SCIENTIFIC ABSTRACT S.E. FRISH - V.A. FRISH

AlLuthors.'4ishp -30 E* ejad Timre",_ A* V. title s A course in general-Physice 2nd edition, revised and enItirged. Approved by the Maistry og bigher education of tho U.S.S.Re as a timt imok for VbpIcal avid tectmica faoultios of State Universities. O',urs obahchei Vol. 21 She electrical and elaotromapetic pbemena# 591 Ps Citirt LV State PtInting House of the Technical and Theoretical Literature Date% 29141 Availab3aj ZMuvry of Congms Sourcet Mmthly List of RMOUn Accessiows ve 3P no& 8, page 522  0 A 1 1. 1 4- 1-1-k Is 0 0#0 "tolleflit 191141 Lim amm Ow as wa*W 000* of Fmm Am L VA. USX. son M 13 a trio. 4) 46"1.-72 t190) 1. aw"M. A NOW pumb-pull vaW powasor wm md " a : soume of Gbd" oldowom The emwawg was o comwaid to do ouke dwuodn 0( Like dkdmww .00 d tube by .00 self-indwtafm and cepakamm. the Orr4mor cmM tv mok to Owk fto A - 9 to 100 M. 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Wits Wed snot the elev(raxics %it-re upplj~l t~p 1_111 ell1l, j4 the L. the closs"irter W lite jj,ILjrg, et"111lig Icligth%i~ frivol the hivrimitAl leg w.. liflervIlt Irtnt, Illv ,tilt IfOw the ClIttlit-Al lklortit,". A hish4iripmacy ritill ill-ch.irge was miap trini. S. IAlisvirt  adozgoaqoads ;Tkoqq.Ta xaqa=ouvAEvB Aq pa-mimum aq two guovmuoo UTv4AQo =,P= axawm Ow sapn-r=o:) -samsmxd zoduA mmTsao smofAvx i0j. cmuoo) Uo%wT quall ..i 06 "WAOR 'AM azamg am Aq u"19 saun a jo saT!~jom4 -w; jo 0'rma 30 ta-UPSTL 4XPTT Jo, qqQm(*m UT kmo -taz,;Tp Ivq!~ I;ao=os 9.1apTguoD -Gaomoe 4MOT-C g.& sa,;z -TocrnuT atrT-L jvxpads jo waEqoad saiRmoeTCE 9-E-= dd 'g OR 'All TOA ZT9 ZOS 'ESSS XRvK AV 21, TuaXT a ;a4vW vv,2mTuaq 14sui sAqa saa Tos llqsraa ~la *s ,IsuoT:poT-[ddv xT--qx jo aTv:jzaD ptm ;,Bxvqof;Ta BUOOM uT UOT4dzosqvajj 4q2Tvj jo vu;~~aqg, uoTqdxoscLaaH M 08(1/.&OK Adoosox~zads - ao-rsAqa1Hsra  1. FRISHP S. E. 2. USSR (600) 4. Physics and Mathematics 7. Works on Anomalous Dispersion in Vapors of IMetals) D. S. HozhdestvenskV; S. E. Frish., Corr-Mem Acad Sci USSR (editor); N. P. Penkin (comientator). ("Classics of Science", Acad Sci USSR Press., 1951). Reviewed by V. A. Fabrikant., Sov. Kniga, No. 7, 1952. 9. JM Report U-3081, 16 Jan 1953., Unclassified.  FRISH S. E. USSR/Physics Spectrograph~ Apr 51 ilSome Problems of Intensity of Spectral Lines," S. E. Friih "Uepekhi Fiz Nauk" Vol XLIII, No 4, pp 512-535 Reviews photometric relations, methods of meas- urerients of intensities of emission and ab- ,sorption lines, effect of reabsorption on in- tensities of lines, and describes exptl res In Leningrad U on vapors of cesium. 181T83  --.WO Frish, S. E. Dwaitrii Sargeavich Rozhdoetvenskii (on his 75th birthdW), P, 238, SOi Progress in the Plwsical Sciences, Vol. Xr.TV, No. 2, June 1951, (UsPekhi)  Til'-, -~-G=Jttec 0z; Lte-l In prizer. ~101 the ~;Loujwlj of Miniaterf. !A.1-'ji.) 1;-. tlir of Afid 11AV4XILl"S WU1OUnO*&i 01ht "L. followliW. P4-14-.mttf1c- vorks, pop-,ptr e-zli-rt- bejoxa, and textbooks have been submItted for coa4)etition for Ftall.ri Priz.-~p for r- t -2 - j the jeaxfi !~~Z bad 1~53- (Sove skilud Kultara Mu2scow, %1. Z~ 'Ci, Fri.~ 3 Api 54 %me Title of Work Ell Frish, S.E. "Course in General Physics" (Vol I Timoreva, A.V. and 11, 5th. edition; Vol III, 3d editLm) LeninCrad SttLte University i7-cni A.A. Zhadanov  PHASE I Treasure Island BibliographiO Report BOOK Author: _JWj26W V. J&,.and TIMCREVAI A Full Title: COURSE IN GENERAL PHYSICS~ Vol. Transliterated Title: Ewa obsbohey fisikip Publishing Data Originating Agency: None. PubLishing House: State FublishiW House for Date: 1952 No. pp.: 560 Editorial Staff Editor: None Editor-in-Chief: None Text Data 00000034 Call No.: QC21.F734 I. 4th edition. Tom I Teehnical-Theoratical. Literature No. copies: 100,000 Technical Editor: None Appraiser: None Coverage: This textbook describes the physical fundamentals of mechanics (kinematics dynamics# work and energs gravitationg motion of solids and liquidel, of molecular physics tgasesp fundamentals of thermo- dynamics, molecular phenomenon in liquids and solids)# and of vibra- tionp waves, and acoustics. The book requires from the reader some knowledge of general mathematics including calculus. Purpose; Approved by the Ministry of Higher learning in the USSR as a textbook for physical and physico-engineering faculties of state unAversities. Facilities: None. No* Russian and Slavic References: None. Available: Library of Congress.  PHASE I Treasure Island Bibliographic Report BOOK Author: PISH, S.E. and T314MEVA, A.V. F~LU Title-: I 060trV GENERAL PHISIGSp VOL. Transliterated Title: Xurs obabohey fisikip Publishing Data Originating Agency: None Publishing House: State Publishing House for Date: 1952 No. pp.t 616 Editorial Staff Editor: None Editor-in-Chief: None Text Data 101 41 Call No.: QC21.F734 119 4th edition Tom II Technical-Theoretical Literatures go. copies: 1009000 Technical Editor: None Appraiser: None Coverage: This textbook presents the fundamentals of electrostatics (basic phenomena in dielectrics and non-dielectrica), direct current (basic laws and electrolysis), electromagnetic phenomena (magnetic field currents, deflections in electric and magnetic fields), and electro- magnetic inductionsp oscillations and waves. The book requires from the reader a knowledge of general mathematics including calculus. Purpose: Approved by the Ministry of Higher Learning in the U.S.S.R. as a text- book for physical and pbysico-engineering faculties of State UrATersi- ties. Facilities: None. No. Russian and Slavic references: None Available: Library of Congress  7 rR "'Zi WIRI-"U, -Tht 112ht by Um wLce wax ttudW undcr cowlitl~mv d gas dis- d~llce.v v1pis. wat taffitd out vrith Cs at Vapor Tt.,mmir'ZI of 4.3 10-1. 1 X 10-1, ard2Z X 10-Imin. Thececd. of 44WPUOn, ii,, "a ded. Nir diffmat 5Pv.Ctvd Rums. b  1. ~'T~Isp' S. YE. 2. USSP 600 4. Physics 7o Presentation of mass and encrpy in contemporary physics, Usp. fiz. nauk, V, No. 2, 1552. 9. Monthly List of Russian Accessionsy Library of Congress, April 1953, Uncl.  PHASE I BOOK TREASURE ISLAND BIBLIOGRAPHICAL REPORT Call No.: AP618857 Authors: FRISH., S. E. and TIMOREVA, A. V. Full Title: TEXTBOOK ON GENERAL PHYSICS. Vol. III.. OPTICS. ATOMIC PHYSICS. 3rd rev. ed. Transliterated Title: Kura obshchey fiziki. Tom III. Optika. Atomnaya fizika. 3 Izdanlye ispravlennoye Publishing Data Originating Agency: None Publiohifig House; State Publishing Houce of Technical and Theoretical Literature Date: 1953 No. pp.: 644 No. of copies: 50,000 Editorial Staff: None Text Data Coverage: The book contains the last two parts of a university course in theoretical physics as supplemented with accounts of re- cent developments in the field of lip.-Jit an,] atoritic physics. The first part, that on light, describes recently advanced theories covering light passage through Isotropic and anisotropic media refraction, diffraction, spectroscopy, Interfrential measurements and electronic emission. The second part, that on atomic physics, presents a general description of the fundamental ideas of modern nuclear science with a minimum of mathematical explanation. 1 /7 AID 426 1  Kurs obshchey fiziki. Tom III. OPtika AID 426 - I Atomnaya fizika. 3 izdanlye ispravlennoye PAGES .276-277.'Surface of normal and biaxial crystals. 275). Inter- ference of polarized rays. 280. Crystallic plate between nicols. 282. Artificial double refraction in the electric field. 283. Rotation of the polarization plane. 284. Magnetic rotation of the polarization plane. Ch. XXV Light Emission in Moving Bodies 198-223 285. Experiments with moving bodies. 286. Theory of relativi- ty: 2& The results of conversion of the theory of relativi- t~ 28 . Optics of moving bodies and the theory of relativity. 2 9. Mechanics of the theory of relativity. Ch. XXVI Luminous Flux and Thermodynamics of Radiation 224-281 290. Function of visibility. Luminous flux. 291. Ligqt power, luminescence and illumination. 292. Intensity of Il- lumination. 293-297. Photometry and photometric measurements. 298-302. Thermal radiation. Emission of black body. 303. Sources of light. 304. Optical pyrometry. Ch. XXVII Geometric Mies 282-361 305. Introduction. 30 -310. Reflection and refraction on various surfaces. Magnification. Position of main focuses and planes of the system. 311. Telescopic system. 31'2. Errors of optical systems and methods of their elimination. 3/7 40  Kura obshchey fiziki. Tom III. Optika AID 426 - I Atomnaya fizika. 3 izdanlye inpravlennoye PAGES PART EIGHT - ATOMIC PHYSICS Ch. XXX Structure of Atoms and Molecules 425-542 337. Introduction. 338. Nuclear model of the atom. 339. Regularity in atomic spectra. 340. Nature of spectral. terms. 41. Structure of the hydrogen atom and of similar ions. 3~2. Elliptic orbit. 343. Spatial quantum orbit; mag- netic moments of atoms. 344. The effect of external magnetic and electric fields on the spectrum. 345. The spectrum of alkaline metals. :346. Difficulties In the Bohr theory: con- cept of electronic spin. 347. Spectral doU)lets. 348. Atomic spectra with bi- and multi-valent eleotrona, 349. Mendeleyev's periodical system. 350. Buildin up electron shells (Mosel graphs for isoelectronic seriesT. 