SCIENTIFIC ABSTRACT ROZENTAL, I. L. - ROZENTAL, K. I.
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SCIENTIFIC ABSTRACT
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L
j
AUTHOR: MILIT[HIN,G.A. * ROZENTALI,.I.L. 56-7-28/66
TITLE: Hydrodynamical InTei~retatlb_nbf a Characteristic of1arge showers
Recorded in Photographic Emulsions. ~Gidrodinamicheskaya inter-
pretatsiya odnoy kharakteristiki bolshikh liwW., zaregistriro-
vannykh v fotoeiuu2sii,~, Russian)
PERIODICAL: Zhurnal Eksperim. I Teoret. Fiziki, 1957, Vol 33, Nr 7, pP 197-199
(U.S.S.R.)
ABSTRACT: The experimental distribution of the tramverw components Pf the
momenta of secondary particles Is compared with the predictions of
the hydrodynamic theory of the multiple formation of particles. It
was shown that the conclusions of the onedimensional variety of
this theory agree well with experimental data if a final tempera-
ture of TE M02/k (m = mass of the Tt -meson) is assumed. This
agreement makes it possible to make statements concerning the
character of W - 7C -interaction. (With I Illustration and
5 Slavic References).
ASSOCIATION: Physical Institute "P.N.LEBIEDETI of the Academ_v
of Sciences of the
,
U.S.S.R. (FizicheskiSr institut im. P.N.Lebeaeva Aka,aemii nauk
SSSR)
PRESENTED BY-
SUBMITTED: 11.1-1957
AVAILABLE: Library of Congress
Card 1/1
AUTHOR: RELEWMY,S.7"
KAKS1,91;?'TKO.V.M., NIKISHOV,A.I., 53-2-1/9
,
ROZMAj! I L
TITLE% Statistical Theory of the Jultiple Production of Farticie3.
(Statistichesl~aya teoriya mroz'iestvennogo obrasovaniya
chastits -1 Russian)
?ERIODICAL-. Uspekhi Piz. Ifauk, 1957, Vol 62, 1Tr 2, pp 1 36 (U.S~S.R.)
ABSTRACT: Lately, the fact that on the occasion of the collision.of two
high-energy particles always several mesons are produced, has
been more and more experimentally confirmed. A logical inter-,
pretation of the phenomenon is lacking. The various experiments
to set up a theory of nultiple production of particles are based,
upon more or less good fundamental conditions, the accuraf-ly of
which can be confirmed only theoretically.
A theory promising a special. success was proposed by FERMI, who,
includes the statistical course in his theory. In the present
paper this theory is derived, explained, and extended.
The following individual problems are solved theoretically:
".
1) Interaction between particles. Selection of the "volume
.
2) Isotopic spin, equality of particles, distribution of the
charge states.
3) The phase-"volume"
Card 1/2
cm2, friv.21r,
n 6~ P..
no E 5-18'C
Na- t, t
17 rl 1~
%: r ra E r, r, c.) - o
C NR-. T6032306 SOURCE CODE: UR/0000/66 000 ---- /005910068--
AUTHOR: Borog., V. V.; Kirillov-Ugryumov, V. G.; Petrukhin, A. A.; Rozentall, I. L.;
Shestakov, V. V.
ORG: none '5 Z-
TITLE: Ionization calorimeter for the investigation of high energy cosmic muons at...
large zenith angles
SOURCE Moscow. Inzhenerno-fizicbeskiy institut. rizika elementarnykh cbastits (Phy-
sics of elementary particles). Moscow, Atomizdat, 1966, 59-68
TOPIC TAGS: muon, calorimeter, bremsstrahlung, cosmic ray measurement, angular dlisl-
-tribution, ionization chamber, waveguide
_j,ABSTPACT: A study of high energy muons, using the horizontal flux zenith angles zBoo
of cosmic rays at sealevel was made and an ionization calorimeter developed for this
purpose is described. Such a study is feasible because the horizontal f-luY at large
zenith angles 0 consist almost exclusively of muons and the intensity of muons for
energies >1011 ev increases with 0. The apparatus uses muon flux to study high ener-
gy muon interactions with matter and measures the characteristics of the horizontal,
muon flux to deterviine the angular and energy distributions. The ionization calori-
meter enables one to study both of these areas by observing the sho'.'--rs produced by
the 7nuons due primarily to bremsstrahlung and nuclear interactions. It detects.muon3
Card 1/2
ACC, NR: AP7007080 SOURCE CODE: UR /0048/66/031)/010/1669/-1673
AUTHOR: Borog, V. V.; Kirillov-Ugryumuv, V. G.; Vetrukhin, A. A.;
zentall, 1. L.; Shestakov, V. V.
