the relative numbors of K- and n-Masoms produced In prJAary nucleon-mucleom Interaotionx. OrIg. art,. has: 5 figQ"s. SUB cons I 31P/ GWV DkTX 1 00/- ORIG Ulft 002/ UM 1:2r: 008 2/2  ACC NRt AP6010432 SOURCE CODE: uWO384;166100310051019310197 AUTHOR:, Arutyunyan, F. R.- Petrosyan, Zh. V.;_Oganes R* Al. ORG; qqpAq~_ ~j~titute in (Fizielieskly institut) Yerm, TIM,': Transition radiation of nonrelativistic, electrons in 1,hiii a3gum: 1pum films SOURCE: Zhurnal eksperimentallnoy i teoreticheskoy fiziki. :I?istma v redkk'tsiyu. Prilozhcniye, v- 3, no. 5, 1966, 193-197 TOPIC ViGS: metal film, aluminum, electron bombardment, tranAtion radiation, angu~Lar distribution 0 ABSTRACT: 7he authors Investigated the radiatio roduced whi.-n an electron-~~~= 2.-- 2 pail with energy R up to 60 kev passes perpendicular to the aurface through aluminum filmii (3.33--329 A) at wavelengths from 3480 to 5500 A and at angles 0 from zero to 90* xelotive to the electron motion. The radiation was anal3a;ed with polarization and interference filters and detected with a photomultiplier. The radiation turned out to lie polarized in the radiation plane and its degree of polarization reached The imperimental results showed a good linear dependence of V ie radiation intensit on s:Lr?6b (00 -- angle between the trauismiasion plane of the *i~olarization filter and the iradiation plane). 1he polarization agrees with the value expected from the G:Lnzl)urE-,-FTank theory of' transition radiation. The differenc,it between the intensities- in the radiation plane and in the plane perpendicular to it vitre compared with the tranis ition- radiation theory and it was found that the absolutitt intensity of the ob-  ACC NRt A16010432 served radiation exceeded,the theoretical value by a factor 1.155. This (liscrepancy is connected with the uncortairrties of some of the quantities involved in the deter- mination of the efficiener of the system. The spectral distribution agrees with the theory for wavelengths 3WO-- 1,00 A,, but there is a greater spectral dependence in the region from 3480 to "5000 Z The experimental angular distribution in also in fair agreement with the theory. The :intensity depended on the time of electron bom- bardment and on the thicluiess of the prepared film, and could increaseup- ic). 30% in the case of long exposureis, Orig. arto has: 3 figures. SUB CODE: 020/ SUBM DAIM: 23.Dec6!;/ ORIG REF: 0031 C M REFs 001 Card 2/2  L 05034-67 EWTM/ K(m)/EWP(t)/13TI U P (a) JD JJGIGG ~~C NH, AP6032471 SOURCV CODE: UR/0056/66/0.51/003/0760/0772, AUTHGR: Arutyunyan, 2L_.L.; Petrosyan, Zh. V.; Ogaaesys:n, R. A. ORG: Joint Radiation Laboratory, Academy of Sciences Armenian SSR (Ob"yedin- ennaya radiatsionnayW111boratoriya Akademii nauk Armyanak,Dy SSR); Joint Ra,dia- tion LaboratoM Yerevikn State Unimersity (Ob"yedinennaya radiatsionnaya laboratortya Yerevanskolgo gosudarstevnnogo universiteta); Yerevan Institute of PhyFitca (Ye evanskiy fizicheskly institut) TITLE: Study of.nonrelativistiLl"electrons in thin m'etal films < SOURCE: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, v. 51, no. 3, 1966, 760-772 TOPIC TAGS: metal film, silver film, gold film, nonrelativistic electron electro radi;ltion, electron energy, polarized photon, optic radiation, bremsetrahiung, i radiation polarization, transition radiatioii/Ginzburg-Frank theory ABSTRACT: Optic radiation ( *X, =3480 - 5500 .A- ) produced by 60 kev electrons traversing thin (d = 200 - 1340 ~X. ) silver and Z21d fL ~rns was investigated experi mentall- The spectral and angular radiatlo gutions, and the radiation Y Card 1. / 2  L Q5034-67 ACC NRI AP6032471 intensity dependence on electron energy and film thickness were investigated for the case of photons, polarized In planes containing the normals to the film surfaces and the directions of observation (emission planes), as well as in perpendicular planes. The properties of light'polarized in the emission plaine were In complete concordance with the Ginzburg-Frank theory of transition radiation. Light polariz- ed in the perpendicular plane w&9 Identified as bremsstrahlung. Polarization of radiation was also analyzed. Orig. art. has: 12 figures. (Based on authors' abstract] SUB CODE: 11, 20/ SUBM DATE: 08Apr66/ ORIG REF: 014/ OTH REF.