351. X-ray spectra. 352. Intensity of spectral lines. Probabilities of migration. 353. Structure of molecules. 354. Vibration spectra (ban&,I) of molecules. 355. Rotating spectra (bands) of molecules. 356. Electronic state of diatonic molecules. 357. Dissocia- tion of molecules. 358. Influence of isotopy on the molecular spectrum. 359. Combinational dispersion of light. 360. Luatin- escenea of liquids and solids. Ch. XXXI Quantum Mechanics 543-568 361. Wave properties of microparticles. 362. Shrodinger 5/7  Kurs, obshehey fiziki. Tom III. Optika AID 426 - I Atomnaya fizika. 3 izdaniye ispravlennoye PAGES (work. of Kurchatnov, Rusinov and Grinberg),7. 378. Nuclear moments. 379. Structure of atomic nuclei. 380. Nuclei division. Chain reaction. 381. Cosmic rays. 382. Mesons. Origin of cosmic rays. Appendix 633 Index 637 Purpose: The book is approved by the Chief Board of Higher Education of the Ministry of Culture of the USSR as a textbook for physical and physico-technical faculties of state universities. Facilities: None No. of Russian and Slavic References: None Available: A.I.D., Library of Congress. 7/7  / ";./ Ii/11 FRISH'S.I. i (Dmitrii Sergeovich Rozhdestvenokii; his life and work] Dmitrii Sergeevich Rozhdoetvenakit; zhisn' i daintellnost'. Leningrad, Izd-vo Leningradakogo universitsts, 1954. 26 p. (HLRA 8:11) (Rothdestvanakii, Dmitrii Sergeevich 1876-1940)  FRISH, S.Z. T.I,Lonin's book "Materialism and ampirio-criticisaw and modern physics. Tast.Lea.un.9 Roo2:3-10 7 154. (MLRA 9:7) (Dialectical materialiom) (Ph7sics)  MWPhysics - Spectral analysis Oard I /I Pub. 43 - 11/97 Authors $ Frish, S. E. Title s Ouantitative spectral analysis of gaseous mixtures Feriodi"I I Izv. AN SSSR. Ser. fiz. 18/Z, page 251, Mar-Apr 1954 fttraot i Brief review is presented of certain problems connected with quantitative analysis of gaseous mixtures carried out by means of a mothod based on the utilization of a high-frequency discharge at low pressure in a quartz tube with external electrodes. One of the basic difficultieti of the method was found to be the change in the analysis of the gaseous mixture caused by the adsorption and liberation of gas by the walls of the discharge tube. A second highly important problem is the creation of optimum conditions-for the excitation of the spectrum of the analyzed admixtures. Various ways of overcoming these difficulties are suggested, Institution The A. A. Zhdanov State University, Physics Institute, Leningrad Submitted .........  Iy)IT__ ImOhysics - conferences Cerd 1/1 Pub. 43 - 1/62 Autho" I Prishp S. 38- Title I Introductory address PeriOdICS3 I liv. AN SM. Ser. fis. 18/6, 627-629., Nov-,Dec 1954 Abstr"t~ Introdu9tory address and greeting of delegates to the 9--th All-Union conference on Spectroscopy held during July 5-11j, 1954 in Tartu# Eat 33r. Institution s 8ubmittft i  $41midem Owedsm at did ff" as Omw Sao"" lrbh 444 1. P. L!:C F OUM VOW.. A J4 SJJ.Jt.'Ok WI-4(19%).--OPUCM CICHWOM N.-twom.1 wbkk "Pe"Oft Ok I of the Istensity of He un-, wvm ej~j cams, of dw aftfilag eketro" have beem ddd. Mat the Ann 601 A. Wo - M)s 4916 A. (filf,~ - PSI,. 4108 A. (M - 9%). and 4078 A.; U~m gutim us rqwwouw papm-ur- cog;; r of these coves ma be &KrMed to trA h4hu WaV kw* of tbm uaWdom- futbm mr.. whkh 14 Vm ax., am unibed to 2 get tk" IM " am Odlcr em mcitkdom ftfttlous of these ;=%!*:*6wabtakiedUyandrda9theaPdCLI excitation  BOCHXC~A, 014ga P&Vloyna; SHIUMMR, Telena Yakovlevna; ULSH PS.I. 0 professor, redaktor; CRLOVA,L.I.. redaktor; BOUMOX T"7. takhnichookiy redaktor [Spectrum analysis of gaseous mixtures] Spektr&I'nyI analls gazovykh amesei. Pod red. S.B.Frisha. Kookwa, Goa. izd-vo tekhniko-teoret. lit-rY, 1955. 183 P. (KIRA 9:2) 1. Chlon-korrespondent AN SSSR (for Friah) (Gases--Spectra)  Use-R/ Vxi(.;rtIt;ts - Obittinry Card 1/1 rub. 127 - 13113 Authors I FrIDh, S. E. Title /P. 1. Liihirsmy/ Periodical i VQst. U-n. un. Ser. mat. fli.. khim. 1012# '2C",2011, Feb 1955 Abstraot I Euloa is p~osenteLj honoring the dooth of thu i-,rominent Soviet physicist neademdaian retr lvanovi,~.h Lukirskiy (1894-19510, Institution ....... Submitted  TRISH, S.Z. ~~ Spectrum apparatus with two prisms Of cOnst&nt-deviation angle. Vest.Len.un. 9 no.8:151-155 Ag 154. (MLRi 8:7) (spectroscope)  1FRISH, S.E. C~iantitative spectrum analysis of gaseaus mixtures& Vast.Len.unq 9 no.8:157-162 Ag 154o (KIM 817) (Spectrum analysis)  XTASNIKOV. L.L. *Course of general physics, vol 2.0 5&-1. Frish, A.Y. Timoreva. 8807- 189 Reviewed by L.L. Mianni1mv. Tent.1'en un. 7 no. - -191 Ag 154. (Physios-Textbooks) (Frish, S.I.) WaA 8:7) (Timoreva, A.V.)  FRISH,S.E.; XLMOCHM.I.P. . Role of cascade transitions In the excitation of spectral lines. Isy. All SSSR. Bar. fis. 19 no.1:5-6 JA~F 155, (MW 8-9) 1. Fizicheskiy Institut Lenlogradskogo gosudarstvannogo univeral- teta Imeni A.A.Zhdanova (Spectrum analysis) (Spectrometer)  4C /v0 5 tWPhyeice Sensitized fluorescence cam 1/1 Pab., 22 - IV51 Authors I Frinp.- 1, 19,wMember-correapondent,. Acad, of Sc,,t USSR; and Mmulln7a -,E. K. Title I DetermiQon of the effective crosa-sectione of impacts of the second type from sensititing fluorescence Periodical o Dok. AR SSSR 10115s 837-840., Apr. 3-1., 1955 Abatract I I theoretical method.supported with properly arranged experimente ta described for the purpose of determining the effective croas-eactiona of the second type iRnots of sensitized fluorescence. A mixture of nitrogen and mercury vapors was chosen for the experiments, Data were calculated taking into consideration a probability for, the energy transition, Three referenobst 1 USSR and 2 German (1529-1954). Table; graphs. Institution A, A, Zhdanov State University, Institute of Physics, Leningrod Submitted t January 7, 1955  FRISH,S.S.,* PROKCIFITIV,V.K. inth Conference on Spectroscopy; proceedings of the second and third sessions. Usp. f1s. nauk 56 no.1:131-142 My 155. (MLRA 8:6) (Spectrum analysis--Congresses)  IRIS ,..~H ~gey Aduardovioh; TINAMA, Aleksandra VasillyeYna; NOVOZHILOV, n.Y.. radaktor; CRWVA, L.I., redaktor; VOICHOK, X.M., tekhni- chaskly redaktor [A course in seneral physics] lure obehahei fisiki. Izd. 7-oo, i9pr, Xoskva, Goo* isd-vo tekhniko-teoret. lit-r7. Vol.l. [Pbroical principles of mechanics. Xoleoular pbroica. Vibrations ajA waves] 7isichaskis omnov7 makhaniki. Xo1skuliarnata f izika. lolsbaniia i volny. 1956. 463 p. (MLRA 9:9) (Mwstos)  --od**Amk TIMMVA. Aleksandra Vanilleyna, ORWVA,, L.I.0' radaktor; T=OK, N.M., tekhnicheskiy redaktor CA course in general pkWales) Kura obsbohot f isiki. Izd. 6-oo. iipr.' Moskva, Goo. lsd-v* takhnike-teeret. lit-ry. Tel. 2., [Illoctrical and electromagnetic phanseenal Blaktrichaskie-I slaktrommgnitnyo lavlaniia. 1956. 504 P. (MLPA 10:4) (Ilectricity)  C SO- -;"I  T jL1, I 1c, I Goo C. I. ',-I. ad u pa I, or no IDS  FRISH 9 =6 KAG1,11) I., 4..'OSCOW -0 !!-.) "Ion Velocities and Positive Column of Discharge," a paper presented at the Third International Conference on Ionization Phenomena, in Gases, Venice, 11-15 Jun 57, SO:B-3,087,498  79[L~U -V- _ _ - - m-,; TIMORAVA, Aleksandra Vasil'.vevna; OWDIIA, L.I., redektor; YOWHOK, X-14., tekhnicheskLy redaktor [A course in general physical Kure obshchei fiziki. Izd. 4 oe, perer, Moskva, Gos.itd-vo takhniko-tooret.lig-ry. Vol.). EOptics, melear Phyeles] Optlim atomnata f1sike, 1957. 635 p, (HUU, 10:10) (Optics) (Nuclear physics)  s. z AUTHDRS-sPenkin, N.P. and Frish, S.E. TITLE: A Btudy of Emission and Absorption (Issledovanlye spektrov ispuskaniya 51-5-5/11 Spectra of Uranium. i pogloshcheniya urana) PERIODICAL: Optika i Spektroskopiyar 1957P Vol IIII, Nr 5, pp" .473- 479 WSSR) ABSTRACT: Absorption and emission spectra of uranium have been Card 1/3 studied, using thermal excitation of uranium atoms in a King furnace in the temperature range 2800-30000K. 167 emission lines and 47 absorption lines were observed. All the lines observed fall into the series scheme of Kiess et al (Ref'.1). The experimental apparatus consists of a source of continuous spectrum (carbon are), focussing lenses, high temperature vacuum furnace and an objective which focusses the radiation emitted by the furnace on the slit of the spectrograph'. The furnace has already been described in Ref_(5). The uranium spectrum was photographed on the spectr;graph IAM-22 in the region 2300-3800 A, and using an autocollimating s ectrograph with a plane diffraction grat- ing (50 000 liness in the region 3800 to 6600 A. Spectro- rOns were taken in the 2nd order of the grating where the was approximately 5.5 A per mm. Uranium in the form of powder or filings was placed in a graphite tube  51-5-5/11 A Study of Emission and Absorption Spectra of Uranium. by an asterisk. Studies of absorption and emission spectra obtained by thermal excitation (high temperature vacuum furnace of King) have 'confirmed the classification given by Kiess et al in Ref.