ORG: none
TITLE: Study of the energy spectrum of cosmic-rity muons on the basis of
electron-photon showers. /Paper presented-at the All-Union Conference on Cosmic,
Radiation Physics, Moscow, 15-20 Nov 1965
SOURCE: AN SSSR. Izvestlya. Seriya fizichoskaya, v. 30, no. 10, 1966,
1669-1673
TOPIC TAGS: calorimeter, cosmic ray, muon
SUB CODE: 20
ABSTRACT: At present, outer space is the only accelerator of particles with
superhigh energies. The energy s ectr.um.of electromagnetic c .ascades produced by
superh i gh -energy muons (EAL '>,o 10 ev) impinging at angles 550 was studied f
at sea level on an Ionization calorimeter consisting of six rows of Ar-filled
ionization chambers, 25 In each row, with an iron Interlayer between the chom
bers acting as an absorber. The majority of the,cascades recorded were due to
the interaction of muons with the absorbers A small tumber of showers C4 17.)
was produced by nucleus-reactJve parti,cles. The eneri;7 spectrum of the muons
was deterillined on the basis of the recorded showers due to high-energy photons
and electrons formed by interaction of the muons with atoms of the absorbers
_tL experimentally determined energy spectrum
Mathematical equations expressing.t
'The authors think G. G. BunatyanEor help in carrying,out the numerical compu_-
tations on the ETsVM. Orig. arts hasi 4 figures, 6 f0` Illu las. Li"St 39065
NRI A _r007078 SOURCE CODES UR/0048/66/030/010/1662LI065
AUTHORt Bezus, V. A.; Gedevanishvili, L. D.; Kazarovq.R. Ye.;
Kirillov-
Ugryumv,* V4-G.; 'Kotov, Yu. D.; Kuridze R. V.; Rozentall,#-L-L.; SaWarelidsep
ORG: Institute of Physics, AN GruzSSR (rnstitut fiziki AN GruzSSR);
lbscow Engineering Physics institute (Mkoviskly Inzhenerno-fizicheskiy
Institut); Tbilisi State Universit (Thilisskly gosudarst-venn
y yy universitst)
TITLE: Study of high-energy.muons at a complex Instillation / Yaper pre-
sentod at th:,Yl-Unlon, Conference on Cosmic Radiation Phyalcs,41bscov,
15-20 Nov 19
SOURCE: AN SSSR. Izvestiya. Serlya fizicheskaya, v. 30, no. 10, 1966,
1662-1665
TOPIC TAGS: muon, cosmic radiation, calorimeters
SUB CODE: 20
ABSTRACT: A study of high-energy cosmic radiation muons was carried out at an:..
installation consisting of an Ionization calorimeter located in a tunnel at,&
depth of 130 vq from the surface and five groups of hodoacopic counters on the
surface which recorded showers accompanying the tiuan's. The experimentally
4e'termined jonization'burst'spectrum of the muons c9uld be described by thq
itude-11 n
equation T(> k) -'To.k"r , where k is the mag'n lof the burst expressedi
4n equiValent number of relativistic particles. Y was 2.6 at IS w 1000-40000
which corresponded'to 2~5,for.the Vertieal,flux of muons, The princ.1psI
oil
contribution to the bursts recorded waq made by Wone with a energy of 3 X I
Card j/2
ACC.NR: AP-D0078
x 1012 ev. At a projection angle's 700, at which no more than two adjacent..
-ionization chambers In the six vertically A~rranged rown In the,lonization calo-,
rimeter operated, r was 2.2. During 765 hours of operationt;#,correspondinit'.to,
to 1100 recorded bursts, the latter were.accompanted by broad showers
I(Ne 5X104'_ 5XI05),'in nine-cases. From a statistical,standpointv,.this result.
be
'ffigient for definite conclusions with rc ard to t e correlation
was inau
tween muons and showers., 7h
a au,thors, thank E., Le Andranikashvili'and.G. Ye,
UR/0293/66/004 - 4__NT(:F4_C7 ---I
ACC - N R: Ar6o19593 SOURCE CODE: 47003-7-0
AUTHOR., Rozental', 1. L.
