SCIENTIFIC ABSTRACT BEZUGLYY, A.Y. - BEZUGLYY, S.F.

VISHNYAKOV, Valentin Vasillyevich[Vyshniakov, V.V.]; BEZUGLYY, A.M. (Bezuhliy, A.M.], kand. geol.-miner. nauk, red.; SHPORTYUK, V.I., red.; GORBUNOVA, N.M.(Horhmval, N.M.), tekhn. red. [Concised geological dictionary-handbook)Korotkyi geologichnyi slovnyk-dovidnyk. Za red. A.M.Bezuhloho. Kyiv, "Radianalka shkola," 1962. 112 p. (MIRA 16:3) (Geology-Dictioneiries)  TMOMIROV, DONS Ik ik med.sluzhby,, zasluzhennyy vrach UkrSSR; TY,,eO.,pMpolkovnik meditsimakoy sluabby Cloped lesions and wounds other than gunshot in the abdomen and abdominal organs. Sbor.nauch..rud.Kiev.okruzh.voe-z.goap, no.4:104-111 162. (MIRA 16:5) (VISCERA-WOUNDS AND INJURIES)  EEZUGLYY Aje polkoviUk imed.sluzhby; LORHINA, I.F.; RDGOVA, Ye.A. Clinical, roentgenological and morphological juxtaposition in chronic appendicitis. Sbor.nauch.trud.Kiev.okruzhovoen.goop, no*4:131-134 162. (MM 1635) (APPODICITIS)  BEZUGLYY, A.Ye. (Kiyev, 105, PrOsFekt Mira~ 55, kv. 29); KOLESOV, V.D. Experience in the clinical use of the UKI,60 apparatus in esopha- geal, gastric and intestinal surgery. Vest. khir. 92 no.1:79-81 Ja 165. (MIRA 17:11) 1. Iz voyennogo gospitalya., Kiyev.  EEZUGLYY, B. I- Verified by time. Fin.SSSR 37 Ja 163. (MIRA 16%2) (Ukraine-Industrial promwemen,~)  0 Ji, l p T I I e O * O 0 . ll I W 1 4 f I 1 ), U U If lo 31 V a W at t: 41 4% r, o f I a L A_lL_ f. - Q_.A ..A A-V I A .-I I 01A 0 91 1 1 , U 1 L . - DtWMIatjM Of C&WUM Sluwasta, by Wfact POteD- "Orn"riC t1trMWa in *C,,tOn~.W&tvf mixtures. N. A- fullowril ikith a quinhy- 2 **a . . el ekvtrok pook. In Nl% All- hic-CO betiggased within 1% with 0.5 N 110. ~',7S%ty(,.0I IiHO; Jn8D%.,,,on,.,he,rT,)r%droip and 2. l ov mp. Iftbre acettinr comm. canvmt t. tv %J-tl K~4 bl 411111111 . , u,-1 becAtt" of pptn. z ago 00 zoo x, 1 1,00 i We 0 z, A$S-SLA "TALLURGICAL LITINATLOI CLASSIFICATWO :60 N too ' , -9- -1 1 1 aT-r-f-r U 11 IT 10 41 I fod 0 a It a T -TR 0000 0 0 00 00 0 0 0 0 0 0 0 000 00 0 0000 0 0 0 0 0 0 0  4j t t w R It 3, 15 1, 1? Is to 41 4. c c .1 x E x 00 00 02? 00 -1 bjjAwl 1.1141 u1 Pao TA' % V w sois - "llest; au VH I " %1N Ifoxif -6 V441A *%V 'JIM NV 40.) '0S WR :-4 *01 xx 10 Qdujo:) '"alaw *0 w0 "w go p%q ('Uj. 9 1) 1~.qqw jql lo am jqj -Axnjoiw .11m sea npnvq Upp"ll ~n jql at A'o itiall AzwA Avoo ils wwx so* paw~h MO uMswpk)lqwxpw A is"I.MlAt. IMY.,Wm PIAR jig WMMA amok-mot" P L , X 4 - 6 ~11 r, 00 'It '1 ' "M 7 00 44 IV T I --r-T I I v 11 a 41 " S: If 1: 1- 'It 11 -4 t 0 a 0 0 41 0 OiO 0 0 0 0 0 0 9 0 0 0  i70 0 -66 -do 0,W*' * i 4 6 0 0 0 0 V V -w 4~ t I ads# is .1011131jull 16 1? is a It n 13 34 zs it J7 AN P, N. 11 u u M k I, is 0 a Q 61 f1d A- a C A L a r -2 It- I I _- IF I r W U4.9- b ..9 'to P.CKI%Sfl ..t, eakli" of hydmM mSd~'= &CdV0 OW, D- V-, BMWYI 44d F~ U, NutmLov. Khrm. Asada- 11,3C001111 Ho-IM321 3"Wri. -tAb,jktjdINaNj,. '~~Otaat of R.S on active coal we" eorwid -00 00 at low and high tempo. with HS gas of low and 0"al n= . in the formrr caw. the s condenwd .0* 00 1 Zr74KWV ud reduced tho, activity of the ratal"t. .00 In [be kiter camp, the S wee nodscirnoW lwyowl the catalro and the Proresda Proceeded rootinuoWy. However. th~ me tive coad bursas downi tisailly. Tlamfute. for lame-mcale --00 catalysis of g" titiait. of ats irregular flow, the use of active Caw as a catalyst is not stdidable. H. Z. Kamicb 0 06 Of a* 0 00 00 00 R 81TALLU"KAL LITIRAIM CIAUds"C"Tao" 60 &V (lot ion* s h An $dtwo #74 -j 5 A I Nib U P 0 0 0 0 0 0 0 0 0 0 0 0 0 00 0100000 019000000000600000000044 0 0 Oie 0 0 0 a 0 0 0 1 0 0 0 0 6 0 0-9  o 4 0 see I w it k) 11 w u Is k? Is It 8 b )0 ..0 v a I'll, a A) 60 4 so c D. V.Mlyl D. M. Litowbvnko iwd P. T, TWW. XTW R.) 14.7.25-8 hmi PhOll Production Is tuixed inth N%S In Ila" wAm. atxd the pptd. S anowed to stand at OD OW for I hr. to c%wuUte, It. M. Lek-em" ;_00 06 00 zoo 2gee F1-,-** aes j too a 1, 0 01; a, I I 1 0, 0 0 a IPA 0 0 0 0 *0 :  11 "Uumtllu 11144 "Mill, 4.11AII)IM 30'. 1% 16 11 14 IN 0 if a IlL, 0 ti -A Z AA 11 (X OP Ub 8 L -L/ 0 -0 00 ..00 go -00 00 Seloctivo obsorpbon of hydrollta suilide. I i, V, 00 114 luxlyt SIXJ M, M~ ull'taki'v, J-1joph m 041 -4-IT'I 12, iW7 7(W sit Oriman, 7W) I MV, iz 0o jl,dj% itwwk-4 isve abinpmai @)I 11,S of v.ske-vvil X2,; -00 of a Vi 14mvirltrity tit its, tit' dill ot.lkl 41m,rl'Ift"i -00 0 Cig4l, (if His deliendi On tim. Jill 1A the al-pluill hqu"I, .00 and the almoulfifill (~Wffs. Cil 11'S dill) C11'.1i vrca~ ifflul. tatimu.)v. With all inercaw of thr veltwily of sus.%treatin .00 ooj ((,� WS-1 tht. rfyccf of Jill 44 Oir almMI'll"n - go* 60 '3 Ilvc abWortill"n (d liquid still t tie Pchi IIIS ivacht-4 100 S,, and lh&t d CO, 7-111;,. '1'1w 1,11, Zoo 00 timarnan (it almmliffoll is ellahlifird Ily All" a)-ni'lloli ij 0 01, which prometh-d thtmigh a 4tatu (it oj,jw rractioll (it 00 3 hs'Itatiorlof Oh. A. A. NxIgmity coo 4141 -00 06 00 0 0 Ij! Z;oo - so 0: ~840 $00 1,00 00 Go -60 '00 A. S a. I L a WALLURGICAI LIUVAILAII CLOSIO'K&TIGh tie 0 frog 00 ti -T- .3, lia"I O~V '%k ' it, ; U I AV 11 -1-71- 6~-* -4 -- I ' 11 t- 4. Ill $I K Is qa It 1 i o 0 0 0 0 0 1111 0 0 0 0 0 0 0 0 o '0 'b 0 0 0 o * 0 0 0 v 0 0 0 0 0 0 0 4, 0 0 0!9 0 o 0 0 al 0 0 0 0 0 al 0  0 41 42 a a 46 It CM at % c 0 Ir 6 0 A k a 0 0 pa I I w MT !81! lob, JL t -I-A, tsf-~~ LL t4L Sao w caotal I. -o"Ups 4 sor 9011 oss 0*2 000 sort s0- 006. 00 0 * 00. 09- 00-- L 1-011 pun m4mq p vDi j3d lo3vv J4 on, P- love m au 'a-taxi j2qlom glass "I um "394 INS a PM 3q on wR)M" IBM ggql tq P-A! am W"m ap pm R" WU?N Imman Aq pm"w aq aw WR VU "a 6ft 1%tt pai ammin %6-LI -pI- -m- v -aim Aq Alm ps"Wi Imiltil aqi $Meg Oo umM *.L -sq- up ums, 413v% *Add joi 9"sjpw3 as pum pew 1,murmw 91 allot MID p p upta" 1wamp" "I A" .06 to UWAS -41P JI-4116" Ou '-we *40-01 Pug a(M)OR %vrz striviwil WH-40se(umum "up" stis page Itm)VII %V1jP-WHvM% ULAA. ZRID4 FAM WON %IrVg GRV11wJ o11j-Qvj-9HvNvA&P",pwt~mmP.09IV d Aq p"A '3.'s.1 n OR AJ- IR GHfX NU in; -dwj-j U30W IV 141111 " JDI *I I" *= !L= POO .011-0 is am" -109* 19011'101116 HO*X 01111 OR S&P-M A I" mq + SOVI 0991 0 0 0 - -- %--Ak ^00 00 owe C, 00, Poo #00 We* )roe 'to 0 a 0 0 4 0 0 0 a 0 0 0 0-0 A AM AM a a dL M dh dh a fia Ab AL As I  'W 'W 'oF a R v F a ft I It 1. l1k.- 9 A A 14.4"11W Awro.4. hh#." lv*hw4 fall. 4. .% M. i1pow Nil 4, 1119tikki lotOpolimel by 11ruclattias ('C.A, A3. 3W& 4) was lumatt to give no clew .00 = of the catiom into groups and intedires the law eA k1wit; of bilk come". as WA 45 IV. I I,, I it 1.4 11, lit Ill All iIlom, I., oileol Ow 1-4-010r m4thitil air Salftelf" J1 Ail a it It I I Ci .,%I *fill NA011 .6114 pid 111-1 kml~, lit. -III 1114V .-1-411,4111 i.: fQ1 0 41 M1441, .'rutialler the tiltiatv uI,,Ajlf,.j %fill lit u til At 4 A 11, , CIO. , Awl k At hewlt, fitirto"ll , - - N' in thrt 1~44tr N I III llic fill"le With KOII And tic 4 pet. Nrine &(III treat With a fir-Illy joirlool allilleniolotl Out ;,",' al 1. k,) COO)Iphlr the lpt., froin M and treat With Ow J-lly .2 WS by "tills to50 &1 '111 shakilla kally. Thl, A-`.