SCIENTIFIC ABSTRACT TAKIBAYEV, ZH.S. - TAKIBAYEV, ZH.S.
Document Type:
Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R001754720016-8
Release Decision:
RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
July 13, 2001
Sequence Number:
16
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
File:
Attachment | Size |
---|---|
CIA-RDP86-00513R001754720016-8.pdf | 3.47 MB |
Body:
u,rodlic in parti,,lc~, . This ref3ults -in iddlition:il red-cti~vn in tlze V~IP!e C)"
~--r c-;-:.-- ~cr~ -val- ~ irg Vie ezn,tr~~-.y "o I, he Cererated
,psons anA t~-e e`,ect pro:1-:ced h h r a c to
o)* th-'s enpr~7- ener~-y o* the ~.:js -(.,-,n corrQl.'itedw
tJW', Prier; ti-iisferred, on the o" th's ener,-y. The enery of the primary
-)-irfAcle h.3-; bt-n w4th f,hf, f:Inervy transCerred, on tirie averac-e, to the
P,eneratqd mesons.
In ovall, !t4n; ~icco-int -is ~ijso takeri o-' t-ne en~r,rz:. of t,,i-- shower-
;~e,-)rot 2rerent,~d ;)" the ""ont-lic Ra.'..' "onforenct., "Moscow, 6-11 J-1y 1959.
.J. ANIALY1:1-1 OF ALGIIAE Ld.ST-i:~7710;; OF F"'I"
0"- ~-KIIIE-R-S Ef 7~, ~Z
ev
Zh. S. rakibayev, A. A. -Tok-tionov, L. A. Sanko,
Ts. I. '-~Ihakhova
An analysis is made o' the angular distrilnition o~ thin tracks of showers
prodliced by cosmic-ri.y particles with ener- exceedinr loll ev. To determine the
erierf,7 dependence of* the anintlar distr*l-,ution of the shower-produc.-ing particles,
all analyzed showers are divided i-nto two erierry intervals. The first interval
includes all showers produced by particles (protons, neiitrons, pi-mesons) with
ener&v o!- t he order of ) D U ev ( at least-;~,161%v): the second interval includes
riarticles with enerFy exceediri~dv. For comparison 3 study is made of showers
taken frGm oublished material. (;
The ecierimental data oLtained are compared with the m.-,),'el of "two centres"
th.3t independently emit mesons (Takagi, Feinberg and Cherravsky, Kokkoni et al.).
The comparison reveals the limitations of this model. The observed an.rl-ul7r
distrJbution or' thin tracks of a nlimler of showers may be explained on the
asslimotion teat: I r
a) t"nere Js a nower enercy spectrum in the centre-of-mas system
wh-Ich afxees with the Heisenberr, theory:
1-1~'l '~l T --l! q :~ p J
*656T ZT11P 71-9 .16 a Z.4
q,llfll~ Ll ,I j
Ollill til Uo -I-ILJII~~P -li'Tl~ !1l' "T, E,- a-Ullj.-4
21(7)
A UTr'!OR San1ko, L. A., Takibayqv,.~~.,.~., SOV/56-37-1-1/64
Shakhova, Ts. I., balats, L. Ya.
TITLE:: On the Angular Distribution of Shower Particles in Stars
Formed by Particles of High Energy (Ob uglovom raspredelenii
livnevy'r-lh chastits v zvezdakh, obrazovannykh chastitsami boll-
shoy enervii)
PERTODICALt Zhurnal eksperimentallnoy i teoreticheskoy fiziki, 1959,
Vol 37, Nr 1, PP 3-10 (USSR)
ABSTRACT; In the course of the evaluation of emulsion piles exposed in
the geographical latitude of Moscow at a height of 30 km, a
star (20 + 15 + 59P) was recorded, which had been produced by
an interaction between a cosmic radiation proton and an
emulsion nucleus (Fig 1). In the present paper the authors
report about an analysis of the angular distribution of charged
particles in this star. The energy of the primary particle
was determined as amounting to
F = (19 +5M).103 Bev. Accordin.- to Heitler and Terreaux
14.0
(Ref 4) the star ought, at such high ene7gies, to consist only
Card 1/3 of 3-4 highly ionizing particles; the star investigated by
0
On the angular Distribution of Shower Particles in SOV/56-37-1-1/64
S~tars Formed by Particles of Hi,-h Energy
the authors (1~, h ~ 35) cannot be explained by the Heitler-
Terreaux theory. Figure 2 shows the differential angular
distribution of the shower particles in this star. The histo-
-ram has two different maxima. For comparison, the curves for
isotropic distribution (in the ems), for Heisenberg distribu-
tion., and for distribution according to Landau are plotted.
It was found that, if it is assumed that in a nucleon-nucleus
collision the angular distribution does not deviate consider-
ably from that of the mesons formed in a nucleon-nucleon
collision, the angular distribution observed can be explained
neither by ffeisenberg~s (Fef 6) nor by Landau's theory (Ref 7).
Figure 3 again shows a histogram of tne angular distribution
of shower particles in ihe laboratory system. The curves
1,2,3,4 (in the cms' successively show Gaussian, isotropic,
and anisotropic distribution for each of the two maxima
separately (in consideration of the energy spectrum of the
produced particles and on the assumption that they are mono-
energetic). It may be assumed that the two maxima observed in
the differential angular distribution originate from a meson
Card 2/3 a
On -the Anz~ular Distribution of Shower Particles in SOV/56-37-1-i/64
Stars Pormed by Particles of High Energy
emission of two unconnected centers, which move in different
directions in the cms: 30 particles in the narrow and 29 in
the diffuse cone. Pigure 4 shows the integral angular distri-
bution of such a star. The authors then give a report on an
'nvesti-ation of further 11 stars with E > 100 Bev, which
prim
have the same characteristic anisotropy. Figure 5 shows the
total histogram of these 11 showers with the two maxima.
Table 2 shorts the results of an analysis of all investigated
showers (Kr 10 gives the data of the first star described in
detail). In conclusion, the angular distribution of the -ray
and black traces of the (35 + 59P) star is discussed on the
basis of figure 6. There are 6 figures, 2 tables, and 12 refer-
ences, 8 of which are Soviet.
ASSOCIATION: Institut yadernoy fiziki Akademii nauk Kazakhskoy SSR (Insti-
tute of Nuclear Physica of the Academy of Sciences, Kazakhs-
kaya SSR)
SUBMITTED: November t4i 1958
Card 3/3
24~5),21(7)
AUTHORS: Boos, E. G., Takibayev, Zh. S. SOV/56-37-1-43/64
TITLE- On an Evaluation of the Energy Characteristics of.Shower-
producing Particles (0b otsenke energeticheskikh kharakteris-
tik livnegeneriruyushchikh chastits)
PERIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fizki, 1959,
Vol 37, Nr 1, pp 292-293 (USSR)
ABSTRACT: It has already been shown experimentally that for the particle
momenta p. (in units go, where g denotes the particle masg) in
cosmic showers it holds that- --19 where the individual
*
P
values no longer deviate from
ae average value. This fact, as
well as the assumption concerning the symmetric flying-apart
of'the shower particles ir tho cms, permits an evaluation of
T
the parameter y
= 1/ P; , where P
is the velocity of the
c
C
c
cms with respect to the labora-.ory system. The authors of the
present "Letter to the Editor" investigate two variants of
the symmetric flying-apart: a) the angular symmetry for partic-
les departing under the angles ~41 anti G4, if 01, = n- El , and
i
i
j j
b) if on both sides of a plane that is perpendicular to the
Card 1/2 direction of the motion of th,~ criis the jame number of
On the Evaluation of the Energy Characteristics of 31)V/56- 37-1 -4 3/64
Shower-producing Particles
ASSOCIATION:
SUBMITTED:
particles is found. A table shows the numerical results of
theoretical considerations for a number of showers (the ex-
perimental data were obtainod from references 4-8); the
values for y. and K for the variants a) and b) at variou3 con-
ditionD are given and are briefly discussed in the following.
It was found that, under the a3sumption p,5~~ 1, an evaluation
of the energy characteristic (y. and K) in showers, of which
only the angular distribution of the secondary particles is
known, is possible. The thus obtained y.-values agree well
with those which have been obtained on the assumption of an
exponential energy spectrum of the produced mesons (Ref 7).
There axe 1 table and 9 references, 11 u!' which are Soviet.
Institut yadernoy fiziki Akademii nauk Kazakhskoy SSR (Insti-
tute of Nuclear Physics of the Academy of Sciences, Kazakh-
skaya SSR)
January 15, 1959
Card 2/2
20-5-17/60
"he de~)erldence of t'he 'miso-ion-Frequency of fShower
Particles on the ktorqic 1!unbcr of the Split NUCleU3.
..hich are to bo, deteriAned in the utars with n8
-'6) can be explained
o%~ the aid of the maltiplc-rr~:_iltilplo theory of prod.uction. At lealit
u7) to an eiierg,, of lo BeV the production probability of piona ii, tun--
sten is grEater than in alui3inum. lecordino to datpL obtained cr, a cos-
iuotron and s,~bctatron at energies of from 1 to 6 3eV multi~:Dlicity hard.
1y depends ~t all or- the atoi-ilic number of the target nucleus. The aut'L_
or farther investi,~ated several other problems and obtained amon,3 oth-
ers the followin- results: The ener&j spectra of the recoil irac-leonE
created on the occasiol of the spallation of tun'-'sten-and alu:~iinam
nuclei differ essentially from one another. "Transparency" (in the
sense of the-prodgytion of stars vii.th Eh."13) of aluminuir, and cap-~'er
decreaaes from 6oo to 3000 ,:eV -uith an-increase of the energ.,lof tile
shower-forming particli~s. The 11ULber of emitted fast protons with en-
orgies of froizi 3o to 500 UTeV increaser3 with an increase of the atomic
number of the disintef-rati~d nucleus and also with an increace of the
energy of the star-producing particles.(l illustration, 1 table).
C;
A2'WQC14T1ON 'Ph.,.-sical-Technical. Institute of t'he Icad. of Science of t-he Xazakhiaii
7, -, _' - ,
.1 - L:) T' U CSH
Mcobeltsyn, of the Academy.
5 ~FXLITT~;D 4.6.1Q'36.