ORG: none
TITLE: Subcosmic electrons
SOURCE: Kosmicheskiye isaledovaniya, v. 4, no. 3, 1966, 404-407
TOPIC TAGS: primary cosmic radiation, artificial satellite, cosmic..
rocket, cosmic ray, primary proton, photon, bremsatrahlung, supernova,
radiation belt
ABSTRACT: Investigation of primary cosmic.radiation has been initiated,
using artificial satellites and cosmic rockets, resulting in the dia7.
covery of cosmic and galactic x-rays. A natural mechanism consisting,
of the appearance of a large number of electrons with energies from
0.01-10 Mev is assumed in the form of 6-electron formation by fast..-,.
cosmic-ray protons. Formulas are developed,for-the;probability.of
67electron formation by photons and for the differential spectrum of~
primary protons. The probability of 6-electron formation is great
.compared with the formation of electrons at if -0, )j _e decomposition.,
The probability of bremsstrahlung of a photon with the energy w emitted-
C.,d 1/2 UDC; 532.165:537.591
ACC NR: AP6019593
8-10-3
by an electron is assumed to bt: w The flux of bremsstrahlung
photons caused_by the 6 process of nucleons with energies > 500 Mev
is equal to lo 3 quanta/cm2 . sec I sterad. Although this flux is.very
small compared with that observed, it is nearer to the real flux than
the fluxes obtained by other mechanical models. The total energy of
cosmic radiation, as well as of radiative sources and the Galaxy is
greater than that found by the authors. Under such conditione, it.is
difficult to consider supernovae as the basic source of cosmic rays,
The 6 process plays some role in the formation of slow electrons.in
the radiation :b6lta. The author, expreksis . his grixtitude
to N. L. Grigorov, and Se:I. Syro#atskly.-ri..fcxr--,*.,-dificussibns.
Orig. art. has: 15 formulas. (EGI
SUB CODE: 04/ SUBM DATE: 17Aug65/ ORIG REF: 002/ OTH REF: 003/
ATD PRESS :'6 0-2
Card, 2/2
L 32032-66 EWT(1)/M(m)/FCC/T IJP(c) GW
C NR: AP6012061,4 SOURCEGODE,:. UR/0033/65/043/002/0332/0339
AUTHd~-" RpApp_k
insti
ORG: Moscow Engineering Physics Institute (Moskovskiy inzhenerno-f il~ic~isVjlay tut
-TITIEi, Energy balance of cosmic rays
SOURCE:. Astron6micheskiy zhurnal, v. 43, no. 2, 1966, 332-339
TOPICIAGS: cosmic ray, cosmic ray particle, ionization, electron energy,
secondary electron, x ray, photbn, galaxy
ABSTRACT: An analysis has been made of the channels for dissipation of the
energy of the nuclear.and electron components of cosmic rays in the
.Gal!~pg and Metagalaxy. This paper considers the specific forms of trans-
NI --fer of energy expendedon ionization. In thelast analysis the ioniza-
energy consists of the energy of slow electrons 10-100 eV).
Ifost (-75%) of the energy,of slow electrons is 6xpended on the excita-
:?gen (for the most part the transition fis-2p
..tion of interstellar hydr4 -79
'uhich then is.-luminescent). The author formulates the problem of the
subeecraent fate.of the ultraviolet. Some part of theenergy is expended
.:on the.formation.of decelerating photons.by slow secondary electrons'.
relatively greater -part of the energy in this intermediate mechanism
is expended on the formation of X-rays. The author expresses 'to
S. . S=itude
L. A. Va sht m. V. L. GinzburjzP S. G.'Pikelther and skiy for,
ull-64- ~'Mcffls's2h'ns. Ori . art. has*. 4 tables and 20 formulas. LJPRS1
SUB CODE: 04, 20, SUBM DATE: 22Nov65 ORIG REf 013 OrH REF,: 001
bard 1A 90 UDC. 523-165
T
AUTHORS; Birger i N :G ikh v]
a.
L --I.
