SCIENTIFIC ABSTRACT MONOSZON, A. I. - MONOVA, YE. S.
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December 31, 1967
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SCIENTIFIC ABSTRACT
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K(YRSTCRIt R.
SovIst preheatine equi nt, p. 7, (AUTO MjJrGR, Bud"atj, Rungary),
Vol* 7t No. 10, Sept. ML.
Sot KontUy Ust of East. European Accessionar (EEAL)F' 14,1, Vol. 4,
No. 5, MaY, 1955,r Unal.
~"7f'-70-!Tv
Y~li:-ntivrs in ct Civni-I
i Vol
tirt rf Fart D,:roTrrn
No. Jon.
(To
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*Two Oun4r~d Mus&M Ki.lometers in a Cs"I Aut-cmbile. VI.
(To Be Cont'd)w, P, 6 (AUTO YOTOR, Vol. 7, go. 21, gov. 1954,
Mapast, Hungary)
90: VionVily List of East European, Accessions (EF.AL,) DO, Vol. 4,
Not 3, March 1955# Uncl.
MCNOSTMI.v R.
Ninter IdeasOv F. 7, (AUTO HOTCR, Vol k. 21, Nov. 10%,
Dwapest, Hungary)
Sot Monthly IAst of Fast Eurpoe&n Accessions (EM), Lr,, V61.4,
No. 3~ Harch 1955, Uncl.
KAJDIK, ferencl relso" Katalill
Dmta an the chemistryof &Ikoxides. Pt. 3, Kagr km folycir
70 no. 2t64-66 F t64.,
,1. Nahezvogyipari Kutato Intezat, Veazpres.
NaVOSM, A ~ - ichl, kRnd.%ekhu.uaukt GODYWA, A.1C., in&h.. red.
.............. 1.10w-
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CPrecaat prestrestoil reinforcad concroto conveyer galleries]
XonTsierays Calerat is aborrogo, predyaritellno napriashannogo,
sbielosob,stona; opyt treat& Ito.19, Glayleningradstroia; L inatituta
%ipro%t,*klc** Moskva, Goostrolsdat. 1960. 35 P,. (KIRA 13CO
t. Amdamiya stroiteltatya I arthitakturr GM. Koacow. Inatitat
organizatsil, mekhanisatsil I takhalcheakor pmoshchl strottel'stm.
Z. RukovoditeLl grappy gtroitelluogo otdola inatttuta OOLprostakloO
(for Nonotgon).
(P~mcawt concrete construction) (Conveying ruchinerT)
A~r~~~,-kand. takhn. nauk; DDVZHIX# 0.1. , retsenzent;
TSALALIKHD , M.S., retsenzent; FILIPPOV, W.A., insh., naucbMy
red.,; BESPAIM , I.V.,. red. izd-va; FULIKM, Te.k., takhn.
red.
[Wi de-qw, precast, preotres8ed, reinforced concrete g&llorioal
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arkhit. i strolt, zateris.1sx, 1962- :),% p. (MIKA 1514)
1. GondarstvenMy komitat Soveta Kinistrov SM po delam stroitell-
atv& (for Dovzhik), 2, Gouudar9tvvmqy pMektMy inatitut atroitell-
nay proWshlonnouti.(for.TS&Ialikhin).
-(FeInforced concrete constrmction)
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KOIOSZOX, B.I.,
Irndidat tekhnichaskikh neuk, TSIKOOTITSER. Yu.O..arkhitektor.
The now central varket, of Louincra4i. Bi%Ll.tekh.infom. 3 no.8:22-24
AC 157. (Kru io: io)
(LeniAgrad-garkattY
L
KOROSZON,J.I., kand.tokhr,.t6uk; LUMIly. II.J., inzhoner.
IcAg-span preesat reinforced concrete conveyer vays. Blul.tekh.
Infors. I na.9:6-11 9 g57. 10:11)
(Conveying wachinerr) (Prestressed concrete construction)
. ZRILICIII, A.G.; Iq M B. I I
QZ I a.
Behavior of a h.Tdrogomn-like 6pyt-ez in a high wAgnetic field.
Vest. IZU 20 no.l6t26-35 165. (MIPA 1819)
L IhN&0~ WT(1) IJP(a) 'WW
AtrY74"06003612 SOURCE CODE., UR/0054/65/000/003/0026/0035
AMKORI L.1ailthp_A, G.; t o B
ORG: Lenirgrad State Uni"relty (Leningradskiy gosudarstronnyy universitat)
TITLE-- 8"haviof -of a --hydrogen- type- systealn-a-st M& MAC f i8ld
SOURCE: tAnlograd* Wiversitat. Vestnik. Serlya f1siki I kh1miL. no. 3, 1965, 26-35
TOPIC Tr.St utrang magnetic field, atomic spectrum, cmtinuous spectnn, excLton,
copper owrpoumd, absoMtion edge
ABSTRKM, rsvt article propoaes. a methcri forr an of factive descriptLon of states ofa
hyerogen type uystes which border on the Landau levels on the side of bo th the dis-
crete anti the contitiuous spectrum in a sufficiently strong. homogeneous magnetic
field. UIVinftinctiona and eigonvalues of the energies am found by using the self-
coT~nistent nothod of solvitig the Schroedinger equation. A qualitative comparison is
madle with tai mxporlmnt In which the absorption spectrum of the yellov exciton
_".rlez 01' 0120 Was studied In a homogeneous mi*gnetic field of 29000 Oe. The spec-
UDCt $30. 145. 61
Card 1/2
:2~
L 11"M&M
AM NR: AP60,03612
trm contli-sted of a set of lines adjacent to the edge of the continum, whose edge
is displaoed toward the violet pokion as empared to the spectrum In the absence
of the magn-etlc fLold, Although not anough data were available to permit a quanti-
tative cheak of the -theory$ a qualitative agreement was obtained# Orig. art. hasi
2 figurea. 43 fomulas.
SUB COM. 07/ G(MH DATE: 03Jul64/ ORIG RErt ODO/ M REFC 005
Card 2/2
141 7
irt r - Kh,
"Horpholoa of the Pollen ofSome Species of the
Ganw- Finus",, botan. Zhur, 34, No. 4r. 1949. Inst.
Geograr.tW, Acad. SCLI, -cl949-.
1- 24 15 1, MA&4 --%A I. Is
R. V. "4--b#%rv-n FIY'k -Tvvm kwtey 4nv,&.
ill th- olk j-lkn ,qwrAA ~v W-' 'IXQ
4h 2V; ;:i5, IC-.'A IS flc%. V) La'", 'I m(l
rovalay v i weda"-rrcrfl.4mm Tit-vit.
the PL"01;'t i.,~ Qmermir? rlw~- 'J' th"k. p. SA02. t.14t-sg.
tlx-zoj. i4sItrailronoikis pyrt47 r%kvtrTjth d
trrkh por*d v t-th vedia-I 17 p.-reOvkh Vvfl)pr~A--ol :hA56 SSFR. ?,d
efintiInt'i'm ti lf-vly _i. . 1111 vh-~t s. kfu~~ e~-,T U';S.~;_W i
Z-P-Pfl, Kh Gr4pafl;* P711ST widev wr"A Pr.-,At-
fowaluskmkh *.* ttq*T4 S.S53t
dCrt~ V, ,)IC - Thii
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vt
of in the Le3z.
1 51
-r C3-,(:rez-5, Jtxe 11~52. UniclarnIfIc-d.
XOKUWN, K.rh.
Raport on pollen specievot the goosefoot faaily which occur in the
U.B.G.R. (for purposes of pollen mAlysis). TmdjT Lnst.po& no-52v
127-207 152. (MaL M)
(Pollen, Fossil)
tat
%.~ C_- a N,
POLTAIDT, P.P.