--- (lerllvl A lig. Its. r.".1 Iil&lr v# Na; 111SI S ill pill. the vulful" if . alml ell. lerm" a air luossirti. A-oaljrs~ it-, Ill fill,, 4111 MI'Milill the eat. wilh Nil, the S 4 A~ anel tlttel- I*vr.t thc j.pt 1, 1 .111, it 3 V lit-1. fly morldifring Willi IICI. v%(. (1w *111114- to( Nil %%tilt vau.11, lit re CA St X .41"Hi dioullov the C".1; "fill 111,,s in IIN(1, all't the [I#% All Co Ili HCA in 111c the fili,ale ftwi IIA Will 90 Ultl- --Ill AI%AlVtC lll~ filltAlt' Ill tilt 1 'be sul"s %"'ill ""Icti- -Nil, Ill I-cr-kv ul Nil. a ual iswitier. jel Rot. Ctl %fill 4 N 110 and dewt Vo Its. to, thelinivr ther. rwitS. the hirdroxid. of Al. I[ f) Di-lvc the sulfitle, al Hi, Cu, C". lind Milk IICI L, pr, Cr. Sn. -an"n"IT"I'llbloo-u-Im4nn". A 1 11 p0j atiAl alct eel In the u%ual inantirr. lunhinethmi%av. 1 thl -, -ill 1. I.e.'" .46'J'Aut'ity. I'm it's dAla 1.1t, Kiwi, be 111114tv voldif 01INIl'I'l I% I.NI(NII Not% IC , ail a Inlet. If riotio,11% file and Ill 4 the h3mitugo,&I Illc,bW. p aW*M. (a I Pill. As,. Ils 1611,1 1,11 *Jib 110 41111 4rIrvI lit ill# uoo liZ. -3., ;4, it I m:' T , t-1--- lit k It 6 -3 1 Zx T'l I eil a U it a Kato A I too 41 0 4111 0000 0 0 0 0 4111 0 0 0 0  MD)BRAM all 1,01 U-n A,--- A I ID It a CE I -, --M L , a AI A.U. al't .!1-', .60 A So Tv J T rw v kvskil, and K. Senyot-4. '00 joi. Kwma Nu,S,46- -All -11 S A. 71910 A 42 d C 0 . , . . . . &)(190) (PUb. 19 ); tAl(Jh]s~ct* Hjchc s lz . a m rqgmced by a - O ' MU IA At AS I geWntar of f an SintaiM C()jjCU. of ion$ (81 S - .1 1.6 x 10-- thrm4h the wbole MAN of the li I not , Z a llrYahn b S V 0 e n les Oply &t the silt of pij%&W of bub Cl l f Z j All( jj 09 41 t CAd be pfrpd, by MbLjAAS "It$. O ftar S. strriloil zi ts i -7 r A I 7~q Joe 0 It (I t# it 3 ag It it OL it Of r1 It - A I M 0 a 0 0 * 0 a 0 0 0 Ve 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ~ 0  CA 17 A =wk fw sualyew of - "&=v~pl V. Rmttnko NawhAmlWovatel. Xhim.-Fairm. Inst.). Z=.. S.S.S.R. 1%9, No. 4.7-13.-Review and d6 CU0400-ne WWCWK% G. M. Ko"aporl I  c4mmems; defe"Shatim of SAINHAS. 1). V. jlml- V I! he , I I 'am, 8, S. S. H, I "Q, No. 4, Xf - A. -Ilse I ta %i, Z, inethod is Wietand's mlor Feactlati with tomphln,-. To, 10 ml, sq, stAn. imid 12 drop4 lICI and IA nil, lf?`~ MtWh. let titand 6-41 fifill., add :1 1111, 10% NIfOll- 0#111 CN11111-mv the md-twown color pholottirifivilly at U, m0 falust a Standard wale. 111C volof t, stahle 2 -3 of.$;% lit longer Koushilmif  Separation of cationa by tbt predpit. -~-j~lj n1c.1hod. D. 17. Ilenigh-T. I A-PetritL with ~tvoltylv ucti- %atcd slllkwc k jwqxl, by lKitatillg a jillit) oblained by IX41ing vottiil ill 5,:~ 11140'. Ivilh filmly vfnvd. ' Phosphiavlmvi aiU,3 ri)cd 4y thr carrier by paAug MA It),- droph(*pIlatt, Oltoli'll it to lipt. Iffe ("Ithla". It is .31mvil Out -:11ch it rollmill compla,ly exts, Ag wid Fe .,om the 14110mr id )g' lit'l 1:4. is ;1060,u1 T l by Ow Ag' ivill~ WIN AvOll :Lt 7W. N . V. ij  -2- U_ 31 USSR/ Paialytical Chemistry - Aivtly~;Ie of Inorganic Substances G-2 Abs Jour Referat Zhur - Kh1miya, No 4, 1957, 3-2125 Author BezuglyL D.V., Petrusevich I.A., Karlyuka T.N. Inst "REFFIc-ov Polytechnic Institute Title Determination of Micro-Components of Tin-Free Bronzes Orig Pub Tr. Khar'kovsk. politeklin. in-ta, 1956, 8, 165-168 Abstract For determination of Pb ( - 1 mg) in tin-free bronzes colorimetry is applied to a solution of 12 in an organic solvent after separation of lead dioxide that is deposi- ted at the anode. For determination of Sn is recommen- ded the hematoxylin method; conditions have been -worked out for the separation of Sn from interfering components. In determination of Sn it is separated by coprecipitation vith MnO 2' Card 1/1  C_ -7, U_ L, ) L V' USSR/ Analytical Chemistry General Questions G-1 Abs Jour Referat Mur Khimiya, No 4) 1957) 11991 Author BeEj~~ D.V., Borovshchuk M.P. Inst KhaTTR~c~vy~echnic Institute Title Separation of Cathions by Ion-Exchange Method Orig Pub Tr. Khar1kovsk. politekhn. in-ta, 1956, 8, 169-175 Abstract Equilibrium distribution of Cu2+ and Mn24 ions between sulfonated coal and solution can be expressed by the Roth- mund-Kornfeld equation, which indicates the heterogeneous nature of this ion-exchanger; in the state of equilibrium sulfonated coal is enriched with Cu, and the solution with Mn. Dynamic exchange capacity of sulfonated coal does not depend upon the concentration of the solution. It was as- certained that by the method of ion-exchange adsorption on sulfonated coal, it is possible to attain a concentration and enrichment of ion-exchanger with Cu, and also a par- tial separation of Mn. Card 1/1  BEZUGI.TY. D.V.; PETRUSEVICH, I.A. Gomparing methods for determining organic substances in aluminate, solutions. Zav. lab. 24 no.12:1448-1449 '58. (MIRA 12:1) 1.Xharlkovski.v politekhnicheakiy inatitut imeni V.I. Lenina. (Organic matter-Analysis) (Aluminates)  i),~! Z ~iI Prr",!L;-~tinri r 77 ~f S o, j i C i. ri ~ c n - t, e r b i it e L Ion hch of t~-,c- ion for its c~tlr:nlafion Lcuu prc_,Z;U~!~ed. CO-.- bi- 11. taper T(,e !at-- o:-' vcot.~.rations (7.~,ule i) Llic. principal c~vn_~rric .actors are, t,he c)~ -.hc icin exc.-.ar,~e zone ir: ',cz;ti=- column and the sOced of T,'-le :;,.)i-e Ldvancement ir t;ic colu-:.n. The exciwln,-,,~ of hydroJen 3. onss cay u!.-mconiui.. --,on3 lz~ 1 tensive in uE inveol.i.---ited catif;ni'en ol' mixed carbon) ~.-nd sulfo-acid t~rpes. In i--x- cr_i-~.ent "r 4 (`%t'ie the heiw.-"ht of the zoning -..-;as 16.29 cm, the spci~d C.-f -.1ie zone 0,0026 cm/scc. ,"r~cniur sikits fror. the brine of Soviet salt 'Lakes Lxr beer, tranclormed into the -,ard 1/2 corresc-crding sodium salts wii,~i i yield of L.A. -Belo-  SOV/~;0-32-2-4/56 'clroduction cf Sodiu--j! Carbonate and Bicarbon:ite b- Tleans of Ion Fxclhi.~ngers 1; ~--orskaya, Kovaleva, i,--omenko, and V.I. Lu'-as-he,ko ',.-,'Lpc-d jr) the experimeiita, Thr~~-e are 3 tsbles and -1 ref~,-rcnces, 5 of v.,ii-ich ar.7 SoVi ,,n-~ 4 rnglish. AS S 0 C D', T 10 politekhnicheskiy institut imeni V.I. Lenina r'kov Polytechnical Institute Imeni V.I. r4. ..I :,c _n) J'11Y 15. 101-57 i~af -1 2/2  S/075/61 /016/006/001 /006 B106/3147, AUTHORS: Amsheveva. A. k~ and TITLE: Cerium determination in pig iron by titration wi-th hydroquinone solution PERIODICAL: Zhurnal analiticheskoy khimii, v. 1.6, no, 0', 96,,, 683-0687 TEXT. The authors develo,.)ed a reliable and quick method for deterMinint7 cerium in iron r,,.,etals,. It is based on the separation )f cerdum frorn othe-r elements in the form of fluorides at a pH of 2-5, and on the ra,)-ld and exast titrimetric cerium determination with a hydroquin.-ne sclution. Two values were i.,;easured for the solubJlity product -,f CeFz. 8,1~10-,6 (radlometri-:~ally) and 1,1,10-15 (conductc-metr,Jcally) "'eaver L. . lurdi 71. C. I Anul Ch-i.m. Acta -0. A70 1 :V of ceriu;.i fluoride was found to be 3 70-5 molesi/I i ter f c. ri2 -3 7 1,2-10 moles/1 i ter f c, r pH 1 , and 1 10 Mcles/l-~~er I- C, r0, The weiched-in portion of pig iron should contain 2-3 :n.- ~'l C e r i U MDe t e rmina- tion is carried out as follows. the weighed-in porticn of pig iron Card 1/3  . ~Uc S/075/61 /016110061001 1C'- Cerium determinution in B106/3147 (1-3 g, depending on the cerium content) is heated with 2:~ ~O mill-iltters of 11C11 If c.