I
~TITLE t, S tr, nteraotions
ong- i at
L
ER ODICALI.~ I:Uspekhi:.fizioli6 kikh:,r]
.7
TSXT:~ -In -this~ a
urvey o -,,papers
1949 '- tfi 6
f
r m roug 19 2,-,exterimen a
_elierjty~ partiales are
,. 1 Main - -t eor4 I u
andle
h d;
'
-
-
',~ t
bi'6-1
method Of comple-x-,-
momen a;,:,
-or 3.
e6tions, (nuc ear. cross -sectio~ns)',-
-
5- _0958) -'In
chuk '-ZhETR 34 -72 -(2)'
'
nucleon6 of energi66'. O'jr, -2. to ~26--t6
v
-cross seotion--of-pdj~.ticies~and.-,anti
Scatterink of'~rotons ~an ,,Ploiis:~,
e ne r gy-- I pi ons r:and nuc 1 eon6;: with ~, at o M__
.., t intla :i
measuremen of '.the ract oweros
iCard.1/2
high-. anergibs.~
m
8/08 62/013/006/019/02
7
Y
~B 2
10 1e6
B
AUTHORS t G.XT. and M. R.
TITLEs Na'uchnaya konferentaiye Ro kayakogo Inshenerno-fixicheekogo.
a
institut oientific Conference of the Moscow Engineering
(S
a
Ins
sics titilte) 1962
Phy
PERIODICALs Atomnsya energiyal.y. 13, no. 6, 1962, 603 606
TEXTs The annual conference took place in May 1962 with more than 400
articipating. A review in given of these lootures that are
delegates p
insumed to be of interest for the They are
paderi of Atom
nays, energiya.
followinge A. I. Leypunakly, future or rast reactoral A. A. V*eil,ysVj
u
design of accelerators for superhigh energies'; I. ra. Fomoranch k,
analyti~ityj unitarity, and asymptotio,behavior of strong interactions at
high energienj A. B. Migdal,.phonomenological theory-for the many-body
problem; Y 'D Fi, a kiyj deceleration of medium-energy antiprotons in
Xul 11* Y2." a
matterl Yu. Kog Ya. A. Icailevskiy, theorjr.of the Mijesbauer effect;
M.1'. Ryazanov, theory of ionization losses in nonhomogonsous mediuml.':
Yu. B. Ivanov, I.,A.'Rtikhadse,,h-f conduativit of-suboritical plawss;
Cara 1/4.,
S/1089/62/013/006/019/027
Nauchnaya konferentsiya ... B102/B166
'Ye. Ye. Lovetskiy, A. A. Rukhadze, electromagnetic waves in nonhomogeneous
plafjina; Yu. D. Kotov al
_, I. L. Rozent 1, the origin of fast cosmic muon.9;
Yu. M. Ivanov, muon te-po-Y_r_iza~tion in solids; V. G. Varlamov, Yu. M. Grashint.
B, A, Dolgoshein, V. G, Kirillov-Ugryumov, V. S. Roganov, A. V. Samoylov,
ii- capture by various nuclei; V. S. Demidov, V. G. Kirillov-Ugryumov,
A. K. Ponoaov, V. P. Protasov, F. Lt. Sergeyev, scattering of TE- mesons at
5 ~ 15 Mev in a propane bubble chamber; S. Ya. Nikitin, M. S. Aynutdinov, IV
Ya. M. Selektor, S. M. Zombkovskiy, A. 1'. Grashin, muon production in n p
interactions; B. A. Dolgoshein, spark chambers; N. G.,Volkov,
V. K. Lyapidevskiy, I. X. Obodovskiy, study of operation of a convection
chamber; K. G. Finogenov, production of square voltage pulses of high
amplitudes; G. N. Aleksakov, problems of color vision;,V. K. Lyapidevskiy,'
relation between number of receivers and number of independent colors;,
Ye. M. Kudryavtsev, N. N. Sobolev, N. 1. Tizengauzen, L. N. Tunitskiy,
S. Fayzulov, determination of the moment of electron transition of os-
cillator forces and the widths of the Schuhman-Runge bands of molecular
oxygen; B. Ye. Gavrilov, A. V. Zharikov, V.,I. Rayko,' decomposition of the
volume charge of intense ion beams; Ye. A. Kram.er-Ageyev', V. S.~Troshin,
measurement of neutron spectra; G. G. Doroshenko, new methods of fast-
ne
utron recording; V. I. Ivanov, dosimetry terminology;. R.. M. Voronkov,
Card 2/4
S/823/62/000/000/003/007
d,- `7 fj-6' B125/B102
AUTHORS: Kirillov-Ugryumov, V. G., Petrukhin, A. A., Prokhorova, L. A.,
Rozentall,
TITLE: Evaluation of the possibility of using cosmic rays for
examining the muon structure,
SOURCE: Nekotoryye voprosy fiziki elementarnykh chastits i atamnog6
yadra. Ed. by V. D. Mikhaylov and,I. L. Rozentall. Mosk.