111ILABLE Librar, of Con~~ress
Card 2/2
21 (1), 21 (7)
AS KazakbSSR SOV/20-i27-1
AUTHOR: Takibayev, Zh., AcadZ~Mjrjan 7
TITLE: On the RS!e of Antinucleons and Mesons in Secondary Intera,---
tions a `~' fT.* C'.1 El-_ergy Le-.;-els (0 roli antinuklono-,7-
i mezonc77 vo vtorichnykh --Irzaimodeystviyakh ir oblasti vysokikh
energiy)
PERIODICAL: Dlklady Akademii nauk SSSR, 1959, Vol 12'1, Nr -1, pp 67 - 69
N
(USSR)
ABSTRACT. An investi-ation of the angular distribution of thin traces in
the show.2rs raccrded in photographic, emulsions -furnishes the
basis fo~ the high degree of excitation of the colliding nuc-.
leons, ea~,h .5f whi,,th separately emits pions. Such a hypothesis
was brought forward by several authors (Ref 4). Further exps-.
rimental inv~_stigations, however, showed that the coefficient
of nortelasticity the fraction of energy transmitted to
the produced particles) in most cases is of the order of nzag-
nitude 0,15 to 0.20, which cannot be explained by the model of
two centers .-f me3on emission formed by the nucleons. F~jrther
object4ons a-ainst the two-nenter model are m_e~de. 1%ccordinc to
ther, s on, ni
the -~haract*-_ -.~f 'he observed anr-ular
Card 1/4 is trilbu ons in the laboratory ~ysten, may be explained b~ tak-
A 2
On the R31e of Ant-.-'Inucle~;n-= and Mesors .n Secondary SOVII
Interactions a t ~L' n
and mesons produced in the primary act *f
its an example, the angular di3tribU7:~on
,z~f th"- lbir tra::C!L; Clk' it i- r,'jp ils analyzed. The anCu-
lax ~.c 01 f tho 9how-or particles is ,hl-
by 2 -and ~anr.--Gt be OxPlained by peripheral
cAlision,q, hecause a !aT-e number of peripheral collisions be-
tween I.he arriv-4n,- nl,~.(-Ienn and *hf-2 nurlocns of the riucleus ir.
the I`ube" -19 only t7ery 1j ttle prjbatle. From the hydrcdyrn;3-mJ-C
theory the exi9ten.--e of two niax-ima dolls not follow. The author
a5aumes that, as the result cf a collision between the arriv-
ing nucleon and one of the nucleons (or with a group of nu7le-
ons probably f;Drmin- a uniforin and compact medium) of the ta--
Get nucleus.- about 301 charged parti-7,les are produced. Most of
therm are pio--~:. H,:-we-ler: amonE; f~he particles thus produced
t"ere may be a certain fraction of strange particles and ;anti-
riucleons. The pa-rticles produced during the first act of the
collision move, within a narrow angle, nearly in the saine di--
recti~~n; and may, 44yi turn ' proditce about 30 charged particles
in the ccurse of se-.eral collisions. The energy oil the arr-4-,r--
Card 2/4 in~~ ~a-rticles JLs 'hen determined by the' positi~= of the left
On the R'Ole of Antinucleons and Mesons in Secondarv SOV '90-12'-l -17
Interac "ions
maximum of the angular distribution shown by an attached fig-
ure, The positicn of the second (right) maximum determines the
average value of the energy of the secondary particles. Form-a-
las are written down fcr the differential and integral anLrular
distribution. in a diagram the curve given by the integral ar-
gular distribution is compared with the distribution of the
shower particles of the star 35 + 59 p. Agreement is fully sa-
tisfactlory. Such comparisons are, by the way, possible for any
stars., The production of the shower particles may thus be ax-
plained as follows; 1) In the case of high multiplicity the
anoular distr *ibution of particles (produced in the first staE;e
of the colliaion between the particle and any part of the tar-
C-Fit-nucleus) is nearly isotropic, in the center of mass system.
2) ThQ an.-Ullar distribution is subject to considerable fluctua-
tio,n5., 3) The anCular distribution A 11/16 x, which was observed
in -,he laboratory system, may correspond to an anisotropic di-
stributior, the center of mass system, but this apparent su-
pe-rposition is - roul-hly speaking - only due to the superposi-
.1
tion of twc, 'YPes Of collisions~ 4) The analysis of the angu-
Card 3/4 lar d-,s~ribu-r- of a!1 ''two -hump" showers on the basis of the
on tio: WA-,- 30'1/20- 127- 1 -1 7/~' 5
Intera-.tion-
f v-ew does not ~,.)ntradict the
nc-r-= UI-S:-'I~ss form point o
expenrnan-.al data. There are 2 figures aad 3 references., 2 of
which are
ASSOCIATION-. Inst`tut yadernoy fiz-iki Ak.ademIA nauk Ka7SSR (Institute
N-u
'a,r Phjji3s r~f the Academy cf Sciences, KazakhSSP)
SUB11ITTED: A
p
Card, 41i~
P~'7THCR:
_jakibayev, 1-h. S. , Academician of 3C, V/` C -0 - t; - 2 1
AS Kizn.kfiSSR
TI-LE: Investigations of the Kazakhstan Scientists on Cosmic ~`-Iys
~.-abot, uc-heny-kh Xazakhst,--ina po kosmiche-~kim lucha-9)
PXR10DICAL: Ve:.tni~- Akademii nnuk 33";T1, Nr 5, P? 101-irA
ABSTRACT: The scientists' efforts in the Cield of* f.ho cosmic
rays were directed from the beginning onto th,:-
of nuclear phenomena caused b,,,, hilgh-c~nergy pnxticl.s-.. 'fho
. nuclear photoemulsions was applied or this
aethod of I I
nUrposea. Since 1950, the stratosnhere hPs been exDlored at
,
-i'titu,,;es of from 25 to 30 km., attention being chiefly devotei
L U -
to the investigation of nuclear fission. showers that are
accompanied by the formation of a large quantity ofjT-mesons
and other elementary particles (see Fig 1). In dependence of
the charactk~r of the collision of particles, distributions
occurring may belong to type I or to typpe 2 (see -Pig 2).
Takagi as two e ission centers of
sumed the presence of m
1-,-m.esons in the center-of-mass system of collidin,-, nucleons.
This assumption, however, has not proved to be correct, and
Card 1/2 -urther thorough investigations are therefore require4.
4.
Investigations of th.? -Kazakhstan Scientists or. SOV - 0- 9 -6
Cosmic Rays
The Institut yadernoy fiziki Akadcmii naul- Wazak-lisk,)-.- 33R
(Institute of Nuclear Physics of 'the Academy of Sci-jnces of
t1hp ;,~'--,znkh 25R) begnn invr,.qtig,~itinns on th-? Oirect cner~fy
determinntion of primar 'v the -ir,tho~! whio"I is
n'-o.-i being r3fveln-,%oi i.ri thp 'I'M/1"oskovskiv gros"I"Ini-stvenny'y
~)-Iiversitet (.Aosco-,,i State University). At present, efforts
. particularly ~ievoted to the determination of thr~ -role
are
playeJ by the unsteady particles in the formation of
showers. In conclusion, the hone is expressed that it may be
Possible also in the future to work in close contact with
Llhe scientists working on the same problems at the Pizicheskiy
institut im. P. ',~. Lebodeva (physics Institute iiaent P.
Lebedpv), Institut atomnoy ener.-ii Aka-demii nauk S3~77
(Institute of Atomic Ener_-.y of the AF US3R), the
University, and other scIentific centers, in which cosmic
rays ,~XF~ unler investigation. There are 2 fioures.
C,,,.r,,l 2/2
SATPAYEV, K.I., glavnvy red.; CHOKIN, Sh.Ch., otv.red.; BAZANOVA, N.U.,
rod.; BMUROV, A.B., red.; POKROVSKIY, S.N., red.; POLOSMIN,
A.P., red.; TAKIBAYEV, Zh.S., red.; ASAINOV, M.A., red.; POGOZHEV,
A.S., red.; Nff, M.N., red.; IPROKHOROV, V.P., tekhn.red.
[Science in Soviet Kazakhstan, 1920-19601 Nanka Sovetskogo
Kozakhstana, 1920-1960. Alma-Ata, 196o. 688 p.
(MIRA 13:12)
1. Akademiya nauk Kazakhakoy SSR, Alma-Ata.
(Kazakhstan--Science)
S/707/60/003/000/003/013
B117/B102
AUTFOPS: Boos, L. C., Takibavcv. zh,.__s.
TITLE: A survey of methods for estimating the ener- and the
oy
inelasticity coefficient in meson showers produced by
cosalic rays
SOURCE: Akademiya nauk Kazakhskoy SSR. Institut yadernoy fiziki.
Trudy. v. 3, 1960. Vzaimodeystviye vysokoenergichnykh
dhastits s atomnymi Yadrami, 46-63
T,,,'XT: This survey analyzes various recent methods for estimatinE the
energy of shower-producing particles, which are based on angular
distribution measurements oil secondary particles. L. D. Landau, A. I.
iiikishov, and I. L. Rozentall are mentioned. There are 4 figures,
3 tables, and 35 references; 106 Soviet-bloc and 19 non-Soviet-bloc. The
four references to English-language publications read as follows: B.
Edwards, J. Losty, D. H. Perkins, K. Pinkau, and I. Reinholds, Phil.Mag.
J, 237, 1958; C. Powell, Report delivered at the Geneva Conference on tqe
Peaceful Use of Atomic Energy, Geneva, 1958; Camerini, Fowler P. H. et al.
Card 1/2
S/707/60/003/000/003/013
.1 survey of methods for ... B117/B102
.L
Phil. Mag. All, 413, 1950; V. D. Hupper et al. Phys. Rev. 6-4, 4571, 1951.
Card 2/2
S/058/61/000/010/011/100
A'aO!/AlOl
AUTHORS: Boos, E.G., Takibayev, Zh.S.
TITLE- Estimate of the energy (E >~5xlO 10 ev) of primary particles from
angular and energy distributions of secondary shower particles
PER:GDICAL- Referativnyy zhnrnal.l?'Izika, no.10, 1961, 95, abstract ioB492 ("Tr.
Mezhdunar. konferentsii po kosmich. lucham, 1959, v. I", Moscow-,
AN SSSR, 196o, 76 - 86)
-T'EXTt The Lorentz-factor /T,', mean energy P of the produced particles
and fraction of energy K conveyed to these particles in the center-of-mass sys-
-em are estimated by the method based on using transverse momentum of shower rial
parti--les. A correlation between quantiti~vs K, TI, n. and PC is studied with-9
in the framework of this method. The energy spectrum of the shower-producing
c:~mponent is taken into account in estimating the value of It is shown
-hat in all theories and models of-multiple meson productihiscussed in the
i:,resent article, in which primary nucleons are not separated from the emitting
vclumes, the form of K- ff. relation does not correspond to that observed in ex-
periments.
141 + ~ 0 L. Dorman
-b.s.rS.cter s note. Complete translation]
Card 1/1
3/058/6 1'/()0()/0 16~0 ICY/100
A101/A101
AUTHORS. Vinitskly, A.Kh., Golyak, I.G., Takibayev, Zh.S., Chasnikov, I.Ya.
T'_TLE'. Investigation of energy spectrum of particles produced in high-
energy nuclear Interactions
PERIGDICAL! Referativryy zhurnal.Fizika,;no.10, 1961, 95, abstract 1OB491 (I'Tr.
Mezhdunar. konferentsii po kosmich lucham, 1959, v. f., Moscow,
AN SSSR, 196o, 61 - 7o)
T&XT~ The authors investigated showers In which the energy of produced
vartiol,es was determined by measuring multiple Coulomb scattering or, in rare
Ta~~es, by measuring relative scattering of closely flowing particles. In the
-aze of two showers (2 + 16 p and 2 + 14 n), the spectra of ^r-quanta, being 415
decay products of 31-0-mesons, were obtained; the energies of -quanta were
on -he basis of analysis of electron-positron pairs produced by them.