*Description of pollen of wormwood qmcies growing in the U.S.S.R.*
'~.;:a.Konossou. Reviewed by P.P.Poliskov. Bot.dw. 39r no.31452-453
My-j* 154. (KLRA-7:7)
A. Institut botaniki Akadsaii nxtLk Kazakhxkoy MM.
(Voravood) (Pollen)
1011082 -01. H.v~k.. .
-swook.- - "L . I . -4
Morphologiml doscription of pollsjx of the most impartsat gpeciag
Of, Oak owing in the, U.S.S.R. Trudy rnst,Coole, 61:93-118 1540
rom(pallen)
LMCRC K. Xh,. 20-114-3-54/60
TITM On the Determination of Species of Fossil Pollen of Chanopodi-
otais (0 vidoyrkh oprodoleniyakh iakoMtmoy pylltar maravykh)
PZRIMICAU Doklady, Cmdamil Nauk SSSRt195TtTOlA14,Kr 5oppr648-651(MM)
ABSMQTO The important r*quiram*nts put up by pxuctical work with re-
spoot to the results of spore-pollen analrgle and the weight
of the problems to be decided thereby, a&k* it neotesaxr to
carry an determination as far an genus and species. For this
purpos*6 careful tx&minLtiOn of pollen of recent plants snd
compLUtion of relevant saitntific works (for purpose of do-
termination) are Indispensable. The famill, of the Cbonopodia- '
glLe belongs to the stanopoline group of families, I.*. the
morphological type of structure of the pullen grain* remains
preserved In a unifore, way, In the entire faxilyl and this
Independently of the dirauzatinas th&t its species grow under
moat varied eo6lagicil, conditionge For the Chanoggdisol Abe
sultiporous furrowless spheroidal poIlen in characteristic.
But Lt is possible to sLagle out several morphological *her&*-
card 114 tatristio properties which make it possible to determine with
On the Datiormination of Species of Fossi, I Pollen of Chanopodiceae
sufficient accuracy both goattgr and spacieg,. Within some go-
nora the determination of species is more difficult (hamed-ALL,
&trlylogi Corlselap, and others). On the other hand* in
other genera, like Salso1g, the species can be determined with
sufficient acauxacy, because of the great variety in different
charaot*ristioao The following diagnostic characteristics
ware fundamental in the daterainatton of the pollent contour
abamter of the graLnj diamettrp pare nuabarl, clearness of
the pare channels in tho optical cross #**tionj quality, and
distinctness of the structure of the 'raxtirAa W, their thick-
neass and a clear and unstructural zone around the pore*.
Another element facilitating the dottrai, nation or species of
the Chonopodiacta* Is &too the constancy of different charac-
teristics within the speciox (and sometimes also within the,
genera). Than a very widely distributed plantg ju
42tica, SlEg-
t9fdox, , hat vary similar pollen &,van if -the #ample* under
inveatigation come from area* which are thousancei of kila-
water& &part. The &vailabL1LtZ* of detailed dtscriptLons and
of a scientific workfor purpQ"a of datoraination of recent
pollen made it possible for the author of the paper undor ri-
card 2/4~ view to conduct a number of dotorainatLona of species of th*
4'
On the Determination of Species of Posall Ponen or Chenopodictas
tk
I of which in Soviet,
ASWCrATIONt rnstitute of C;eography AS USSR
(rnatitat &eQdrcLfil Akademil nauk SSSR)
MsEMDI Jaw-ry 31, 1957, by T. N. SukacheT, Wenber of the Academy
sumr=Dc Unuary 290 195T
Card 414
LUTHORt Nonoozon, If. Kho SOV/20-12 r.- 1 -4 1i '46
TITLZt Occurrences of Zurati& ceratoides (L.) C.k.W. Pollen in Glacial
Deposits of the European Part of the USSR (0 nakhodkakh
pylltey Eurotitceratoides (L.) C.A.K. v ltdnikovykh
otlotheniyakh Tevropeyokoy territorii SSSR)
PERIODICALs Doklady Lkademii cauk BSSR, 1958, Tel 123, Irr 1, P-P 175 -
ITS (USSR)
LBSTRACTt Many botwdsts and gecgraphers. bay* dealt with the problex
of the character of the vegetation ir. the vicinity of glaciers,
and x&W opinions have been rendered concerning this. Most
investigators are inclined to believe that a, special type:
of landscapa exiotod in the areas arcunci the glaciers and
at some distance from them., which to not completely analogoue
to recent conditions. It was said to, have beer, "cold forest
steppe" with Islan.6-like foresits and. floodel swampy and
12 arshy low plains. The latest pe,lecbotenical 1ftT*6tigLtiQn&
(Ref 2) also confirm the fact that a Special "gl&Ci&l"
vegetation, grow here, which had & 1c:cmplex an& complicated
Card 1/4 character. This, was accomplished through identification of
Occurrences of Kurotis. deratoidea (L.) C.A.K. Fallen SOT/20-125-1-47/r,6
in Olacial Deposits of the European Part of the
ITSSR
species by neana; of pollen-spore analysts and from macro
ressinat especially the family Ch*nopodiacoaet Chenopodiua
albuaj Ch. rubrux, Ch. glaucum, Polyonemum op., itriplox op.,
#to. Stods art much rarer, since pollen production Is con-
sicierably more import&nt thaa seed production, in this family.
For the glacial posits it it significant, that the pollen
of plant& with a, specific ocolojQr (chiefly of the xerophytes
and especially of halophytes) were found near those- ruderal
epooi&s which are known tod&,y as wee&o. Definite soLls and
Qliaa,tic coaditiono art characterized by these, plants. From
this standpoint, the occurreace of several ateppe, species,
eir. Eurotia, ceratoides, (L.) C.4.11., Kochia prostrate. (L.)
Schrad, *to., outside of their present area, Of distribution
is interesting,. E. cer&toides is a dwarf bush or semi-dwarf
bush, up to I a i4a height, underprosent corAitiona. This
plant hag an erect stalk and bare leaves in steppe regiongo
whereas in the, mountain& and deserts both aides of the leaves
are strongly ciliated. The pregomt distribution (Fig 1) of
Card 2/4 these species is reviewed. There are lands everywhere with
-;10]
Occurrences of Surotia, ceratoides (L.) C.L.N. Folleft SOV'120-fZ5-1-4,7156
in Glacial D*poaits of the European Fart of the
U531t
a continental Climate, dry ateppo and glop*&, es.nd, boulders,
and. alay, which, extend into the depthg or the desert &ad
the: high mountains NP to 4500 a). fossil Pollen occur
systsizatically- in, the SediMente of the Dneprovskaya. and
V&ldAysk&y& Glacial Epochs at several localities in Eurcp*&n
USSR. The plants, must have grown not far from the depoat-
tional site& of the pollen, since pollen of Kochi& proatrata
have been Ccuni only about I kaL from. the: plant. The fossil
pollen. of Eur. cera.toides, is morphologically* descrLbodL, and
the localities of occurrence are listed. Table I list& the
pollen. assemblages at lcoaliti*s where Eur. cer&totdas were
found. This plant occurred in all cases during the second
half of the Ice Epoch, which was characterized by & cold
and drjr climate. Trees were represented by- opera& birch and
fir forests, The herbaceous groups with & steppe character
were, of' considerable: significance. Lmong these were the;
xerophytes an-d halophytes from. the fsaily Chenopodiactas.