-- d i s s c, 1,u t i c n t &"- e s -c I a -, e - T, h e r ~ z -~a-ed --s f:2te-~,ed oF1. Tl,--e volume of the filt:-ate to-Eetiler w;th carbon washin - id,~ should not ex26ed 50 Th;,n t; tr4 4---n a-d. a s: r :17 id f~z, the reduction of valert 2 ai-E :~ded drop-wlse tf, the -.?Id solutio- T iz~ of sodium fluo,,-ide ;Is added and e sed )r 1 hr, The fluoride is off and lt~~r with th~ i a,,~ is 7., a - i th o' Nate.r, The f-" L -.. - 1 1, ., - s I i gh t I ,, Fin, 2- r- a I E, d -i n Ei e f u f a,:7 ters ~f nd c.v a at t, so i f-.) ri c a i d i 9 ad d d ' o t1h e s -i d u e a '1he c,,-.)'LC-d rez~,due is ,s 11 t f dens i 'r. 8.,! a n d I C' - e r s t i c. n a T e ad d c- d 11 o r -~ e r u~ x d -a 1~-. r-n 3 is remove the ex,,,ess c~xidi z_'n, a d d e d t h an a e n r a d -a C s - -c n o f acJd -L;ntil j)ink a ri-rietrd nu t i on car! lbe cai-i-,.,,d ,,,,t sufficien, -xava en t, i an tti anum , ,eodjm~iir and i,; v a r n i he Ca.,,-d  S/075/61 1/01 C")ICC)61001 Irv 00" Cerium determination in ... B106/'BlA7 molybdenum do not disturb in amounts < 5 1,19. Vanadates and chromates ~o disturb. The above determination of cerium takes 5-6 hr. By systematic statistical evaluation of the results obtained in the analysis of synthetic mixtures, the authors showed that the method is convenient and accurate. It is being applied to analyses of modified piU iron sa;~;;Ies at the authors' laboratory. R. S. Volodarskaya (Ref. 6: Zavodsl:- laboratoriya jj, 1160 (1953)) is mentioned. There are 5 tables and 1~D references: 4' Soviet-bloc and 6 non-Soviet. The three references to '-n,,1ish-1a.1,-ua, e )iiblications read as follows: YiFestwood W. A 1-cst 75, 275 (1 ~46) ; Jouden W. J. , knalyt. Chem. 19, ~46 (19147 J. and Peterson J.,.Anal. Chem. 26, 1 j02 (1954) Kharlkovshiy politel:hnicheskiy institut (!:har11:oV !,O-,Y- technic Institute). Zavod transl~ortno,~;o rnashino- Stroye~ji,rL~ i17-_ V. A. Ealyahova 1"lant for Tran.-,-or1Fitic:- .',achinery imeid V. A. S U11 7_,1D November 17, 1960 Aard '4/3  BEZUGLYY, D.V ; AMSHEYEVA, A.A. Determination of calcium in modified cast irons. Zhur.anal.khim. 17 no.9:1045-1051 D 162. (MIRA 16-2) 1. Leni4 Kharkov Polytechnical Insititute and Malyshev Transport Machine-Building Plant. (Galcium-Analysis) (Cast iron-Analysis)  CE S ON Nil: A!-,5017403 UR/0081/6510001'010/007'i/'SO-15 SOURCE: Ref. zh. Kbimiya, Abs. lOS459 p AUTHOR: NR_gornaaya, L. _ L._; Bezu- V.--D. TITTLE.- 'Investigation of the photolumine scenAnd scintillation properties of cer- .tain organic compounds with conjugate bonds in solid plastic solutions CITED SOURCE: Sb. Stsintilivatory i stsir~tillyats. materialy. Vyp. 3. Khar1kov, 1~,barlkovsR6 un-t, 1963, 91-98 TOPTC TAGS: photo lumin esc ence , scintillation, conjugate bond system -TRANSLATION: The phor0lumines cent and scintiliation characteristics lot" a larze num- ber c-P organic compounds. were inv,~~stigated to determine the connectlon between the Dhotoluminescent and scintillation and structural as:~ects o-.'7 the -cop.-,)ounds. ,ilso the investigation was to deter-,-zii-ne the influence o4-~~ the coupli-ii" efl"rect and o-_-:: th-- Viscosity 01 the medium on the Photoluminescent and scintillation characteristics. Aryl derivatives of- 1, 2-eibylene, 1, 3-oxazoley and 1. 3~ 4-oxadiazole a7id also the phenanth--y! derivatives of oxadiazole and the fthryl derivatives of ethylene were Card.1/2  L 60900-65 - ACCESSION NR* AR5017403 investigated. For the investigation 18 x 15 mm plastic scinti'Llators were used, Heasurements of scintillation effectiveness were -.made accovding, 'to the average phlto- current of a FEU-29 vhotoelectrolAc multiplier upon irradiation with a radioactive source of AgllO (-0.1 tons of Cu); the quantuin yield of photoluminescence was mea- sured with a SF-4 spectropbotometer. It was found t1hat t' he greatest increase oF the quantum yield of photollurninescence is observed upon increasing the conjugate chain J through the introduction in the n-position of additional phenyl rings; compounds with such residues as phenanthrjl and anthryl ones have a considerably lower quantum, yield than the corresponding dipbenyl derivatives. A'co' 'rrelation relation was established between the quantum yield values of fluorescent and scintillation effectiveness for various classes of coimounds in about t1he same spectral area of sensitivity employing a pbotc-alectronic multiplier. The effect of.the viscosity of the medium on the Dho- tolumi-nescent indices of certain derivatives of ethylene was shown; it was established that increasing the viscosity of a medium leads to an increase of quantum yield of compounds with an open conjugate chain;views explaining these phenomena were ex- pressed. N. L. SUB CODY,- OC, OP ENCL: 00 Card'2/2_____  BEZUGLYY, V.D.; ALEKSEYEVA, T.A. Polarographic determination of monomers of 4-vinylbiphenyl and its derivatives in polymers and copolymers with styrene. Zhur. anal. khim. 18 no.2:261-266 F 163. (MIRk 17:10) 1. All-Union Scientific-Research Institute of Monoorystals, Scintillating Materials and Highly Pure Substances, Kharkov.  AMSHEYEVA, A.A.; BE2UGLYY, D.V. Determination of bismuth in cast iron by a photometric or a complexometric method with xylenol. orange. Zhur. anal. khim. 19 no. 1:97-101 164. (MIRA 17:5) 1. Zavod transportnogo mashinostroyeniya imeni V.A.Malysheva Politekhniche3kiy institut imeni Lenina, KharIkov.  BEZUGLYY, D,V,i KHOMENKO, N.Ye.; LUKASHENKO, V,T, Dynamics of Ion-exchange adsorption of microcomponents in the presence of accompanying ions. Zhur. anal. khArr.. 19 no.3:276-281 164. (MIRA 17:9) 1, Khartkovskiy politelchni-hesKiy instAtut imen" Lenina.  l3EZV,,(',LYY, 'V.D.; KHEYFFTS, 1,.Ya.; ill , Ye.A. Determination of anthraquinone and carbuzole -Jn t--: the polarographic method. Zhur, anal. khim. 1.9 nc.-:-.~G-2--~...-,;~ 16/4. P~.'~ 1. All-Union Scientific-Research In3titute of Monocrystals, Scintillating Materials and Specially Pure  V, r NEOp Ilay', OuM, -Itzn;ct,~-a cm half-duve p_cvint~Ads ct arumat~n a!OLLe. Taore.t. 'r[bIrre 1 165. (M , "R pi 16  BFZUGLYYPV'r).; rol'ToMmixV, YL,.F!. Polarographic daterminatIon of organic compounds being reduced in the far negative rpqion of potentials. Report I.: Polarography of alkyl-substituted styrrnns. ',hur. anal. knim. 20 no.73842- 84ni 165. (MIRA 18;9) 1. All-Union Scientific-Research if NoTioCryStalS, Scintillating Materials and Specdally Pure Chemicals, Kharkov.  BINGLYL.I.R., kand.sellskokhozyaystvennykh nauk; TITSKIT, I.Ta., kand.selskokhozyaystvennykh nauk. Brower's roast increases butterfat percentage in cows.' Zhivotno.vodetvo 19 no-12:36-40 D '57. (MIRA 10:12) l.Ternopollskaya oblastuara sellskokhozyaystvannaya opytnaya stanteiyao (Cows--Feeding and feeding stuffs) (Teast)  ;';~30 L S/056V63/044/001/015/047 B103,B180 AUTHORSt B N. Galkin, A. A., Pushkin, A. 1. TITLEs Magneto-acoustic oscillations and the Forai-surface in alum~nl= FERIODIOALt Zhurnal eksperimentallnoy i, teoreticheekoy fisikif v. 44, no* 191963, 71 - 79 TEXTs The Anisotropy of the magneto-soouotic osoillationv*t'n alumi"M was studied by, a method described by A. A. Galkin, 1. F. Korolyuko PTNO 69 199, Ink6op to got information of the Fermi'surface (V. L. Ourevich, ZhETFP 37P 71F 1959). Siall aluminum disks-were examined at 4.20K at ultrasonic frequencies of 163 and 223 Mope in magnetic fields of up to 2500 oo. The sound wave vector was directed along the prindiV61 crystal.-, -lographio axes [1103, DOI , [1113. The resulto showed the shape and dimensions of the second zone to be in good agreement with-the-Fermi our-; face proposed by W. A. Harrison (Phys. Rev., 116, 555t 1959; 118, 1882, 1960; lie, ligol 1960) who used the model of almost free electrons. They also show that there are no sharp intersootiona on-the surfaoe of the .second zone. In a previous paper (ZhETF, 41, 84, 1962), slower magneto- Card 1/2  9/056/6 3/044/001/015/067 Magneto-acoustia oa,)illations and ... IB108/~180 acoustic oscillations were observed. A study of their anisotropy a~sy. throw light upon the str"cture of the third zone. There are 9 figures. ASSOCIATION: Fiziko-tekhnichaskiy institut nizkikh temperatur Akademil nauk Ukrainskoy SSR (Physicotaohnical Institute of Low Temperatures of the Aoademy of Sciences Ukrainskaya SSR) SUBIAITTEDi July 21, 1962  BEZUGLYY, N.F. Automatic protection by signaling of dangerous sections and work sites. Put' t.put.Poze 8 no*4:40-42 164* (1,9-RA 17:4) 1~ 1. Glavnyy inzh. N6vosigirskogo otde-leniya Zaradnc-Sibirskoy dorogi.  