Tn~' experimental data obtained In this way are compared with spectra of /r-quanta
fc,-L~..owlng from various versions of the theory of multiple meson production.
r L. Dorman
~.Ac_z-ractnr's noted Complete translation]
Ca-:� Vi
B125YB102
All IT: i ORS Boos, E'. G., Takibayev-,-Zh. S.
TIT-Lr, Transverse momentum distribution of mesons in high-energy
showers
3~)UIICE: Akarlemiya nauk Kazakhskoy SSR. Institut yadernoy fiziki.
Trud.y. v. 3, 1960. Vzaimodeystviye vysokoenergichnykh chastits
s atomnymi yadraini, 89-()9
TEXT; The present paper gives a systematic ClaS5ification of the transverse
momenta following from various theories of multiple meson Production at
high energies and from various phenomenological schemes. According to the
hydrodynamic theory of L. D. Landau (Izv. All SSSR, seriya fiz., 17, 51,
1953), the formulas
2
L
exp + '.'P
+
dN C2 1., 6 7
W- -dp F2..,,p 2).) - (I + exp (- ap (3)y
3. -L2-).?
5/70 60/003/000/005/013
Card 11k
m YB102
Iransverse momentum distribution ... B125
C, 6 + 3
pi =2- I + ex k- 2)) 2 (4)
and Fig. 1 hold for the meson distribution on transverse momenta. and ~L
Fire the nucleon and pion masses respectively. The lar, of the conservation
of momentum is satisfied neither by the Fermi theory nor by Landau's
hydrodyna,mic. theory, as practically all values of the inelasticity
coefficient disagree with experimental data; The part of mesons with large
transverse momenta is considerablv larger than it is in reality. According
to the Fermi theory, the distribution
dN '13'2+1 +1
Yd-p-, = a - (I -y2) dy fill (7)
expI IP-L Piy,)
r,Re a = 2,413 n f (p) + '2 -In + P
S/70 60/003/000/05/013
Card 2/6
3/707/60/003/000/005/0) 13
rt'.insvri'so momentum dii~trlbution.
shown in FiC. 2 for yc = 10 ani for various values of t4he inclasticit,,,
coefficient, is found at high enQrries and not as predicted (-,) le.).
--'he Fermi theory (Lakinf~ into account the conservation of' momentum) and
the Landau theory give co--rectly the anisotropy of the antailar 6istribution
of mesons produced in hi[;ii-energy nucleon-nucleon collisions. But both theories
probably -z,ive a much too hard energy distribution of the mesons produced
and hence incorrect transverse momentum distributions. 'Nith the Bose
distribution of pions, a transverse momentum distribution is obtained
which depends on the critical temperature (Tc.,t at which the system
begins to disizitet-rate). On the condition of monoenergetic mesons in the
center of -.11ass system, the .-listribution
&V
Ndp, (2- it, + 1) -P02 p02 ;-0< P, tj -P (NIKFI-R)"
m
emulsions 450[Lthick using the MSA-8 m (MBI-8 m microscope. The
10 GeV synchrophasotron of the Joint Institute for Nuclear Studies
was used as the source of the protons. The total length of tracks
examined was 2.8 m and the mean length per track was 5 cm, The
Card 1/8
85334
S/120/60/000/005/002/051
E032/E514
Measurement of Multiple Scattering on the Tracks of --,,10 GeV
Protons
following methods were used to analyse the data obtained. The
second difference 1) can be written down in the form
F)2 = 52 + n2
k
(1)
where D k is the 3nntribution due to Coulomb scattering and is
equal to 1,,74 Kt /PV, where P is the momentum, V is the
vclocity, K is the scatter 'ing constant and n is the contribution
due to spurious scatterin When 5 < 4n, the quantity n can be
9 k ,
excluded by various methods, for example, by taking higher
differences (Ref.10). The spurious scattering n can be looked
upon as consisting of two parts, one of which depends on the cell
size and the other does not. '-The latter can always be subtracted
from the measured 5 in which case Eq,(I) can be re-written in the
f Orin
62 = (1~74 K/PV)2t3 + a2 t2x
(2)
Card 2/8
8533h
s/i2o/60/000/005/002/051
E030"/E514
Measurement of multiple scatterim; on the TracRs of -_', 10 GeV
Protons
On the other hand, the method of three multiple cells described
by Chasnikov et al., (Ref.8) gives
D2D2 D4 1/2
K 64 B2+D2 16D2
1 4 2
where Div D9 and D4 are the mean second differences for cells in
the ratio If one takes into account the fact that the
scattering constant K depends on the cell size, the numbers 64 and
16 it, Etl,(3) should be replaced by 68 and 16,48, The spurious
scattering n can be independently determined and excluded by
using higher differences, for example, third, fourth etc, differ-
ences, The higher differences also exclude systematic distortions,
Chasnikov (Ref.10) has also shown that the dependence of the higher
Card 3/8
8533h
S/120/60/000/005/002/051
E032/E514
Measurement of Multiple Scattering on the Tracks of 10 GeV
Protons
differences OR D K and n is -1112 2 1/2
n O~5222(2D - 35 (5)
95IV2
O~2( 24,511,2)1/2, (6)
n
112 1/2
D 0.4264(1052 - 351
K
D (2. 851112 0.85 IV2)1/2 (67)
K
DK can be found from Eqs.~(5,) or (61) only in the case of good.
statistics, since siziall statistical fluctuations in f)III or 16 IV
have a strong effect on D K' As the order of the difference
increases, the contribution due to spurious scattering to this
d-ifference for a wiven coll will also increase, It is, therefore,
de~~irable to determijie this spurious scattering -,.:-ith the aid of the
Card 11/8
85334
s/12o/60/000/005/002/051
E032/E514
Measurement of Multiple Scattering on the Tracks of -- 10 GeV
Protons
higher order differences. The spurious scattering cannot be
determined trhen the statistical error 6D st n .When
6D,t> n> D K the energy cannot be deterIlIM"ed at all. The best
results for the energy when AD,t --- n are obtained when the
scattering is measured using the oTtimum cell size tt,
Chasnikov (Ref.10) has described a method for determirUng topt from
the experimentally determined t . for which 5/t is a minimum
inin
The quantity t0 t depends on the length of the track R and
t in the fol owing way:
1 3-2X_
t R2(2-X) t2(2-X)
opt min
where t, opt' tmin and R are in units of 100 ii. According to the
measurements carried out by the resg~:t authors and also other data
x < 1, When X = 0.5, t CRY73t 23~ With this value of X
opt min
Card 5/8
85334
S/12o/60/000/005/002/051
E032/E5i4
measurement of Multiple Scattering on the Tracks of -~ 10 CAeV
Pro tons
tIII = to, where t 0 is the cell size corresponding to D K n,
It Should be rioted that tmin is riot always e(IIIal to t0 since the
spurious scattering index X may not be the same for different
eiriLilsions. In finding t it is convenient to use the ratios
g!~ T)III IV
A. /5 and q = 5 /D. When D K = n, 1.55 and q = 2.8~
Hu.-rever., in the presence Ofvsyffi matic distortions of tracks it is
better to use the ratio 5"15 or the equivalent ratio q/e,
which is less dependent on systematic errors. The following table
gives the mean values of the second differences for different cells
and also the values of (D and q obtained in the present work,
t'mIIi Do' Number of second differences/ q
degree of overlapping
0.5 0.221 4960/1 1,75 3.23
1 0.333 4832/2 1.66 3.10
2 o.6oo 4592/4 1~ 44 2.58
!1 1.529 3536/3 1.~18 I ' g2
8 4-553 1344/16 1,12 1. 7
Card 6/A
85334
S/120/60/000/005/002/051
E032/E514
Measurement of multiple Scattering on the Tracks of ~ 10 GeV
Protons
The following table gives the values of PV determined by differ-
ent methods (in GeV)
t , mm 2 3 4
6
0.5 2.5 1.8 1.6
1 4.7 3-5 3
2 7.7 6-5 6
it 8.8 9.1 8.7
8 8.6 9.3 9.1
5
11.9+2.4
9.36+ o.67
8,98+0.90
-
9.8+2.0
M7+1-0
9.82+0.63
9.96+1.5
The first, third and fourth columns give the values of PV without
allowing for spurious scattering and based on second, third and
fourth differences,respectively, with D K assumed equal to
5, 5111 /eK, T),V/q K' Columns 5 and 6 give the values obtained bY
Card 7/8
85334
S/12o/60/000/005/002/051
E032/E514
Measurement of Multiple Scattering on the Tracks of --.- 10 GeV
Protons
the multiple cell method and with the aid of Eq.(61)~ It was found
that in the emulsion used by the present authors t e spurious
scattering n follows the power law n = 0a00 t - , It is thus
found that provided the spurious scattering is allowed for, the
energy of charged particles can be determined by the multiple
scattering method in the region of 10 GeV. At this energy the
.c-nurious scattering is negligible for a cell size of t = 4 mm.
ACnIloWledgments are made to V. 1. Veksler and M.I.Podgoretskiy
for supplying the nuclear emulsions irra'jiatec- with protons
obtained from the above machine. There are 2 figures, 4 tables
and 11 references: 3 Soviet, I German and 7 English.
ASSOCIATION: Institut yadernoy fiziki AN KazSSR (Institute of
Nuclear Physics, AS, KazSSR)
SUBIMITTED: july 14, 1959
Card 8/8
S/031/62V300/007 /001 /00
AUTHOR: Takibayev, Zh.S., Academician of the AS Kazakhskaya 3SR
74VITLE: The Fusion Reaction During Mutual Collisions of Light Nuclei
PERIODICAL: Vestnik akademii nauk Kazakhskoy SSR, 1960,ANO. 7, pp~~ 33 - 38
TEXT: The author describes some variants of a magnetic trapping ves-
sel which, he suggests, may be of use in studying the fusion reaction of
light nuclei (deuterons, tritons, etc.) when they mutually collide. Such a
vessel, in which the density of the reacting particles increases rapidly
with time, would be suitable for carrying out controlled fusion of lightel-
ements with a large gain in energy. The vessel consists of a toroidal cham-
ber in which, for the sake of argumentg a magnetic field of equal intensity
at all points is present, The two beams of light nuclei, accelerated to an
equal energy, are directed against each other, and the spatial charge inaxy
section of the toroid neutralized by a third beam, the density of the cur-
rents of the negatively charged particles being roughly equal. The author
examines the equations for the movement of particles in the toroidal magnet-
ic chamber and shows that the particles will drift due to twisting of'the
lines of force of the magnetic field and to the inhomogeneity of the magnet_
Card 1/2
8227Z
S/031/60/000/007/001/002
The Fusion Reaction During Mutual Collisions of Light Nuclei
ic field within the toroid, and that the absolute speed of the particles
varies little. To reduce drift of the particles, he suggests the use of a
magnetic field of variable sign., which varies along the toroid; this may
well be of use for plasma also. The use of magnetic mirrors (formed, e.g.,,
by spiral currents) to reduce drift is not considered promising. Other
variants discussed consist in the use of a transverse magnetic field and
pdwerful focusing by magnetic lenses, and the system of particles which
"catch each other up". In this method the deuterons and triton5 are intro.-
duced into the transverse magnetic field in such a way that they move along
the same orb-it. There are ~: diagrams and 2 Soviet references.