Due top the influence of permafrost prevailing at the-t time,
Card 314 the surface. becaas aaltr (Refs 5. 8). This f&,rored the
Occurronces of turatia, corttoides (L,,) C,A.C.Pollfft SOT/20-125-t-41/56
tn Glacial D--ioaita of thet Zurop*ar, Part of th*
*V33R
aanu&l northward advance of this annual xerophytes. Eur.
ceratoides also belongs to this group, and its occurrence
corresponds to these conditions. There art I figure, I table
and 6 Soviet referinces.
ASSOCILTIONs laatLtut geografii Akademii nauk SSSR (Institute of Geography
of the Academy Of Sciences, USSR)
FRESENTEDs JulY 7, 1958, by V. N. Sukachow, Academician
SUBKITTIMs June 12, 195ED
Card 4/4
HDRDSZON. K-Kh-
..........
Trudy lnxt.geog. 77:
Dissemination of googsfoot pollen br air. (KIU. 23:5)
157-165 '59-
(Folleu--Dissemination) Oooffefoot)
HOWSZOn, M. Xh.
Devoription of the Ponta of aobe ap"Iss of the fartir Ulmacese
aaenrring in the UV.S.Ra (for the purpotea of pollen analraW.
frudir Inst.rsog. 77:187-198 '57. (KITU 13:5)
(Poll ea-Karpholagr) (law)
Variations in the morphological characteristics of pollen in some
Oak species. D-IkI. k'; ,,-,SR 140 no.6:14,',6-14,19 0 161.
(KIRk 14:11)
1. Institut geoCrafii All SSSR. Predetavleno, akademikom Y.U.
Sukachevym,
(Pollen-Korpholory) (Oak)
GRICHUKF V.P.1 MONGSZ09j. M.Kh.
hrslixi=7 data ox the flom of the, Odintam interglaei#l period
near GlasoTo,' Proble bot. 609-45, 162*, (?UFA 1695)
(Glasow region (X&luga Province)-P&Jebotazql, Str&tigraphic)
0.1. NWHCMYAM, N.G. -, KIN",# AOL.,- DZMULvff f Tara
ITA90f, 1P.P.; UTTUP', T.S. [doceasadj; KMAR, li.a.; *A.,.
LYSIM" I.Y. NMOBZCKI 94, .; JaWYAUMT, 1. Kh. MUM.
1. . CjMmXOTtI A.T.
Glx-votsr symehrocyclotrou built by the rnstituis; of ffiaal"r
Protlosi, Aaad*W of Batoncov of' tho U.S.S.R. Atow.9merg. no,4:
5-12 456L. (KLRL 9:121
(cyclotron)
-IT ~ i- - 3
/_ C_ ziz
D.T.-, KINTS, A.L.; TIMIts, X.X.;TODOPIYAXOY;
F.Aw; GOW, ".; Z51 ITS, A.I.,- IMOT. P.P.; ZMAMMY,
I :,_ - _; "rusax1r,
A.As,- IIOW# re'a" mum, I.IF.;_jqFOw" mtj~j
I. Kh. MU OT, 'r.k.,, RABLIOTICII,, M.S.; GODCaINMT, &K.; St-
Ir
MILIVINT, K.D.; GTOLOT, A.K.
TOIL 34rf OnfrI7 87Whrocyclot,roalknilt br the kcadoiq of gaisuos
*f tb* tI.S.S.R.Itap.anarC. no.4:22-30, 156. Mu 9: 12)
(Cyclotron)
SUBJECT USSR PHYSICS CARD 1 2 ?A 1509
TL&DIMIR811;tT.T.p XGWjE.G*t.VINC#A.L~, GOLIDIRPL.L.v
rospmfmof MON03ZONAL-Avi NIKITIN,341.,
T
OZA"0713.1.1 SIULICOV,N.S., TARA OV,S.K.
TITLE The ]kin Characteristics of the Projected Proton Accelerator
for a0-60 BeV with Strong Focussing.
PERICIDICA1 ktmuaja Energija, 1, faso- 4, 31-33 (1956)
Isluedl 19-10,1956
The maximum energy selected is certainly, sufficient for the multiple production,
of,maxons and for the production of the antiparticles of all known types of
elementary particles. With a particle energy of from 50 to 60 BeT the kinetic
energy in the center of mass system attains 9 nucleon masses on. the occasion of
the collision of a proton with a single nucleon. The peak power use& for feeftng
th6 magnet is about 100 megawatts. The weight of the magnet oystem to love than
22.000 t. for the stabilization of ihe phase near transition .energy a system
for tho compensation of the oscillations of the length of the particle orbit is
used In this project by means of which the critical energy to ehifted, to in.-
finity. With this compensation process the enforcel.oacillations of pa--ticles,
the energy of which isdistinguishel from the equilibrium momentum, are used.
E,,yery eigth magnet has an inversely directed magnetic field, and the order of'
this maenet; is periodically changed. This compensation #yet*& makes it possible
to attain rather high frequencies of the transversal oscillations of the par-
ticles, vis- 13,75 and 12,75 per revolution in the case of radial and. vertical
jKjlw;zq0%!4JL4. 0 YEn0VV, D. T., MMHCHERTAKOV, H. G., HInS 0 kib L.., IVANO114. P.
V; '.' Evt # S., KOMAR, E. G., NMAZRSKIT, I. Kb., PoLyfixor, B. I.
.CR= t k. T. F D'vqU-'Ov 0 V. P.
"The MSR Acadwq of Sciences' & Matra, Synchroeyelcrtron." paper
presented at CERN Symposium, 19561, appearing in fteloar Instruments,
go. 1, pp. 21-3G. 1957
I M
T.~3szqfl, K. k., GAM.Vs K. A,,: rOMWn, t. G.t SVETWU, T. 19.t ST01,0T, A. K.,
*rhe ?over Supply SysteK of the 10 GeV e7nehrotron Ele&trowgnet,*
pe.per presented at CERX Symposium, 1956, appearing in, Nuclear Instrumentff,,
go. 1, pp. 21-30, 1957
MONOs-ZOITO 96 A., r.OYJR, F.. G.-, 'MFLMTj IN, S. p, ff-Le V) Go He
..ft
"Somm Structural Features of the 10 GeV Synchrotron Kleotrowpet,*
papar, prosetted at CM Sr"isium, 1956, appearing in Nuclear rnstruments,
96.1, pp. 21-30, 1957
YMWF E.G~t- -STOLOTtAX. t TIT07, V.k# c mrm, v -4 g.
)OXCOZONA VILA.
wftperisentai, Ring-Smped, 200-650 K*T Stom-Pbmaing Proton
AaceleratorpO paper presented at CEO, simposiums, 1956r appeariag in
Nuolear Irwtrumentsp No. 1, pp. 21-30F 1957'
)ONW-ZOX. It, zmvmt A., A., KOMXR, E- O-r MDZALEVSrIT,, L k., ST01,011, A., 14.
www""-
%spetie Characteristics of the 10 GeT Proton Synchrotron,w
popar presented at CM Symposium, 1956, appearing in Nuclear Tnatruments,,
No. 11, pp., 21-)0t 1957
V..'.j IVANOVq P-P-1
JEMIOV9 D.V.; MSCOJAKOV, H.G.; Mir., A.L.j
KAHI=,, V. S. I XCHAR I J. G. j HA IMEV t I. F. ; HONDSMILT-H.L4 WJAWKIJ I
I.Ch,j POIJAKOVp B.I.; CESTBGJ.. A.V.; BEML.. Frantisek [translator)
The six motor o7nehrocyclotron of the Institute for Research on,
Nuclear Problems &ffiUat*A to the Academy of Sciewes of Sovitt
Unione Jaderna energie 3 no.ltl-4 J& 157.
le Uxtay jaderne fyv iky-(for Bond&).