- 0101 c.,d 212 pW  - 1wr-P )ITIFW.P IJP(o,~--WGJRTM1T1RX 160- SOURCE CODE: urv6Wj66/004/OO8/O2t/02821 AUTHOR:-Amt~~R.; Ispiryan., K. A.; Oganesyan, A. G.; Frangyan, A. A. ORG: Joint Radiation lAboratory, AN ArmSSR and YeGU Ob"Yedinennaya radiatsionnaya, laboratoriya AN ArmSSR YeGU)-. Physics institute, Yerman (Fixicheskiy institut) TITLE: Resonance. radittio of &7ctrons of energy up to 600 Mev in a layered medium SOURCE: Zhurnal it perimentallnoy i teoreticheskay fiziki. Pis"ma v redaktsiyu. -,Prilozheniyep ve 144"not 8, 1966.. 277-,,>82 TOPIC TAGS: resonance scattering, brcmestrahlungp electron radiation, radiation speo- ~rump layered medium ABSTRACT: The authors present experimental results on the characteristics or the ra,diation produced in different layered media by passag& of high-energy electrons. The eXperiment was performed with the electron synchrotron Ur Fm sssR (maximum energy 666 Mev). Different layered med re used. Each consisted of n sheets of a paper of definite thi0mess 11.9 placed in air at an equal distance W, from one another. The a ctrons veKj~registered with a scintillation telescope consisting of two plastie arintillatordnocated on the two aides of the layered medium. The radiation spectrum up to 100 kev vas observed with a pulse-height analyzer. The measurements were made also for a solid mediumj, comprising the saw layers compressed to % - 0. 7he quaiftity measured in this case was that part of the radiation in the 3jWered medivap Vhia Wit; due to the electron bremestrahlmnig in the layered medimim iteelf and In the raminIM Card 2/3  L 04404-67 Xb~--W CI-AM-3-44-1-8 matter on the path of the electronp and allo due to secondary effects. The experimn- tal data show that for relative3y. low -y-quantum energies the radiation intensity in a layered medium depends to a considerable degree on the energy of the electron and ex- ceeds by marW times the radiation intensity in the solid medium. With increasing 7- quantum energy the spectrum of the radiation in the layered medium gradually goes aver into the spectrum of the solid mediump which does not depend on m. Jjj or I when the amount of matter remains conctant. The difference in the radiation intensities in the layered and in the solid medium was compared with the results of the theory of reso- nance radiation with allowance for the 7-quantum absorption on their entire path. The experimental date. exceeded by many times the corresponding theoretical ones even witb- out allowance for the y-quantum absorption. The experimental values exceeded the the- oretical ones also for all the investigated layered media with different mp 11j and n. The observed difference is attributed to the appreciable scattering of electrons in the layered medium itself. It is assumed that multiple scattatring.jeads to the ap- pearance of photons of relatively high energy, normally not appearing vben scattering is not taken into account. It is concluded that the experimentally observed radiation of electrons in a layered medium., with an intensity that exceeds by MWW times in the x-ray region the intensity of the bremostrahlungp and which depends strongly on the particle energy (like En., where n ;*. 2),, can be used to determine the particle energy. The authors thank Professor Y, Ae Retukhov and the staff of the Hisch-eneggy EUctron lAbomtor7 of MN OBOR for the opportunity to perform the present experimentj, and  L o4404-62 -k6e NRI APW34418 also Professor M. L. Ter-Kikayelywi for a dlacusoion. Orige art. has: 3 f1gures &W ~'l fOrMUIA, MM CME: 20/ SUBM DATE: 14JU166/ ORIG RU: 007  ACC NRt AM005541 SOURCE COPE:'---WO252/66/o4.3/oo2/oo87/oogo AU711(,R-. Ananovap L. A.; ArutyVMAn, n, R. A.; Petronyan, Zh. V. AM a 73YIP ORG: Physics Inatitute)(Fizicheakiy instituV Joint Radiation Laboratory of the Academy of Sciences of ile Armenian SSR and of the Yerevan State University (Ob"ye- dinennaya radiatsionnaya laboratoriya Akademii nauk Armyonakoy SSR I Yerevanskogo gosudarstvennogo universitets) TITLE: Transition radiation in oblique passage of electrons through aluminum films SOURCE: AN ArmSSR. Doklady, v. 43, no. 2, 1966,, 87-90 TOPIC TAGS: metal film aluminum, electron bombardment, transition radiation, elec-- tric polarization, angular distribution ABSTRACT: This is a continuAtion of earlier work (ZhETF Pis1ma v redaktsiyu v. 3, 193, 1966), dealing with normal incidence of electrons on films of different metals. In the earlier investigation no radiation component polarized in the perpenducular plane was observed in the case of aluminum. The present article contains the resultal of an investigation of the transitian radiation produced when electrons with energy I 60 kev pass obliquely through films of aluminum of thickness 124 - 329 A. It is shown that in the case of oblique incidence, a perpenditular radiation component appears, the magnitude of which increases with the angle as the altter rises from O'to 45% 7he polarization of the radiation Is then no longer linear and -the plane in which the maximum intensity is obsemed does not coincide with the pl:.ae containing the normal Lcald- 1/2 .