U.13:~R/'P.'rmicv SuperconticuVity NOV 50 "Certain T'cadVwlties of the Trawition to the Su:mr--onductingp Stats* 110" Aq A* Galkinp Jo Go Lazarevs P. 4 DDZU91T."s "II-kyraic*tach !not* -Asad -Ici Jkra- inian SSIR "-"11 ,. %~r Mmer i Tearet 'Fiag Vol XX& No U& pp 187-.994 Ubw in*wdmt nothoft to detarnine velocity of displacement of boundary botween wrml and sqxrconductiM staton (w in about 10000 oi/zec)o Showa thiB velocity diffors when superc3ndactivity is disrupted 17jr constant and variable rztgwtic -'ieldne Submitted 30 liar 5A, "A 16)qLIGI  DisititalivAis of o"ormideWirity by an sit-IME Cwtellit,A A Galkin and 1'. A. t!~ (At N Lt. S. R. Kiev Zh",. F3Tr4r--Ti,-rI i: ZO, It 4,N I; 11CO,I_With Jul ft.e. of amplittuir 1. "n 4 .I.V 14 ivir"41Y ji" if 1. +. 1D % Ic (evil. Cu"rot intell-11 %. . she p.d. V Ins the ~Alllj4e io zero. Willi 1. h. jo. V ine""es; with It. reachm a max., V., .,t 1. /C Ip. 'I'd thse$, *% the lice. ball-wave Iseging to take 1MY1 I.$ the di-turboace of the itupercood.. 11 dmrd-w- with buthet iucrea-iax, 4, (calling to the limit V.,. At liquM Ilr If tviol... t . de"CiLs" WitL hictritsing frequency F. I he c%niltarv ob,"vations of *rin. Feldinvicr. and GatfunkO tPkv5. Rgv. 76. J67(Mil)) at hisher , (nuar ilun ;.M.(Xisl VYCIM twf %n-, I call tic explaineil by iollwovill 111crill.1 in- 1-11.6011 At hiSht-1 r, Unit VMXV HPUtlY OtliAlhllil' IrAl-litill- Thi~ 1%,ins of view i, s1wrt-INWAIM hy all ript ~ Wish:! 44 ~ Sit tod. one IsAlf It-11 in its gl.j~ roNrinim-, Ilse t)lhej IL&lf With the 2t&,% lots,- etched M..Y. ThC IAItCT A-1 1'. 1'.0. (-owt. as a function of F up to Cyri- IK~ ~ Oterras with the formcr, that ratio is v)n,l - onlY u1) - p theta hictr4ws, with further inercoitig s, tilp Its p iq),Wl; further illerrilm of - lwodutvs tio further chauge in 1'.. HviJently, train F - 2(k)(11 upward%, not all tile bra( A~toed or evolved in the stiticreonductive trwi,ition i, ,U-ipAtc,l during a tinic distinctly hmtu than tbc period t)f tile ~ c. At to', the %atuple upiwAn to tic causplet"y IuSutAtOl. N. Wou  'ItZ "UULXXf Y. he USSR/Physics Card 1/1 Authors : Galkin, A. A. and Bezuglyy, P. A. Title : Frequency dependence of Wrface resistance isotherms of suy*r-conductors Periodical Dokl. AN SSSR,, 97) Ed. 2., 217 - 219, July 1954 Abstract Experiments were conducted to determine the frequency dependance of surface resistances of super-conductors. An expression for Rs was derived and com- pared with experimental data. Nine referencese Graphs. Institution Presented by Academician L K. Kikoin, March 23, 1954  (7m. The klmat" ofikstrucil(in ofsaijiTcoinitwilvity" kv it mAgmt1c k4d. A. A. GALIAN AND P, A. 13LZM:LYI. A. ,'kwer. teor. Pir, 28, No, -1. 463--70 XISSR OY55) fit Russiail. A sitricrconoitcting in or rmrrurv cyl;ndc- ~.s the core of a rnutual inductancu and the C.M.f. ICroFs the ]l:'~'K Secondary %tus 6tudied esdIloimphically In the POWILT Of VaTIOU3 Steady nugnetic fields for various Amphuidts o! the primary altzmatiDs field (such hat file total field %%w above criticall for part ofeach cycle) and for various fnquenc.4". from 16 resulli It is deductld In igrmixnt %Nith LifshlWa theory (Ahs(r. 1016 (19$2)) that the velocity of dliplactment of the i boundary bttvTen suo 'eruondwting and no;wal phases Vallia Q3 1.0,10 (a ---k conductivity) but that die depth ofiltstructiono(supemonductivity variza rather ruore rapidly %rith die excm or field over the critk-al than is prMictW by the timory. It 6 cstiniated that the time of creation of a inortnal nuclew is < 10 wc bu t I he tlrm of crea don of a #uptTCuPdUCftg nudeus Is x 10- Sec. MO)"N"o  GALKIN, A.A.; BEZUGLYY-.E-A- 00000~_ - Calorimetric investigRtiona on the Rbsorption of high-frequency fields by suDerconductors. Uch.zap. KRGU 64 no.6:175-182 '55. WMA 10:7) (Superconductivity)  i 1, 1 . , i .. 0, z " - ~, Z- ~Ifll  GALKIN, 0.0.; BEZUGLIT,P.A. ("i '~ Now method for the determination of the topography of high frequency fields in hollow-space oscillators. Ukr.fiz.shur. 1 no.4:382-388 (~-D '56. (MLRA 10:2) 1, J*isiko-tekhnichniy institut AN USSR, Kharkiv. (StIlbene-Optical. properties) (Dichroism)  2.1-5-3/26 AUTHORS; Bezuglyy,F.A. (Bezuhl~7, P.A.) and Galkin, 0.0. (Halk-in,, 0.0.) TITLE: On the Absorption by Superconducting Tin of Electromagnetic ' Radiation of Frequencies 6.3xlOIO and 1l .1xlOlO cycles (0 pogloshchonii everkhproyodyashchim oloyom elektromagnitnogo izlucheniya chastoty 8.3xlOlOi ll.lxlOlO gerts) PERIODICAL: Dopovidi Akademii Nauk Ukrains1koi RSR, 1957, Br 5, PP- 436- 438 (USSR) ABSTRACT: The temporature-dependence of the ratio R.'(T) (where R is R. a surface resistance in the superconducting state and R is sur- face resistance in the normal state) in a tin sample Dan studied at frequencies of 8.3x1010 and l1.1xl0lOcps. The range of temperatures employed was from 1.50 to 40K. The sample was a tin single crystal polished by the electrolytic method. Its purity was 99.999%. The results-of measure- mepts are shown in the figure of the article where the values of the ratio are represented by ordinates and absolute temper- atures by abscissas. These data show that at the frequencies- used.the difference between Rs and Rn is preserved, decreas- ing with the rise of frequency. Inasmuch as surface resist- Card 1/2 ance does not approach zero at temperatures approximating  AUTHORS: Bezugliyy, P. A., GAlkin, A. A., 56-41-- TITI~E: -'TE&-C-Y-cl-ot-r-on--Re-acn-ance In 7in at a Pro quency of 9300 mr (Tat ter IL,-. -n.L Editor) (TsiklotronMy resorAns v olove pri chastote 9300 PERIODICAL: Zhurnal Eksperim. i Teoret. Fiziki, 1957, Vol. 33, Nr -1078, (USSR) ABSTRACT: In a ma-netic field that runs exactly parallel to the sur,-',-,Cc a metal sample it is possible that a cyclotron resonance o(;Our,-. In order to prove the existence of the latter the depende:,ce o! the active portion of the surface resistance of a tin sample on the field intensity of a constant magnetic field at 9300 MHz was experimentally taken. The tin sample consisted of a o,8 mpi thick, electropolished, monocrystalline wire in which the fourth n:-de-~ axis conincided with an accuracy up to 50 with the axis of tLe ~i- re. The sample was placed in a coaxial copper resonator. The mea- surements were made at 4,20K and 20K. From the resulting curves it may be seen that a monotonous decline of the resistance is to be observed in fields larger than 4ooo Oe. At H, = 36oo and H2 = 900 Oe, 2 resonance minima were noticed. At the lower temperature the minima emerge more clearly. At the same tizae, however, they lift somewhat toward the.side of the field intensity. A rotation of the sample by goo opposite the constant magnetic field furnishes -ti- most the same results. These data are in food a .,rreement with other Card 1/2 experimental results. There are 4 Slavic references.  AUTHORS; Bc".u-1yy, P. Ato Galkin, A. Ae 56-1-40/56 TITLE: The Cyclotron Resonance in Lead at a Frequency of 89oo Megacycles. (Taiklotronnyy rezonans v svintse Pri chastote 8900 mggts) PERIODICAL: Zhurnal Eksperimentallnoy i Teoretichesko,.