inzh.-fiz. inst. Moscow,,Gosato,mizdat, 1962, 77-82
TEXT: The nature of electromagnetic interaction at distances of 10- 13 cm
may perhaps be revealed by investigating the muon-electron scattering at
electron energies of 10-100,Bev. Cosmic radiation is suggested as a source
of high-energy muons. Table 1 contains the probabilities
2C C + I). Ell
2 dE0
E2 EmaKc
E0 MM11 (fk + EX
.Card 1/3
S/823/62/000/000/003/007.
Evaluation of the possibility ... B125/B102
that S-electrons of energy E may be produced by cosmic-ray muons of any
energy, the total production probabilities for electrons of energies above
a given value, and the root-mean-square values of the transverse momentum
transferred by electrons of energy E. The total number N(E)=W(E)9-l-tj 0
of 6-electrons with energies greater than E, recorded by an ionization
calorimeter, is N2-60 t for 10 Bev (t is given in days). Here,
k-e scattering occurs in a target with a thickness of 1 = 20 9/CM2
4 2
5.5-10 cm .sterad is the aperture ratio of the measuring apparatus,
2 -1
and j0 = 0-5~t(cm -sterad.min) . is the muon flux-at sea level. The, effect
of the form factor of the muon-electron system is characterized by
2 2
probability, deviations 4w/w = ((w(E)-wj(E))/w(E) a /3 of some per cent
at most. The integral probability w 1 is
(16),
'XI (EI EJ I -d4 (16)
3
Card 2/3
S/62
/62/000/000/003/007
Evaluation of the possibility ... B125 B102
~
and (8) can be reduced to w (E) (CM/E2) (E /E W" where C 0.15 Z/A.
k o min
There fLre 2 tables.
E, Lr, off) IF (E)
P" M381C
to
0 80*
20 o'Ia3 t0--$ 1,61 Ito
30 0,0518-10-8
0,63
130
40 0,0211-10-5 0,333-10-3 140"
50 0.0103-A" 0.2. 10-3 160
70 0,0035-10--s 0109:10-8 190
0.0011-10- 0,039-10-8 220
Table 1
dard
S/823/62/000/000/005/007
B125/B102
AUTHOR: Rozental', I. L.
TITLE: The role played by complex nuclei in the formation and
development of extensive air showers
SOURCE: Nekotoryye voprosy fiziki elementarnykh chastits i atomnogo
yadra. Ed. by V. D. Dlikhaylov and I. L. Rozentall. Mosk.
inzh.-fiz. inst. Moscow, Gosatomisdat, 1962, 97-106
TEXT: Consideration is given to the possibility that the fluctuations which-
occur in extensive air showers may be related to characteristic differences
in what haD r n'
pens when nucleons, and the heavie uclei of primary cosmic.
radiatlon, collide with atomic nuclei of air. ' For this purpose, particle
fluxes of different charges but equal total energies are compared with..
one another. These qualitative or semi-qualitative comparisons are based!,
on the hydrodjnamic theory of multiple production of particles.
G: A. Milekhin's relevant ideas are taken into consideration. The primary-
high-energy component is believed to contain a large amount of~complex
nucle,-. According to the simplified pattern first considered, this
Card 1/3
S/623/62/000/000/OC5/007'
The role playr~d by complex nuclei. . B125/B102
component con :tains only nucleons (Case a) or only.nitrogen nuclei (case b).
The total 4.-ber of particles is N k-El/4 1/4
A. in case a, and
N k.,.:1/4;"/4
in ca-se b. The constant k is approximately equal to 2i
c 0 0
is the total energy of the primary particle in terms of the nucleon
0
mass 1.11, and A=14 is the --tomic -weight of an 'air nucleus'. The avera,,-e
dez-th at- which a shower originates is t 1 /(d + (V/s)jQ.' For nucleons,
0
d 0.45, and for complex nuclei, d 1.4. A and s are slowly varying
functions of the cascade theory. The primary spectrum exerts a considerable
L
effect on the formation of showers by nucleons and on their development.