- - - _  ACC NRo -AF70055ki to the surface of the film and the observation direction. 7be component polarized in. the direction of observation also exhibits an anomalous behavior. The absolute value of the perpendicular component is on the average one order of magnitude higher than predicted by theory, and the component in the observation direction is about half the value predicted by the thoery. However, the angular'dependence agrees with the theo- retical distribution. It Is proposed that the discr6pancy is due to the special structure of the aluminum films but -the lack of a theory of transition radiation In the case of inclined incidence of the particle in the crystal makes it impossible to draw any final conclusions. This report was oubmitt4d by Corresponding member AN Arm,SSR M. L. Ter-Mikayelyan 20 April 1966. Orig. ari. has: 3 figures. SUB CODE: 20,11 /GUBM DATM 00/ ORTG PXF: 0051 OTH REF; 002  Produetton of nitrosyl chloride by .hl- reaction of' hy.-ij,-,j-er, chloride with nifrosylsulfuric Ann.1,1AR. Khir., nallk-i 38 110.4t408-414 165. (NIPA )"Sr.) 1. Yerevranskiy nati~-,hiio-issiodovtitellrkly Institut khimli. S!ilsnttt,ed July li'l 1964.  ~W,, JI"r- ARUTYUNYAN, G. G. Cand Teoh Bai -- (dies) "Emergenoy oontrol of ii;A;aul4o turbines as a means for inoreasing the dynamio stability of water-power systems," Len, 1957. 13 pp 22 am. (Inst of Electrical Mechanics, Aced Sai USSR)i 100 copies M, 24-57, 117) -34-  ARUTYUNYAW, G.G. Fomergency control of hydraulic turbines ased as a measure for increasing the dynamic stability of hydroelectric power systems. Izv.AN Arm.SSR. Ser.tekh.nauk 10 no.1:49-63 '57. (MIRA 10:10) 1. Vodno-energatichaskiy institut AN Armynnskoy SSR. (Hydroelectric power stations) (Hydraulic turbines) (Automatic control)  AUTH07S: Aru ty)juvan,- Candidate of 30005-58-10-22/28 Technical Sciences, Aslamazyan, A.A., Engineer, Buniatyan, B.L., Candidate of' Technical Sciences, Ovsepyan, K.Kh., Engineer TITLE: On Dynamic Models of Power Systems (0 dinaraicheskikh modelyakh energosistem) PERIODICAL: Elektrichestvo, 1958, Nr 10, pp 91-91 (U'35R) ABSTRACTs This is an approach to several problems which are connected with the investigation of transient processes in hydroelectric power supply systems. The test runs were made at the dynamic model of the Vodno-energeticheakogo instituts, AN Armyanskoy SSR (Institute of Water PowerAS"Armyanskaya SSR). This complete model of a water- wheel power station, built under the direction of I.V.Yegiazarov, distinguishes itself from other models such as those of the Moakovskiy energeticheskiy institut (Moscow Institute of Power Enginnering), the Institut elektromekhaniki AN SSSR (Institute of Electromechanics,AS USSR) and the 1natitut postoyannogD toks. (in- stitute of Direct Current), by the use of a model waterwheel with a penstock as a primary driver. Papers voming from the Institute card 1/2 of Water Power (Refs 1-6) demonotrate that it is possible to model  On _DYnamic Models of Power Systems SOY/105-58-10-22/28 the hydraulic inrush and the torque characteristics of a number of actual water power stationo with different design factors and characteristics without keeping to the rule of geometric similarity. The test runs showed that instead of specially designed machines for the compensation of the apparent resistance in the rotor cir- cuit conventional off-the-assembly-line electrodynamical. amplifiers (Ref 7) can be used. This paper concludes with the statement that a number of newly come up problems cannot be solved by a computer without a corresponding investigation on a dynamic model. There are 7 references, - which are Soviet. ASSOCIATION: Vodno-energeticieskiy institut Akademii nauk Armyanskoy SSR (Institute of Water Power,AS Arnyanakaya SSR) Card 2/2  report) :!;alrl-avka:,,slc. s"y,~-,da ktdrui%-ov, Yerk!van, (on p. 62-(,,.1 SO: U-1;20, 17 Dnc. 53, (Lf-,topis 1:7,hurnal Inly-111-h SW,cv, No. 2:~,  3-'1l 5. 