Card 2/2
OTHOR Takibayev. _-Z-h. 6-
3/056'. 38/02/43/01'.'
B006/BO1 A
TITLE - A Possible Effect of t1he Nucleon Structure in High-energy
In terao tions
V1
Zhurzial aksperimental4noy i teorel~icheskoy fi--iki, 1060,
Vol. i8; No, 2, pp. 633 - 63d
TEXT. The Qlaiifical~iori of the relationship bezween the angular
distribution of 9hower particles and their energy spe-Ara and/or the
distriblaticn of Lozentz-irrvariant transverue momenta makes it possible to
study the nucleon stru-,ture~ The writer of the present "Letter to the
Editor" reports on investigations of the relationship between the aniso-
tropy of angular di3tribution of shower partioles and the transverse com-,
ponents p, of thei-T momenta. Fig. 1 showa this distribution of momentum
oomponent_'~ for f,:>ur dxffarent Bhower-~- 2'16p, 2 + 14n., 2 + 1rp, and
3 + ~qp (Refs. 1, 5~, 6.)., Only in the case cf the third 9hower P-L was not
higher than 1.1~ m c, Fig, 2 shows the integ-ral angular distributior of the
Card
A Effec X of the 11-ur-leon Struc ture in 5/056' 638/02/43/061
High-energy Interact-ions B006,BO14
firs* three shower types. The angular distribution of 3 + 39P is almost
equall. to that cf 21 + 16p and 2 + 14n. A comparlson of the resulting datE
indiout-es that `n the case of anien'tropl-, angular distribution the values
of p, are maiyalv of the order of m c, and that p, often exceeds m c in th~.-
K TE
-ase of low ani.3c,t-r,-.py (2 t6p: 2 + 14n, 3 + 39p). From this the authors
,
ctlude that in thp 'attar case the production of heavy mesons is to be
--on o I
expecT,ed, wherealm, Tt the --ase of atrongly anisotr::pic angular distribution
Only plons will be p:,.,,du-2ed. This relationship between the anisotropy of
angi.illar distribution and the distribution of the momentum trans-erse
components was ~ouyid ro exist in showeer.,-, induced by 10-Bev protons from
the pr.-:6-ron syn;~,Iiroti-r of the Ob"vedinennyy institut yadernykh issiedovani,
There are 2 figures and 6 ref er-
(Joint lnstitut.-~ cf Nuclear Re43ea.
~?nca&~ 2 Soviet, '2 Italian, 1 German, and I American.
ASSOCIATIONS Institut yad~ynoy lfiziki Akadamil- nauk- Kazakhskoy SSR
iInvt-J,-rvt-.e of Nu,_,IeazPh-Yj,3ic5 of the A-adjamy of Scien
Ka_-ak"L-kAava SSR)
83737
Distribution of the Transverse Momentum of S/ O')o/ bu
Shower Particles in Jets B00b/ BO--;D'
A direct comparison with the experimental angular distribution in the
c m s. shows that even in this system the experimental angular distribu-
tion is consIderably less anisotropic., This discrepancy does not Occur if
one assume., chat the energy spectrum of the mesons produced is Similar to
the spect,rum following from the Heisenberg theory (Ref- 1). (2) The hydro-
dynam-Lc theory by L, D.. Landau (Ref.-. 11) leads to a distribution of "he
p_L , which an - L -
p?ars to be shifted into the region of high values of the
transverse momenta; this is the consequence of an extremely hard energy
spectrum of the m~--sons produced, such as is predicted by this theory. in
a more exact variant of this theory as well as in the homogeneous variant
(Refa~ 14, 112) the distribution of the transverse momenta coincides with
that obtained experimentally, (3) The Fermi theory (Ref, i5) in -Uhermo-
dynamic approximation does not lead to transverse momentum distributions
agreeing with the experiment, (4) The transverse momentum distribution
following from the Heisenberg theory (Refs. 1,10) agrees satisfactorily
with the exDcriment-, The energy spectrum of the Droduced particles
resulting from this theory has been experimentally verified (Refs- 2~9)
The angular distribution does not follow immediately from the theory, buts
it was qualitatively described by Heisenberg, who proceeded from the
Card 213
83737
Distribution of the Transverse Momentum of s 0, 0
/ 056/ ("'F
Shower Particle~; i-n Jets BCC)6/ --i056
regular representation of the order of magnitude of the averal--'-,,t~, :,r:insvf-l'~:
momenta~ The angular distributions in the c.m,s- given on the bn.~;.L-s o."
these representations in Ref. 10 have repeatedly been experim~~n;.:Iily
v,,rified. (5) It is shown by analysis that the distribution of
verse momentum amounts may be satisfactorily described both by t,no iirdro-
dynamic theory and by Heisenberg's fleld theory, The experimentally
observed distribution gives reference to neither of the two theories.
I, L Pomeranchuk, Ye L Feynberg and D. S Chernavskiy., G, A. Milelchin,
and L, L. Rozentall are mentioned. There are 8 figures and 25 references:
9 Soviet, 7 Italian, 4 German, 5 US, 1 Swiss, and I British.
ASSOCIATION: Institut yadernoy fiziki Akademii
(Institute of Nuclear Physics of
Kazakhskaya SSE)
nauk Kazakhskoy S6R
the Academy of Sciences,
SUBMITTED: November 6, 1959
Card 3/3
-B01 9,/B077
AUTHORS: Tak, bavev Zh, S , Academic ian 0 'L the K;izaklisl1kaya SSR,
Botv~_n_,_V-'--A:,--,-and Chasni..kov 1 . Ya.
TITLE: An Analy-sis of Some -inelastic 2-n- InteractionAt an Energy
Bev
PERIODT-CAL: Dokiady Akademiz nauk SSSR, 1960~ Vol 13",, No. 'It, Pp r,7"-:;72
j
TEXT- 'In an emulsioti piie -ROK-10-P (NIKFI-R) e.,7iul~; ions- exposed in
the proton synchrotron of the Obl'yedlnennyy tnstitut yaderilykil
lissiedovaniy (Joint In6tlLute of Nuclear Research) s,.~me even-cs of inelastic
e discovered, Out of 72 recorded events w1th three-
p-n _,nteraction
pron~_--ed starS 22 were found where the complete adent-.flcatlozi of all
sl;~condary ~hargred parti,:les was poz5sible Tonization measurements and
:.Rultinle Ccul~jmb s,-.atterings were used to ~,dent,~fy these particles T h e
~.iuthors curiclude from the studies of the angular d2stributi-or of the
-Ii'aiesons and the protons that the asymmetric anjular dlijtrilbut2on
t
"meabured to A ~:~O 0 24) of the forward, scatzered, seronlat-y charged
Card, 11,12
An Anal,-Iss of Some inellastic P-n Inter- q/0')o
actions at an Energy of q 3ev ID0101/30-177
fr-jr "ne P-n int-i~zict%lon in the .,-enter of mass sy3-,e.-,i cannot,
be cauo~-zd ti-rough the prot;)ns; (the protc~n angular distr,~bu-~cn is
pract-.ca-lly syrimetric: but 'hat of the ions is strongly asymipetric.)
p
Tn order t- guarantee th, s ap-,n-ion further tests have to c ar r , e d ou
The mean energy value of the protons and "~' mesons determinc-i in the center
n,f mass system amouri~,q to 1 303 ' 0045 Be, and . 0 030 B
4 56 ev
nnd Lha transverse mpulse is P = 0 2z~4 0 OU Bev/c and
p
4-7 0 1~8 -~ 0 022 Bev/c. Fu-.ire publ,~:atlon,3 are announced, There are
2 f,.-ures and Sovie- references
IJIUBNITTTED May 1960
Card 212
S/058/6i/0oo/olo/ooq/1oo
AOO1/A1O1
AUTHORS: -Takibayev, Zh. S., Loktionov, A. A., San1ko, Shakhova, Ts. I.
TITLE: Analysis of angular distribution of thin tracks of showers produced
by particle's with energies of > 1011 ev
PERIODICAL: Referativnyy zhurnal. Fizika, no. 10, 1961, 95, abstract 1OB490
("Tr. Mezhdunar. konferentsii po kosmich. lucham, 1959, v. 1",
Moscow, AN SSSR, 1960, 51-6o)
TEXT: The authors investigated the angular distribution of thin tracks of
showers produced by cosmic ray particles with energies exceeding 1011 ev.in the
stratosphere. Characteristics of showers in the energy ranges 1011 ev *-' E 44~1012
ev and E > 1012ev are compared with various theoretical concepts. To explain a
number of peculiarities in angular distribution (e.g., occurrence in some showers
of distribution with two peaks), It is proposed to take into consideration the
role of produced particles (antinucleons, 1-mesons) in generation of additional
particles at secondary collisions inside the target-nucleus, The angular distri-
buzion of shower particles produced by multi-charged particles is also analyzed.
Card 1/2
S/058/61/000/010/009/100
Analysis of angular distribution ... A001/AIOI
A case is described, 15 + 515 Z, produced by a silicon nucleus with enOrgy
of - 600 Bev/nucleon.
[Abstracter's note: Complete translation]
L. Dorman
Z-
(9
Card 212
20415
21-0
D 102111"' 14
AUTHORS: San1ko, L. A., Takibayev, Zh. 6.1 Usik, P. A.
TITLE: Analysis of showers formed by hi gh-energy cosmic-ray
particles according ta the model of excited nucleons
Zhurnal eksperimentallnoy i teoreticheskoy fiziki, v.41,.
no. 1(7), 1961, 139-145
TEXT: High-energy interactions (E >1o ev) of cosmic-ray nucleons in
photographic emulsion-z'are analyzed on the baeistof the excited-nucleon
model. A particular-study is made of the angular distribution O'A.t~hh?
,
excited nucleons in the c.m.s. and, its relationship to,the angular a-
tribution of the secondary 3hower particles in the lab system, as well.
as their multiplicity in the super-high energy range. Analysis is made
of showers with N ~E 2 and n A6 produced by single-charged or uncharged
I n. 8 11 0
cosmic particles (nucleons) with*E >10 ev .4n the emulsion. 42 suc,"t
s:iowers were studlied in all. The angular distribution of the excited,
nucleons in the c.m.s. was strongly anisotropic, small angles of*emission
Card 1/4
26415
S/056/61 /041 /~-'01/010,, 021
Analysis of showers formed by ... B102/P21/4
(25-300) predominating; in many showers of smaller multiplicity, however,
angles of emission of 70 were reached. The experimental results are
compared with those obtained from the theory of peripheral interaction in
single-meson pole approximation. Since the multiplicities were small, it
was necessary to take the fluctuation of the particle numbers into account,
(cf. 71. 1. Podgoretskiy et al. ZhETP, 29, 296, 1955). Further, the
dependence of the form of angular distribution of shower parti;les on
their velocities of emission, and on the angle of emi3sion of the excited
nucloons in the c.m.s. is studied, The comparison of experimental and
theoretical results has predominantly a qualitative character. The
calculations made by other authors according to the theory of peripheric
inter.action (based on'the perturbation theory) in sTngle-meson pole,
approximation gave for nucleon-nucleon interaction at 9 Bev and 200-300 Bev
6ood agreement with experiments, which shows that peripheric interaction
at these ener.-ies plays an important role. In this approximation, the
square of the four-momentum of the intermediate pion is given by
C +
k! in! 1 2
Cos 0' X
4TZ + R14 Mz
X
4Tc MI
Card 2/4
26415
Analysis of showers formed by B102/B214
from this one obtains for symmetric excitation of the nucleone (m1_m2'_m):
k2 I -- mz2 + 2y2c2 M~ Col '0'- (6)
2
The distribution k (11) calculated according to this formula is shown ?n
Vig. 6. This result is compared with the data of I. ill. Dremin and D. S.