- Fiziki, 10,58, Vol. 34, Nr 1, pp. 236-237 (USSR) ABSTRACT: The present paper shortly reports on the reoults of the experiments made on the observation of the cyclotron- -resonance of lead at 89oo megacycles. At first the reasons for the selection of lead as toot-object are given. A mono- crystalline lead wire# - 12 mm In length and -0,8 mm in diameter, served as sample. A coaxial copyer resonator was fastened nlonC the axis. The surface resistance of the sample was inveDtiga'ted by the same method an employed by the same authors in the investigations of the cyclotron- -resonance in tin (reference 3). The results of the measurements of R(H)/R(13oo) in lead at 0the freguency of 89oo megacycles at the temperatures 4g2 K and 2 X are given in a dia-raM. R(H) signifies the surfince resistance in a Card 1/2 constant field with more than l3oo oersted field strength.  The Cyclotron Resonanco in Lead at a Freqnency of 89oo 56-1-40/56 MaEacycles This diacram clearly shows the important influen ce exerted by the relaxation time of the electrons upon this phenomenon. At 4,2 0K only a monotonous decrease in the resistance with inoreaning field strength is observed, but at 20X and H -2400 oersted a fairly low resonarce-minimum exists. After this minimum follows a maximum and then the surface resistance rapidly decreases in agreement with the forecast of theory. In lead (juat as in tin) the main groups of the electrons cupposedly are responsible for the eyelotron resonance. There are I figure and 6 references, 4 of which are Slavic. ASSOCIATION: Physical-Technical Inatitute AN Ukrainian SSR (Fiziko-tekhnicheskiy institut A'.ademii nauk Ukrainskoy SSR) SUBMITTED: October 5, 1957 AVAILABLE: Library of Corgreen C,,-,rd 2/2  J"C L Bezu~rlyy, P. A., Gall:in, A. A. 6 MTTHORS: ITLE: tanc,,~ oaf Tin in Weak An Investigation of th e Surf-,Lce Resist Ma~,rietic Fields (Issledovaniye poverkiinostno.--o soprotivleniya 3lova v slabykh ma,-nitnykh, polyakh) PERIODICAL: 9hurnal Eks-,~eri,nentallnoy i Teoreticbcs':-.oy Fi,-iki, 1958, Vol. 34, Nr 1, pp. 237-238 (USSR) ABSTRACT: The authors invectigated this surface resistance at field strengths up to loo oersted with a method already desoribed earlier (reference 3). The results of these experiments at 0, a frequency of .0300 -;:Ieuga-cycles ani a temperature of 4,2 are here illustrated in a diagram. In agreement wit!, tlie forecast of theory the active resistance of the metrl at field strengVis up to lo oersted is practically indepandent on the field stren.-th, i. e. at H--->O applies dR/dH--,-O. When H >1o oersted the surface resistance monotonous!y decreases xvith increasing field stren.-th. In measurements in semiconductors it of the temperature dependence of R /R n a hue to be reckoned with the dep-ndence of the surface resistance of metals on tiie stren6th of t,-,e magnetic field. Card 1/2 In this connection R and R signify the surface resistances 0 8 n  An Investigation of t-.e Surface Resist;,,nce of Tin in Weak a6-1-41/56 Magnetic Fields of the metal in the superconducting arid in the normal state reepective1j. A disregardink,- of this fact woul-,! lead to increased values of R 'iliere arc I ft-Ure an," 3 /Rn' refcrence,t7, all of wh?c). are Slavic. ASSOCIATION: Physical-Technical Iristitiitv AN Ukrainian SSR (Fiziko- -teklinicheskiy institlit Akade-.-.iii riaukUSSIR) SUBMITTED: October 5, 1957 AVAILABLE: Library of Congress Card 2/2  24 (1) AUTHORS: ]3ezuglyy, P. A., Galkin, A. A. SOV/56-36-6-61/66 TITLE: The Anisotropy of the Absorption Coefficients of Ultrasonics in Superconductors (Anizotropiya koeffitsiyentov pogloshcheniya. ulltrazvuka v'sverkhprovodnikakl) PERIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, 1959 Vol 36, Nr 6, PP 1951 - 1952 (USSR) ABSTRACT: By the investigation of the absorption of ultrasonics in super- conductors it is possible to determine the size of the energy alit at T - 0 as well as the dependence of the slit width (Eo) on temperature. The experiments carried out in this connection are in agreement with theory. By means of experiments also the influence exercised by the isotope composition and the homo- geneous lattice deformation upon T k and on the width of,the alit was investigated. It may be imagined that lattice aniso- tropy leads to more visible results than isotopic composition. In the present "Letter to the Editor" experimental results con- cerning the absorption of ultrasonics (frequency 70 kilocycles) Card 1/2 in superconductive and normal media are published. (Determina-  The Anisotropy of the Absorption Coefficients of SOV/56-36-6-61/66 Ultrasonics in Superconductors tion of the,absorption coefficient in the C2- and C4-ax's of a spherical tin sample). The results, which were dealt with by the method developed by Bardeen, Cooper and Schrieffer (Ref 4) are shown in a table. It was found that the temperature de- pendence of the ratio of the absorption coefficient a8/an is different in the two directions. The case of sound propagation along the C4-axis agrees better with the isotropic theory of suppreonductivity. There are I table and 4 references, I of which is Soviet. ASSOCIATION: Fiziko-tekhnicheskiy institut Akademii nauk Ukrainskoy SSR (Physico-technical Institute of the Academy of Sciences, Ukrainskaya SSR) SUBMITTED: April 7, 1959 Card 2/2~  82594 .29 9 00 S/056/60/039/01/01/029 '? ~,. 5-4 0 0 B006/BO70 AUTHORS: Bezuglyy, P. A., Galkins A. A., Korolyuk, As P, TITLEt Investigation of the Anisotropy of the Energy Gap in Superconducting Tin PERIODICALs Zhurnal eksperimentallnoy i teoreticheskoy fiziki, 1960, Vol. 39, No. 1 (7), pp. 7-12 TEXT: The authors investigated the temperature dependence of the ultrasonic absorption coefficient in different directions of single crystals of superconducting tin. They describe the methods of investi- gation and present the results. The method of energy gap investigation is based on the determination of the difference between the curves as/(xn - f(T) when the ultrasonics is propagated along a binary (C 2) and a tetragonal crystal axis. From this difference the anisotropy of the energy gap may be determined, a 8 and Un are the electronic ultrasonic absorption coefficients in the superconducting and the normal state respectively. They are related to the width 2 E 0 of the energy gap by Card 1/4  82594 Investigation of the Anisotropy of the Energy S/056/60/039/01/01/029 Gap in Superconducting Tin B006/ '0070 the relation ces/Ocn a2/(e 1-0/kT +1). To investigate the influence of the lattice anisotropy on the energy spectrum of electrons in a semiconduc- tor, the temperature dependence and absorption coefficients of longi- tudinal supersonics was investigated by means of an apparatus described here in detail. Fig. 1 shows a block diagram of the measuring device. The generator works at 70 Me/see, the quartz emitter rece' 2500 Iv9ssec. A small -3000 Pulses per second for a duration of (1 1.5)-10 sphere of single crystals of tin was used as a sample. It had a diam6ter of 13-15 mm, and on it, cut surfaces of 5-6 mm diameter perpendicular to the crystallographic axes were produced by electrocorrosion. Onto these surfaces quartz emitters and receivers were cemented in vacuum and on them small plates of brass of 5-6 mm diameter and a thickness of 0.2-0-3 mm. For very pure crystals of tin the