0, "c' (my!t n, '7r o ni r.7 C 0 T~-o'c,-ii (Akai. NntJ- Arir. :-,:-r), No. 2, 1 4 ~ -L , I r yaz. Rezyme na rus. yfir. ya, Letopisl Vol. 7, 1955 DO: Kn i z Inva  .I,- - - ~ -I.- - (' " - I - - - ~ I -. .IT ~T, 'WIP2. Travovoye Pocozheniye Zhenshchiny I ix~torl V drevney J. Srelneve- kovoy nmerii v !-,vyzi 3 Pazvitiyem Akushorskikn Zaniy. Trudy Sektora Istorii Arm. Meditsiny i Diologli ( Akad. Nank AI*M.S3R) No. 2, 1949, c. 97-113.- Na Arm. yaz- Rezyme Na rus. 7uz. SO: Knizimaya Letonis' No 6, 1955  L~arly Ti c:-- to thc 11c;-,innin- vi tl:~ ith 2- 11~1-' fcT A.dvincvd for llvc-rce of Doctorn  MITHAR, 12th cost.; ARWYMAN, G.G. (translator]; OGA)EXSYAN, L.A., redaktor; t~ i [Consolation in faverp,. Translated from the Armeniax] Uteshouis pri likheradkakh. Pereved a armianskege, vveds'xie i kommostaril Arutiuaian G.G.Ei &r.1 pod red. L.A.0goassialt. Arevan, Isd-vo AN Armiauskey SSR. 1955. 264 p. (KM 9:4) DIMS)  ARUTYUNYAN., G.K. Veterinary specialists of the Arzagnian S.S.R. in the campaign for a further rise in liveVtock produ.-tion. Veterinariia 37 no.lt5-7 A 160, (NIRk 16:6) 1. Nachallnik Veterinarnogo upravleniya Ministerstva sellskogo khpzyaystva Arnyanskoy SSR (for Arutyunyan). (Armenia-Vaterinary hygiene)  ARUTTUNYJUI. (I. M. , " ~,: I ~ Developing mineral resourceo in tho Armenian S.S.R Trudy Arm. geoleuPre no-10-10 157. i MIM 12: 1) (Armenia-Ore deposits)  -,, , -1 ~~ ~ / - -I . I,,- ADOVY~N, t.B., P12,YUNYAN, G.M. -- - ". Magneoite formations from ultrAbqsic rocks In Armenia and their origin. Ijor.AN Arm.SSR.Ser.geol.1 geog.nauk 10 )2o.1:37-42 157. (MIRA 10:10) 1. Institut geologichonkikh nauk AN Armyanskoy SSR. (Armenia-Magnesite) 4 . 'k.  24543 2, S/179/61/000/00:1/009/017 .' 6, E191/Ei8i AUTHOR: Arutvunvan, G.M. (Noscow) TITLE: Classification of flows in air shock tubes PER10DICAL: Izvestiya Akademii nauk SSSR, Otdeleniye tekhnicheskikh nauk, Mekhanika i mashinostroyeniye, 1961, No.2, pp. 106-111 TEXT: The possible types of flow at constant pressure behind the front of a shock wave are considered with arbitrary initial pressures in both sections of a shock tube and arbitrary geometric dimensions. It is assumed that the low-pressure section of the shock tube has an open end. Initially, the ekir in both sections is in equilibrium with the surrounding atmosphere. After a sudden breakdown of the diaphragm between the two sections, a shock wave propagates into the low-pressure section and a central rarefication wave into the high-pressure section. A contact discontinuity moving into the low pressure section has sudden changes of all parameters except the pressure and the particle velocity. when the rarefication wave reaches the closed end of the tube, it is reflected and the new wave front propagates with the Card l/ 3  245.43 S/179/61/000/002/009/017 Classification of flows in air shock.... E191/E181 velocity of small disturbances being the sum of the local sound velocity and of the particle velocity. When the shock wave reaches the open end of the shock tube, a rarefication wave forms whose front propagates with a velocity which is the difference between the particle velocity and the local sound velocity. Thus, two disturbances propagate towards each other starting from the closed and open ends, respectively. For a point at any given distance from -the diaphragm, there is a certain duration of constant pressure between the instant of arrival of the shock wave front and the instant of arrival of the disturbance from either the closed or the open end of the tube. The magnitude of this duration is required in practical work with shock tubes. It is a function of five parameters, namely the initial high and low pressures, the total tube length, the high-pressure section length and the distance of the pi-int under investigation from the diaphragm. Some general relationships applicable to shock tubes are formulated. Three classes of conditions are distinguished. in the first class, the particle velocity to the left (closed tube end) side of the contact discontinuity is smaller than, or equal to, the local sound Card 2/ 3  245LIJ Classification of flows in air .... S/179/61/000/002/009/017 E191/E181 velocity to the right of the discontinuity. In the second class, the above particle velocity lies between the local sound velocities to the right and to the left of the contact