The actual number o-P collisions, ard consequently the error in determin
ing
the total energy E0 of a primary particle from the given energy of the,
shower core, differ greatly for cases a and b. The distribution of
angle -05, is ven by
particles emitted at an
R
Ok
exp p e + dR,~- (23)
Card 2/3
S/823/62/000/000/005/007
The role played by complex nuclei ... B 125/1310 2
when 1 15 and k 8000. R is Liven in meters. Nucleons are likely to
0
produce many more showers than do complex nuclei. If nucleons and complex
nuclei contribute about equally to a shower, then this ratio will be about
the same in shower apparatus. iVhen en6r,-y-measuring-instruments are used,,
the proportion.of showers produced by nucleons increases by one order of
manitude. With the use of.-large-area apparatus,-it increases even more.
Showers produced by complex nuclei have several cores and are beiieved to
contain more penetrating particles than shoWeris generated by nucleons.
There is 1 table.
Card 3/3
S/823/62/000/000/001/00T
B125/B102
Nikishov, A. I., Rozentall I
TITLE: The interaction and thehypothetical structure of muons
SOURCE: Nekotoryye,- voprosy fiziki elementarnykh chastits i atomnogo
yadra. Ed. by V. D. Mikhaylov and I. L. Rozentall. Mosk.
inzh.-fiz. inst. Moscow, Gosatomizdat, 1962, 48-71.
.TEXT: This is a review of papers published since 1939 on the interaction
of muons and on hypotheses as to muon structure. The following are the most
essential facts: Muons have spin 1/2. 'The firs.t radiative correction to
.,the magnetic moment is consistent with experimental data. Accelerator
experiments showed no scattering anomalies greater than 10-29 CM2 per
nucleon in the transfer of momenta less-thaift 400 Mev. Muons.can be
described by Dirac's equation. It.is still uz:Lknown why muons and electrons
have different masses. The production,of muons at.very high energies
1016 ev) should be.studied and the following experiments are recommended Is
more precise measurement of the magnetic moment, investigation into the
production of muon pairs with transfer of large momenta, determination of
Card 1/2
-'z/823/62/000/000/001/0'07
The interaction and the ... B125/B102
the form factors of protons and muons from ttp scattering, experiments with
oppositely directed beams of electrons and positrons, scattering of muons,
from electrons with transfer of a large transverse momentum, investigation of
secondary-particle interaction ranges in nuclear collisions with
15
E0> 10 ev, search for anomalously scattered muons having an energy of
-31 2
more.than 1 Bey and a cross section of 10 cm per nucleon, underground,,
precision measurements of bursts in ionization chambers at great depths.
There are 6 figures.
Card 2/2
U13b
S/056/62/043/004/059/061
4/B186
B
10
A.UTHOPE Kutov, N. D. , Rozentall, I. L.
TITLt: The hyperon hypothesis and the production o high-energy
cosiAc aiucns anE photons
Zhurnal eksperimentallnoy i teoreticheskoy fiziki, v. 45,
no. 4(10), 1)621 IL11 - 1418
122:xil'. TI-ie differential spectru~-j of cosmic muons with energies betv;een
10 11 and 1014 ev is calculated on thebasis of the hyperon hypothesis
by P. Bab-u and Y. Pal (Preprint 1961). On this hypothesis the particles
y v -k"
-,-.hich carry awa.1 the greater nart (0.7 - .0.81 of the energy borne. b the
initial particle in a r.action are hyperons. It was assumed that the
hyperons.A, are formed with equal probability, and that the
decay scheme is as follows: a) AO - p + (v=
E- 0, 17 BeV;
6) 1+ - p + = V, E-. 0,23 BeV;
n + n* W
B) 10 A W
Card 1/5 r).Z- n + n-, w E,, 0,23 BeV.