condition that the mean free path of the electrons be large in comparison to the ultrasonic wavelength was very well fulfilled at helium temperature. The temperature dependence of ultrasonic absorption coefficients was measured simultane- ously in two different directions at temperatures down to 10K. Fig. 2 shows the Dewar for helium in which the measurements were carried out. Card 2/4  82594 Investigation of the Anisotropy of the Energy S/056/60/039/01/01/029 Gap in Superconducting Tin B006/BO70 The temperature of the sample was determined from the saturation vapor pressure of helium. The results are shown in diagrams. Fig. 3 shows 0~8/c~n between 10 and 40K taken along two mutually perpendicular C 2 axes. The measured values (full and empty circles) all lie on one line which shows that the physical properties are the same in the two directions. Fig. 4 shows the same for C 2 and C4 axes. Here the anisotropy of the energy gap is clearly seen. Measurements made on two samples gave uniform results. For the absolute value of the electronic part of the ultrasonic absorption coefficients in the normal state in the neighborhood of T a 9 the following results are obtained: CC n = (47.6 + 0.2) decibel/cm -(C 2)1 and ctn- (21.4 1 0.2) decibel/cm -(C 4). Fig. 5 shows log(v s/~-n) - f(T./T). From the slope of the straight line portion of the curve, the energy gap width at absolute zero may be determined to be (3-5 � 0.2)kT C for the C2- axis and (3.1 + 0.1) kT 0 for the C 4- axis. Besides the anisotropy in the temperature dependence of the absorption coefficients, an anisotropy Card 3/4  82594 Investigation of the Anisotropy of the Energy S/056/60/039/01/01/029 Gap in Superconducting Tin B006/BO70 of the transition temperature T c is also established. For the C2-axis Tc lies about 0-004 0K higher than for the C -axis. The authors thank A. 1. Berdovski and E. I. Ponomarenko fir cooperation in the measurements V( and V. L. Karpachevski and B. N. Aleksandrov for help in the preparation of the sample. There are 5 figures and 13 referencest 5 Soviet, 6 American, I British, and 1 Dutch. ASSOCIATION: Fiziko-tekbnicheskiy institut Akademii nauk Ukrainskoy SSR (Physicotechnical Institute of the Academy of Sciences of the Ukrainskaya SSRT SUBMITTED: January 12, 1960 Card 4/4  '-~30MMY, P.A. j GAMIN, A.A. Anisotropy of the energy alit in tin in the plane of the binar7 axes of a crystal. Zhur. ekep. i teor. fiz. 39 no.4:1163-1164 0 160. (MIRA 13-11) (Tin crystals)  .~ -I B,-ZUGLYj P.A.., GALKIN, A.S., PUSHKI'!, A.I. "14agnetoacoustic oscillations and fermi surface in aluminum." Ret)ort submitted for the 8th Intl. conference on Low Temperature Physics Lo~don, England, 16-22 Sep 1962  BEZUGLYY, P.A.; GALKIN., A.A.; PUSHKIN, A.I.; KROMBURD, A.I. Magnotoacoustic resonance in aluminum. Zhur.eksp.i teor.fiz. 42 no.lz84-85 Ja 062, (KERA 25 :3) 1. Fiziko-tekhnicheskiy institut aizkilrb temperatur AN Ukrainskoy SSR. (Nuclear magnetic resonance and relaxation) (Aluminum)  7 L 10725-65 T-1VT(1)/EWT(=)/FWP(b) IJP(c)/ESD(t)/ESD(gs)/ASD(a)-5 JrD !ACCESSION NR: AP4046394 S/0056/64/047/003/0825/0835 iAUTHORS: Bezugly*y, P. A.; Galkin, A. A.; Zhevago, S. E. :TITLE: Investigation of the Fermi surface in RAllium on the ba a of magneto-acoustic effects SOURCE: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, v. 47, no. 3, 1964, 825-835 TOPIC TAGS: gallium, Fermi surface, magnetoacoustic affect, ultra- spund absorption, absorption coefficient i ]ABSTRACT: This woen was intended to determine the topology of the. 1constant-energy surfaces of gallium from the oscillations of the ul- Itrasonic absorption coefficient in a magnetic field. The existing experimental data are inadequate to serve as a basis for coirLparison iwith the present model of the Fermi surface for gallium. For this ,,purpose, the anisotropy of magnstoacoustic oscillations in gallium J.-ord 1/3  L10725-65 ACCESSION N-R: AP4046394 single crystals was measured for a sound wave vector aligned along the a and c axes, at a temperature 4.2K, a longitudinal ultrasonic frequency 200 Mcs, and magnetic field strengths up to 500 O.e. The pulse technique described by A. A. Galkin and A. P. Korolyuk (PTE, no. 6, 199, 1960) was used, and some of the measurements were made at 1.9K. The results show that for a given sound wave direction there are two principal types-of absorption-coefficient oscillations,~ short-period (type A) in fields above 100 Oe, and long-period (type B) in the 20--2,000 oe range. A third type (C) is also observed at narrow angles (52--600). The values of the observed periods and the dharacat.er of-their anisotropy are-in qualitative agreement -with the individual regions of the Fermi surface of the 7th, Sth, and 9th electron bards, constructed in the nearly free electron approxima- tion. The causes of the observed discrepancies are discussed. "The authors thank 1. 0. Kulik for valuable discusBionso B., H. Aleksandrov for preparing the sanpleut and H. B. Uharchenko_.for perfo .ng x-ray f the sanples." Orig. art. bass 8 figures, I formula and studies o Carcl 2/3  I table. ASSOCIATION: Fiziko-tekhnicheskiy institut nizkPAh temperatur A-kademii nauk SSSR tPhysicotechnical institute of Low Temperatures, Academy of Sciences SSSR) SUBMITTED: OlApr64 ENCL: 00 SUB CODE; SS, GP NR REP SOV: 004 OTHER: 008 Card 3/3  349 5 i ACCWSIOW ?M: AP5003287 s/ol8i/65/007,"*002/0480/0484 AUMORs Zhevagov S. Yea TjTLEj Investigation of zagnetoaawastic effectr, in gallium at 210 He SCURCE: Fivrks tverdogo tela., v. 7., no. 2, 1965, 48oia TOPIC TAGS: g&Wulmagnetoncoustic effect, Fermi surface,, single crystal, ultrasound propagations, electron structuare ABSTMOT: Results are reported of an experimental inveatigation of Maganto- acoustic e%ffects In singlt-crystal suiples of gallium, using longitudinal 210 Mc ultranound in a transverise field with the wave vector parallel to the b-oxis of the crystal,, and in a iongltudiunl field with the wave vector perallel to each of the Unne principal axes. The same pprocedure and the same gaW=,!SW'*1eS vere used in earlier research by the authors (ZhE V v. 47, 825, 1964), except that a different pair of quartz convertera v" used to obtain the '210 Ma fre- quency. All experimpts were n4de at 4.2K. The results show ' thet, when the so=d YrOPS99tes alax~ the b-axis of the crystal., the period of oscille"Uons  L ACCWSIO'B NR: AP5005287 reaches a maxinuum value (1.5 x 10-2 Oe-1 when the field is parallel to c) and decreases smoothly as -the angle between the ruagnetic field and the a-axis de- creases . only tiuro or threa osci I i ations are observed in the entire angle in- terval, so that the accuxacy with which the onclUation periods are determined is ouite low. The oscDAnticno themselves ,Lre irregular. The resUts do not Ruee with the j)reviougJ_y published description of the central. section of the 9th electron zoue, and no chtelz on the latter could be made because of lack of data at amnIll angles ana the small number of oscillations. In the case of a longitudinal magnetic flieldi with the sound wave vector parallel to the resonant oscillations vere obsevved in the absorption coefficient,'sbowing that the dispersion deviates grestly frcm quadratic. A distinguishing feature of these osc!j-lations 3.9, firstx that the on the absorption curve are con- siderably sharper than the minina, End that the relative widths of the M-axiMB do not depend on tba numbers of the ==J=. Purthermore, the =plitude of each succeeding maxim= decromes, lal theee regulto are likewise in disagree- ment with the forms given by the nearly-froe-electron model for the Ferai sur- faces. Orig$ w-t, haul 5 fisues and 3 fon-aldes- Ea2l CtircT 21__'~'  ACCESSION ?M: A115DO5287 ASWUMIONS Fiziko-teldmicha2ldy institut ni2kikh temperatur JLN UkrSSR,, Xharlk-ov ObypicateebnIcal Inalitute of Low Temperaturem,A-a UkrSSR) su 23jul6h ENCL.. 00 M C(DEt SS, E. M NO MW SOV: 003 Cf-FM OD5 ATD Pffm: 344,  BEZUGLYY, P.A.; ZHEVAGO, S.Ye.; DENISENKO, V.I. Magnotoacoustic study of the Fermi surface In molybdenum. Zhur.eksp. I teor.fiz. 49 no.511457-1462 N 165. (MIRA 1g,-1) 1. Fiziko-tekhnichoskiy institut nizkikh temperatur AN Uki-I-ISR.  