Chernavskiy. Theseworkers had found that the total single-meson inter-
action cross section a..,,(E) at E- 200 Bev agrees with experimental values
6 2 k2 for k2`(7p) 2
only when TdT(k is a smooth function of and decreases
rapidly with furtherilncrease of k 2. In the 'case considered here k 2 is
essentially larger than (%)2; so this ap proximation cannot be used. The
results of the investigations described here may be summarized as follows-
The mass of the excited nucleons and the multiplicity of th6 generated
mesons depend on the direction of motion of the excited nucleons in the
C.M.S. The form,of the angular distribution of the shower particles in'
'the laboratory system depends on the velocity and direction of motion of
the exqited nucleons ih the C.M.S. The transfer of four-momentum on
nucleon interaction is, in all cdses, large'compared to (7 W)2. Therefore,
Card 3/4
26415
S/056/61/04.1 /1001 /010/021
Analysis of showers formed by ... B102/B214
if the real-ly excited nucleons are centers of emission of the shower
mesons, and if the direction of their motion coincides with the cone axis,~
the excitation mechanism of the nucleons must deviate strongly frCm'the
single-meson interaction. i.,,. I. Podgoretskiy is menti oned. There are 6
figures and 12 references: 6 Soviet-bloc and 6 non-Soviet-bloc.-
ASSOCIATION: Institut yadernoy fiziki Akademii nauk Kazakhskoy SSR
(Institute of Nuclear Physics of the Academy of Sciences
Kazakinkaya SSR)
SUBMITTED: Dec'ember 26, 1960 IV
R
Card 4/4
KODZEV) V.A.; LUKIN, Yu.T.; TAKIBAYEV, M.S.; TSADIKOVA, G.R.; 511ALAGIM,
Ye.V.
Proton-Droton interaction at an energy of 9 Mev. Zhur.eksp.i
teor.fiz. 41 no.3.747-,751 S 161. (MIRA 14.10)
1. Yazakhskiy gosudarstvermyy universitet.
(Protons) (Collisions (Nuclear physics))
BGTVIN, V,A.J~ TAKIBAYEV, M.S.; CHASNDKOV, I.Ya.; PAVLOVA, Ii.P.; BOW, E.G.
---
Study of three-pointed stars resulting from inelastic p-n-
interactions in a nuclear emulsion at an energy of 9 Bev. Zhur.
eksp.i teor.fiz. 41 no.4:993-1002 0 '61. (I~U:RA 14:10)
1. Institut yadernoy fiziki AN Kazakhskoy SSR.
(Photography, Particle track) (Protons) (Neutrons)
S
SS70
AS
,2 0 0 S.
L'~ H HS. and 12 s ad 1'r:c:v a R
-ina, Y-
Shala.-,
T IT LE "In- ssion (:~f high-energy in nu-lear I s 5 Cy
T V
o --,D on S
Pr-RIODTCAL. ,,',-,ader;i,-,,a nau'v SSSIB, Dcki-dy. V- 141 , no C. 9,6 3 4 7 1349
-- e s - f 4-h e
withOrS TP-T'oved the presence of
3ev '-n S-a-rs -roduoed b~f irradiation O-P ez"JISIC'n
US
TEXT; Thp
Tnese i--re-ti~-ations ,vere carried out 'n pre--i-,
Ons the
viere conducted in the proton-sy-fichrotron --I
F---.rther exieriments
i~stitut yadernykh issledo- ar- J .--, i r. t I n s e
e d i n e nnj , I - identifica'ions-
Res'e'arc!.) at Dubna tc 'prove the --orrectness cf PartJ cle
es,of very fast CC - Darticles P711tted in
7 n e rv -4 t"P
Th e t 4 Fesults are in Table 1 -
inves -,,~-ated, 1 1, ~-fl ')
ned ranged
a r r, I - -~ I w e-
I er, have- beer, z;-Cdu~~ed b He3
Cles -:11,ose tracks wer, xam I
""ev
gated ra:i
S -'rac-.s Investi, +
fi rp that G 0 e -
C S is mentioned jrthermo)
C. a d
,2 L, 2
Si
Err 4. s s i o r. ') f h 4 1:-h - e n e r~y 3 -, C. 41
dis--c-rered hi&L-enerr- -t-part-icles e:7. ~.ted by stars h
r, d,, -17 e m i c i a n
d y i r r a d -, a t 1 D n w i t h Bev mesons The auth.-.1 rs shank
Toint ins t. J_ tu 'e -o Nluc,'_-a
71 ! Veksler and :--ilaborators at the r Rp s ea r
(7
,,)r ~~-,oc;eration and assistan-,e D. ~. Bl,)kh2-ntsev hETFI
L
ts mentioned There are 2 figures, 1 table. and '10 -ep~r.n:es, C~ so~,~C_~
and 1~ nnn-Soviet. The three m,~st recent referen,'es to E'nglLsh-language
f 0 1 co 'I-s D H Pe rk.- ns Frcc R,~ y ~ So z A 2' 0
i:iibi~ ~~a~iors read as
r~ 5 C) S Nakagawa J. -Phys Soc " , 74 7 IC 7 T Co~,3.oni a-
Phys Rev L-tters. n o 9 G
ASSOCIAIII0`4 , Kazakhs,-,i 1-o suda rs tv ennyy un,. ve :,s S 'L r-%-I a
K a z ak h Sta,.e University _,TerJ S r
S U 3 ILI I T T E'D . Aujust 14~ 9 06 1
Table investi.1-ation results Gf 14, tracks --~f oL- part i les by d4 fl:,e-
e o d s L~?.--end 71u-mbe of t rra~:k 2
I
witho. respe;:t to primiary directl-r; (J"
la"! ir se-ond interactiDn n-_~t measured; d;-:--;
(5a" te~ause ?-,ra,:' cou,',J not be tra- -n
R
ard
2 41
Silo o 6 1 /l 411'IC06//oil'/021
I 7B
Emission cf hiE:h-ener~-y ... B 04, 13112
dependent on Ek; (6a) not measured; (6b) ditto; (7) identification
according to width of track; (7a) uselessl (7b) a-particles; (7c) ditto;
8) identification according to constant saCitta; (8a) useless;
8b) a-particles; (9) dependence b-R; (9a) useless; (9b) a-particles;
~
(10) type of primary star.
Card 3/4
3 )~015
DIJ2 ~l
r)
au
aLLU
5 C: y 's ~F-
1,azalkh zi,;~a Cl
ma-
P I z yact,a,
if
rl ne cn-,
3, eta: c;ed
c 2., Ull --r- -
a7.-. Pl"C117'
f r om -ble edff -
~i nut becaune of
a!! -z! -ar c-i lren tt,, jjtcrature-
--tons; 't L-'-' t e
- I., Cn r C - C r'
in were u5erl, The
ar nr c t or. -5 or
rin anj
., 4 ~-, I'l u
j f!j-rj ru,- -111.2 angular di-ftrIc
,,!7,). the ind' *9
~v B r,-rpdominatil -
_+ "'n r, - I
I -an n r,-s nr ot oi
,j,.ctrjc in i The
the lol d
-T.Cnons anal nrctcnn e iy
r ~',ar, t,nat pre,_f-_;Cte
i!s har~i;~r
Of
!2
Z:-2 ~- - .---.
77 r
~.'-Uo rT. ~-a 'I qnq
L . i .
L
Q14; jO 'aJTinqra,-,P-Lp vD z-- Q..
7.:C. PT.d~p -OT-- ;;Zvo:% uf,;-,oid jo uoT~,u.,-
Q ;-, -1 LIaALz ;,-Ljj 'TeOTqfl;i~PT
exlz).~d~; -"u'ja4uo ;'u~ 4 L' 13; ~w Z) pat, C~f
To ~.io~qpnu -EUIl:N,
r
rt j) 0 '1 a uz U'lZouoz) pull
!ell, :-VJ ID-L.-,J-0z
L. '101 JQPX--U, CT ZjEqQ2T -Ioj zouemol-Eu "'Z, c;. x): 1'i
L L
Ile -_,i
pgao-EP;~a(i
Z)U-l UT IiMW-7X-P-I-j Z-L-;-'t -,'e~
Z;~Tj.IQU~, 1~71. 'it- 1-1.
T -1
L L- 'I L&D .4
T
0
S/707/-2/005/000/002/014
D290/D308
~~C'j '7 -1
E ev, Zh.S. , Botvin, V..".. , Chasni-
4'1'
oos' G., T.-Ici b a
nd I ov,.~
lCov, 1.Ya. -av ova, I P .
azi~ ~Lav ~ov N..