VESSUM 0 V.J. I VDDCPJAI-TV 0 A. F. I JEFFMOV D.V,; MIIC I A.t. I V-YISBEIII t H.H.
GASLV, 11. G. I ZEJDIJC , A.J.; IVAY;V'.. T. P.; EOUV211,31IJ j A. A. ; MW p E. G.?
IIAI'Q4ZQI'IJLAj MVJA7SKVj,.;.Ch.j MTUCHOVt V.A.;
PJDINUnC) V.A.1 RUBCIN3KIJj S.K.; SIIFMKCV, E.D.; STOWTj A.M.;
KULT, Karol, inz.
The "ncbrophanotron for particle acceleration to 10 BeV energy of-' the
Soviet AceLdezq of Sciences. Jaderma energie 3 no.lt5-9 Ja #,,~7.
1. Ustay jaderne fysik.7 (for Kult).
I - ,
. r -~ C 0'. ( " ~., - :I .-
t & v
ZMMAVLV, A.A.: IICKAIL. Y**.(I,.: KOZAl;XTSKlr, L.A.; KONOSZON. N.A.; STOLOT. A'-K-
Ksoatic charectertattat of the 10 Her, oraton synchrotron operatel,
by the United Institute of luctear Research. Atoa.emarg,supplasomt
no,A:15-M 1,57. (KIRA to: 10)",
(Synchrotron),
ARIKANGIMS11r. r.r.; USEMY, KA.; XOKAR, T*,G.*, KLLTSUT, I.F.g
XONOSZON, N.A.; STOWT, A.K.: STRILOTSOT, N.S.
Ilectric enginearine, and design problems in constructing large
cyclic accelerators. Ilaktrichectyo nooll:25-34 9 '57.
(KIU, 10: 10)
(Cyclotron)
VIADZCMWI T.Y.1 K04ARO Je.G,j KOr,, A.L.;~ GOLIDIX,, O'"Lr KWLUEY,,, D.C,j
HM IrMTIN, S.Ja.; RMXr!ZSKW,, S.M.1 SEACKOV,, S.T.1
-vgvco~lv B.S.; TIMSOVv JeAe; KMO?jOSv S., inz. [tranalatorl
Hain characteristics of the planned proton accelerator for 50-60
BeV vnergjr with sharp focusing. Aderna, energie 3 no.2:56-57 F 157,
s.~il ~il %~S-W -couta"
s.46
Sig aj.UL ~Sf4.ml# %ll'. I..... Ojv "..
J. SaIgU614 &45 a-lilij UQj1pj4j# twaij wIt ja
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slaj 91146a-W v %lig waio#10J.1 46460-M-1 I
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8MISM SOT/105-60-1-2/25
Speyakova F If
AUTHORSt --vashev. Komar, To. G.j~ 941R"Aq~n - 0~ -or
Stol or, A, K.
TITLEt The Supply S atom of the Electromaonettfor the Proton-
Resoproii fii~i
eynohrotrontit the Con r -C
PER-10DICLU glektriohostvo# tQ,60v 11r, 11 pp 6_10 (Usa.:Z)
A,BSTRAQTg The biggest partial. socelera.tor i& &t present the proton-
synchrotron of the OhOvedinenkv-y fr:,ttitnt Tadernykh
iosledoyaniy * Jaint Tn6titate of Nuclear Research ). Protons
with, energies of up to 10 bitlions or are: obt&ined. here. The
aupply system of the electromagnet le used for the production
of '& periodically alternating magnetic field vith & repetition
frequency of 5 per minute in the acceleration chamber of the
pro-ton-synchrotron. The main rated. data, of' the supply- system
aret peak output 140 Mw, peak amperage 12.6. kal, peak voltage
It kvt the a na rgy stored in the magnetic, field of' the eleatro-
magnet 148.10 joule and the losses in the coil of the eleetro-
magnet 4 ltw. While connecting the coil of the electromagnet to
,4 the direct voitace, the current increases in, accordance wi"h
Card II
The Supply System of the Electrozagnet for the SOY/105-60-1-2/25
Protou-synchrotrom at the Consolidated Nuclear Research Institute
exponential curve with & time constant of T' w 25 secondo, When
the current has :reached 12.6: k&, the voltage changes. its sign
nd the current drops. The source for the. direct voltage is, &
:
ystem of synchronous generators driven.by induction motors and.
of converters. The latter opqrate as rectifiers during the .
increase of the current and as inverters during the drop of the
current. The schematic circuit diagram of the aupply sTatem or
the electromagret is shown in. figures I ani 2 &n1 explained. The
reduction of the outpu.t impulses in the supply cyatem of the
aggregate motors is obtains& with tLe help of fluid Glip
controller&. The aeckletl pentode-ignitrons rif typp I~T 10,01!500_7'~
with a mean rated current of 100 v. mndL a return valtags Or A5 kyt
specially developed at the Voesoyusnyy elektrotekhrLicheskiy
institut (All-Union Electrotechnical Institute) are used as
valves for method of operation
of the valves in explair%t in detail, and the influence, of
distributed capacitancet- ~,tx the operation of the valves it.
point*& out. Those, oapa.citancei~ cause strong high-rrequenojr
oscillations with frequencies of dozens of kilocyc7es. The
Car& 214 measures taken, for eliminating these influences are mentioned,
The Supply System of the Electromagnet forthe SOT/105.6o-i.2/25
Proton-synahrotron at the Consolidated Nuclear Research Institute
in brief. The control. system of the converter is supplied by an
auxiliary generator (on the shaft of the main generator). The.
firing of the Ignitrons is controlled with the help of' &
customary, thyratron-condenser-eircuit. This, produces ar. inpulse.
at the igniter lasting from 200 to 250 milliseconds at peak
asperages of from 40 to 60 a. The phase shift betweenthe
'controller impulses correspondIng to the rectifier- and the
inverter method of operations amounts to approximately 140
degrees. The moment of the beginning of the method of' operation.
as rectifier (of tha converteral is controlled by a pickup with
a contact system which convoys the signal to the trigger. In
order.to warrant the homogeneity of the magmetic field and to
reduce the influence of residual magnetism on the magnetic field,
the magnetic system is demagnetized during the interval. of the
main cycle. This is done with the help of impulses of the
current of different polarity with an amplitude decreasing in
accordance with a osrtain law. These demagnetizing impulses are
prodnced by 2 converters witb4gnitrons of type IVU 100/1500.
During backfiring, the converter is protected by back current
Card 3/4 quick-break switcheg, Each of the converters is protected against
The Supply Syptem of the Electromagnet for the SOV'/105-60-1-2/25
Proton-synchrotron at th93Consolidated Nuclear Research Institute
,short circuit currents by peak-current quickbro&k switches. The
windings of the electromagnet are proteots& against excess
voltages by dischargers. The Opeeific feature of the. supply
system investigated here is the circumstance thatt during
abnormal methods of operation the amperage in the converter
(where the normal method of workina was disrupted) is inoreaGel
&n& the amperage* in the other converters decrease, when the
converters operate as inverters. To prevent this, a, grid
protection systeja is provided. Endurance tests showed that the
supply system operates in a stable manner and warrants all
methods of operation. There are 5 figures.
SUBKITTEDt July* ZTv 1955
Card 4/4
tr
T1
IL
go;
Z. r.:Et r C
EE-%;
iv.
F.-.10--au
.4f.
gift --Z r
two
"JIM
cl
lot,
71
t A
4 4;
t E6
~ ;
1
tt
lorr
1, 11
f
If
lit
if J,
lie
. ..........