--77-
IT 0
S/056/62/043/004/039/061
The hyperon hypothesis and ... B104/B186
LR is.the mean energy of a pion in the hyperon reference sys t em, The
probability W for the formation at' muons with the energy L~Lis
W = "i u. I (ur + 1) (u. + 1 (2)
i x0 ~~l and if it is assumed that both the muon in the pion reference
system, ana the Dion in the hyperon reference system fly off with a mean
constant ener-,;. The indices r' ana TE re-i'er to the hyperon and to the pion
rLspectivcly. ior a decay of hypcrons~produced in the first event,
n1 (E,.) dE, 10-1E.-"t5dE,~
is obtained for the number of pio .ns -.-,ith energies between E and +&E
n IE~ TE
and 6. 10-2E-2-65dEIL
NX (E;,) (I + E IOU) (I + 4EIJIOU U00)
for thr -.:~..ber of muons in the same energy range.. :Lssuming that in, the
i-th collision the energy oLlE is released if a - 1 - k -0.06 - 0.7, and
0
that.the collision Probability of a Prticlelof,the i-th generation in the
r-epth betve,en x anc x+dx is equal t 0 e 7xxi -1)~dx, the particles
subsequent to the first 6eneratioh can easily.be considered.
Care- 2/5
V056/062/043/004/09/o6i
The hypE!rcon hypothesis and... B1001506
-1dx
IV, (E-v,) dE, xu"+' dy e-z27'"--L 'dz
~y
0
II-.Ur (fir. + 0 (ur + L) Wit Xo > 1); (7)
(E-,) dE,,=C(a")'.I.3.10-'E,-,2"'5dEL (1,+ XjJ100) 0VE,~100 000)
For a 0.17 and U = 7/6 holds
All (E,) dE-, (0.5)1- 1,1. 10-'E,--5dEI(l + X,1100) (I + 4iE,1100 000).
1/4
Assu;ain:, *chat n . ai~ where a = 3, is valid for the multiplicity in
0
one event, and that the secondary pions possess equal-energy, the number
of muons prod-aced by ~-.~-dnizati,on in the fir~st event can be found from the
Jei~uation
N (E,) dEj, 3.
+
Results Well with the experimental data by Babu and Pal. From the
energy ~Pectra
3/5
S/036/62/043/004/039/061
The hyperon hypothesis and. B104/B!86
,v (E,,) dEt, 1.6.1 GE 1100000)
M (I + iE two) (I - +
+
Co
-(E,)dE, IVE-I""dE
1)] (i+iE 11W) (I 4iE /too ()00)
'dEIL
~or positivE! and neE;ative a negative excess of N+)I(N +
,-0.6 for UXL-IJ50 - i00,3ev is obtained. On the basis of the hy peron
hypothesis tn4S ValUe jS difficult to explain. The discrepancy can b
eli:--inatecl only by -assu,-.:inZ that the distribution of the nascent hya~~rons
-aith resoect to the sign o" charge is conditioned by a statistical Wei-ht
in the isotopic space. Finally, the. energy spectrum of the photons is
calculated assuaiina, that all hyperons are produced with equal probability.
T h e n di.b t: r
N2 (E,) dE 0,001 E-, dE-,;
Card 4/5
S/058/61/000/010/019/100
A001/A101'
AUTHORSt Nikishov,.A,1., Rozental'. I.L.I.. Slavatinskiy,. S.A.
T-ITTIZ.- On energy determination of fast particles from angular distribution
of their Interaction products
~E'RIODICALs Refs-ear-L iyy;ziiurma1,. io, ig6i, 96, Abstraot 1OB503
vr Fiz.1ka, no.
("Tr. Mezhdun&r. konferentail po koamich. lucham, 1959, v. I", Mos-,
cow, AN SSSR, 1960, 157 - 16o)
'ITEXTg To d&termine energigs of fast partioles, a-method is employed which.
is based on the analysis of angular distri.bution of secondary particles and very
simple relations of.the relativistic kinematics. Two assumptions are made in
the method: 1) velocities of secondary particles are clese.to velocity oflight;
2)' -dispersion of--,artioles In the.system connected with the gravity cerYLer, pro-
4-
ceeds symmetilcally relative to the plane perpendicular to the line of motion.
A possible effect of non-symmetric showers on energy determination is estimated,
and ccol""131.on of a nucleon with a heavy nucleus is considered in detail.
L. Dorman
[Abztracter's note- Complete translation]
Car-1 1/11
S/056/61/041/002/016/028
Influence of the nuclear B111/B112
T,, T
,,t 2 eXp 9 /2TkT) .2
T,~ (E) 1, 2 k 2TkTJ T)2
(a,, + e,12yk a,+ e 12TkT
holds for T /T here T.- T IF. (E) T (E)''c a are
nucl photo'. nual photo 9, g, -g
parameters, ; the mean photon density in the galaxylt-A.07. 01.8 is the
17.