(l)'. It is concluded that-ur&aium atoms do not have any levels lying deeper than 51g . In the uranium emission spectrum observed in King's furnace there are no lines corresponding to wavelengths less,than 2900 1, which again is in agreement with results of Kiess et al. There are no figurest 3 tables and 6 references, 2 of which are Slavic. ASSOCIATION: Scientific 4d Peamibb Institute of ftsics of the Lenin- rad State University (Nauchno-issledovatellskiy f,izicheskiy I nstitut Leningradskogo gosudarstvennogo universiteta) SUBMITTED: July 1g 1957. AVAILABLE: Library of Congress. Card 3/3  The Atomic Effective Cross Sections and Their Connection 53-4-1/7 'Kith the Excitation of spectra a mercury discharge the conclusion is drawn that the cross sections of the direct excitation of an ion and of the step-by-step excitation from the basic state have the same order of magnitude. Finally the paper under re- view computes from experiments on sensibilized fluorescence the relative cross sections for shockB of the second kind. (17 reproductions, 3 charts, 17 references). ASSOCIATION FRESENTED BY SUBMITTED AVAILABLE Library of Congress Card 2/2  XLUNIN, $.I.; HARMANOV, V.L.; FRISH, Sol,, red,; NnNSON,, I.H., takhn, red, [Atlas of spark and ara spectra for iron from 3718 to 9739 11 Atlas dugovogo I iokrovogi spektroy zhelaza A 3718 do 9739 A. Pbd red. 3,11. 7risha. Moskva, -Q~#. muchno-tokhn. izd-vo lit-ry po chernol i tovetnoi wtallurgii, 1958. 47 p. and 21, xvii plates (in portfolio). (KML 11110) 1,. Chlen-korrespondent Akadeall, nauk 3SSEt (for Frish). (Irou-Speotra)  FRISH, Bergey Iduardovich; TIHOMA, Alekoandra Vaoil'yevna; ORWTA, L.I., -,- -.- - -, red.; POL'SrATA' RoG.9 9 tokhn. red. (Gourse in general physics] Kure obehohel fiziki. Vol.2. CILectric and electromagnetic phenomena] Slektricheskie'i elektromagnituye iavloniia. 1958. 509 p. ltd. 7., ispr. MosWa, Goo. izd-vo fiziko- matematicheakoi lit-r7. (MIRL llt8) (Ilectricity) (Blectromagaetism)  FRISH, S.N.; BOGDAHOVA, I.P.: XMULIYU, E.K. Importance of effective atomic cross sections in the excitation of spectra. Fiz.abor. no.4:54-56 '58. (MIRA 12:5) 1. Fizichaskiy institut Leningradekogo ordens, Lenins. gosudar- stvennoe,o universiteta imeni A.A.Zhdanova. (spectrum, Atomic)  4 -3--20/30 AUTHOIW. Fri.3h, S.E. and Yakhont cra., V.Ye I TITLE: New Data on Excitation Fun-tions of Hleli--i-m Lines. (Nc-vj-r- dann-ye o f,,:nktsiyakh -,jc7N:zheIeriya 11-11i-y geliya.) PEIdODICAL: Optika --; Spektroskcpiya, 1958, Vc.'-,.IV9 Nr.5~ pp.402-.404 (USSR) ABSTVACT: The authors aeasiuzred opti.,-~al fuLrtions of excitation (by ele(-.trons) for 2.3 lines of HeI by means of the apparatus described in Ref-.A. The latter apparatus was altered by introduoticn. cf automati,, recording of excitation clirmls. F-ig.1 gives the optical excitation fun~ltianst F(V) for threen Sirl let 14nes cf- HeI: 504',' (curve 1), 50.16 (cuinpe- 2~ anF 4922 1 (curve 3)- Fir,.2 gives the exe,-itatica ftinction:--, fcr'tbree triplet lines of HeI: 4713 (curvee 1), 3889 (curve 2), 11471 1 (cul-ve 3). The abscissae i-r, Figs.l. and 2 give the logarithms of the energy of exciting elections. More detailed results are. giveia in the table on p.404 in which the excitation potent-ials and posit-ion of maxima on the excitation cur~--es art- given i:--i volts. The excitation. fur.-tions obtairi;?d dc; not allow us to Card 113 make definiti c ions about separate er.-?T,&7 levels  New Data on Excitation P,-ctlnns - of Lines of helim, in the saixe was as it wan d,=-e fcr mercury. However, one may make a number of pr,,,b,3b'.Ie .,- o!us ions. Thus, for exariple,, the 501C -k line has an --pper 3 P level; casi.ade transiticn-:z t,-, ~.his level are po-,3sible from niS and nID levels. Me bu4-ion o-P the cas,,,ade transitions -rc., -Ih~e ~;pt::'cal exMation function for the 5016 1 lixe is given by curve 2 in Tig. 3. Cur,,7e 1 in Fip.3 gi-ves t_~,ie experi- mental values of the cpti(~al excitation fuLletion for the 5016 1 line. The di~fereLce between curv-es I and 2 - 31P represents the excitation fur.:~tion_4-.r a S ngt.a level of helium (curie 3)., F4 O'AiVes th~~ experimental excitation function for the 2 I ine (4713 .2) as "Z curve 1. Casc~ade t-ransitions frou *,a_.,p levels should occur to the upper 43S le-,e" ~'-F tile 4-713 1 line. A probable contribution :)f these -,a-3_-.ade t-,ans; t ions is gLven as Urve 2 11-1 Pig.4. Then th--- exc_'ta-,ion function of the 4~0 level of helium is gi-v-In by --I:--,-e 3 im Fig. 4. Two wuima in the evitation function.-,,, :f the 5049, Card 213 L~L~38 1 1 , 4922, 4388 and 4143 Lines are no-t7 dle to the  --'~-20/30 New Data on Excitation Fune~tio.Ls of Helium Lines. cascade transitions but a:Ev. inhorvmt in thE- ex,Atation fun,~tions of the nlS and the n-LD V.I. Ochkar found, by a theoretical calculation, two :-Aaxima in the excitation functions of S and D levsls in hydrogen, in contrast to the. excitation ftziction of the, P level of bydrogen v.-hi:,,h has, Liny on,:-" maxinrJa. TI-erp, are 4 flU.ires, 1 table, 3 Tvfe-nclu~!,~s f which 2 are Soviet anI 1 Western (composite referenl'e consiEting of 2 English and 2 Geman papers). I ASSOCIATION: Physics Research Institute.; Leningrad State University. (Na,-;.-In:- ---43sledc-j-atq1'sk-iY -4'-'- -1-i ~;kl Y In 5t ~A- ,, i; Lp,ningradskopy) gnsudarst-.,enn.~'.g~ SUBMITTED: Tj"-e 2-7, 195-7- 1. Hell-= lines-Excitatic"I 2. Optic fmotivae-Measwi7emOnt 3, Electrons-Exaltati=-Xathematical anal"if Card 3/3  AU MRS S bocalcova, O.F., Razumovakaya, L.P. ui~d Friiiii.. ~;.Z, M TLE A S-haple Idothod of Spactral Analysia of Puril,:j of Ine:t C-asoj (Uproshchannyy metod apoktrallnogo awliza Inartaykh gazov na chistotu) PERIODICALs Optika i Spektroskopiya, 1958, Vol 5, Nr 1. pp 93-9,1 (USSR) ABS TRACT s The authors doscribe a sbaplo photoalectria method of spectral analysis ifiiich is fairly accurate and it taken only 2-3 minutes to cauplete. The appara-bas is shmm in Fig 1. The Gas to be -analyzed is dravin in by Lneans of a rotary pamp (N) throagh a vessel for removal of excess gas (S) and a furnac3 -,'Iit!L a trap q) to a dischar&e tube in the fona of a capillary (Tr) of 1 im dituacter. Pressure in the capillary is controlled by mouns of a U-tjp3 maac-i-aoter and taps 1 and 2. Emission of the -as in the capillary is excited using a high-fraquency geriarator W-21. The eia.-ssion is condensed by a lens (L) on to a phobcwiltiplier and is re-z-orded, without amplification, by a microau=i5ter Th5 nitroi-an bands in tho region 3600 1 aro'aoparated out by a '~-Iass lijfInt-filterF.. 3a rd 1/3 Usin~ known LaixtAres a c a I Ibrating -raph is obtaine.) , in which the 0 k>  S - r1 -5-1 -16/19 A Simple Le"thod of Spectral Analysis of Parity of Inert Gasea abscissa axis gives the concontration of nitrogou In perz~)nt and the ordinate axis Clves tho nicrma-moter roadinr,-i (rA) whi.11 aro proportional to the intensity of emission by t1he nitrsz;en bands This method was used to determine the Lurioint of nitrogen in argon of various degrees of purity. In tochnical--parity argon (with 9-151.N2) the nitrogen bands aea excitod alrv3.dy at pressarea of the order of 1-3 mm lig. The calibration rrap,-. for t,,1,3,ve preisures is shown as curve 1 in Fig 2. Curve 2 In Fig 2 is t~ia c a I ibration graph for diacharge-ibibe pressures of the order of 10 = HS. ?.~re aro-on should not contain more than O.,r?/.of N,~. In this case pressures of 100 ua Hg are necessary in the discharge tube in order to 9xcito nitrogen bands. For argon of spectral purity (less than 0.01 % Of 112) discharge-tubo pressures of several hundred mm Hg are necessary for a reliable analysis. Fig 3 shovis tha c, a l1bratio-a curvsu for nitrogen in argon with 0.1-1/o of IT? , (Fig 3a) and 0.01-0.1/o of 112 (Fig 3b) . Instead of recording raicroa Lnoter roadia6s (4) which are proportional to the emission by the nitrof,,3-i bands on,3 can use the ratio wharo cLo is the total emission obtained withoat usint- the filte-,F The Card 2,133  iijapl-3 1-1j-:.aod of Spectral Analysis of Parity of Inort ratio -/~ vywo can be measarod directly iiiinv tho apparat;.i GA Fig 4 where 24 is a splitting mirror 17,0 1 a al F !,"-j --- a re t photamiltl pliers and ITP 09 is an autonat, - re It w-v; Lun! that small amounta of oxjgen and, carloa dioxide do not affect th-: analysis. Tho mothod described is usod for analysis of arg---a ILL tho Balashikha Oxygen Plant (Rof 4). The authors thank senlor 1-aborator 3 , I V'Tatoa 1, j assistant IT.V. Cherayshava for of th a %-*Irvua. Thera are 4 figures and 4 Soviet referanzas. ..'uZiS0014TION Laningradskiy goaudarst7ennyy unlversitet,ftzi,~he2kiy Iziltitzt (Leningrad State University, Phy4ic-. InstitAti) Q"TiMaTTED s Fobruary 16, 19W c a rd 3/3 1. Inert gases - SpectroMphic analysis 2. Inert gases - Excitation 3. Spectroscopy - Equipment  SOV/51-5-5-22/23 -3: ilochvova, O.p., Fazuuovzikaya, L.P. und Friah, S-3. C1 TITLE: Spectral Analysis of 1Acro-,).uaw:1tias of Gaz; (Spaktrallnyy ur,,iliz 44krokolichestv Gaza) -"?.L: Opti,.a I Spektroukopi~a, 1958, iol 5, 11r 5, z)p u24-626 k1JSiLvj In analysial; vary snall ai,xunts of Sas tha necas-,;.r~ pressax-,3s in tio discharge tuba, used 'In ob-7airl the jpaotra~t, -1:)r3 prcx-2ucad ir. -~.-o (a) coaprossion in a capillary uslrf; Tepler's and (*c) addition of an inert &Ls to the analysal iiiixture. Both thu5o -natho2s ---t3rj in analysis of s..iall of' air to find 1~~o proportions Of Oxy73:1, argon and nitroGan pra~aLt iia Th-3 ~Lppar-~--a~i 4',~)c1u.,iqua ---mre .3a5criuad ia 1)fs 5, 6. .