discontinuity and in the third class the same particle velocity is greater than, or equal to, the local a-ound velocity to the left of the discontinuity. It is found that the first class includes 12 flow conditions, the second class 11, and the third class 7. None but these 30 flow conditions can exist without violating some of the relationships derived. Non-dimensional quantities are defined whoue values characterise each condition. Each quantity depends on the ratio of the initial high and low pressures in the shock tube. Ya.R.Zelldovich, A.S.Kompaneirts and Kh.A.Rakhmatulin are thanked for advice. There are 12 figures and.2 Soviet references. SUBMITTED: December 12. 1960 Card 3/3  ,~~Tlp G - ~~LY - _ _WL_ bskva) Propagation of vea I ,~ ahodk vaveso IlvoAN S3SR.Ok,tekh,nauk.Mskhji mwhinostr. no-5d%~-T?2 SO 16~, (MM 15.'10) M4 waves)  TER-KARAMYAN. N.A.; AVAKYAN. Sh.A.: ARUrYtWAIF. G.0, Wmwwft.~ Wfeat of enviromental conditions on the budding of Torulopols R=enlacae Pokle-AN Avue SSR 10 -ao,5:-223-228 149. (IWA 9: 10) I* Chlea-korreepondont Akadomil nauk Arewanakor 30 (for Ter-rara- petm) 2e institut thivotnovodetva Akadenti wLuk Aripnskay SSR. Yerevan. (Yeast)  ARU`1y0NYf)N, ('r-S TIR-KARAnTTAN. X.A.; AURTAN. I.Kh.; AVAKW, ;Sh.A..; ARUTYUNW, G.S. Technological systems for manufacturing yeast in small installations from agricultural wastes. Izv.AN Arm.SSa.Biol.i sellkhoz.nauki 8 no.1:45-56 J& 155. (K12A 9;8) 1. Institut zhivotnovodstva Hinisterstva sel'skogo khozmstva krm. 6M. (Yeast) (Feeding and feeding stuffs) -I-   fiAti-lyVIVY191V~ Q.S. USSR/Pharmacology. Toxicology. Analgesics U-3 Abs Jo~r :Ref Zhur-Biol., No 7, 19589 32878 Author :Kashkovskiy M. D.,.Arutyunyan G. S. Inst :Not given Title :Ahtorphin (N-AllylnormorVW1-neT as an Antagonist of Promedol and Isopromedol. Orig Pub :Farmakol. i toksilologiya, 195?, 20, No 1, 17-22 Abstract :Muscular relaxation, slowed respiration (from 180-130 to 20-12 per minute), and loss of pain sensitivity set in 10 to 15 minutes after prome- dol (1) and isopromedol (II) in doses of 10 mg/kg were administered to rabbits. The intravenous ad- ministration of antorphin (N-allylnonnorDhine; III) in a dose of 2 mg/kS removed the depressing effect of 1 and II on respiration, restored motor activity and pain sensitivity. Upon the simulta- Card 1/3  USSR/Pharmacology. Toxicolo&T. Analgesics U-3 Abs Jour Ref 7,hur-Biol., No 7, 1958, 32878 6 Ab.,v',-tact dose of 250 mg/kL:;) did not reduce the number of fatal results caused by morphine. The subcutane- ous administration of III in doses of 10 to 50 mg/kg produced no change in pain sensitivity in the animals, but reduced the pain relieving acti- vity of 1, 11, and morphine. The intravenous ad- ministration of III to mice in a dose of 200 mg/kg caused no changes in the general condition of the animals. A dose of 300 mg/kg of III killed all the experimental animals. A drop in blood pressure and 6ither stimulated respiration or no change in the latter were observed in cats anesthesized with urethan following the administration of III in a dose of 1 to 50 mg/kg. Card 3/3  USSR/Pam-meology ana Toxicology. Analgua:Lco V-3 Abs Jour : Ref Zhur - Biol., No io, 1958, No 47135 Author : V-utyunyan G. S. List Title Anadol, a Now Analgesic Preparation OriG Pub Mcd. prom-ot' SWR, 1957, No 4, 53-54 Abstract In experiments conducted on rata, rabbits and dogs, Anadol (0~ -form of chloral hydrate l,3-dimcthy1-4--phonyl-4-pro- pionoxypiparidino; nisentil; alphaprodinc) (A) introduced subcutaneously in a doso of 2-3 mg/kg., produced an analgesic effect which was oqually as strong, but more lasting,than that of promudol in a dose of 3-5 mg/ke. Simultaneously, general sedation, relaxation of sk-alctal musculature, drows- iness and slecp were produc~~d. After the introduction of an insignificant decrease of tho blood pressure and a de- crease in the frequency of respiration were dbscmd. In higher doses a depression of reopiration occurred. The Card 1/2 9  TIR-KARAPETYAN, M.A.; AZARYAN, EX4, ARUTYWYAN, G.S. Inailing ear corn with hydrochloric acid and avlfur dioxide. Izv. AN Arm. SSR. Biol. i sellkhoi. nauki 11 nc..7:55-61 Jl 158. (MIRA 11:9) 1.Inetitut zhivotnovodetva I veto-rinarii Ministerstva sellskogo khozy7astva ArmSSR. (Ensilage) (Corn (Maize)) Oulfur dioxide) O~vdrcchloric acid)  KASHKOVSKIY, H.D. U=u".912AP, 1'. Antorphine and other morphing nntagonistse Hed.prom# 12 no*6:3 -40 Je 158 (MIRA 11:7~ 1. Ysnaoyuznyy usuchno-insledovatellskiy khimiko-fnrmntsevtiohe9K.V institut Imeni B. Ordzhonikidze, (NORMORPHINE)  A.RUTYUNYAN G.S. r I*owran., an analegesic. Med.pr=. 