~~"Ialysis O.-F -nucleon i-atercictio-zis produced at an
C*I-Lcr"~J' O.L 1j0 eV in nuclear photoemulsion,
j 6'U'. "C ---C.Iiya nauk Kazakhskoy SSIRI. Institut yader-tioy
Irudy. v. 5. ~Ima-Ata, 1962. ;!izilca chastits
vysol-i--,,h energiy. Str-Liktura yadra, 16-32
T'L-Le have developed a -i-Lcu method of --','-Lnding
a-,q-ular c.-acI cl-aracteristics o-C rrucleaf disintegrations
13 DaSCC or., c~ilculatio-a of the distribution of transverse
a ar L. e
of sLco-,-.La:~y for all- idom:ifi b e p ticl s the
-_,rccment with experiment than other methods of
Z--) -)2:o- -L t I; G-, I. '.Lc -,-)cmits an estimate o-f Lhe dependence of
L
i
tae o-LI observed rjultil?l city: a) the de-
of tlac distribution of sho, r particles
-il cZ-,itk,2::-of-:-rass S y c m ('NS) 'or a Lore it z -:C- actor oZ
(~c --,a,--s w-~ta L=casing multiplicity; for 3- and 8-ray stars
zj'/707/62/003/000/002/014
~~:,Ialysi_- Of )--nucleon interactions ... D290/D308
t:-Lerc -is asyr:i-metry in fonuard and 'Jack-aal-d emission
of7 b) in t-lic, r-21-lion of average multiplicity (between 3
L
-`ic c.-re-cment vith the c.-.pected vclue ^J'c = 2.4 is shown
..d
a ---,ja~-Lti-17 -':OU- Tihich assi-mes a uniform
je j.),7 _.:jjjCMatic method ~L
-)f tile _-.-a,.,svcrse r,.ior.-Lcuta o.:- sI ..1 0 L
-ioT er ~,,)articl s;
assun'tio-I Jc/ 1 c is the vcloc4ty o~ the ccater-o`--mass
LL ~-I'CT)CC-': CG La"O'-.-~t3n, coordinates (IL' , 16! is the"velocity o JE
j I
e es,: Ina C C -,I
Icads to a systematic ov r H t of th- c -
er -y ..)y a -i-actor 0' two. z~erfardless of the niethod of estimatio-ii,
~C Lor 3-ray starc is too high, while -I' ~or 8
C -ray stars is too
low; therefore the Lorentz-ff actor of the system where angular synim-
1-:-Llz-y of t1ne secondary particles is assumed, will decrease as the
__'L_,DL`Lcity ircreasess . c) as the multipldcitky increa-ces, tInle frac-
ti,o-n of, t.0.-0 carried off by char-ed -meson increases both in
4z,
-"C ane- CI:S ) 31-It the -fract-ion Of the energy per z.-Icsor. , s alLmnost un-
Cabout 17-11N tho_Ze_.Ore -n~/nT,� < 0.5 for 7- and 3-ray stars
0,
elcd that the c-nei^-y spect a -z-~,o7ngr� or -cO and ir+ -mesons are
L:Ij
idc-Litical. The masss o-E the target also increases with the nult-L'-
Card. V.3
S/ 7 0 7
i"ItcracLiol-IS /62/005/000/002/014
D290/D308
L
docs
-Ior - i' for tile
"c- -C',e
U -.L,-,- 11
Lro -~-i'l-IrCs and 4
Lnot exceed the mass Of nucleon- this,co-,U-irm's
seloct'Oll Of Tile authors
O.r- I -I- "il,-haylova and O.V. GuIlenkova. There
:-~bje-s.
ca,rcl 3/3
S/70 62/005/000/007/0---4
D290X)30S
azarcv, N.'- Lazarova, T.111. and Takibayev, Zh.S.
I :--ulti-ply-charged particles from cosmic-ray stars
'C .~_":adermiya naul, Kazalchshoy SS111- instirut yadernoy
fizi-H. Trudy, v. 5. Alma-'ita, 1962. Fizika chastits
vysokil:h ener-iy. Struktura yadra, 96-101
The authors studied multiply-charged particles
C-ra-Ments) from cosmic ray stars produced in emulsions at a hc4-3:1it
S4- C
of about .30 "Che charffe of a fragment that is ~opp d in the
U
ca-1-1 found -"rom -the Widtl-I Of t1ac last '150 ~L of its tracl..
-istabic --)articles have an an-ular distribution that is near-
-L u_ b
a
i--otroplic Ln(I a-..,. ener-y s-pectrum -that agrees well with that -)rc-
;f4_'c-"-cd 'jy th,-: cvaporz,.tiorn theory, therefore most of
U - the Li parti-
c-1cs are probably'evai-porated from e.-.:ci'L-cd nuclei. The SKbic parti-
cics -aith Z = 3 and e-.-iergy greater than 60 Mev.have a strongly ani-
-otro-)` an- lar d4stribution (the ratio of the -Liumbers.in -the for-
- -IC ~u - _ C
Wa_'_~ a-ad 'oac'~ directions is 45/2) and an ener-Y Spectrum thaL annot
Uard 1/2
S/707/62/005/000/007/014
D290/D303
,L-- ccioscrilbc(~ 'JY 'u'l-ic evaporation theory; thcsc ~:iarticless prolialAy
ori L, a cascade proccss. The angular cnd cner,,-y ellistribl-c.-
--jo--- o: -)c-Irticies witih
Z >,., 4 accree with the hybothesis that
L 11 - I
t:icy arc .)rodilcccl. in a cascadc process. The charge distribution of
..ra I.?
.-LLc -6ments decreases less sharply urith Z thara in Nakarfawals work-
-3: ~-'L-caga-jra, S. , J. N'j-iovo Cim. , 9, 780, 1958). The probaail-
cy o'. --missio-Li of a f-ra-f ent depends on the number of grey tracks
m
in --*--'L-lc star and not on the number of fine tracks. There are 8 fig-
'Urc~-- .
Card 2/2
S/707
/62/005/000/012/014
D290/D308
Tak-bayev, Zh.S.
-rap for collid4n- beams
magnetic
-6
L 1,
"kademiya nauk Kazakliskoy SSI.. institut yader-noy
.L_'2.L-i. Trudy, v. 5. Uma-i-'~ta, 1962. Fizika chastits
7
Vysolzi'~:'a enerfriv. Struktura yadra, 147-154
L colli-
'Ohe ai -hor discusses the possibility of Us
-n, ~)eznaas of cloutcro-as and tritons to initiate a self-sust-aain-
L
1cloar ~-Llsio L-le C O.L -
n reaction, and suggests a method o7 con'inin" ti
C~
be-n-as k~
7y a suita'ole magnetic field configin:-ation; lie has also
.3
sc,'-.s_-cd thc sub in an earlier paper (Ref. 13: Takibayev, Zh.-
author e stinates that
Vc St 7 (184 331 1960 The
.
.'o -enerat-ed '~,y thc -LE -0 M collision Of,
usion reaCLIO L CU -M L-
c-m for Lh de-ateron-deuteron
'.:wo acc~lcrat&', bc=,,s would be I Iwatt/ 3 - - L~e L.
ilcacCio-a and 3 rz
200 Izuatt/cm Lor the deutero-n-trito-n reaction; he con-
cl-d,es taat t
L he method could be used to initiate a self-sustaining
C)
reactio-n. considered the collision of two 50 kev beams and the
C ard 1/2
S/707/67,/005/000/012/014
T.,,ar-actic 1:or collieing beams D290/U3000
L3
_Ln-cction 0- of electrons in order to neutralize the
LLI-rC. L)CZ'M L _L
-d --ives the results of' calculations of the motion
c' L
~Dart-;cl,2s in a- toroidal marrnotic field. lie su,-Csts -hc
L U 1.31-3
t:_-c of a t-oroid that: JS_s divided into sections so that the a-.:ial mag-
lot-ic x-ir-ld, i.- ---evcr,-,ccl LI
,
I in successive sections; in this way t1e
_:ams ~.,-oulcl 1)c co-.-,-_'Hncd and the T)_
'Irticles would perform slow axial
OSC4 l].a,-jo_
,,S; ths iiiethod is sho,ni to 'Do superior to a fi,,-urc-oj'-
L 1. 1 1 0
systen. supplementary field must be provided in order to
rCLL:r:I Scat recl par~iclcs into the bearii and to improve the -Focus-
sin- o-Z' the lxam, ; a suitable field can be produced if four conduc-
~_ors are wound around the toroid and inclined at a snall ancrie to
its cucis. There are 6 figures.
S U M.: 1 T'-',::D 1960
C ard 2/2
S/04--
B108~B'3104
'I:4ki.-,a ev, Z,. S. , Kobzev, V. A. , Toadikova, G. R. and
ORS :
5,-ala,~ina, Ye. V.
4
.1 o- doubly-ci-ar-ed high-ener-y particles in -,roton-
SS4 0,
0 U
-,nduce,! nuclear fission processes
E- C Seriya fizicheskaya, v. 26),
I--kI,.cem-*LI--- nauk, SSSR. izvesti.va.
1,962, ~,92-~~95
no.
4
n d -,r -y fraCments from
o i~,. to the origin of the h gh C er,~ U L
rluciear -,ission -irocesses induced by cosmic rays, the authors
do-,;*-.I,-,-chP-r;~-ed high-energy particles in stars caused by 9-Bev
C;
~Dro~lons in -,)hotoemulsion. The traces of all Z=2 'articles viere identified
p
.oelon.:-in6 to alphas with energies ranging from about 100 to about
2000 1.71tv. Some of these traces, however, may alio pertain to He5 nucle-i
,;.,~-.ich are di-4,ficult to distinguish from alphas. There are 3 figures
-,id I ~abie.
d
.3 /0,.,) 2 ~'O 2
B 108 /B 10 4
'S: ckzJ on-v, A., and 'a`i b a%, -v, Z-
- -----------
10
by nuclei with3~ tl' - 10 ev per nu--leon
3eri
- I I Z 1 CIrl a 5 1~
no 1962, r~)6-603
b~~S--, means "'or szudyni, 'i-ac-on cc)IIJ sIons btat;'-'~-en
o' 7-- :.utlors thei-efore studied showers induced by heavy nuclei -IT
z Conc I-1- j ion S :;ig'--ener6y nuclei undergo a tube-type interaction
r i t - e c0l -~ f z -: on th emmlsi on nuclei
if the primary particles are
-be --pplied t- extremely high energies.
~I~iis t, de I can only be a
oi on the energy in nucleus-iriduced showers is
".10 5'101~ ev per nucleon),
-of a~has
t 1;' 1 i f C, rm
-1.05 -0.29 1 0.01, 0.95; for n-n showers,
and r 0. 6~1
ry
-0. G
and r 0.3. ihe deEree of --isotropy in the angular
a
3/0 :?,/62 /02-S "CDO~, '007 ' /---
L; C e-I
U 6,D 1 or
+
L/ 2- ior ni_)c'eon-indlucc~
z c. c t, crinnot be attri~a?ea tf) a d,_~p~~n,ience .01' the
C, n c
tuo.2 lenC,~i,. an ir Aistribut-i on -xi Ih two
12
n' )c, ~,si ble e
c, n e rEi E- s 0
ev rJor
o-, ineaslticity ~a ea, n co 1 i s i on s betw-_-en
nd eauals C 6.
V
2,; o, f L h -z IIIH4 ch may serve a a -e sure 'or ~he
-h'
f, U C _ S
.1ained the tube volume, and
t
1 .'. "i I-Y D a r + l
'icle ener6y: IN.65
C: V f Lu
c z! a r, 1;ucleu3-nucleus inLt:r,_-Lct~c,-4 cioes not lead to
of Z'-_- i-dividual. %-.-.-I collisions. Nucleus-nucleus
shed crdef
ly by head-or collisions. There are
S,;"D 4.9./6 2 /0 2 6 /0 05 10 C, 8 /0 2 2
3 10 6 /B 10 4
S I' 'Oul U C e d by ic-ra~ particles
C; n oi, tt*~G i U C I C,
h -,SL- a
i Z V 0,; t i./L
i In
2
e zi ~!i so;;,e T_
)~unj ~ae, pl- c, t d t re er
Thi s is cue .Q ayci_t~d ,ucleons emittin6 the
UUI~10n 0.: S*dCri eXCiteU r1U
cleons may give
u C 'lion mechaanJsm, at v,,.cy 'hi6h enereies.
z~ ~s, a ~:~u 1'~ s 4. n d i t t! ti a t t r.