--16 1 :iVT; CAlibratioa carv3i; fO.C 014., 07--dil and in air. _.Ur -;rus LA-Aaliy --. i prrsLura of 10- Hf, occupying 230 cuO. P, mipr.3ssal J.;:to -- capillary of 0.5 diameter and a"is6ioa was excl--)d by !ie~ins of --. hifh-frauuancy 0 ,,,-,anerator .Tha lin3 pair 0 1 at 7772 2 and 11 1 a-~ 7468 wii ia. det3r..iinAtiot Of OXYL;311, WhI13 line pair A I a-, 7303 16) arrl I 7-168 4 was ao3d la doi-joral"tion of ar-on, Thj c1~Aa-a in ~4-) a ioun-, of ar,ou In lbht) did ufiact th:) raluti-;.~ lntoLlsit~ of 0--,; li"as and conaaquautly it did aot iffact graph aiio-ffln 3ard 113 it Fi,; la. Ghan6a ii-, tho oz~y~3n ui,)r,3~ t43 rllal.-Iva  Spectrtil 4nalyuis of Hicro-;uantitiali Of G&O Card 2/3 BOV/51-5-5-22/23 intans I~by of tha A--N lines , leading to a parallel dis placatuant of the calibration linos ahown In Fig 1b. The wean error in datorminatioa of oxygon ,us 15%aad in d-itor.-aination of argon wai 8%. amploying the uecond tithod-th,) wAthors usid helium as an Inart &,is dilu3nt, since helium has the hl~;hest axe-Ita+Aon pot3ntial of all gasss. Iddition of helium considan.Lbl-, Increases the teal mass of gas used in the analysis, adi minimiseo ;1-3 effects due to sorption and dasorption of gas by tho dischara-e-tuos valls. Thia Improves the pr3cision of the analysis. To tao orlSinal uuount of air (at 10-A= Hg pressure in a volulas olf 250 CIA3) 3, 5, 10, 100 -.1034 t'bLt ~MUW. Of 11311ULI was added. Bett3r reproducability Is obtainol when tha amount of halium addod is five ti,aes the original a;aryant of air. The error In dotarLltm~i aon of ~ oxygoa is than lowerad to 10-12~and tha error Iz detarjination of argon decreases to 5* Additiva of halium In minantu of 100 and noro tilass tha original amoun'-s of 6as w be aualysol aakes It possible to mako a quantitative spactrdl analysis of amounts of the order of 0-01 =3 at atmospheric pressure. Fig 2 Sivas calibrariou curves for antilysis of :.Lr.,Oii ani oxyl;an In air (3 x 10-~rm H& pressura in a volume of 250 cia3) 0  Spactral Analy3im of acro-,:Zuaat1ti9s of Gas 30V/51-5-5-22/23 with halium added in tho proportioa of 80sl. On addition of helium a change in ths oxyran concentration does not affect the calibrition curv3s for argon but. error in d0t3r~-.Arrition of argon increases to 20%. This 16 because th3 partial prousure of arSon in such a mixture is very suall. Thera are 2 fiprao and 8 ref,3r,inces, 4 of which ara Soviet, 3 Gonaan and 1 other. SUBMITTED. Juno 24, 1958 Card 313 1. Gases--C~mtitative analysis 2. Gases--SpeCtra 3. Oxygen --Determination 4. Nitrog4n--Determination 5. Argon--Determination  AUTHOR: Frish, S. E. sov/w-22-6-2/28 TITLE: The Development of Soviet Spectmscopy in the Course of 40 Years (Razvitiye sovetskoy spektroskopii za 40 let) PERIODICAL: Izvestiya Akademii nauk SSSR, Seriya fizicheskaya, 1958, Vol. 22, Nr 6, pp. 650-653 (USSR) ABSTRACT; After the Russian Revolution 3 groups of Soviet scientists who vmrked in the field of optics vmre formed. The heads of these groups were the most prominent specialists within th-e field of optical sciences in the USSR: D. S. Rozhdestverl3kiy, L. 1. Mandellshtam, and S. 1. Vavilov. It ~w by their advtce that the optical institute and the hysical-technical-radiological institute were founded (end of 191J. Rozhdestvenskiy, as the principal initiator, set himself the -task of replacing rhe fLnti- quated Russian optical science by a new one which wan to be in close contact with pmotice as a "truly socialist science" which %m3 to have nothing in common with "capitalist ineroantilisal. An important part -ew played in the development of Soviet science by the planning system, ihiich also explains the outstanding Card success achieved in the field of nuclear science and by the  The Development of Soviet Spectroscopy in the SOV/48-22-6--W28 Course of 40 Years laijunching, of the "Sputniks". Also today planning is ar- jj--,.)or' tant factor in Soviet science. In the 30,.ri(ft y1nis try of Highei Education and 'its Scientific and Technical Council plans are being drafted for the future. The Acaderky of Sciences careles out its planning through special coruni-3sion--',yhi,.h imiz-~ seek the cooperation of wide scientific circles for the plixxj~os.~ of wlving important problem. The author Nrther expressi~; tlh-~ opinion that Soviet successes may also tm explained by the established betvrei:n experi-nents and theory a-s --V911 as beW-esn physics and chsmiztry. This is alzo opinion, who said tMt it is the twik of chemistry to ccxqr-h!~i.d proce.~sci and to control atoms like a chauffeur vino con-crol-s his car. It is mainly due to Rczhdestvenskiy that atomic spi!--t'roscopy leveloped the Ymv it did and that a solid ba3izj ims laid for the dxveloT).- ment of the optical industry. Mandel'stam contrlib-~.,ce-! much to the. development of molecular spectroscopy and to research work carried out with resDect to matter. Vavilo-r developed the special fields of optics including luminescence. Landaberg developed Card 213 spectral analysis and its application in industry. Finally, the  The Development of Sairiet Spectroscopy in the SOV/48-.22-6-2,/28 Course of 40 Years author mentions also the faults of the aforemantioned de-ralopment such as insufficient contact between the Central Offioe of the Academy of Sciences and its branches in the ?arioas Soviet re- publics as well as with similar institutions in the peoples' re- 'blios ana with scientists of other countries. It Js further u p mentioned as a disadvantage that there is not suffloient contact between Soviet scientific institutes and Soviet industrial plants. 1- Spectroscopy-~USSR 2. Spectroscopy--Development 3. Scientific personnel--Performance Card 3/3  AUTHORS: Prish, S. E., Bogdanova, L P. SOV14.8-22-6-LV20' T ITLE Excitation of Spectral Lines in the Negative Luminescence of a Gas Discharge (Vozbuzhdeniye spektral'nykh liniy v otritsatellnom sveohenii gazovogo razryada) PERIODICAL Izve3tiya Akademii nauk SSSR, Seriya fizicheskaya, lc58, Vol. 22, Nr 6, pp. 659-661 (USSR) A13STRACT: In earlier works (Ref 1) the existence of a surplus of fast electrons near the cathode had been a3certained by measurements carried out with probes. As these electrons influence the ex- citation of neutral atoms, it must be assumed that, within the range of negative luminescence, a different energy distribution of atoms and also a different distribution of intensity in the spectrum must take place. For the purpose of discussing these phenomena, the present paper investigates the gas spectra foxming in the interior of a hollow cathode. Neon tube discharges were used for this purpose. The measurements mentionea aus being carried out in the paper by Bogdanova and Chen-Gi-T1,hek ~Ref 2 who used a discharge tube %ith hollow cathode (15 =i diameter and Card 1/2 130 mm length) are referred to. In the interior of the cathode a '4-  The Excitation of Spectral Lines in the Negative SOV/48-22-6-4/28 Luminescence of a Gas Discharge small porcelain and magnetically ar3justable disk was fitted. In this way it was possible to adjust the length of the column of lisht ani thus to attain the line-reab5orption value which W&S assumed as a basis for calculations (Ref 3). For states of higher energies relating to the neon-electron-configuration 2P5 3P the absolute intensity lines are taken into account. Three diagrams illustrate the concentration of neon atoms in varioms states and at pressures of 0,7 torr. There are 4 figures and 3 refer- ences, 3 of which are Soviet. ASSOCIATION: Nauchno-isaledovaLtellskiy fizicheskiy institut Leningrad5kogo gos. universitets. im. A. A. Zhdanova (Scientific Research Institute for Physics of Leningrad State University imeni A.A~Zhdanov) I. Gas discharges-Spectra 2. Atomic apectra 3. Atoms---Ene=-gy Card 2/2  '24(3) SOY/2o-122-3-14/57 AUTHORS: - Frish, S. E., Corresponding Member, Academy of Sciencen, USSR, MbFFv_eyevaj_-N_. A. TITLE: The Investigation of the Mechanism of the Separation of Inert Gases in a Discharge of Constant Amperage (Iseledovaniye mekhanizma razdeleniya inertnykh gazov v razryade postoyannoGo toka) PERIODICAL: Doklady Akademii nauk SSSR, 1958, Vol 122, Ur 3, PP 375-377 (USSR) ABSTRACT: The passing of a constant electric current through a mixture of gases causes their separation. There are 2 hypotheses con- cerning the mechanism of thin separation: 1) The separation is caused by the transfer motion of the positive i-)ns towards the cathode. 2) The separation is caused by a tran3fer motion of neutral atoms (which appear under the influence of ele tron collisions) towards the anode. The existence of a transfer motion of the ions in the separation of the [;ases is proved, but the experimental material available is not sufficient for the total explanation of the mechanism of the separation of Card 1/4 gases by an electric discharge. The authors, therefore, systerriatic-  SOV/2o-122-3-14/57 The Investigation of the Mechanism of the Separation of inert Gases in a Discharge of Constant Amperage 1y investigated the separation of gases by a dischrrge in a mixture of inert gases. The discharge tube used for these experiments is discussed in short. After the beginning of the discharge, the concentration of the componentn varies rapidly and reaches a steady value. The time necesuary for reaching the equilibrium increases linearly with tlie pressure of the mixture, and it slightly depends on the amporage and on the composition of the mixture. The time necessary fo~the separation increases with the length of the discha=ge tube. Also the time necessary for the intermixing of the separated mixture after the beginning of tile discharge was determined. The following dependences were found by the author3: 1) The degree of the separation increases lineurly if the tube be- comes longer. 