15 no.5:38--/+O My(161. nM 14:6) I.,Vsesoyuznyy naucbno-isoledoritellskiy khimiko-farmatsevticheskiy institut imeni S.Ordzbonikidze. (MORPHINAN) (AKU=ICS)  41JTln=Al Go3e Properties of viadrilp an intravenous narootio of sjte did structiwee Mode.prcma 15 no.6:55-56 jo 61. 150) 1. Vsesoyumny-.~ nauchno-issledovatellskiy khimiko-farmatBov- tichaskiy institut ImVd Ordzhonikidze. (PREGNANEDIONE)  ARUTYUNYAN, G.S.; ASHKOVSKIY) M.D. Pharmacological studies on N-oxidee of niootine. Farm. i tolus. 24 no.5t534-540 3-0 161. (MIRA 14:10) 1. Laboratoriya farmalkq~jogii (zav. - prof. M.D.Mashkovskiy) Vaesoyuznogo nauchno-issledovatellskogo khimiko-farmatsovticheskogo instituts, imeni S.Ordzhonikidze. (NICOTINE)'  MASHKOVSKIY, M.D.; ARUTYUNYAN, G.S. Pharmacology of 5-methaxyL-~,rptvnina hydrochloride. Fam. i toks. 26 no.ItIO-17 Ja-F 163. WIRA 17t7) "&: 2, laL-cratoriya farmakcIogii (zav. - chlen-komispondent AMN SSSR prof. YI.D. Mashkovskiy) Vsesoyuznogo ruLuchno-issledo- vatoel'skogo khimiko-f&rmatssvtioheskogo instituiA imeni S. Ordzhonikidze.  _A_PT.yUNYAN, G.S.; MASHKOVSKlY, M.D.; ROSHCHIVA, L.F. Pharmacological properties of melatonin. Farm. i toks. 26 no.6z650-655 N-V 163 (MIRA 1892) 1. Laboratoriya farmakologii ( znv. - chlen-korrespondent *T S&qR prof. M.D. Mashkovskiy) Vsesoyuznogo nauctmo-isaledova- tellskogo khimiko-farmatsevt1cheskogo institut& imani S. Ordzhonikidze,  ACC NRi -CA-A AP6023942 SOURCE CODE- AUITOR:_~~~~.-S..; Roshchina, L. F. ORG: Pharmacology Laboratory blend -- Gorresponoing mombor AAN S55R Professor M. D. Mashkovskiy] All-Union Scientific Research Chemical- Pharmaceutical Institute (Laboratoriya farmakologii vscsoyuznogo nauchno-ionle- dcvatel'skogo khimiko-farmatsevticheskogo, institute. im. S. Ordzhonikidze, Moscow) TITLE: Action of mexamine on conditioned-reflex activity in rabbits and rats SOURCE: Farmakologiya i toksikologiya, v. 29, no. 3, 1966, 267-270 TOPIC TAGS- drug, drug effect, conditioned reflex, cortical activity, inhibitory effect ABSTRACT: '.The effects of mexamine (5-ueffio)ytr~Ttainine) and serotonin (5-hydroxytrypt- ;,amine) on food procurement reflexes in rabbits and rate were studied. .kexamine in small dosee interrupts the conditioned reflex and in large donee inhibits cortical activity, whereas serotonin hen little or no effect. "[W.A.-50;-CBE No. 101 suB com o6/ suBm nATE: i2mar65/ ORIG REF: 005/ 0711 REF: 008/  POSTNIEGV, I.S.; AHUTYUHYAN, K.G.; TUCAEREVA, N.J. Laboratory Investigation of the p7ocess of wante water purifIcation with the nerArate regenoration of active sludge. Naucti. trudy AKKII no.20,.40-54 163. (KIRA 18:12)  tdtLT-IYL7-NYAN . k G . , inzhener. .......................................................... ......... Mechnaized tie re-oair. Put' i put. Idloz.no o8: 24-2.5 Ag 1~7, (1!1111 10:9) (Railroads-Tieo)  ARUTYUNYAN, K..G., inzh, Mechanized laying of rail lengths. Put' i put. khoz. 5 no,1:4,-5 ja l6i. (MIRA 14: 5) (Railroads-Tracklaying machinery)  0 1 . 1'. , , i, , W.,A, 4~, ~rj., ~/ .,i , . j-'/ I ARUTYUNYAN, X. 0. Cand Teoh Soi -- (diss) "Purifioation of sewage in oesepeol ~ ~t, vy airtankes" Most 1969o 14 pp (Acad of Hoonony im K. D. PwrLfilov), 160 oopies (111 (KL, 62-59, 120) -54-  ARUTYUITYAN . K. G. Purification of waste waters in a CDIabinod aeration and settling tank, Sbor* naucho rab. asp. AKO no.l-.5-20 159. (MIRA .14:7) (Sewage-Purification)  ARUTYUNYAN, X.G. Patterns of the process of sewag,) purification in air tanks with uniform spes-. )f oxidation. Sbor. nauch, rab. AXKH no.60-14 161, (MIRA 15:3) (Sewage-Purification)  POSTNIKOV, I.S.; ARUTYUNYAN, K.G.; TUGUSHEVA, N.Yu.; ELI, M.A.; KARYUKHINAp T.A. - Semi-industrial studies of air tanks or clarifiers developed by the Academy of Municipal Economy at the Kurlianovskii aeration stetion. Sbor. nauch. rab. AKKH no.6sl5-35 161. (MIRA 150) (Sewage-Purification)  ARUTY01 "If Karlen Gaykovich, inzh.; PROKOFIYEV, P.F., inzh., retsenzent; MLEPAYEVA, Z.A., inzh., red.; USENKO, L.A., tekhn. red. [Mechanized laying of rail lengths; work experience of track machinery stations] Makhanizirovannaia ukladka rellsovykh pletei; opyt raboty putevykh mashinnykh stahtaii. Moskva Transaheldorizdat, 1963. 