BE7UGLYY, P.A.; YEREW.NK0, V.V.; KURIJISHKIN, L.S.; KULIK, I.C.; M.4N'7F-,-lJY, ., MUSADA, V.I.; PESCHANS71Y, V.G.; POPOV, V.~'.; SHISITIN, L.A. Conference on the physics of the condensed state. Usp. fiz. nauk 88 no.12:387-393 F 166. (MIR-A 19:2) 1. Fiziko-tekhnicheskiy institut nizkikh temperatur AN llkrSSR.  BEZUGLYY, P.A. (Bez-ahly-1, P.A.]; BURMA, N.G. (Burma, M.H.1; BUTENKO,T.F.; MINWAYEV, R.Kh. [Miniafaiev, R.Kh.] Determining the elastic constants of solid anmonia in the temperature range of IW - 770K. Ukr. fiz. zhur. 10 ~o. 11: --f- 1251-1257 N 165, (MIRA 18:12) 1. Fiziko-tekhnicheskiy insti-tut nizklkh temperatur AN UkrSSR, :'z Kharikov.  5671-66 EWT(l) ACC NR: Ap6000201 SCURCE CODE: AUTHOR: Ben-W-1.y.-j. At; Zhevago, S. Ye.; Denisenko) V. I. ORG: Physicatechnical Xnstitute of LOW Wmeratures, Academ (Fiziko-tekhnichesgy- institut razk1kh temperatur Akademii r 145T/1462 I 9 of Sciences UkrSSR - ---- - %_ 2'~ "' "~ ' TITLE: Mgnetoac ustic Investigation of the Fermi surface of molybdenum SOURCE: Zhux-.Al eksperimental'noy i teoreticbeskoy fiziki, v. 49, no, 5, 1965j, 145T-1462 TOPIC TAGS: molybdenum magnetoacoustic effect, single crystal, magnetic anisotropy Vjoye' ~ekeekw ABSTRACT: In Friew of the fragmentary experimenrtaal txsa.~ Wcole U a published so far on the magnetoaccustic effects in molybdenum, the authors investigated this effect in greater detail by studying the anisotropy of the oscillation periods of the geo- metrical resonance in transverse magnetic fields when the acoustic wave vector was oriented along the principal crystallographic directions of a single-crystal sample of molybdentim. The measurements at 200 Mc frequency and 4.2K used the pulse pro- cedure of A. A. Galkin and A. P. Kbrolyuk (PTE, no. 6, 199, 1960). The temperatures were 1.8K ift the case of q 11 [100] and 4.2K in the case q 11 (3-101 and [111]. The results showed that in different angle ranges, three different oscillation periods are observed in the absorption coefficient, one short-period and two long-period. It is shown that the short-period oscillations, observed for q 11 (1001, give the dimen- sions of the electronic surface, while the long-period oscillations are associated Card 1/2 -  L ACC NRt AF6M2()l with the small hole zonesp In accordance with the model proposed by W. H. Lomer (Proc. Phys. Soc.P V. 84, 32T, 1964). The maximum d1mensions of the hole regions are 0.56 x 108 cd~' and the minimum o.42 x Me cm-1. orig. art. has: 6 figures and 1 formula. SUB CODE: 2NIf SUBM DATE: 24jun65/ ORIG MF: 002/ OM REF: Oll b---Qj  1 T I r N-~n~'n-r I n i -~ lim 2. F171ko--!.ekhn-'c-,heAfv im--- tu ~ajle 2:-'Y 196~. I r l' 17 r 16  L 25693-66 EWT(I C NRt AP6002708 m)/T/EV1P(t)/1:WP(k) IJP(c) JD SOURCE CODE: UR/OO56/65/o49/OO6/l7l5/!717 AUTHOR: -Rezug2,yy, __E~ A.; EiV, V. D.; Shevchenkop 0. A. ORG: Physicotechnical Institute of Low Temperatures, Acat (Fiz I nauk TITLE: Tionlinear effects in the absorption of ultrasound In supercorducting..indiuni SOURCE: Zhurnal eksperimentallnoy I teoreticheskoy fiziki,, Y. 49) no. 6p 1965, 1715-1717 TOPIC TAGS: ultrasonic absorprtionp indiump superconductivity, critical point.. c2-jstal dislocation phenomenon, single crystal., magnetic field# crystal anisotropy ABSTRACT: In view of new self-absorption mechanisms recently discovered to operate in the superconducting state (R. E. Love and R. M. Show, Rev. Modern Phys. v. 36, 260, 1964) wherein a strongly marked nonlinearity appears in the sound absorption below the critical temperature, the authors report observation of similar effects in indium. The absorption of longitudinal sound at frequencies 1-15.- 160, and 210 mc/sec was in- vestigated In single crystals of indium with orientations (100), (110), and (111). The crystals were prepared by the procedure of YU. V. Sharvin and V. F. Gantmakher (PTE, No. 6, 165., 1963). The measurements were made at temperatures 4.2--1K. The observed dependence of the absorption of the ultrasonic 'wave on the amplitude of the. sound field disappeared when a magnetic field sufficiently strong to destroy supercon- -f~the data shows the results to be in qualitative ductivity vas-kLpgi~!!j! A~j!q~16_o  L 2.5693-66 ACC NRs AP(9)02708 agreement with the model of A. Granato and K. Lucke (,T- APP- PhYs- V- 27: 583., 1956) for the amplitude-dependent absorption of ultrasound by dislocations. Mst dialoca- tions were found to be growth dislocations. Research is planned on the possibility of separating the electronic part of the zibsorption in its pure form and determination of the anisotropy of the energy gap, which preliminary estimates show to be lover than obtained from the present data. Orig. art. has: 2 figures. SUB CODE: 2o/ Sum DATE: 28aw65/ om mw: ool/ oTH mw: oo4 Cbrd Y2.  BEZUGLYY, S., kand. khim. nauk Prospects for the production of various forms of pesticides. Zashch. radt. ot vred. i bol. 10 no.3:~'-Il 165. (19RA 19: 1) 1. Vsesoyuznyy nauchno-issledovatellskiy institut khimicheskikh sredstv zashchity rasteniy.  dijerrninm~,---, of r-1 all.1 N-L)- 0  BEZUGLYt S. F. -m-ftifieviscons properties of an adhesive of the "tangle- foot" type for protection against caterpillarn. S. F. Ilemigly J. Applird Chem. 10, 79 RU TIIRUT.~-Tlit, adhesive matitift-1. in U.S.S.R. on thc of n formulation of plienolie resinq, I And Na and Ca oleati; kim 11gures the ruMa iug=7ytn-, VIII(XI rt% to Ine Pitt-tic proptrti(~ The adhesive behavtq, wilhiti it fcw %, tiecordhig to 1 or Plw;tic vkrotv, flow (cf. C-1. 16, 1gle 9-tudled wR% Thr uffr( 1, of tht, aildn. (if olcn!S2_~2.8 to .40/,) alset wvre ~tmlivd; a Particularly higT7,-;=i Ring effect is secured with Na ole- ate, while. Ca oleate produces good plastic-6senim prolfrr- tic!1. G.. TItt. K,,-olapoff -1 - .. -  BEZ.UGLYY, 6 . V. Cand. Chem. -Sei. Dissertation: "Investigation of the Plastic and Viscous Properties of Caterpillar Glues in Connection with the Development of Method for their Production." Sci Res Inst of kertilizer and Insoctofungicides Imeni Ya. V. Samoylov, 11 Apr 47. SO: Vechernyaya Moskva, Apr, 1947 (Project #17836)  BEXGLYY~ USSR/Chemistry - Insecticides FD-505 Card 1/1 Pub. 50-4/23 Authors Bezuglyy, S. F., Cand. Chem. Sci., and Shogam, S. M., Cand. Chem Sci Title Some physico-chemical properties of insecticide emulsions and insecti- cide dusts Periodical Khim. prom., 272-278 (16-22), Jul/Aug 1954 Abstract Reviews on the basis of USSR work the properties of emulsions and dusts contain~ing DDT, hexachlorocyclohexane, thiophos, and chlorten (chlorin- ated turpentine or chlorinated alpha-pinene fraction). Describes pro- cedures for the production of these emulsions and dusts. Twenty two references; 20 of them USSR, all since 1940. Three graphs. Institution Scientific Research Institute of Fertilizers and Insectofungicides. Submitted  BEZU - - -- -mmm" ..... Studies on concentrated Insecticidal emulsicus of DDT and hexachloro-cyclohexane. [Trudy] NIUIF no-156:90-129 '55. (MLRA 9:10) (DDT (Insecticide)) (Benzene boxachloride)  BXZUGLTY, S. F. Colloidal stability of homogenized DDT and hexachloro-cyclohexane emulsions. [Trudyj NIUIF no-156.139-146 '55- (MLRA 9:10) (DDT (Insecticide)) (Benzene hexachloride)  BEZUGLYT , S. F. . -.. I---- I Adsorption of su"ite liquor in DDT emulsions. (Trudy] HIUIF no.156:147-154 155. MBA 9:10) (DDT (Insecticide)) (Sulfite liquor) (Adsorption)  ,_. BEZUGLYY-.S.F.