2) In the region of low pressures (0,5 - 1,5 mill), an increase of pressure noticeably intensifies the separation. 3) An increase of the amperage of the discharge current in- tensifies the degree of separation. Initially, this increase is a linear one, but later it becones slower. 4) If the con- centration of tile easily ionizable mixture increases, the de- Card 2/4 gree of tile separation decreases, and its pressure dependence  SOV/2o- 122-3 -141/57 The Investigation of the Mechaniam of the Separation of Inert G-3CS in U Discharge of Constant Amperage becomes less distinct- 5) The aependence of the separation on the ionization potential of the mixture components cannot be found in a pure form. The results riven above mLj be explai-n- ed (qualitatively) by the assumption that the separation of the gases is caused mainly by the transfer motion of' the ions. The higher the difference of the ionization potentials of the wixture components, the higher the difference of the concen- tration of their ions and the more distinct zill be the sepa- ration effect. For a more detailed explanation of the observed laws, the dependence of the velocity of the tJ1ran.9f&r motion of the ions on the discharge conditions and the role of the diffusion have, at the same time, to be taken into account. There are 2 figures and 4 references, 2 of~which are Soviet. ASSOCIATION: Ilauctino-iseledovatellskiy fizicheskiy institut Lening-radskof;o gosudarstvennogo universiteta im. A. A. Zhdanova (Scientific Physics Research Institute of Leningrad State Card 3/4 University imeni A. A. Zhdanov)  A YXVA, A.I.; GRINMAH, I.G.; KALININ, S.K.; KUSHNIKOV, Yu.A.; KARZUTANOV, prof., red.; SUVOROVA, R.I., red.; ROROXIMA, Z,P.. to -1, (Spectral lines of mercmry] Atlas spektra rtuti. Alma-Ata. 1959. 6 p. (KIRA 12:10) 1. Akademiya nauk Kazakhakoy SSR. 2. Chlen-korrespondent AM SSSR (for Frish). (Kercury--Spectrum)  A SEYEVA, A.I.; GRIMN, I.G.; KALININ, S.K.; KUSHNIKOV, Yu.A.; HAR=ANOV, V.L.; prof. ire d. ; SUVCROVA, R.I., red.; RCIRCKINA, 2.P.. tekhn.red. [Atlas of the spectrum of mercui7l Atlas spektra rtuti. Alma-Ata, 1959. 1 v. (MIRA 14:1) 1. Akademiya nauk Kazakhakoy BER. Fisiko-tekhnicheakiy inatitut. 2. Chlen-korrespondent AN SSSR (for Yrish). (Mercury-Spectra)  21(9)124(0) PHASE I BOOK EXPLOITATIO' Akadesiya. mauk 333R. FIZIchoskly 1'13tItUt Issledovarlya po eksparlmental'noy t toorstic"skoy rizike; (3bcrnL~,' on Experimental An! T~.eoretlcsl onysics; collection or (StudL:: ArtLcl Moscow, Ild-yo M SUR, 1959. 334 P. ILrreta a' ip ) inserted. 2,300 copies printed. Zd.: 1. L. Pabol.lnaklyp Doctor of Physical and Xathe=tical Set- once&. Zda. or Publishing H,use: A. L. Chornyak and V. 0. Bar A - Tech. Zd.x Tu. V. Byline; Commission for Publishing zhe Collection cr OrIgorlys, SamilovicM fandsoorg: I. Ye. ream in Xemory n; (Chairman Academician; X. A. Lentovicn, Acadomicia. ) P. A. Bazttuitn, Doctor or Physical and KathematIcal Sciences-, S. L. XarudeVahtam, Doctor of Physical and XatUematlcal Scion_*a; 1. L. raboLinakiy, Doctor or Pnysic4i am- mathematical s-:&.-.c*a; ?. 3. L4Md3b,0rZ-Bary3hansknya, candidate or Phy3icia and Xxth_ emAtical. Sciences, and 0. P. gotulevich (Secretary), Candidate or Physical and Kathematical Sctences. FURNSIt This book in intended for physicists and rosts_-~:hers engaged in the study or electromagnetic radiation$ &-%d their role _1kiD"stIgxtI-n& the structure and composition or materials. _ _ iVV1VVi UMIC103 Mh1Ch COVERACUt The collection contains 30 oonies. molecular optics, B*mi- 2.n 1.nvesttg^tIon spec troscopy I conductor pmy as nuclear phys Cal and Other branches of' :, l . ph ales. The introductory chapter gives a blograpnical profile or Q. 3. Landabergt Professor And Head of the Deps-rtment of optics or the oivistort or ftysicai zc.cnm*iogy at moscow, tint- ver4tty~ and reviews Me work In Raylotgn scattering. combat &"as, spectral ansayals of metals. etc. No personslitles are mentioned. References accompany each articlo, . u ties or the AetiOn of Light Cases on the - --3 m " ~*P - 0,-Abao rption Spectra or Vapors or Arocatlc Can- ens ft it, pounds 149 Gbrelsov. r. T. and Yo_S_L_Trskhgj, The Resistance, Of' PlIcs ---tW-RUVTUWW7AIOng Me Cleavage Plans 159 R tow 3 x T2W Correlation Theory of Rayleigh Light 3cat- !S U __ t. 175 3abollman. X. 1. The Quantum Mechanics Theory Of the Intensity Lines 192 J1. M Dependenay or the Width or Comblowd- Sushchinskly, ---go-sitterinj Uii" or the Anisotropy of a Derived Polarizability Tonsor 211 I - x4t Fras..t state of the The*" of Weak Zntoractlans f Itlementa" Particles 218 TuosrT4~1, L_ . and B. A. Chaynnow. The Illumination of " _ Disloctr1ce In High Voltage-" IloctrIc Fields 231 Ukholift. S. AaDd 14. Z, Praalnp. Investigation or Cc%blnod In H202-H20 And H202-Dioxane, Solutions 244 Fabolinskly, 1. L. The Thin Structure of Lines or Rayleigh "1;f&ht;:ScattWr-rns in cases 254 rho 801 Or the Croup Speed of Light in lr~.di- : tion ins Rerrecti a medium 261 PrIsh. 3, L_amd 1. P. Bofidanowa. Excitation of Spectral Llnes TWNtIwe-nTu_m1Rn_tT_on of a Gas Discharge 11rTU 275 Pr1shbors-A-A , And Y--X-Xadlar- The ftgo Ibilitj or Increasing the B*Esitivity or the spectral Determination of Some Elements 287 Shgoj!xk1S_X__V. The Interpretation of Spectra of Ar=4tle Hydrocarbons in Frozen Cryatallln* Solutions 290  i4(7), 5(2) SOV/51-6-6-2-5/34 AUTHORS j Bochkova, 00, , RatumoY51caya, L.P,, Frioh, S.r.. and 01hernytheva, j7,V. TITLE i Simple Methods of Spectitl Analysis o. Inert Gases fOr Impurities ,o, analiza inertzri.ghgazov ~ia primeal) ~4Jpronhchennyye wet~Ay spolctrallnor PHRIODJOAL~Optlka I apoktroskopiya, 1959, Vol 5, 11r ti, pp 818-820 kUSSR) A&13,rMCTt The authore described earlier (Ref -1) a simple method of spectroscopl^ determination of the nitrogen content cf argon, suitab"le for u;* undor Industrial conditions. The spe~-.tral instrument was replaced by a filter which separated out the required part of the srectr=. 'xhe discarge vas excited In a capillary by a high-frepaniy ozeillator and argon was dram continuously through the capillary by means of a mechanical p=p. Emission proportional to the amount of nitrogs)n was rezorded by meann or a phototTrAltiplier FEU-19 connected to a microammeter. The senaitivit-, of tho method Yes 0.01% and its prc~:ision -10%. This simple method C'f analysis was applied also to determination of the amount of hydro6ev. In helium, aeon In helium and neon-helium mixturo in nitrogen. A table on p 820 gives the range of imparity concentrations vhich could be meaffurod, the filters and the receivers used as well as the diameters of the capillary aud pressures in it. Since only emall amounts of the gasea vierr, available the discharge tubes used In the investigation reporteC Carl 1/2 here had capillaries closed at one endi such a capillary is denoted by  I SOV/51-6-6-25/34 Simple Methods of Spectral Analysis of Impurities in Inert Gasel) 3 in Fig 2 (1 and 2 are electrodes) . The discharge was excited by one 4~f the followings ti) an oscillator VG-2, (2) a low-power oscillator based on the GU-29 tube and whose working frequency vas W Mc/s, (5) a pulse magnetron which producW 3 cm. 'waves. The reproducibility of the results waz 5 -6% when (2) or (3) were used but it fell to Ov10-15% when the oscillator VG-2 was employed. To construct calibration curves (microamneter current v. concentration, Fig 1) the authors used standards in the form of mixtures of known compositions. There are 2 figures, I table and 3 Soviet references. Card 2/2  24(7) SOV130-59-9-15139 AUTHOR: -Frishp S. E., Corresponding Member, Academy of Sciences, USSR TITLE; Applied Spectroscopy in China PERIODICAL; Yeatnik Akedemii nauk SSSRt 1959t Nr 9s pp 73-75 (USSR) ABSTRACT: The First All-Union Conference on Spectroscopy was hold last November; the results of work hitherto aahiaved were summed up, and the future development of researDh-in. this.field was outlined. 280 representatives of 144.Chinesa.inatitutione were present at the Conference, as well as.a.delegat.ion of the Academy of Sciences, USSR,.consisting of V. I. Malyahev, the author of the present paperv and.the experts A. A. Demidov and A. G. Kreetlyaninov who arriYad_Jx_..ChJmA.alr_eady earlier. WaYu-fis'anl, Vice-president of the Icademy-of-.Saienmee of the tleoplu's Republic of Chinap -reported..on-the...-arganization of spectroscopic research in China and-its.