76 p. (MIFA 16:51 (Railroads-Tracklaying machinery)  USSR / General and Specialized Zoology - Ins,-4~cts. Abs Jour Ref Zhur - Biologlya, No 5, 1959, No. 20880 Author Arutyunyan, Kh. M. Inst i-Arm-eWM Sclentific Research Institute of Agriculture Title :Some Data on the Biology of the Mallow Moth Orig Pub :Byul. nauchno-tekhn. inform. Arm. n.-i. in-t zemledellya, 1957, No 3, 30-32 Abstract :From the entivo number of butterflies caught on a meroury lamp P.,IY-4, there turned out in the hibernating generation, in 1955, 45,1 females, and in the summer generation - 44;~; in 1956, respectively - 44.5 and 41%, and when cauSht on a kerosene lantern - 49 and 77%. In the beginning and at the end of the flijSht males predominate in both generations of Card 1/2  POSTNIKOV, I.S.; ARUTYUNYANj K.G.j TUGUSHEVA, N.I.; ELI, H.Ao; KARYUKHig-,-t~*'A 9 Investigating the operation of an air sedimentation tank at the Kurlyanovo aeration station. Nauch. trudy AKKH no.20:8o-96 163, (MIM 18:12)  ARUTYUNYAN, L.p inzh. Intensifying the electrolysis of aluminum. Prom.Arm. 4 no.D23-25 Ja 161. (MIRA 14t6) 1. Yerevanskly alyuminlyeW zavod. (Brivan--Aluminum-Electrometallxirgy)  ARUTYUNYAN., L. Some problemis in the increase of alumin= prochictione Prom.Arm. 5 no*5: 27-29 My 162. (MIRA 15t7) 1. Yerevanskiy alywdaiyavvy zavod. (:&rivan--Aa=imm industry)  FV=n%Mvw RM v 1w 0 a 00 0 1 6 F I I to 11 1) 11 14 If 16 If a it 17 a is -b _J11, Is 4 a It it 13 ids apmosil 490w do'. it JI , ; '. T - a A~111 L 11 P 0 1 1 _P ~ IF A. P__jL_ Y.. 1. AA I* IL III U4 1_4 -1~ -A- C-4-A P 1. j4._AL_ 4 r , - . I I it. v4plaq -00 I ta. vqfj,._~_ - :i .. . , _ - --, - --". - - 00 The hentolyfic properties of fat acids and fats, 1-~ !i, 'so 00 :, 00 .00 110.1-241 JR15). Ckem. le.1r. 1936,11. 44W. - luix-stivii- fitm Of the N-FoOltliv st-luni Of Lit avid, howird that Ov Ull"Id. wid-, as a miult ,f Ow Irt, -I,Kil,le 1-tjd~. rmtk d .1 highly litillotlylic Atli ... 1, iihile, tile 'at4l. 064" like fix K91Y mid.L. did n.3t %ts,,w %tits lit"In-fly. TI'vilvilsoll G action (it the ultald. amts d, jWtidtaltiml ent Iy (41 ttmr, w ahutll tLe 0 frOut tile t1)1hOW)tvq. It, molviie no ion i- 1,,,t % JO-fi I lie im-4id ~ a, ukmv. xithio I 1,v stiff. 01. The fats and oili, whither of vtvlaljlc tir see 0 a AlliIII.11 ofigill, all lth'-w a Int're of ICU. sitting 11,118olyti.. o* Afte.: 00 lIvd1,%.VImtwfk 411 Oll, th~ hell'Olviie ill.), % 'llop, harp)y. 00 .title I, filostig has nvivltt~t. 0 0 littlicr sho%tA mly %vry %12KIst favitudylic ptisinmes fit ass 00 addii. III a low &Hdiiv And a it, it. reacti-m Oil IlAc. SlKal. goo OlK Or thr Imller (Imi,,Ylitins rAtivid) pit 'Imi d t h4HAT% Ill tit 1114t1wrilit, arvolullarlird lly R niff. alilill)l1c Itiollokil too 00 :111.1 later, if% a ft-ult Of the ("Ittlatioll 14 furthut (kmilln. a itiliteiion i~i the It, moli tic ir,lv% %lilt otm-aw zoo M tilt' A,-illitV 411111 A 1-. 0111111%,11 IV44-11t4t. I he 'AgI1111- '90 '4411V Of 1111-4- lI1Oj?Cttit- Of (At (101ti, tilt! WUN11.41tt of (At is tfointed ow. W. A. Motme 00 *a use Of too A I A SITALLIACKAL L111RAILWE CLASINFICA110M Ila. 1111.11". so so ;";;;.e ! -1 o%, J., ~*L 3, All, , . 1. j - .--. -1---T- -j-V--j -- 6- 1 V 17.1 An i a 0 " vono wat Kit W91 Kct" UMML311 I dm~ 1~ 70'$e us "a 0 0 0 0 0 0 0 0 0 0 0 0 0 a : : : 0 : 9~1111 0 0 0 0 0 4 16 6 0 0 0 0 0 00 4 0 0 0 0 0 0 0 0 0 9 0 0 0 0 0 0 6 0 0 0 O's a a 0 0 * 0 it Ill a a a 0 0 * 0 0  *1* 0 - - , - a v ~! Q, cpv w a , - , 0 0 o 0 0 1000 o 00 ***'1 A 0 c X, 010 4 A-, A 0604 fw W DOWAInUft of I"& is ftsW "i 5"f KM&12- I, A...Arutyunyoun mid A. TaribelklYan (Vt1trani Jlihioii)n (ProNfmA of writura). 71-7 .5 1 C. Abs, 19W. 30 tinflip is diw4vr-~41 ~ IINO,. the I'll JiML114tate(i by tim 1wMilitstv, Mitlifupd, RMI the jvrMn%w of 114 dolortnilwd frolu the volutur (it 1,100, 0 fumed undeT known centHfuginst caMitimm.-N. It. V. -- -------- L INATURE CLASUFKAIPON 7 U AV 10 Is a it U a I PA I I 0 0 0 0 o 0 0 0 0 a 90 a 0 0 St 9 9 SO 0 0 0 0 010 0 * 0 A -L-L-A ...60 1,09 goo coo Me too 00 lee NO 0 SO 8 1 w 14 9 a a 3 1 1 q 0 0 0 0 0 0 6 0 0 * a 0 0 0 0 0 0 0 0 0 0 * a 0 o 0 G~  '111 V$411I )OVAR k" 1; it Hit 41-fthA r s 0 ill A t L is cx w t ig 6, 00 4 1 1 I potema" mUhs"S Is the Kotak-bb Caviare. -Aluty=mn moul A. D. Kaim *I'. I'll Is! ~ 1,42911p h 4 No M. he mak fish ma V * 00 . , y -00 tuilmillus even when the mrst it lit-Ife,41Y -atr. Bal. )~I go a CIU09kAl SlUdk'g 111(litAIC 11101 the lkii0thli(IIIII %ill-. 