AUTHORSs Honoxzon
TITLE: basic
proton synchrotron
PERIODICAL: Pribory L
s/t2o/62/000/4304/001/04-7
Em/E420
N.A. StreLltsov, X.S., Ostrovskiy, N.A.
electromagnetic p&rAM*ters of the 7 Gev
tekhnika eksperimenta, no.4, 1962, 10-15
TEXT: The basic parameters of the electromagnet syxtem are
given in detail, a.&. number of C-magnats 98; nunber of
quadrupoletenses 14; azimuthal Len tit of each block 1910 mm;
maximum strength or magnetic field 9475 Oe; radius of curvature
of equilibrium orbit in C-blocks 31 m ; aperture of chamber
110 x 80 MM2; rise time of the magnetic field .1-55 sec;
number of working cycles per minute 10 to 12* The tolerances in
the geometrical dimensions necessary to produce a field or thl
required accuracy are considered, together with the
characteristics or the steel used. Special coils are provided
to compensate for perturbations produced by residual magnetism at
the begAnning and end of the working cycle, and for the effect of
eddy currents in the steel. A decrease in magnetic permeability
or the magnetic system can also be allowed for. Cross-
Card L/2
40739
5/120/62/000/004/004/047
E19VE420
AUTICORS: Nonoozon !VA" Stolov, A.H., Gashav, M.A.,
F.M.-9 ravno, A.Kh., Kornakov, YO.V.,
Kulakov, F.H., Nadgornyy, V.P., Gorshkova, Ye.G.
TITLE: The supply system for the electromagnet of a proton.-
synchrotron or 7 Gov
-PERIODICAI,: Pribory I tekhnika eksperimenta, no.4, L962, 27-53
TEXT: The article,describes the supply system for an electro-
magnet he field of which Increases at the steady rate of
6.7 x 1.3, Oe/sec to reach a maximum value of 5500 Oe in 1.55 Etc
and then falls oCr exponentially in 0.8 sac, the ' repetition
frequency Is LO to 12 cycles per minutes.- The voltage an the
electromagnet Is increased rrom 5000 to 10250 V with a maxim"
current of 2500 A. An induction motor or 3500 W, 6 kV,
740 rpm drives through a fluid coupling a 6 phase alternator of
peak output 57500 W, 8.2 kV, and an auxiliary generator of
250 kW,,380 V ror auxiliary supply to the 12-phase ignitron
rectifter. During the current decrement period the rectifier
operates as an inverter. X description or the smoothing circuit
Card 1/2
S/120/62/000/004/004/047
The supply xyxtecm Car the eLectro-... E19kd(E420
is given. Particular fault conditions of the circuit are
analysed and the proteezive devices Cully described. The
performance is illustrated by oscillograms, Schematic and
block circuit diagrams are given and an outlLne drawing or the
ignitrons. There are 6 figures.
ASSOCIATION: Mauchno-isaledovat*llskiy institut elaktrorizichaskoy
apparatury GKAE (Scientific Research Institute Cor
ElectrophysicaL &pparatux GKAE)
SUMSITTED: April LO, 1962
Card 2/2
'rq, d S/120/62/000/004/031/047
AUTHORS: Monoazon, N4A0A Sto,Lov, A.M., Spevakova, F.H.
TITL&c Ti~e Influence of parasitic parameters or the proton
synchrotron electromagnets on the asymmetry of the
magnetic field and methods of compensating it
PERIODICALi Pribory L tekhnika-eksporiwenta,, no,k, L962, t6a-t7t
TEXT., Th* strictest roquirements on symmetry of the magnetic
field occur at the point or injection, where: the excitation
current to Lowest. At the start of e&ch.&cc&1er&tion cycle
a constant potential is applied to. the electromagnet winding with
a fairly steep wavefront, The presence of paraLsitic conductance
and shunt capacitance in the system (Fig.-L, equivalent circuit)
gives rise to transient asymmetry. The article describes a
potentiometric ayst*nt of correction for these distortions.
There are 7 rigures,
ASSOCIA,TIONs Ikuthno-issledovatel'skly institut alektrofiticheakoy
apparatury GKAZ (scientific Research Institute for
91tetrophysical Apparatus ME)
Ca
ZOA/ lVfi
E-1 C21 F 1 (:4
fladLmirskiyo V. v., Koxmr, To. G.# Mints, A,. L.q
folldin,_ 1~~ ' 14'anostamp %. L.0 Rubchinu~iyf S. X.0
Trimlov, TO. L.4
;,nahkA.Var. D. r, ruryshtv, r. a., valrahewo 1. r.. atolovo,
Stralltsov. N. S., Takoylev. S. V..
71y,.Z. The 4eticm of tho T-Fev protom synchrotron
FLRIONCALt ktormalt enorgiya, w. 12, no. 6. 1962, 412-4ji.
6h* h4atory of the first SovIot cyclic accelerator with HCH
Ti~X ~:7
focuair4C is bric'.1; dtscritod# an& the maxt ioportani data art Its plannirr
ani op~-rxttvn are ;~re*eateci. Plana1mg was 44.riel Ir i~55. -~Le farv-.0term
of thim protora LCCOlorator. tLe ancri;y ol.' ihich ercevis the arUnucleon
prr,duction threahold. Pere so chosen that the dependence of t~e orbital
c1rouzzCcrence on the ioxticle moraenta. was cocplet#ly cc--;-evmte1. ',hig was
&ceaeve4 bjr ouplojrIng; 4 %uadrupol* ascatte *'it?. orbItt of necattye
curvaturo. Technical data! output current, 1010 protonsIrmiffe; maxic-4m
field atrouth. 6475 ott louth of mitlibrium orbit, 251.~ &g ra.4fat or
Cart S/Z
vie iegir-n or thp T-aev ...
ci.rv;ht-irv of the tr-Q~cttarivv in thq hqnling ckxrneta (C), 51 a, ar.4 in the
cvc;,!r,9:ktton %,t(;itvt',4 (X) o (ei 6 number a f mar, not to see to rs , VIC + Wo r, a P
ltvneth bc-twien the C-nai;nate# 50-1..0 t:,vl gap leneth arouni the X-UaCn-!tv#
417-5 an; in-leic of thn decreace tri field jtren4th. 460; intcrnal heirht
11 nd width of the chamber, 80 an4 110 rits, rqarectivelyg nuabor of betatrnn
oscillations per revolutiong 12,75p xn4 per periodic eIqmcMt# 0,?Il
nv--ber of maj-
.,ntto per rerlolte tleo~.nt. GO total critical entrCy. 17.2 Barg
mazi%vai deviation, of the periodic orbit with IOV,* doviation of the
ncmi~ntuLi from the oquilibriurn coaentuz, 14T ni rate of energjr Lacresta*
per rtyclution, 4.) kerl duration of one cycles t.55 meel tc-I., cycles/kat
particle revolutin-t froqxPrcr at the ltrin(Ang ef the cycle. O.It KC/stet
kni at the Qitdt 1.1, rrejuincX -,vf aInchrocyclatron. oacillations.
~tj(10 anl 150 cps$ otiCht, of the alectroma4net steel. 2500 tent; zrtizam
power or the supply syt%ic, Z5 KwI Van dt Graaff injector (rairticle, iner;,yo
;.6 KOVI fICld,:trefiC%h,90 Qr)I adnissible deviations frox field ttreti&th
axii fi*lt Crad nts, 0-11 4tvia,tions at the chamber adce due to
nonlinearttfts, -fC-,Lt adm(extble friquencr dairLation of tho acc4lerating
r141d at the beiJaning at the cycl*o I(r), &A4 at the end@ 51110-), There
ar* I fLCure and I table.