-further prospects. After the end of the Conference the Soviet experts made them- selves acquainted with the work of spectral laboratories of the institutes of the Academy of Sciences, People's Republic of China, Peking University, and other scientific institutions. The greater part of laboratories in Shanghai, Canton, Chlang-~fi!unp Card 113 and Mukden were well equipped, mainly with special apparatue  Applied Spectroscopy In China SOV130-59-9-15139 from the Soviet Union. There are, however, also apparatus from East Germany, Czechoslovakia, Hungary, England, Italy, and Western Germany. All scientific institutions have good libraries at their disposal which are r`egularly provided with scientific periodicals from all countries. Scientific cadres play an important role in China. At all univernities the young generation, many women among them, are trained in physics, chemistry, and other fields of science. Great efforts are made towards the production of scientific apparatuag e9go also optical and spectral devices in China '. In this con- nection the following works and institutions are mentioned: the Optical Works in Shanghai, the Institute of Fine Mechanics and Optics in Chlang-chlunWdng Ta-hai., Director of the In- stitutep was several times in the USSR and is well acquainted with the achievements of optics in the Soviet Union. Students assist also in practical work. An exposition showing the rela- tions between universities and production was opened in Peking. The Institute of Applied Chemistry (Director: Wu Hsuch-chw) possesses well-equipped laboratories for atomic and molecular spectroscopy. The automobile works in Chleng-chtunhas a central spectroscopic laboratory and two laboratories equipped with Card 2/3 styloscopes in the casting departments. The members of the V!,  24 (7) AUTHOR: Frish, S. E. SOT/53-68-1-2/17 TITLE: Publications on Nuclear Spectroscopy in the USSR (Raboty po atomnoy spektroskopii v SSSR) PERIODICALs Uspekhi fizicheskikh nauk, 1959, Vol 68, Nr 1, pp 3-12 (USSR) ABSTRACT: This article which was compiled according to a lecture held by the author at the Joint International Committee of Spectroscopy and the Komissiya po spektroakopii AN SSSR (Committeyacf Spectroscopy AS USSR) on August 13, 1958 in Moscow gives a survey of the most important research work in the main directions of this field. Par more than one hundred names of Russian scientists are mentioned who cannot be completely enumerated'in an abstract. The most important articles on the investigation of the elementary processes of the excitation and emission of spectral lines wore published by D. S. Rozhdostvenakiy, N. P. Penkin, Yu. 1. Ostrovskiy, Ye. I. Nikonovav V. K " Prokof,'yev, G. P. Startsev, L. No Shabanovaq M. I. PetrashenjI. V. Abarenkov.,V. A. Fok, 0. S. Kvater, L. A. Va shteynp I. P. Zapesochnyy, G. G. Dolgov, G.. F. Drakarev, r. I. -- Ochkur, et al as well as by the author Card 1/3 of this article. These authors published also theoretical  Publications on Nuclear Spectroscopy in the USSR SOV/53-68-1-2/17 articles dealing with the calculation of level energy. The most important ones were written by V. A. Fok. A. N. Terenin, L. N. Dobretaov, Ye. F. Grossq A, N, Filippov, F. M. Gerasimov, S. E. Prish, N. I. Kaliteyevskiy, M. P. Chayka, A. R. Striganov, Tu. P. Dontsov, A. R. Striganov, et al published articles on spectroscopic methods of determining atomic constants and nuclear moments. Frish, Penkin, A. M. Shukhtin, Tu. M. Kagan# L. M. Biberman, S. L. Mandel'shtam, N. K. Sukhodrev, V. A. Fabrikant, V. P. Peref, N. N. Sobolev, I. I. Sobellman, L. A. Vaynahteyn, M. A. Mazing, A. M. Shukhtin, and V. S. Tegorov investigated the processes of radiation emission in gases and vapors. Some of these articles are based on Rozhdestvenskiy's fundamental investigations. M. F. Romanovr.,A. A. Ferkhmin, and N. R. Batarohukova investigated the problem of using light waves for metrological purposes. A. A. Lebedev and 14. F. Romanova of the Hauchno-igaledovatellskiy institut metrologii (scientific Research Institute of Metrology) determined the wavelength of the red line of natural cadmium in the air which is 0.64384687-10-6 m (RMS error 0.0004 1) and of 0114 which Card 2/3 amounts to o.64384678-10-�m (RMS error 0.0001 1). G. S.  Public~tione on Nuclear Spectroscopy in the USSR SOV/53-68-1-2/17 Larideberg, S. L. Mandel'shtam, V. K. Prokoflyev, Ye. I. Nikonova, A. N. ZaydeV, 0. B. FaItkova, N. S. Sventitakiy, 0. P. Bochkova, S. E. Frish, To. Ya. Shreyder, F. M. Gerasimov, et al investigated the problem of usinR atomic spectra for analytical purposes. There are 60 references, 57 of VILY, are Soviet and 3 English. Card 3/3  FRISH Ser oyich- TIMOREVA, Alekoanctra Vasillyevna; red.1 ORLOVAI L.I., red.; LUKIYAROV, A.A., tekhn. red, (Course in general physics] Murs ispr. i dop. Moskva, 008. 12d-vo Vol.l. (Physical foundations Fizicheskie osnovy mekhaniki. i volny. 1961. 466 Pe (Physics) obshchei fiziki. lzd.10, fiziko-matem. lit-ry. of mechanics. Molecular physics] Molekuliarnaia fizika. Kolebaniia (MVU 15:2)  ARBUZOV, A.Ye., akad.; VAVILOV, S.I., akad.; VOLIFKOVICH, S.I., akad.1 KOCHINA, P.Ya.p akad.; LANDSBERG, G.S.p akad.; LEYBKIZON, L.S., akad.; PORM-KOSHITS, A.Ye.,, akad.,- SMIRNOV, V.I., akad.; FESENKOV, V.G., akad.; CHERNYAYEV,-V.1., akad.; KAPUSTINSKIY, A.F.; KORSHAK, V.V.; KIIAVKOV, S.V.j NIKIFOROV~ P.M.; PETROV, A.D.j PWMVODITEL15Vp CHETAYEV) 11.G*j CINUTOV, V.K.j SHOSTAKOVSKIYp M.Fq KU224ETSOV, I.V., red.; MIKUIJNSKIY, S.R., red.; MURASHOVA, 14.Ya., takhn.red. (Men of Russian science; essays on prominent persons in natural science and technology: Mathematics, mechanics, astronomy, physics, chemistry] Liudi russkoi nauki; ocherki o vydaiushchikbaia deiate- liakh estestvoznaniia i tekhniki: matematika, mekhanika, astronomiia, fizika, khimJ..ia. Moskva, Goo. izd-vo fizi-ko-matem. lit-ry, 1961. 599 p& (MIRA :L4:lo) 1. Chleny-korrespondenty AN SSSR (for Kapustinskiy, Korshak, Kravkov, Hikiforov, Petrov, Predvoditelev, Frish, Chetayev, Chmutov, Shostakovskiy). (Scientists)  26763 SIO 54 /6 1 /000/00 3 / 0011003 0 06 B102/B203 AUTHORS: Frish, S. E., Bochkoval 0. P. TITLE: Methods of determining transition probabilities and level populations by self-absorption of radiation PERIODICAL: Leningradskiy Universitet. Vestnik. Seriya fiziki i khimii, no. 39 1961, 40 - 58 TEXT: The authors thoroughly discuss some methods of determining the transition probabilities A ki and the populations N i and N k of the levels i and k (where k is the upper level). All methods are based on a simple relationship between the absorption coefficient of light within the light source, integrated over the whole line width (self-absorption), and the 9i N k product Aki Ni. Assuming gk . NiKC (V) (0) t(V = cl P /2RT, ~A - atomic 2 1/ weight), and the width of the Doppler line is given by4v D = c0 (in2)/P; )f(0) and 1.,0are the absorption coefficient and the frequency in the Card 2/4  26763 S/054/6 1100010010011003 B1 02/B203 Methods of determining transition ... *00 1 middle of the line. For such a line,jn (.v) dy= 7 V In-2 )rI (0) 2 VD Numerical computations are also possille for any other line forms. The most important functions appearing in computations, such as F(4(0),l, ri, r 2) = P1+r2P2 are tabulated here; P indicates the ratio of light intensities with and without mirror; r 1 and r2 are the reflection coefficients of the two mirrors. Similar formulas can even be used if the lines have a fine structure. As examples, the authors consider the sodium line 3 2S 32P a 1 2 3/217\5890A (where the lower level shows a splitting with6l\. 0.021s) and the red neon lines (2p5 3P-12p 538) which also show a hyperfine structure due to the existence of isotopes. The results obtained are in good agreement with those obtained by other authors. The investigations show that the self-absorption methods are well suited for determining transition probabilities and population numbers, and deliver results with an error of about + 15 ~4 . The authors mention V. I. Perell (who supervised part of the com-Putations), as well Card 3/4  26763 S/054/61/000/003/001/003 B102/B203 Methods of determining transition ... as I. D. Podmoshinskiy, L. D. Kondrasheva, and I. P. Bogdanova. There are 13 figures, 6 tables, and 13 references: 6 Soviet and 7 zion-Soviet. The three references to English-langua,-e publications read as follows: J. A. Harrison. Proc. Roy. Soc., 73 , 841, 1959; J. U. White. JOSA, ~29 285P 1942; R. Ladenburg. Rev. Mod. Phys.j 5p 243, 1933. Card 4/4  S/051/61/011/00U'/001/012 E039/E385 AUTHORS: Bochkova, O.P., Razumovskaya, L.P. and-FIlLi:~11, S.E. TITLE: Spectroscopic investigations of high-frequency discharges in neon PERIODICAL, Optika i spektroskopiya, v.11, no.6, 1961, 697-705 TEXT. High-froquency discharges in gases are %,ridely used as light sources for various optical investigations and for spectral analysis. This paper describes a detailed investigation of this type of discharge. Radiation re-absorption and double-probe methods were used to determine the optical and electrical charac- teristics of an electrodeless high-frequency discharge in neon. The discharges were produced in tubes of 3.5, 12, 40 and 60 mm in diameter and 130 - 300 mm in length. The high-frequency voltage was supplied to external electrodes fron, a 6 Mc/s, 350 If generator. The tubes were evacuated by a fully trapped-high- vacuum system. Natural neon, containing not more than 0.