"I Ine :;,,ass of .he t~xcited nucleon a d
also tlne multipliz-oity of th,4 resulting mnesolis depend on the
I a c 1 o o II motion oi I tno excited nucleons in the cm.5. The four-momentum
nucleor. inrt~raction wita consideration of the twist angle
is G-rl~a_.er ~~rlarl jL"-
0 The-refore, i-f the emission Centers of
1. xcited nucleons, and if they move along the ayis
aze r~allly e.
Garu
T S 0 2/026,,'005/0 /0
__ 1 08 ' 22
:',Uc
leon excitation
must be different
-rom
n -e -udinal COZ-Onent of the L_
conzr'b L -ansferred
e,-,7ci
6--on oil he I-lucleons than
Thle essen~
-`.e ~-E:d nuc'-ons. There are 8 tia~lly determines "he -twist
6-u re s .
2
3/0~ 6 1! t21'04 2/00 1/00 1 /C
B125/B'08
)RS Boos, E. G, , Botvin, V. A~ , Pavlov3. N, P~ , Takibayev _711 S
If 0
Chasn~tkov, I. Ya.
11 ME; Analysis of 9-Bev proton-nucleon interaction in a nuclear
emulsion
P-10HOLTCAL7 Zhurnal eks-~erimentallnoy i teoreticheskoy '14--zlki.. V
no., 1. '.962, 3 - 11
TL:,KT - A constant distribution of transverse motnen'a is assu_-E_,,~, "or ~he
el ~7 C, ter
method of studying the dependence of angular and en ~-Ia r a -
Ist-Ics of proton-nucleon interaction on multiplicity, All showers -o"Iserved
"
k I -) n
R) type H~fjy,~V, (NIKFI) emulsion irradiated -with 9-Bev protc s from
he synchrotron of the OIYaI were classified according to their
city _- The transverse momenta of the secondary particles 3-r- Con
~,t_~nt a wide range of primary particle energies and depend cnIl
Slightly Oil multiplicity ana tar,-et mass. The experim-Ental distrzIoutiori _'f
21 2,
L
is sarisfactorJly approximated by LAN/N&p, e-xp(-P b
jj JI't lj:t 1:i ih-V p roton - rItICI eon
J.;14 01' tion of jjiomenLui,,i, th~,, mear vll ak~ T:, i
Ing 0 it; ~he case of srnjjII atl6lles. Result,L, Of
s A
With the eyperiment than earlier methods Th,~ anyulat
nin-
tion of ,ihower particles becomes more isotropic 11.n the c -LI-S) wit
cri.-asing multiplicity . The particle emission of the 3 and S-pror.,-,ed stars
forward and backward is not symmetric.. The best agreement with the
0
L-Drentz, factor 2:4.) is attained for mean multiplicities (3< 11 s
The Lorentz factor tends to a decrease with increasir,~-, raultiplicity Th-,
of er-e.-y imparted to charged mesons increases wi
mulriplicitv
bofh the la'-orator T[o)/n(,,T-, ) --,Oiz
I y and center-of-mass systems, Ht!nce, ti(- ?~ I
7 e~r .9 -pronezed stars with ei.:ual energy spectra of no arva it' mesens - T-,-
stimabLe mass of the target particles increases w-ith multiplicity, U,
~!.r a-x~:,--:' the rucic-on mass estimated by N G~ Birer and' Yu-. A, Swor-~,:,.i-n
Z.
17 lhrTF 5 9 9 5 0 This justifies the criteria of seleciin~z nu-e,~n
n o n i : ir a c t Ii s The coworkers of the OIYaI are thqn'reld for CI.Scus
siops, 1 1, 1Grarmenitsk iy and 12. 1 Podgoretskiy fjr s iv i "lier
r i n t o, rthe arigular ristribution of particles Ir,
a-, 7 f izures tablz, , and 15 ref erences 1' Soviet a-..,.4
.-,a -4, '1,' 4
,
0
s/oq6/62/042/001/001/048
Analysis of 9-Bev proton-nucleon ... B125/B106
The reference to the nnglish-language publication reads as follows
1~
P. L. Jain, ~;. Lohrmann, 1M. W. Teucher. Phys . Rev. , 115~, 643, 195,11.
ASSOCIATION: Institut yadernoy fiziki Akademii nauk Kazakhsko~ SSR
(Institute of Nuclear -v?~.3ics of the Academy of Sciences
K3zakhskaya 35R)
SUDNITTED: JanuarY 30, 1961
V/
Card 3/4
-~. BOOS, V. V. VISKOV, L. I. DORM, Ye. V..KOL0149MS, Zh. S. TAKIBAYE'.'
.: ca~cul-lltions of the integral multiplicity for Mu-meson and nucleon compo-c-nt
,.--G-',ucLion duet to the different energies of primaries obtained at the top of the
~-=osphere with different zenith angles.
report submitted for the 8th Intl. Conf. on Cosmic Foys (IUPAP), Jaipur India,
;,--L Dec 1963
.. 1. 'F'O Zh. S. TAKIBAYEV, P. A. USIK
. . S~1~ A I
..v!-.;t~gation of the Jets above 1011ev
.,).,r I i
, suomitted for the 8th Intl. Conf. on Cosmic Rays (IUPAP), Jaipur) ind a,
?--', Dec ic
,)63
A K I AV
ME R A -D
ZJI.S.; CIIASNiKOV, I.Ya.; ;HAKHOVA, TS.I.; AillZON, Z.V.
TAKIBAYEV,
- L -A.
Two-prong stars foriped in nelastic pp-~nteract`ons at 9 Bev.
Trudv I.-St. iad. fiz. AIN Kazakh. SSR 6:194-100 '63.
(MIRA 16:10)
KOBZE,'V, V.A., TAKIBAYEVI Zh.S.-, 0-MLAGENA, Ye.V.; SFITHM, G.R.
Analysis of hig~-.-energy helium isotopes emitted in the inter-
acL'on cf protons wii~h photoemulsion nuclei. Trudy Inst. iad.
fiz. AN Kazakh. SSR 6.13j-139 163. (MIRA 16i10)
VINITSKIY, A'.Kh.; GOLYAK, -T.G..- I-AVLOVA, N.P., EUSIKIN, V,I.; TAKIBAYEV, Zh.S.
Inelastic at '7.5 Bev. Trudy Inst. Jad. f-'z.
I L
AN Kazakh. SSR 1",144-159 163. (MIRA 16:10)
TAKIBAYEV, Zh.S.., akaderuk
Results of the scientific work of agencies of the Department of
Physical and Mathematical Sciences in 1962 and feature tasks.
Vest. AN Kazakh. SSR 19 no,4:52-57 Ap 163. (IURA 16:5)
0
1. Akademik-sekretarl otdeleniya fiziko-matematicheskikh nau~,
AN Kazakliskoy SSR.
(Academy of Sciences of the Kazakh S,S.R.)
S/05 63/044/002/006/o65
B1 02YBi 66
AWHCRS: Vinitskiy, A.. Kh., Golyak, I. G., Rus1kin, V. ~T.j
.-Takibayev-,---Zh. S.
TEULE. Interaction between 7-5-Bev n mesons and nucleons, and
their analysis on the basis of pole graphs
?ERIODICAL: Zhurnal eksperinientallnoy i teoreticheskoy fiziiri, v. 44,
no. 2, 1963, q~24-430
T~Xl' ~~iu`sion plates were expoaed to the pion beam from the -)roton-syn-
c.-;ro~rozi if Lite OlYaI, and fro.-ii the 2100 r,,; events recorded 2.---- --lastic
were selected and analyzed. Amiong these there 56,
I I , 10 arid 1 events of 2, 3, 4, 5, 6, 7, and 8-pronjeC: s-~Iars,
res---ct,~-.rely, A total of 323 ',artic'es 'were identif-ed, 2", -,Joni,
1) F-;;)e-sons and 45 protons. The pion and proton anCular and momientum
~1--,ribu'ions were determined for 'lie c.n,.s. -"he pion ~n&ijlar d4stribu-
tion is aoymmetric with a forward peak, and the asymmietry decreases -aith
increasine multiplicity. The proton angular distribution has a back-aard
peak, but the asymmetry is independent of the multiplicity. The proton
Card 1,12
li A,
`,t, j. at `ev/c an a t 4 -
j Li:-7? aaal~-zed fro;,,, r,rie of Dt!
Fe yn: f c, r o n wo - a r e i D n
C "I '1" 0 t2 Ki. 1
I'N,~ fact L.-;at at
-u~ ar cor-,~Iat i ;-ui
Ca3e 0 f I o -;1 1 t i I)cLy a r,~ al~;o discussed.
ari` t!ibILI3.
'T t --i?i' ii,'-ademiJ nauk Kaza"nszo SS,
-it yaderc.
ti-ite of Nuclear Physics of the lcademiy of Sciences
SSR)
3 U, T "I 2_
i 1;- 28, 1962
Card 2/2
CHASNIKOV, I.Ya.; ANZON, Z-V-; TAKIBAYEV, M.S.; STRELITSOV, I.S.
Identification Of Darticles by the photographic emulsion technique.
Zhur. eksp. i teor. fiz. 45 no.2:2q-37 Ag 163. (MJRA 1 :9)
1. Institut yadernoy fiziki M1 Kazakhskoy SSR.
(Photography, Particle track)
1/025
T T T'7S
Vinitskiy, A.
Inves til-n t ion
pion-nucleon
3 1A i /B 102
Xh., Golyak, T. Pus1kin, V. I.,
AS KazSSR
into particle -:ro~Juction in inelastic
i n t e ra c t i ons
T
','-ade,:.iya riauk S~=Z. Do',laly, v. IiJ8, no. J, 1963,
E K '11 Th e pro,hiction of pions, strange particles, and new rapidly
decayin- rystemo is studieJ in inelastic interactions between 7.5-Bev
pions and the nucleons of a ni,,clear emulsion. Out of 2103 interactions
recordel, 200 %here classifier) as inelastic pion-nucleon interactions; and
among. the 323 particles ilentifiel there .,,ere 259 pions, 19 K-mesons, and
45 protons. The angular distributions of the secondary protons and pions
-A,ns studied, as well as their momentu!z) 1i striblut ions, which have 2
maxima. The protons of the (np) collisions have less energw than those
of the rrn) collisions. The c.m.s. K-meson energy fluctuates between
500 and 700 Mev. In 3 cases 2 7 mesons .~,ere produced simultaneously in
inelastic (r,!T) interactions. Their mass .,,as approximately 1 Bev
Card 1/3
cz , ~ '- ~-'
~' ~_' - J/6' 3," 148/004/0 11/02
Investigation into particle ... B141/3102
(lab-system). A resonance of the KK system is inferred from this fact.
The theoreti(-.ql consideration _i3 based on ~he Feynman graphs of the
fiFure. a - 6' 8
7r 'r- - 'r
7r 7r
Ir
2
h:
2 )=const.
If Graphs a and are considered on 2 assumptions, (1) 'j RTL
(2) jI is obtained from the Breit-I'lligner resonance formula for T 1 1.
'In
The -raphsi?,Z,a describe (nN) interactions with exchange of quasiparticles.
The graphs 6,1, and 6 supply the main contribution in the high-energy
peak in the proton momentum distribution at 1.4-1.6 Bev; this maximum can
be explained, the other one, at 0.4-0.6 Bev cannot be explained by a-L.