W.39M.921t March 12C. 1962
C&LA I/Z
A
KONOSZON N A STOWYF I.K,; GASHVI M.A.T SMAKOU P'.K.;j
111TM~W.Kh.t KMOOV'P, T*.Twl KULUWF F.K.; i6~iiffr, T.Pl
amifOYA, le.G.
Pmmr 6upply, systax of Us electromagnet of the 7' ber, proton
synchrotron. Prib. i tekh. skffp. 7 no.4127-33 JL4r 162,
(KM 164)
lo, lkucbno-i9sledov&telts)d]r institut elaktrafisichaskor
appamUuT Goaudarstvennoge komiteta po ispollsoraniyu &tcmnoy
(Ile*trmaguetv) (Synabrotron)
TUMDAM, r.r.1 KUM, 14.06 NMP &*Lwl GOL(Mr. L.L.;
9 L, =6;;;& SIK TAKiwy, rt.jr.,t irisimm, &.i.;
D KMM[Tp T.S.; KAUSIMT,, r.rr
STOLOYt, AXI STFUt" v.9 rorlloM RAI
Tbo 7 bwT, protm #YOW*OtM
ill,ft Prib. I takh. skap. 7 mo.4c"
NMU 16t/.)
I. XMUt" tWoretiob"kur i ek"orissittAltncT fisiki Gov%..
t qp, koateta ro7 ~Ppol%a"tnin' atamoT onorgii SM,,
Itkotitut olsktrofisieNskor appamtury
U-sadarst"mogb kamitsta po, lspojWTwyu atomor onergii
SM L'UUotekbeohoshy institat Gosudamtvennogo kmitata
P6 isplisomwin atomw
0~5.
TITLE-t_
t7~TU-1-1---l'!~T- "it
T. 4~
-*~Jl rl T-9
bit of, ZzL~~n r c
I t I z~n 4t v=,imim croan-iiections and s~
--rr mttrml rie, !in -f t- th
jl ~- . .
,.,
- 1 11 - , . .
;.-w
- 04 t -pie
1: V
L 4Y3138-65 En(a;/ IEAk(vr)-ktM mL-2 bn~10%-7
JZ~szw
it; QoL'd1!TjL.[,t.-k.j, Koahkarays-4r. 4, (..Ten IQT'jq'__K' I-
K.~%adtvlj Uj#.4.CuStov' CL.-Kg Ki~~T!jrje. 10~.j Ku;ikov, Y Wnhjv,
r-al. N A IFo- -k
ovich, A.~ Vrl,. Stolov,.&. K.g Utor.-Ir. At
y~incL
Kuz'min".".; Kuz'wIq,_.K~ _r.g Kip~j,_A;a.t j;hch(nfiIrI3E-
_K- 6 Ujo-ILI. t Zhad-!~Tp~ Ve K,; rilarstorg 9. 0. 1, rahu"Im.~
TI=9 60-7QCtIrProtOn'9ynchtvtron-
Sw7do Ac"Lorstors. Ouboa. LISII Tru*8
rbscow, Amilviii. iggi7.
OTOVIC TMX: high energy Accolomtor, eynchMtran
JASSTRAMs A 50-70 Car proton synchrotrou vLth alm It, foassing, is being wmtrwtod
not far froce Garpiidwy. as ft" been reported earlier (s.C. "Research rn&tLtuts for
!
Cl4ctro-Physical rquipcnat, Looningred." in Proosedlop of the IntsmatLoma.1, Comfet-
!once m KIgh Enercy Accelerators and rnatr%mmantattom (CEM, IgSg~,, p. 273)~. Th* .
1present report describes parazwtor changes and Luprowmants; in pr*cistom stracturaL
,charecteristit* of the accelerator. and the proseat stato of constructim, in aid-,
1264. The parmawaterm of tho ueVrwat am presented La. a table. A, mmsU chaviga La,
th* art Inal plans perstitted am Lncro4st in the length ofa; part! of the ffte
CW4
L 4303M5.
i*ACCESSIOK KKs ATSOOT916
sections. mom of which or* utilized far Lnpet and odt of bases. Th* auper-period
dasigm Is described. The lengthened sections were obtained as a consequence of
charteninc the fc%cuufnc and 4'efocusinx blocks by 112 cm. The focusing propertlas
,of the aoj:natLc charnmt wart, dielnishod consequently, but very little; and the
limiting energy was loviare4 LT 2-3 Ger. The construction a$" the magmt It, describe&
Each of' the magntt1c blocks Is divi&-d lengthwise Into 5 sub-blocks" which am
enveloped by the coinon, winding. Thee* sub-blocks consist of Laminar tva-Sillimetw
silicon steel. These at-ieL sheets were atamped out without subsequent mechanical,
working. and were subjeted to sorting, and intermixing in order to smooth out their
saenetic characteristics. Tha: tub-blocks are constricted by lateral welded plates
without Provision was mdo for winding* am the pol*w fix order to correct
for pole nonlinearEty and for variations In the drop reading. Those windings make
it possible, to introduce artificial quadratic (square) rionlLnoarity that change&
tht, dapeadence of the freqtwncy of trinaverso occAllations during a pulse. In
order to correct for straying of the rtsidual field, provision has., been mada: for
,-LndIn,s on the yokt I. with the taIn wIrAing, The. ob-blocks must undergo
calibration on it maGnot stand In, ardor to make correcting systems mom prealso: and.
to detarmins- the aost ounvanient disposition of the rub-blocks alaing the, ring. The
winding of the olectronagnat It ma& of aluminum busbars, with b*11ov core*, for
It woUng water. , The lonZth'of this busbar La, so s4lov%tod, that tbw~e would. be Do,,
L 4308MS
)ACCESSIOK Us AT5007916
:ueided joints Eosld* the coile. The winding consists Of F4 64ctiwAo two Of' wfdch
amph digpoied on the upper pate and two on the lower. The most important character-
ifiattcs of the alec",camoet and power supply ayatex am described, in a table. Also
descriloed are the vacuum, charZer and accelerating field (obtained by S& paired
i
resonaters with ferrite, rip". which operate at the 10~-th harsixmic of revolution,
and:Zlve accelerating potenZE&L of 350 kilovolts). The ring tunnel and the generA
arrancement of the accelerator dr* shown in Ggurew, and described. the b%LldIr4,
for tha injector and por%Lons of the ring, tu.%,A&X f. the Lalector to the *"ri-
mental rvoik bavei been completed in the; main and xr~& riedr for installation of
equipment. We roos. In the: fam of a singl&-aisla building without Internal
supports. Waits; ons, to work on boxw brought Into the Inner and Outer sides.
go-cwter arch coyarc this room, whose overaU length. is 150 wers'. ProvisLons:
have been u& for & second o"ribanta.L. room at thes #*utbweet part of the ring.
Orig. has % ff&ux**, 2 tables.
AMCUTIOXt roatitut, teareticheskoy L skepwinsotslfooy fisiki CM GSSK
I- - M -,&I_ (2) go
(Institute of Theoi~tfc~~&g&L~x v!~e"t Pbyj uduw-
isal vattllekiy institut '*1ektrofiLicheskol, apparstury Lasai U. Y. Tefrenow
QCAE M& (Scientific Research rastitute of'Eleatroj?h G~~&Stk)
L 430a8-65
ACCESOOK KRt ATS007218
(1) PAdlotakhaicheskir lastituto AX SMA r tt A
&- as tut Cador of
sciences SSSR). (4) Gooudmrfttnyy. pmyektnyy Lastitut a
T
SLMK=Dt 2WAY64 EXCLt 00 -$us. ODIN a, 67
So Isr DDYC 002 OTHat 001
I A I "I
j
ACCES8101rMRs AP40474LS 9/0089/64/OL7/004/02ST/0;94
W
AUTHORSt oathe K. Alt Gustov, G. Kq D_1 nkq,,~ K. K.t Komar(.