*-"'0,'G :1eliu.-.i, was used. Other impurities (02, H21 N2) did not e;cceed 10-%,. The spectroscopic observations were made in the visible (red) part oC the spectrum and data produced on the population Card 1/3  S/05i/6i/on/oo6/ooi/oi_- S~)ectroscop_Lc iuvt,~s L! ~-;..lt Lon: E03 9/ E.-) 8 5 T 100 ,, 10-3 A I.- vk~wi to 45 x 10-3 at S r:." the densit y n liowever i~; ef f7cct ive I y d Ll-('Ct I y -)ro')ortionzil to pre~-;,mi 11 Is shw:n tliat T i!3 proct icltl I- of CIO 1jxt,r iii,,mt -:4ilo n iz~ dlimrectl~ ),-Ii~!nal Ln- it. Cmiparison is made witli DC discharges and it is s*-ioun tliat hi.-her values of T 0 are obtained in the HF dijcbarge. It is shoim that the conditions in a HF discharge are easily variocl. over a wide ranSe by chan~,',ing-pressure, poi-tcr input and diameter o,' tube, hence making it a very suitable SOLIrCe for all sl)ectril analys-ts problems. A.A. Zaytsev and Ye.N. Yanlrovskaya are mentioned ln the article for t,ieir contributions ill tl)iz; fic-ld. T'iere are 9 fizures and 20 referonces: 12 Soviet-bloc and U :,on -Sovi --at -bloc. The four latest rofereaces mentioned are- Ref. 2: A.T~ Forrester, K.A_ GunCt-.madsen. P.O~ Jo'hilsjn J, Opt. Soc. k-mer. 46, 339~ -L,,,56; Pof. 6: J.A. T.'arrison Proc, Phys. Soc. j 73, U'll, 1959; Ref. 12: -3 C-111, loll (-d in text-, Ref. 19i A~V. Phelp~~, Rrw.. , ')9 1657,19175, SUBMITTED 11.1rch LO 1~61 Card 3/7.  -RII,sH,.SergeV--Eduardavich; TIMOREVA, Aleksandra Vasillyevna; ORLOVA) L.I., red.; LUKIYANOV) A.A.j, tekhn. red. (General physics course] Kura obshchoi fiziki. Izd.9., ispr. i dop. Moskva, Fizmatgiz. Vol.2.(Electric and electromagnetic phenomena] Elektricheskie i elektromagnitnye iavleniia. 1962. 514 P. (Electromagnetism) (MIRA 15:7)  FRISH, S.E.; BOCIIKOVAt O.P. Additions and corrections to the article "Methods for determining the probability of transitions and the population of levels from the self-absorption of radiation.IlVest. LGU 17 no.4:73-74 162. (NIRA 150) (Quantum theory)  L 1683-66 EWT(i)/EPA(s)-2/EPA(w~-2/94A(.)-2 ACCESSION NR: AT5010025 Ali GE/0000/62/000/000/0379/0387 AUTHOR: Hochkpva. 0. -V:;-Razumovskaya, h. P Frish, S. E. Y pe, qT- ao TITLE: Spectrographic analysis of a high frequencey discharg in SOURCE: 'Physikalische Gesellschaft in der Deutschen Demokratischen Republik. Tagung, Jena, 1960. Optik und Spektroskopie aller Wellenlangen (Optics and spect/ro-L~ scopy of all wave lengths); Tagung der Physikalischen Gesellschaft in der DDR, Berlin, A-V, 1962, 379-3;87 1 TOPIC TAGS: neon, gas discharge spectroscopy, line spectrum, line intensity, electron energy level ABSTRACT: The optic and electrical characteristics of an electrodeless high fre- ,quency discharge in neon are studied using radiation reabsorption and the two-prob' I method. Two molybdenum glass discharge tubes were used--one 12 mm in diameter and,' 150 mm long, the other 60 mm in diameter and 300 mm long. High frequency voltage was fed from a 6 Me HF generator with a power of 1%,350 watts to the external elec- trodes of the discharge tube. Two molybdenum probes were sealed into the 12 mm tube at the center along the axis. These probes were 0.2 mm in diameter and 5 mm long. The distance between the probes was 15 mm. Data were also obtained on the Sard 1/2  L 1683-66 I ACCESSION NR: ATS010025 population of the lower 2p5363po 1 2, IPI and 2ps3pr levels in neon as a function 'of pressure (in the 0.5-7 an Hg raAge) and as a function of electron concentration. Reabsorption measurements were made across the emitting column-in the 12 mm tube and along the column in the 60 mm tube. It was found that the maximum population for 2p53s3P0 1 2 levels lies at a pressure of approximately 1.3 mm Hg, while the rpaximum for lps3g levels is situated at a higher pressure (2-3 mm Hg). When the concentration of electrons is varied within small limits, an increase is observed in the concentration of excited atoms on all levels. A further increase in the concentration of electrons leads to an extremely flat maximum in the concentrationi of excited atoms. The relative line intensity varies-considerably with pressure. When the pressure is increased, there is a sharp reduction in the intensity of lines where 2p53plSo is the upper level. When the lines have upper levels which 1 are lower than this, the intensity,maxima lie at pressures in the 1.5:4 m Hg range. Lines whose upper levels correspond to the 2p54d and higher configurationsi' i have very low intensities. Orig. art. has: 4 figures. ASSOCIATION: none .SUBMITTED: 00 ENCL 1 00 SUB COM ME$ OP I NO REF SOV 009 07MRs 006 Card 2/2  -FRISH, S..E,*, BOGHKOVA, O.P. Present state of the quartitative emission analysis of gaseous mixtures: (survey). Zav.lab. 28 no.5:550-552 f62. (NIRA 15:6) (Gases-Spectra)  !xSH'-3'Z'V-otY. red.; BOBOVICH, U.S., kand. fiz.-matem. nauk, red*; VOLIKENSHTEYN, H.V., doktor fiz.-matem. nauk, red.! GALANIN, M.D., doktor fiz.-wtem. nauk, red.; DRUKAREV, G,F,, doktor fiz.-matem. nauk, red.; YELIYASHEVICH, M.A., akademik,, red.; KALITEYEVSKIY,.N.I.v doktor fiz.-matem. naukq red.;.KUSAXOV, M.M., doktor Wa, nauk, red.; LIPIS, LA, doktor tekhn.nauk, redo; PEKAH, S.I.9 doktor fia.-matem. nauk, red.; PROKOFIYEV, V.K.j doktor fiz.-matem. n4uk, red.1 SOKOLOV, N.D., doktor fiz.-matem. nauk, redjmnLOV, P.P., doktor fiz.-mtem. nauk., red.; CHULANOVSKIT, V.M., doktor fiz.-matem. nauk, red.; SHPOLISKIY, E.V., doktor fis.-matem. nauk, red.; YAROSLAVSKIY, N.G., kand. fis.-maten. nauk, ried,,; LEKSINA, I.Ye., red. Izd- va; PENKINA, N.V., red. izd-va; NOVICHKOVAt N.D., tekhn. red.; WHINA, P.S.p tekba. red. [Physical probleas in spectroseopy]Fizicheskie problemy spektro- skopii,- materialy. Moskva, Izd-vo Akad. nauk SSSR. Vol.l. 1962. 474 P. .,,(MIRA 16:2) 1. Soveshchanlye po, spektroskopii. 13th, Laingrad, 1960. 2. Chlen- korrespondent Akademii nauk SSSR (for Frish). 3. Akademiya nauk Belurusakoy SSR (for Yellyashavich). (Spectrum analysis)  FRISH, S.E.; BOCHKOVA, O.Ps Inversion of the level populations of sodium in the fluorescence of a mixture of sodium and mercury vapors, Zhur. eksp. i teor. fiz. 43 no.1:331-333 Jl 162. 041RA 15:9) lo Leningradskiy gosudarstvennyy universitet. (Quantum theory) (Sodium) Wercury)  NAGIBINA, Irina Mikhaylovna; PROKOFIYEV, Vladimir Konstantinovic4,- prof., doktor fiziko-matem. nauk;,_EK4H_, S.~., retawsedt; VASILIYEVAt V.P., red. izd-va; BARDINA, A.A., tekhn. red. (Spectroscopic instruments and techniques] SpektralInye pri- b*y i tekhnika spektroskopii; rukovodstvo po praktichaskiii zaniatiiam. Pod red. V.K.Prokoflyeva. Moskva Haahgiz, 196). 270 p. ~MIRA 16;5) 1. Chlen-korrespondent Akademii nauk SSSR (for Frish). (Spectrum analysis)  WCHKOVAY 011ga Pavlovna; SIUMDEM, Yolena Yakovlevna; _FRISH,.S.E., prof., red.; Oi',LCVA, L.I., red.; DiKIYAINOV, A.A., tekhn.red. (spectrum analysis of gaseous mixtures] Spoktrallnyi analiz gazovykh smeoei. Izd.2., perer. i dop. Moskva, Gos.izd-vo fiziko-matem. lit-ry, 1963. 307 p. (Biblioteka inzhenera- fizika i tekhnika spektrallnogo analiza) (MIRA 16:121 1. Chlen-korrespondent All SSSR (for Frish). (Gases--spectra)  otv. red.; FEOFILOV, P.P., red.; SAZONOV, L,S." rRISH, S.E red. ZENDELI, R.Ye., tekhn. red. (Optics and spectrosoWy] Optika i spektroskopUa; abornik statei. Moskva, Izd-vo Akad. nauk SSSR. Vol.l.[Luninescence] Liuminestsentaiia., 1963. 364 P. Vol.2. (Moleexilar spectro- scopy) Molekuliarmaia spektroskopiia. 1963. 346 p. (MIRA 16:4) 1. Akademiya nauk SSSR. Otdeleniye fizi~o-matematicheskikh nauk. 2. Chlen-korrespondent Akademii nauk SSSR (for Frish). (Luminescence) (molecular spectra)  FRISH, Sergey Eduardovich; LUKIYANOV, A.A., tekhn. red. [Optical atomic spectra) Opticheakie spe)q6~ atomov. Mo- skva, Gos.izd-vo fiziko-matem. lit-ry, 1963. 640 p. (MIRA 16:10) 1. Chlen-korrespondent AN SSSR (for Frish). (Atomic spectra)  ACCESSION MR: AP4009454 S/0051/63/015/006/0726/0733 AUTHORt Frish, S. E. ; Rovald, V.P. TITLE: Cross sections for direct and step-by-step excitation of neon atoms SOURCE: Optika I spektroskopiya, v.15, no.6, :1963, 726-733 TOPIC TAGS: excitation cross section, direct excitation, step-by-step excitation, level population, neon spectrum, neon ABSTRACT: It has been hypothesized by a number of authors that excitation of high- lying levels of neon occurs not only from the ground state but also via intermediate 2p53s levels, in other words, that there occurs step-by-step excitation. However, the data reported In the literature on the cross sections 'for step-by-step excita- tion are conflicting. Accordingly, in the present work there were measured the ab- solute cross sections for direct excitation of the levels of neon. The direct ex- citation cross sections were measured by the method of an electron beam, using a tube similar to that described by I.P.Zaposochny*y (Vastnik, LZU,No.11,67,1954). Specifically, there were measured the No I lines associated with 2p53pY-42p53sX transitions. Most of the measurements were made with an accelerating potential of Card 1/2  AP4009454 48 V; the beam current was 20 to 300 IA; the pressure in the tube 0.01-0.08 mm Hg. On the other hand, there were calculated the line intensities on the assumption tint there obtains only direct excitation. Comparison of the calculated data with the experimental values led to the conclusion that in the region of low pressures and low discharge current densities there is a good agreement between the experimental and caclculated results, indicating that direct excitation is predominant. But with increase of the current the calculated intensities are lower than the observed ones, which may be taken as evidence that with incroase of current there Is an in- crease in the number of free electrons in the plasma and that step-by-step excita- tion begins to play a significant role. The value of the cross section for step-by- step excitation (2p53SX---~2p,53PY) calculated on the basis of the divergence between the theoretical and experimental line intensities is vlo-16 2. Orig.art.h' i:!. 