-,,,_.,. ~ 1- .- -, - '. Concentrated emulsion of anthracene oil. 129-138 '55. [Trudy] NIUIF no-156s (MMA 9:10) (Anthracene oil) (Insecticides)  V'~ycttabla DD7 nmd F. Den-Ayl, D, A. Alklmv3v. V. :1, t, -Ind Yu, F in's'e.-Me p-,')%dtrs which lom etLble sarpenslono, tL-k, Ir - iz gmmid in the "i -CtnidL Z-,~ bung A~ky!phenyl tthers cl polyethylene s-illoaamm, -*W Na 211-y1 bth3l a, rulf=-te3 irmatL-J high-mal. alm, ur I ` are ust-d. Trchn. PDT, or rn~-JMI h the -rhomrr, Its tech. -,inc mift. not Im thnn "A - t - - lthmne it ,~mzj-. n. a rwri. of DDT -Aith h-mn.-Ylanx-yr- u--ed a5 the -mectidde. M. Hasch  lnsi~itcld-d '~pcpnvnlm S. 1, l3ezurly! and it. A. Eli CDIlpn. coulg-~ -g, cb1cminattd 1--Ii t. t-;r mr4fa-r-ani've IM Idt: ; r,j (ctlo -1yull- 1-3) or fra :t. WrtU 31,d 1* IMM ',Ub'c Ilil, C:4 lig,~,~,Sulfonale 'Is ~'OdCJ to ~~-t co ma, and k-l"Alli Lk-  (4217 5 SOV/64--5)-6-9/28 AUTHORS'~ -,_iazuglyy, 3,, F , Canlidate of Chemical Sciences, Akir-ov, B--A,. TITLE- Wettable Insecticidal,Acaricidal, and Herbicidal Powders for Usa in the Form of Aqueous Suspensions PERIODICAL- Khimicheskaya promyshlennost', 1959, Nr 6, pp 494-499 (USSR) K.93TRACT, Part of the present investigation was made with the aid of N. Ya,, Mcmot and Yu. Ye. Bryekin., h method for the preparation of concentrated powders on the basis of DDT (30-5K, hexachloro, cyclohexane (50',xo), sulfonate ester (30-80), and other agei.ts with additions of the surface-active substances OP-7 or OP-10 and spent sulfite spirit lye was developed. The experimental grinding was done by means of vibratory, ball, and blast mills. On the basis of the experimental results concerning the influ ence of the addition of OP--10 upon the degree of dispersion of the sulforiate ester powder (Table 1) as well as the effect of spent sulfite spirit lye upon the stability of the suspension in water (Table 2) the following formula is given, commercial ~ulfonate ester 30 powdered spent sulfite spirit lye 2-5 OP-10 or OF-7 2-3 Card 1/2 kaolin 62-66  .,-, 6 2 17 S OV /6 45 9 - 6 - 9 / 2 8 Wettable InsecticidalAcaricidal, and Herbicidal Powders for Use in the Form of Aqueoua Suspensions From the scheme of the unit MV-200-1.5 (Fig 1) it car, bt~ 3een that a portioning bplpnce Dlr,1~100 is used, The results (-Fig 2) of the sedimentation analysis by means of Figurovskiyl,-, bali~nce (Ref 4) as viell as the degree of dispersion of the pordere Or: the basis of sulfonate eater (Table 3) show that in this -u3e both intermittent and continuous grinding in ball mills gives Jdentical result3, F, A. Drannikova, G~ A,, Pedorov (V111ITISSIMI and V. G, Antonova (NIUIF) participated in the grindi!4g mentil conducted --n a vibratory mill M10-3, Powders on the basis of' DDT (.~Od) were produced (Table 4, data of intermittent grinding. table 54 lata of continuous grinding, tabd'e 6, tc-t reaultl~ of the 1;owdero)~, and it was found that continuous grin' " ing shouli be avoided because of excessive warming, Some chemical data of the powders obtained (Table 7) as well as of powders on the ba~-is of :chlorinated terpenes (Table 8) are given,. There are i figured, 8 tables, and 7 Soviet referanck~s,; ASSOCIITION~ Nauchnyy institut po udobrexxiyam i insektofungitsidam -Jrnne%,~ Ya, V Samoylova (Scientific Institute of Fertilizers and Card 2,12 Insectofungic:Aea ime-ni Ya~ V, Samoyloy)  BEZUGLYY, S.F.; LITVINOVA, A.F.; POKROVSKIY, Ye.A. Physicochemical investigaticna of Insecticidal emulsions and solutions with emulsifiers in order to improve the methods for preparing the above form of insecticides. [Trudy] NIUIF no.164: 29-31 '59. (KRA 15:5) (Insecticides)  BEZUGLYY., S.F.; AKIMOV, B.A.; POPOV, P.V.; ITKRAINETS, N.S.; BOCHAROVA, L.P. Physicochemical i4vestigations of the wettable powders of different insecticides in order to improve the methods of their production. [Trudy] NIUIF no.164:32-34 159. (AURA 15:5) (Insecticides)  _PF,~ ~SARISHVILI, I.G.; LUKANINA, V.S.; POKROVSKIY, Ye.A.; ~%- UNTERBERGER, V.K. Investigation of the chemical stability of mineral oils and oil fractions and development of nonphytocidal, emulsions based on them for controlling posts of citrus and other fruit cultures. [Trudy] NIUIF no.164:34-35 '59. (MIRA 15i5) (Insecticides)  BMGLTY, S.F. Developlug the technoloff of 50 per cent emlelon pastes of DDT and introduclug theIr production.[Trudyl NIU37 no.,163:4-8 159. (MIRA 13g8) W? (ftsoctlelds))  " -BE.ZUGLTY, S. F. I. -AK IKOV, B. A. ; MOMOT, V. Ta. ; BRTSK IN, Yu. Ye. Wetting powders of DDT (30 per cant) and principles of thei- pro- duction. [Trudy] NIUII? no.165:9-14 159e (milu 13:3) 1. Predpriyatiya khimicheskoy prooVshlannosti (for Momot, Bryskin). ?. Nauchnyy institut 1,,:N iidnbreniyam i insektofungitsidam im. Ta.Ve I Samoyl ova (f or - ~- =:- g !~V, Ak-imov). k,uDT (Insecticile))  B.A.; ANTONOVA, V.G.; DRANNIKOVA, F.A. DDT wetting powders prepared by vibration grinders. [Trudy] NIUIF no.165:15-20 '59- (MIRA 1):8) 1. Eauchnyy institut po udobreniyam i insektofungitsidam . . . m.TaoV. Samoylova (for all except Drannikova). 2. VsesoyuzW nauchno-issleaovatellskiy institut novykh problem stroitelinykh materialov na baze tonkogo izmellcheniya (for Drannikova). (DDT (Insecticide))  -.- mAnTr, &F.: KIMOV, B.A.; ANTCSOVA. Y.G. Wetting povders of sulfonate eaters for use in vater suspensions. [Trudy] Nwip no.163:21-31 '59- (MIRA 13:8) (Sulfonic acids)  BICZUGLTY, S.F. ; rAT--kSHIFIKCIVA, V- N- Method of determining game-isomers In concentrated miner~,-l and bttyrous ewasions of GKhTsG- (Trudy] NIUIP no-165-.32-35 '59- (MIRA 13:8) (Insecticides)  BEZUGLYY S.F.; SARISHVILI, I.G. Research in the chemical composition of petroleum oils with the object of using them in insecticides. [Trudy] NIUIP no.165:78-87 '59- (MM 13:8) (Pstr oleum-Analys iB)  LxZ'UGLYY, Li.lY., '.-: , at.11- . ----,cco c,-: 1~slnr- .~-;;,Licides. Zhur. TE-LC 5 no. 3:2~,[- Q 306 1 '.,( . 14:21) (peuticie,00  BEZIJGLYYP S.F.; LITVINOV, A.F. PreparinfT;u5O % combined DDT and h,xachlorocyclohexane emulsion paste. dy) NITUF no.171:92-96 161. (MIRA 15:7) (DDT (Insecticide)) (Benzene hexachloride)  BEZUGLYY, S.F.; LITVINOVA, A.F. Kinetics of structure formation in the 50'16 DDT paste. (Trudy] NIUIP no.17107-102 161. (MT (Insecticide)) (MIRk 15t7)  BEZUGLYY, S.F.; LUKANINAO V.S. Petroleum oil emulsion (preparation No.30) for summer spraying of fruit tress against the San Jose scale. (Trudy] NIUIF no.191t103-110 161. (MIRA 150) (San Jose scale) (Petroleum products) (Insecticides)  BEZTJGLYY, S.F., kand.khim.nauk; AKIMOV, B.A.; ANTONOVA, V.G. Comdnution of concentrated pesticide wetting powders in an air- jet mill. Khim.prom. no.9:695-697 S 162. (MIRA 15:11) 1. Nauchno-issladovatel'skiy institut po udobreniyam i ineektofungisidam imeni Samoylova. (Pes%ic ,#des)