__v
Ya. G.t M41v*shev, r- r.r MonogrOn' If, All' PQVk4WUb&-AA-V.~
K-r ldestiWnskiy, B. Vs "Mts*v, U. If-I Saks&-
94tn1koy, 0 "t-
canskiv. 0. L.t Spevakova, rf X t 8%019YA-AA-16r
no* A* Kh.
TtTLgt Maitt technical characteristics of the *Tokaztak-3* exp4rL-
mental thermonuclear thatallatLon.
6MCEt Atoianaya. enerqiyas v. LT, 4. L964, 287-294
:TOPIC TAGSt thermonuclear pinche thermonuclear fusion. p1ww.4 re-
searcli. plamm pLnchj Tokomak-3
&ZSTR&=c The 'Thkamak-l' LaInt*nded for the Ln:v*stLqat1on of a
torold&L qu"L-statLonary dischaMe in, th&L strong 1onqLtjdLrAl mag-
netic field. The toroidal discharq& is produced in tho vacuum; chant-
'ACCESSIOU URt AP4047415
bar by a vortUaL electric field, and acts as an equivalent secondary
turn of a pulse transformer. The produced 2Les~v~t~pinch is atabilLz*d
with a longitudinal magnetic field of a toroidal solenoid, insIde
which the vactium, chamber is located. The magnetic core of the pulse
transforaec carries the primary vortical-field windirq, the demaq-
!n*tization windirq. and the windlnq for induction heating. The set-
up is fad from special power wyatems. The alectro"qnatic syste"6
the power supply, and the vacuum rystex are described in, somo detail.
,The longitudinal field intensity reaches 40 k0. Tha; vortical field
values ara 250 and SO V per turn with pulse durations: LO and 50 miL-
Usecondx, and with programing of the wavefora such as to maintain
~a constant current in the plasma. pinch. The pow*r suppIr delivers a
peak power of 77,000 We maximum, 7000 At no-load voltagar 11 We and
stored energy 180 million Joules. Tht vortical field is fed from
',four capacitor banks rated 1000 Mrat; 20 Wr 114"000 pr at 14 kVt
78,000 pr at 5 kV, and 30,000, 0 at 5 W.". Th& capacitor-bank par&:--
:zaters: can varied over a wide range. The vacuum in the Uner.doos
o-4 2/1,
kCA&S 4 IMs AP4047415
-7
not exce*d 1-2 x 10 90, By, during the. interval between 9". adaLs-
gLon, with. the pressure Ln, the outside chamber b*Lrq 1-2 x Lo.-6
mot Vq. Or1q. art. hams S figures.
ASSOCIATXOfft None
I otm 00091 up, 14E IM Rzr Sove 000, OTWWc 000 J
cW4
L CWT(A)IEF&W-21M(m)-l ft-T UP(C) an
MESSIM NXt ATSOCTM StOMA141000100010SWOSSI 1.,
AUMM Ols---vs A. A.g Deftisor, TV. W-t z"-VA2ftAkqtA-~-
1, Vf V# VCO"NUT42LAt KP"14&AL-k(; DJUI222XA-L-L.L-
go
To ~$ P hglich. A/b'
TITLCv Relativistic 7004kv proton cyclut-
GOMM Interv4tional Confe on Kljh MerEr Aoce,loretors. bAnat L963. Tnwyi 'r
rbotow, Ato"li"t, 11", Tr47mCV&-
TOM TAGgs pea a aceelerator. volatLvIatte partlele
AISTXWre Current tboorstloat "neepts and- experimental data oaft4atively show tba
to urWIerstand. thet aiarocoss rurthjr it it necessary to tacroase) the be&* intousUr
of accelerator* by a factor of LOa " produce accolerstam with onerglet tr to
th"sands of bovfs. ror the post S-4, yeam. constant greditut eocelare-tom. 000-
9W Me* eyelotrmasl have! "w*qi to b* the boot way. t& pro6wo, particlot with eftr,~-,
glee up to L bov (L Gev) with boas currents ef the *r4sr of I s4ULampore L&Btead
of I sterossipare (so famd in synchrocycletrons). The prosoft repwt 6ascribes 0a
design for a 7004kv proton cyolotm. dovilo"4 by the Labmtw? of WWIm4r hVb-
Co"I 1/3
L 591345
A=SStC9 191 ATSOO7934
blava of the OtTat JoLatIr with the WIIEM GM ISSM and, other scientific research
institutes with rated current proton N&* up to $00 atcroasperts. The chatce, of
an4ror wag mods an the buts of the fact that at 700 Pkv the crage-eectLong; for
forvation of pions In nuclem-nucl*on and nucleoa-nuclet, collisions. are close to
saxIsua. ar,4 also because of th* possibility of utUlzing the alectrompat of the
610-Piev, synchroqclotroa of th4 OlTar for the new accal4rator. The followNg now
probIwas *or* considered in the, design became there to now no stallar operational,
high-energy accelaratore (at, verification of the, linear theory and devalopwnt of'
the nonlinear theory of spatial stabilitjr and of the phase notice of particles in
the accoletatorg (b) creation in a largo space, of a magnetic field with couglex
configuration and its stabilization with an unusually high dagrea of, mccur"i, (c)
production of Opparatux for tba volowevent of strongly v4show""que magnetic
fields (groillents: up to %M catcal with an sccvk-a~y better than LQIj (4), produc-
tLaft of ki&h_ft%q"My cociLlatom with "r up to 2 W at a frvqu~Ocy, of 12 vieft-
cycles' per second (12 NO.. with frequency stability of the order of 104, which
operate with a roooner4o mysteo. with saplltude: of' the accelstitiq high-frequency
A its auxiliary my,.
~,*Itsga of up to 100 Illovolts, (ol design of an accelerator an
to,ma, which *nouva offective. opex ti= and %aimenaaft w4w cas4itione of high, IM A - i
of sativityt M development of a highly offtetive systes for, the ch*melLng of pro-
ton. beano from the sccelerator# end. " -oolutloo of the probUss ocoinected vith
CWd.. 2/1
L 58713-65
ptoduabg b"m of #ecoD4wy partLaleg srA tiveir chem4fLog w4 focodast (fl de"I
"tit at p1mv; for the protecUca at' persomel. and Lastrummeats frm, rodiati.m. Tbs
poper concludes that tha, retativLatic. cyclotron offers wLds, a4w poesLbilftLot for
nmelear roe"rch La redlobloloas solid atat* physks, stc. orig. srt. baxi I
f1jurow, a tables.
AVy"Immy, Lostitut yedemykh- 1*sj*dvwwmIy#~ lkfta
Institute of Nuclear Research, Mt 1 (11) K&uchs*-Lss1*6mt*1skLjr Lwt t
--n~
fl~ apparstury-Imal D.~ T. Tefr*
Ze tro a as 5~y vow am NU (801*00fil M
Institu" '61 glectrophysLoal 9quirment, QW-41-119-
TSZURSXLYA, S. I HO SZ # a. K;SH3TW4AN, To. AITAXMS,, R. LIGOLMKHM.
=.' U,
A. I I u U-KuW"mCnwr-TV.-qTUAUWTA. K. A.
Role of roentgenological u4thot in, smalvAtion, of children
for B.C.O. vaceina.tion. Probl. tuberk., Hookya. noAt3l-36
July-Aug. 1950. (CLKL 20 t 1)
I (Candidate, Medical 8cienoet 9f. 1, TwerkV& - Odsmea, taber-
;~10119 Institatst a. 9. Monotson aid 1, A. mwytAn - Lanift-
grel. %berculosis Inatituto; Prof. B., L. Takhnis and, CiaMidaLts,
Medical Sciences; A. 1ra., Gollberg -- lbarikav Tuberculoaix
rnstituteg 1. F. QorlovskVe. -- Xier Tuberculosit institute.