There are two further possible explanations: (1) that the maximum is due
Card 2/5
Inlic-Ititation into particle . . .
S/020/63/148/004/011/025.
B141/B102
to n,)ii;)-)Inr nroce,:,ses that are connected with a high .9lomentum tran.-fer to
p r o t, ,) ri: 1 it cimll bi-, Pxplained by a certnin type of polc "graph.
%cp .1 Cii-,ut-es an;l I table.
I!wLitijL ya,lc~rnoy fi.7iki ilk"Iflonlij nallh
of, Ntlcloar ol, t'lle Awailf!my of'
..j it::, I, r'-.)
O~ ~ 1 1- : July 13, 1962
Carl %/ 3
L 16013-6.5 M(m) DIAAP/SSD/AEDC(a)AF~L/ESD(gs)/ESD(t')
ACCESSION NR: AP4049586 S/0048/64/028/011/1741/175-0
AUMOR: Grigorov, N.L. Dobrotin, N.A. Zhdanov, G.B.;,Takibayev-, Zh.Sv
TITIZ.- Experimental investigation of nuclear interaction t energies from 1011 to.
.1013 eV ffieport, All-Union Conference on the Physics of_Cosmic Raysheld in Moscow
4 to 10 Oct 196~3/
SOURCE -AN SSSR. Izv. Seriya fiziche'skaya,.v.28, no.11, 1964, 1741-1750~
TOPIC TAGS: cosmic rays, high energy intera otion,nuclear physiae,'nuclear re ac ti
C
.ABSTRACT: The paper is primarily a general review of recent experimental work,.
titainly by Soviet scientists, on nuclear processes occurring at very.high energies,,
(E t>Mc2), specifically, in the 1011,to 1013 OV range. It is noted that nuclear-
processes in this energy range are characterized by very slow variation of their:
characteristics (cross section, etc,) with energy, which makes it imperative to en-;
compass a wide energy interval in order to discover trends and regularities. Men-.,,
.tion is made of some theoretical evaluations as well as confirming or-independent
.experimental studies by means of pellicle stacks, ionization calorimeters, various
counter and chamber arrays,and spark chambers (the merits of the last are stressed),.-,-.
1/3
L 16613-65
ACCESSIO14 NR:, AP4049586
aimed at determining gamma-ray spectra, particle distribution, shower particle Spec-:,:
tra, etc. The f ire-ball model is discussed in connection with some of the briefly
described experimental results and theoretical hypotheses,, Mainly, only tragmentary,4
or general data are given. Among the experimental problems suggested for further
study in the immediate future are measurement of the inelasticity coefficient and
its variation in magnitude in nucleon-nucleon interactions, determination of the
variation of the inelasticity coefficient and interaction cross section with the
;atomic number in nucleon-nucleus interactions, clarification of the role played by
the f ire-ball mechanism in nucleon-nucleus and pion-nucleon interactions,, determi- :J
nation of the significance of. the process of 'pion production via decay of isobars .1-
and comparison of neutral and charged pion production processes, determination-of
.the relative importance of central collision processes interactions at different
energies, and determination of the fraction of different strange particles created
at different primary particle energies. It is hoped that solutions to some of these
problems will be provided by the new.cosmic ray research equipment now being in-
stalled at mountain altitudes in the Soviet Union. These installations consist of
,large Wilson chambers in a magnetic field and several trays of.ionizati6n calorime-
ters. The largest installation of this type is now being, constructed in the Georg-
ian SSR at an elevation of 2200 meters; this will be equipped With 2 X 2 meter Wil-
2/3
140706-65 Dr.(j)/EwT(M)/FCC/T IJP(c)
ACCESSION NR; AP501231.5 UR/6048/64/028/011/1767/1769
AUTHOR: Takibayev, Zh. S.; San'ko, L. A.; Usik, P, As X,
~0_11 14
TITLE: Curves for -10 eV showerZKeport of All-Union
Meeting on Cosmic Rays
P!Xsics, held in Moscow fro6 October 4 to 10, 11063_7
SOURCE: AN SSSR. Izvestiya fizicheskaya, V.98, no. 11. 1964, 1767-1769
/nuclear parti le, particle interaction
TOPIC TAGS: cosmic ray shower, C
ABSTRACT: Analysis'of contiadictions arising fram a model for excited nucleons-
and a fire-ball model with experimental data on*jets resulted in a Yodel ford
:intermediate resononsaic and baryon pairs Certain. characteristics of jets
-are discussed from the aspect of the formation-of shover particles principally'
from intermediate pi-pi-interaction with single pion exchange. The experimental
data considered covers a wide range of primary energies.,
Orig.art. has: 6 6-milas and 3 graphs.
ASSOCIATION: Institut yadernoy fiziki Akademii nauk KAzSSR (Institute of
Nuclear Physics, Academy of Sciences SR)
SUBMITTED: 00
ENCL: 00 SUB.CODEt AA, NP
No PjW SOY: 006 001 JPRS
_C.* td A I h/~
d z
5/P
L 52195n:cL5 E_WG(j)/ZE;iT(l) (v)/FCC/EEC-4/EEC(t)/T/EWA(h)/'F-~IT(r~) Po- VPe-
/E11G
----
-Va e- P1-4-~cJP(r,~--Gff --- 7-
.
tR/0048/64/028/012/~OV/2025,~
ACCESSION NR: AP5017046
AUTHOR: Boos; E. G.; Viskov. V. V.;~Dorman, I.: Kolorex2ts
Ye. V
.
Thkib4yevp
TITIE: Bonding coefficients for. various nngm i in comonents
/"Report of the
All-Union Conference for the Physics of Cosmi
' c Rays, held in Moscova /+-10
6~tober, _Lt3
sOURGE: AN.SSSR. Izvestiya. Seriya. fizichaskaya, v. 28, no. 12, 1964, 2022-2025
Vy
TOPIC TAGS: cosmic ray, particle interaction, particle motion, astrophysics
ABSTRACT-- Bonding coefficients which are used to study variations.-in cosui~_
-riiys'are computed on the basis of the character of an elementary event of the
tinteraction of a primary nucleon witfi nuclei of atmospheric atoms in which
the spatial distribution of a nuclear cascade in the atmosphere is taken Into-
:account. This problem was solved earlier in the one-dimensional approximation
:for a vertical flow of primary particles. In this article the angular spread
,of particles is considered$ The.bonding coeffLcients.are derived for tha-.-__
Faq-7meson cq_q?one.nt. It Is that a
----- - _,primary_p&rtLcle. loses the same
Card 1/2
L 2212~-65 EWT(m) 38D/AFn/3SD(a)/AIAAP
ACCESSION. NRs AP5001823 S/0056/64/047/006/2041/2050
AUTHORS: Boos, E. G.; Pavlova, N, P.; Takibayev, Zh. S.; Teimirali-
yev, T.; Tursunov, R. A.
TITLE: Investigation of the interaction of.19.8-GeV/c protons with':
nucleons in emulsion nuclei
SOURCE: Zhurnal eksperimeniallnoy iteoreticheskoy fiziki, v. 47,
no. 6, 1964, 2041-2050
TOPIC TAGS: proton nucleom interaction,.proton. scatteringi.emu
sion, proton proton interaction, proton neutron interaction
ABSTRACT: The investigation was. made with a stack of 600 Ilford..
G-5 emulsions measuring 12 x 20 cm, irradiated in the CERN protons
synchrotron. Scanning was.along the tracks of the primary parti-'.
cles in an MBI-9 micros' 00 . The.cri
cope with a magnification of 9 x
teria used to select interactions in free and quasi-free nucleons,
Card 1/3
L 22173-65
ACCESSION NR.-, AP5001823
are described. Altogether7i960 events.,.were,detec.ted'in.a total
'primary track length of 2,927 meters '(cokre'sponding~ to a- mean-: fro-e,
path 36.8 � 0.4 cm). From these, 1,035 elastic p-N interactions'--
were selected. The distribution of~the p-p,events with respect
,to the number of prongs is.in',,agreement with hydrogerl bubble cham-,~`
-from.p7p
ber data. Themean number of charged,'secondary particles
and p-n interactions are 4.3 +,0.2 and.4.5.� 0.2, respectively-.',
Showers with asymmetric emission of.charged particles in the c.m.s.".`
were also investigated. The distribution of the asymme try of the
individual interactions can be explained-by assuming that the
shower particles are deflected from symmetric emission in random
fashion. The dependehce of the multiplicity on the type of target
nucleus.is analyzed, and the experimental data are compared with
the predictions of various theoretical mechanisms for the inter-
action.between the nucleons and nuclei. It is shown that,the best
agreement is obtained with the cascade model calculations performed
at OIYaI. "The authors thank the members of the High Energy Labora-v:
Card 2/3
L 22IZ5_6~ EWT(1)/Lw(o;)/T/EM(b),-3.'-Pai-2 ~-SSD(a)/SSD(c)/AEDC(a)/AS(mp)-P-/
DIAP/IJP(c)
ACCESSION NRs- APS001824 S/0056/64/947/006/2051/2054
AUTHORS: Anzon, Z. V.; VinitskiysIA lQi.;.T
Chasnikov, 1. Ya.; Shakhova,' Ts. I.-
TITLE: Investigation of ionization losses,of relativistic parti-
cles in nuclear photoemulsions
SOURCE: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, v. 47,
no. 6, 1964, 2051-2054
TOPIC TAGS: nuclear emulsion, ionization, relativistic particle,.
proton interaction, relativistic particle
ABSTRACT: The purpose of the work was to study the depender-le f
the ionization characteristic (blob density) on the particle eyfbrcjy.
(in rest-mass units). To this end, the authors carried out special
measurements of the relative ionization in tracks of protons of
energy 2, 3, 4 and 5 BeV and pions of 3.8 BeV energy, in stacks of
'Card 1/3
L 22175-65
ACCESS1014 NR: APS001824
NIKFI-R emulsions irradiated at the Joint Institute of.Nucl
ear
Research. The stacks were irradiated practically simultaneously..
in a 9 BeV proton beam, in a direction perpendicular to.the emulm-
sion plane. Results obtained from tracks of electron-positron
pairs and delta rays in a stack of 600 ~L Ilford G-5 emulsion irra-
diated by 17-BeV pions in the CERN accelerator are also presented.
The ratio of the ionization on the plateau of the ionization curve
to the value at the minimum coincides for the different emulsions
within the limits of experimental error. The average value of this
ratio is 1.104 + 0.010. The observed ionization-momentum dependence
agrees with the curve calculated on the basis of the Ste rnheimer
equation (Phys. Rev. v. 88, 851, 1952; 89, 1148, 1953; 91, 256, %
1953; 103, 511, 1956), with parameters I = 270 eV and T + 2 keV
0
(I -- ionization potentiali To __ cutoff energy). ~'The authors
thank Professor V. I, 3Leksle and B. I. Lyubomilo for collabora-
tion in the irradiation of the emulsions at OlYaI# and Professor
W. 0. Lock for supplying the emulsions irradiated at CERN, as well
Card 2/3
-A