1 -0 0 stance is not (A t*CtCt#Al Witill, that it is Wal"t tm%l)- j within the spawn cTl!s. The fatal cl,"e 4 ppamu fix -0e 00 i1figolvili-10S.Veir I III. I II It .lea pis. 3 1r. "rdir.", di. . In noid I dtai w e 100 t s the -00 . r w r p, p aftet 41tV P. It. R. COO 00 so --0o t It Is I-, -1 #t a it a It Ill It M - - - a goo it w 0 0 0 0 . 6 q 0 6 4 a 0 see 0 0 0 of 0 0 0 IN  t & P i I to it u is It is lit ;t 4 it III v a Is JS* M a P 6 r-I It f-&- , IL L 1 1. v V. LE-1-L. M N CC VVIII A V-0185 #$a 00 .4 1111'resdilsdon of the IOW grova regotabits a Armenian S. S. Itepublic. L. A.,Am ~rhocysn and S. Petroffm. 4-6(103).-An investigation of vege sblk~. I ther produrts of k" orWo. IW. 77-M).- - turr. dry wt.. protein, fat. carbohydrate. MI salt,'Awitents art given for about N)*dR* plaht "Knivi Armenia. RI x V u u ad a is 11 x to a it Q 6) a are I a. i I_z 4 J 'A A -1 _j .. 0000~2 t~ to A in the ALM. , N.. rs. I. mns and he nmi-- roll. and svown it, If* %U14111. AI.-SLA StIAMIC6KAL LITINAILdt CLOSIFKA110% Ij 0* . ..... ire* -1 ' -,- 41,40; 4- w- I - T-IL -a . _i so.) too I 1 1 04 it a 9 - It tv 44 w 41 It i1 wt it to 4w Mto A I we 0 00 go* 0 0 0 0 0 00 0 0 0 0 0 & 0 0 0 0 0 06 0 0 o v 0 0 0 0 0 0 * 0 0 0 0 0:0 0 0 0 0 0 0 0 0 0 0 0 6 41 0 0 0 *;A  03 If JI 14 A A 1 0 L It 14 V 1. V a 0 1 I AA 00 UP (1 4 4 A VJ T J fl M, 00 00 00 00 -00 A study of the chemical COMPOSItt" Of fruits of "Sclultt 1.00 00 -Caucavlan date"). N... S . all Oklml S. Pvt (Avvan. fmits 11,1411 Kilurelt, ~1111'10 N. 11111. - A7.7 (.11MMI ;j :1 1 u. l i . Jo Il ll"g. 2113, " x j ,,;l` 00 thvr rrki,.Il% on fruits from 4) ;a t P "n""t 11 11 cf - Ijjxxj agrertlirlit mithough lite" il a 91"10 114%c MOM Mltlo.. .11,1 k- iO f i , rl rll to 16%). th 144111I.I.-I'll 9111a1. 1 .4 00 i 's 0 A 0 00 . '-T SasZ- * f ? __ - , _ - - -, too o I 4 j c M U a AV io A 0 . A it K tt It 1 f o 09 60 0" o 0, 9 0 I I AA I t a w 11 0 v I of 4 1 0 if di of 41 0 0 0 0 0 0 V O 0 a 0 9 go 0 0 0 0  0 0 go 0 0 0 u w U. it v 0 It j"i a all )0 ;a 11 12 H III a Is 91 boa ciao *act I I AA Alf 1w_ 1.4-9- A. A-t- iL LA4 M. t A. A 00 00 : &no detachou of coal W dyes in loo4 proiticts L. A. Atistyployan siM ',%t. Kh. Brallic"ova. 1"tp,y o( C J,&%jjj I% .)~& S,- No. 0. 115-' %., I ICJ(;). A 1 ul4v i6 9 TitA 00 a largr no. of d)-M Which 111AV W- I-It%llt III 1,%R1 11141RILki- -46 0 00 ILIXI (of 1111-it 11014-liklill *1114 %A11041- Illoftl 1141,1114 And 4 go a -09 (6 9si -0 * 00 't 09 is go ') tao 0 1:, ItO 0 coo I A0 0 :00: WRIAMANGICAl. Lit hoe Zi, d. 1$100 1'2&#A1 %I. two --lirsitt a a ) a u u AT 00 0 AT I of Ka A 1 .4 log o 0 0 0 0 0 ; 0 0 0 0 0 0 0 0 p 0 0 0 6 o o 0 0 0 o 0 0 0 oif, 0 00 000 9 0 0 Of 0 0 0 0 0 0 Ott 4 0 4 1 0 9 R 0 0 4 0 0 0 0 0 0 0  A to 4 ts * ci's A."IJ l. r, ^ P. h. v v 11 .0 Q P.0 * * F it It I I v v 11-A t -A UL w 91 1 . 4 0 0 j r j tj ii Activity Ware An ml AIX, In$ (lint Not 11114% A fro zoo 0 0 ;.60 .00 It u III AD is"i 4 I t 1 ON In a w I T AA 1 4 6 tu :1 84 Al- I 0 1 , o to :0 4 a a t K U R 4 0 1110 0 0 0 6-0 0 0,00 00 0 01 0 0  so nio ***foe*** I v an 31 11 32 a M a %t at a a n 0 10 6 4 X L At 0 9 PQ I J~ A- it 21 gar 0 Oil *12 11- Puv ~Lls,o-g,m at-11 11-11- 1 00 til? q-11VIV S'(j a*. I go *a, allit'!w1l p SJU31wv -utul puv Fvl%l U'l j"lu3,j4d aiv W1941 0.\, -11,1 410401 'Ul-(Un-();Uy -4X P~41 UTAdtUl-fijV*,lV'-' 'I ION"Od Q~Gauuv 10 con"W= 1"Imor wn )a 101S a*- *a-, go so- L *0 it 0 4", 1 t V I a :t IT If p 'I of a m a it if it s4waffam 11, a It It it a it a 4 1 A 0 4 t lie 0 a a 0 4 a 00 0 0 00 0 0 0 a 00  Wtv Cbemical Abstre VoL 48 No. 5 Her. 109 1954 Biological Obudetry q some We 1~014,6j *ducts conditio"- a chfactle zpatupst. L. A rutyun=Med. Ing. and Zootetb.-Veet. Ind.,. wasnY o osy Pd4niys 12. No. 5, W-9:19W-T~i oddn. of common spices (in the form of the plants added to the 4t) to the diets of exgd. dogs laids to inefeased molof -tivity of the am end Increitsed gastric secretion; Re :r with animals provided with vadow fun '1 pouch. Mu*ton aiums less active gwtrk 'cretion In dop than does beef; Hie diet of meet as such Met k" prolific g$3tfk secietion than does a diet of in- "all orpne of the animals. Thwi the Petrie activity Is delicate physiol. function which Is affected readily by the tttm of the Surnalul. 0. M. K PO-S-  --l-7 .. T 4.19 1:'nl,-ba ynrevan'. AyPetrat, 30s. s ill. 2r, gn. ziravoo'khraneniya AT% 'SRI). 5.r'(101 elc.,-. '45k.-*Ta a,,Y,-.. 6L~.31:064.6. SO: Knizli-mayn, Intopis, Vol. 1, 1955