KIMT, Ake, I XaBUROY, NONJDV, Al"",
Gonplications atA mortali%7 according, to vaterials, of the If. 1. ?Lrogor
Institute for Urgent Medical Assistanoo., Burros., nod., Sofla, 9, ao,71
28-35 1937.
1. ~I& Instituta. *& bursa meditaWka pomoshch 01. L Pirogoy*. G1.
takort I Devotakor.
(KI r 101rd! statist.
cowl. & mortal.)
HONOT, Al.
Tmtmnt of morphina ooma, with K-anylaorwrphins., Bum
md. 13 m.,606-38 '62.
1. rs Instituta s& bun& meditainska pcmoeht: IN.I., PlroRoy*
(Glavin lokar Khr. Zdmvkw).
(NALORPHM) (MORPHINE) (GWA)
a t!A___;~
MUM. A. 1. Cand.Agr Soi-(diss) V66&&*w#vfi_wW of- herbioideers; the
",&, (
1 0 " i's OK of weeds. in fiber-flux ";;=der oonditiona of M*siwvnk&y& oblagtow
Nos, 1950. 11 pp (Mos Order of Loanin Agr Acad ijt Km A* Tisiryaswr), 110 a0pita
M, 62-59" 125)
-0,9-
ar". G.K.; KkRKUV. KIkTI1.
Phoaphataso and dahvdrogenaso activitr in sensitive, atki resistant
to pealcillin staphylococci. Antibiotiki, 4. no.4.-91-95 JI-A
159. (KIU 12: IN
1. LeLfedm blokhtnit t Wedre mikrobiologit pri T"ohim
wtditzinskam institute r Sofit, Balamiya.
(PENICILL19, pharmcol)
(&ILMTLOCOCCUS met&,*)
(PHOWUUM metab)
(DIMROGIUSES metah)
GAIPAROVI M.1 WLINKOV, rvj ~~NGVJ -IT.1 EHRISTOVO M.1 KHAMANOVF St.,,
DIMITRO7, 1. . .. - .
040hudged harvesting of maiss. lay m9kh selsko stop BAX
W15-132 161.
1-1. MOKOV.- M. -
Epii;ootlology- of in Vm1t;zoi ~~intrlct,,
. and pome expartmants in t;.e dipeaser. ltv
Vott inat tarez I~arazit 7 201-206 163.
Fatiov, Y.
Kidtle,j in esiws. rzv vet. inst saraz p&rFtzit 8t
231--4'39' 164.
OIDYTAIII."AHNIZOV, Nikolay- Pauteleymonovich; HDVOVA_p YO.S., red.;
E=VA, K.N.,. tskbi6-rsd*
(Defense against veapons for mass dostrucrtim im a mral
region] Zaahchita A orushi!A massovogo porashaniia, Y
sel'skoi, mestnosti. Moskva,, Sallkhosisdat, 1963. 46 p.
(MIR& 161g)
(Civil defense)
UffMOV, V.P.p k&nd. eeMhoz. tiauk; BUGIMV, :Xq KVIEfi~!KW,
FS.0 kand. tekhn. nauk; MTV, GA.; rod.; Te.S.~
red.
(Oilseed and opium Poppy] Vak wAnItcYaryi t oplinyl. Vo-
skyap goVkhatizdatt 1963. UI p. A,12)
1. Starshiy agrartom Goiradaratvannogo tresta po v7rashotlvanlni
i tagotovke lokarstvennoraititalInago ayrtya (fo.- f-,Wj,,r-krv).
Lei RI '"T
f! T-1
r!
ch- I.-i red.
I t 5 ko ki-iri 7-1 f, y F,
V"' rat -A rob,
FUSTMOYT, V.S., akademik, red.; SUSLOV, V.Y,., kand. ekon. nauk,
.oty, red.- ALMSUEVA, Ye.I.,, , kand. aellkboz, nauk,
red.; BUZINOV, P.A., red.; VASILITEV, D.S., kr-nd. sell-
khoz. nauk, red.; VOSMMSKAYK,, G.S.,, red.; GMDAYEV,
A.I.# red.; IMIATIM, B.K., kand. sellkhoz. rjuk, red.;
WWWOVA, A.Ta.,, red.; MOSKALENKO, V.I.,, red.;
PAKCWKG, A.Ya., red.; TIKHONOV, O.I.j, red.; SHMA, V.I.t
kand. sellkhoz. nauk, red.; MONOVA, U.S., red.; LAYSHINA,
O*Vaj, reda
(Oilseed and arozatic, crops; transactions for 1912-19261
Haslicbrqv L efiromaslicl-mye kulstury; trudy za -'912-
1962 gg. Pod obahchei red. V.S.Pustovolta. Moskya, Salf-
khozisdat,, 1963. 575 p. (MIRA 17W
1. Vsesoyuznyj nauchno-issledavateltokly inatitut maslich-
tqkh i efirmaslichMkh kul~tur. 2. Vaesayuznaya. akadsrlya
a*I'9kokhozy&ystvanrqkh nauk imeni V.I.Loenina (for
Pustavoy-0. 3. Direktor~Vsasoyuznogo, naucbnc-isoledovatelf-
eke" instituta maolichnykh i efir=.aalichrqkh kulttur(ror
Sualov).
C-HMOGMV, P.V.; BOBRoy, I.T., P~
I" jujuali, uchastirs: BAZARTICIN, R.T.1
No W-.~Zsj ROUT, I.P.: rJM-"A, F.S.r OXM'SKIT, K.Jr..-
GALIMIS(. I.B.; YASM. t.M.; s.r.; B=mm T.R.
Iffect of foundrr iron prepared b)r a nons.-blast-furnace method on
tim qualitr of foundingw. Ltt.proixv. no-70-IZ J'w 16o.
WRL 13t7)
(C"t tron-Aatsllurgr)
(Poumdri*g-Q;mlI.tr control)
ACC NR~ Arroo5642.
SOURCZ COM MV0181166100010121355913
AUTHOR., Zhilich# A. G.; Monoson) D. 8,
'~' 6,
ORG-. Loem"rad State Univ r Ity, in. A. A. Zhdancy (JAningradakiy gonud&rstvenrW
universitat)
TITLg,. quagicl"sical, analysis or the spectrum or a hydrogenlike system in a strong,
magnetic field
SMMCZt Mika t"rdogo tela,, Y. 8, no. 12f 1966# 3559-3566
TOPIC =go. magnetooptic effect, spectral ana1ysier. adiabatic approximationt. strong,
magnetic field.., exciton,, semiconductor theory
ANTMCT., This, Is a continuation oran earlier attempt (VestrLik tw. v. 16, 26, 1965);
to uss, the "atrum of a bydrogenlike, system in e., strong megnetic field for a. study
of magnatooptic effects In, semiconductors nenr the absorption, edge, and. in other spec-
tral regions in uhich Matt excitons participate, In the present paper the authors
propose Ln, adiabatic method for analyzing a hydrogenlike system in & strong, magnetic
field. The method consists of an. Investigation of the eigenvalues, of the. Schrodinger
equation for a particle moving in. a Coulomb field. in a, homogeneous magnetic field and
deriving from this analysis an equation for the energy spectrum, The present resultol
with the earlier ones and with results by others. A criterion, fo the
applicabiMty of the adiabatic ap;roximation is established. Results are c=red
qaalitatively- with an experiment on the magnstooptit absorption in the region of' the
L cmi