12 cm as formulas, 5 figures and 3 tables. ASSOCIATION : none SUBMITTED, 29Apr63 DATE ACQ.- O3Jan64 ENCL: 00 SUD CODE: PH NR REF SOV: 007 'brmEnt 002 Card  L 18 VF(n)-2/EWP(q)/nT(m)/BD5 AFFMIASDISSD L 144-63, Pu -;4 W1 *Ja !ACCE SION NR: AP3004502 S/0O48/63/O27/008/;fO65/lVqqj - ~-AIMI AIMIOR: Prish,S.E.; Bochkova, O.P. OR TITU ITITLE; valuation otV so Ocross- sections for second order Impact isl a min- luat'o -ab luto. -Univa Con. .0 iture Os5lum and mercury Vuors /Keport.prosented at the Second All iure 0 Lference on the ih Electroni-C and Atomic Collisions held in Uzhgorod 2-9 Oct erenc 1,9627- 7t 196 IhOURM, AN SSSR,-Izvestiyapser.fIz. v,27, n0.8 1963, 1065-1069 TOREC TAGS: 'second order collision: second order impact, optical pumping, exci nation cross section , Na, 119 AB&TRMCIT: Back in l936,,S,B.FrIskIn collaboration with A.A.Ferkhmin (S.R.Frishi'. jIzv.AN SSSR,Ser.fiz.,No.3, 431, 1938 and Perchmen and S.Frisch, Z.Sow.Union,9,446, 1936) . observed a substantial increase in, the intensity of some secondary sorios I lines' of' Na vapor under electron impact in the presence of Hg. vapor. Obviously !the affect can be utilized for determining cross sections for second order (at=4 atom) impact. The case of'excitation of Na atoms as a result of first order impicti'l 'xvith electrons and second order impact with, lfg atoms Is considered and the equationl-~~ lor the steady'-state is written, From this the authors derive an expression for' Card 1/3  -L-18244-63--:,- A ACCESSION NR- AP3004502- calculate' the cross section for second order impact; this expression was used to the cross section for second ordercollisions between Na atoms and excited, 11g atoms on the basis of the concentrations of Na and Hg atoms In different states and the, probabilities for spontanaous~transftions between the respective states.. The mea- suiements were carried out for pure Na and a mixture of Hg + Na vapor excited by a high-frequency-(6 to 50 Mo) d1scharges'In cylindrical molybdenum glass (with sap-, ~phire windows) tubes 18 to 25 am in diameter and 60-80 am In length with external ele,ctrodes; separate tubes with one, and two side branches, respectively, were usedi. for the measurementoon pure Na and the Na + Hg vapor mixture, AnslysisAndicates" that the most intense excitation due to second order impacts may be expacted for the 6P, 73, and OD levels of Ma In co .llisions with Hg atoms In the 63po state and the 8S, 7D, 7Fj 8P, 9S, 8D, and 9P leveXa of Ma In collisions with Hg atoms In the 6 a 3p, state. The increase In line Intensity In going from pure Na to N + Hg de- pends strongly on the discharge conditions (current density and vapor pressure)' which must, therefore, be carefully controlled (this presents some experimental. difficulties). As a result of. the measurements there were obtained the excitation cross sections for sole of the ~S and P levels of Na (the cross sections for excita- tion of the D levels could not be determined for lack of knowledge of the popula- tion of the F levels from which there occur intenBo transitions to the'D levels), . Card2/3  ACCESSION NRI AP3004502 [ Tho data show that large arose sections for second order Impact excitation obtain! few: only:~when the energy difference between thelevels Involved does not exceed a hundried eV. This ouggests the possibility of realizing selective populationof !Indiviidual atomic levels and of obtaining tonegatLve" absorption boeffioients.i,Oris. art.:lhast 7 formulas, 2 figures and 2 tables, ASSOMATION: none ;DATE ACQI 2GAu&63 ENCLI 00 SU13MI us 00 No REP BOVI 005 OTM: 000 PH SUB CODE: i!j Card 3/3  ROZIMESTVE34SKIY, Dmitriy Sergeyevich, akademik; LIIINIK, V.P., akademik, red.; LEBEDEV, A.A., akademik, red.; TUDOROVSKIY, A.I., red.fdeceased); red.; LUIZOVI A.V.j doktor fiz.-mat. nauk, red.; RAUTIAN, G.N., doktor tekhn. nauk, red.[deceased]; PENKIN, N.P., doktor fiz-mat. nauk, red.; KIRIKOVA, G.L., red.izd-va; SOROKINA, V.A., tekhn. red. (Selected works] lzbrarmye trudy. Moekvai Izd-vo "Nauka," 1964. 348 P. (MIRA 17:4) 1. Chlen-korrespondent AN SSSR (for Tudorovskiy) Frish, Luizov, Rautian, Penkin).  FRISHO S. Ea In memory of profi-;jsor Karl Karlovich Baurrgartp Vest. LGU 19 no.Y :1890--1963 . 164. MIRA 17:7)  FRISH S,E* flacent trends in the development of optics and spectroscopy, Vest, All SSSR 35 no.7t26-32 J1 165. (MIRA 1818) 1. Chlen-korrespondent AN SWSSR, I .110,I  ACCESSION NR: ;AP4035808 S/0020/64/156/001/0054/0056 AUTHORS: Bogdanoval I.P.; Bochkova, O.PV; Frish, S.E. (Corresponding member) TITLE: ~The role of molecular ion formation on atomic line excitation spectra SOURCE: AN SSSR. Doklady*p v. 156, no. 1, 1964, 54-56 TOPIC TAGS: at:omic excitation spectra, molecular ion, molecular ion formation, helium sup+ sub 2, helium spectrum, excited helium, con- -tinuously activating field, pulsating field, free electronj plasma i 'state ABSTRACT: The ddditional maximum observed by I.P. Bogdanova and I.' Geytsi (Optika i spektroskopiya, 17, No. 1 (1964)) near the threshqld in the optical functions of certain lines of excited helium when hydrogen, krypton or mercury vapor (but~not when neon) was added to the hel'um, was investigated further. The optical function for He 4 (X47134 was,measured in a continuously activating field, and under a pulsating field (10-7 sec. activation separated by intervals of 2 x lo-5 s c.).. The maximum appeared under continuous excitation, but  ACCESSION NR: AP4035808 ,not for pulsed excitation. 'Awhere * indicates active He + e ---"He*, ++ +e He* + He-He ~e+ + e-.He*2+ He 2 This maximum is state): a) W W explained by the reaction ',The role of the added gas is to supply !slow" electrons for the step (c). The authors state that the disassociative,recombination of step (c) lead6;to s'elective activation of the molecules (especially in the'S and D levels). This process would explain the energy level of the additional maximum and the time dependency of activation. .Reference was made to the work of O.P. Bochkova, L.P. Razumovskaya .(Optika i spektroskopiya, 17, No. 1(1964)) where formation of mole- -cular ions was postulated to explain a jump increase in free electrons 'in the~plasma;btate. At the same,time the intensities of the low .-energy level iines in the spectrum increased by a greater amount than the high energy levels, and this variation in population of the levels .was greater than that which would correspond to the conditions of 2/3 Card  ALCAC ~NHAI'3018DMP) ------ -- SOURCE CODS1 UR/0030/65/Oal/00 /(.k-32 AUTHOR: Frish" S. B. (Corresponding member AN SSSR) ORG: none TITIE: Wvt trends In thedevelopmnit of optics and specLroscopy SOURCE: AN SSSR. Vestnik, no. 7, 1965, 26-32 TOPIC TAGS: optic research, physIci research, spectroscopy, Laser, optics Y ABSTRACT: In a review of recent developmints in-optics and spPctrnrcopY# Corresponding Member of the Accademy Qf 5ciences S. J;. il.ViSLI ollerb some criticism of the Soviet research conducted in these fields. Ac- cording to Frish the Soviet laser research program is poorly coordinated: ~ex eriments already performed are often repeated at other research . p :centers, quite often with poorer resultsthan those obtained in the earlier !experiments, and the use of lasers in measuring techniques and physical -experi&A-6Ls has been relatively slow. Research in Fourier spectroscopy is also lagging, mainly because of the lack of proper instruments and devices. High-quality interference filters are still not being manufactured in sufficiently large quantities. No Soviet amplitude -modulated devices and instruments arf- Drt-~Watiy available. Western, firms, Frish*declares, are already producing and selling the T.YpeS Of instruments which will be available in the Soviet, Union no earlier than 1966-1970. Frish states UDC: 335+543-42 Cord  Geological aM poworphological basis of land forms; on the Oxwople of the M9zh& region In Nostroma Province [with summe, in Inglish), Vest,LOU 1) no,1801-102 158, (MIRA 12;17 Nexha Valley-Physical geography) (Geology, Structural)  FRISII, V.A. -- A. 2cononic importance of natural conditions of administrative districts as exemplified by Mezhevokiy District, Koatroma Province. Veat.LGU 14 no.18:68-81 159. (11M 12:8) (Routroma Provinco-Mconomic geography)