:maximum value of T /T for,iron atoms which,is 'attained at E4.10
nucl
photo 10
,ev:, The mean free time in the galaxy, is -;-10 years. Since, the galaxy
10
exists only since -10 , years,the authors.conclude that the nuclei
practically do 1, not~~collide- in the metagalactic' space., Finally, it is said
18'
that the existence of 10 :ev nuclei.of,intergalactic origin is very
improbable and that cosmic1radiation from the intergalactic space does-not
contribute to the corresponding.part of the spectrum,which is observed on
the earth. Ye. L. Peynberg, V. L. Ginzburg, S. 1.,,Syrovatskiy (Ref. 3:1
UPN, 71, 411, 1960)7 A. A. Korchak,:S.. B. Pikel,',ner and I. S. Shkovskly
ned. There,are 1'figure And 5 references: 3 Soviet and 2
are mentio
Card 2/3
27194
S/056/61/041/002/0106/028
Influence of the nuclear... B111/B112
non-Soviet. The reference to English-language publication reads as
follows: Ref. 5: C.W. Allen, Astrophysical Quantities, University 01
London, The Athlene Press, 1955.
ASSOCIATION: Fizicheskiy institut im P. N. Lebedeva. Akademii nauk SSSR
(Physics Institute imeni P. N. Lebedev of the Academy of
Sciences USSR)
SUBMITTED: February 25, 1961
Card 3/3
- ---------
S/056/60/039/003/028/045
B006/BO63
AUTHORS: Maksimenko, V. M., R
TITLE: The Covariant Statistical Theories of Multiple Production
of Particles
PERIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fizi-ki, 196o,
vol. 39, No. 3(9), PP. 754-756
TEXT: The present paper gives an analysis of the possible covariant
theories of multiple production.of particles when assuming that the ma-,
trix element can be factorized. The authors studied the invariant fun' 0-
tion kil ... k;) from the equation holding for the production I/
~(Ko
probability W of N particles in.the, collision of two particles:
N
4 1-6( ~2 2 4
W~ ... f~(K , ki? k (i - Z,k k. m, )d, k.. This
0 N) o , j ~ jl.~
j=1 j=1
function depends on the character of interaction. The interaction of
particles is assumed to be so small that correlations may be neglected;
Card 1/3
The Covariant Statistical Theories of Multiple S/056/60/039/003/028/045
Production of Particles B006/BO63
then, (~(K., kj, ... kN) TT~ i(K,,ki The authors restrict themselves,
j=1 s
to functions of a class for which 4 (K Pk.) = C(K k ) q/ (_~ ~Kk ) holds,
i 0 j ov jV ov 01)
where C is independent of K and k and is determined by coupling con-
0
stants, masses, spinsq and isotopic spins of the particles; q and s are
integers. The two sDecial cases ~6(Ko,kj) = C(K k. )/(Kov k09) and
OY jV
(K ~k C are considered. The former corresponds to Fermi's statis-
0-
tical theory, and the latter to the theory by Srivastava and Sudarshan.
-Several formulas are derived for W N' Finally, a further expression is ob-
tained for W by assuming that the.ma.trix element be a~p.ower function of:
N
the energy of the particles involved in the process. The authors thank,
-Ye. L. Feynberg for his remarks. L. G. Yakovlev is mentioned. There.are
7 references: 2 Soviet, I Japanese, and 3 US.
Card 2/3
VILISOIT,Dzh. (Wilson, J.G.], red.; BAYYER, V.N. [translator]; MAKISIMM.O.
V.M. (translator]; SARYCMA, L.I. (translator]; BIRGER, N.G*#
red.; ROZENTALI, I.L., red.; NAMMSON, I.G., red.; KHARIKOVSKAYI,
L.M.. tekhii.re
[Physics of cosmic rays; modern achievements] Fizika kosmicheskikh
1nchei; sovremennye dostizhenlia. Sost. grup~oi avtorov. Pod red.
Dzh.Villsona. Moskva. Izd-vo inostr.lit-ry. Vol-3. 1958. 444 P*
Translated from the Englishe (M.IRA 13:6)
(Cosmic rays)
R ~j F1 I-
2(7) PHASE I BOOK EXPLOITATION SOV/3108
Baldin,'Aleksandr Mikhaylovich, Vitaliy losifovich Golldanskiy, Md Iosif
Leonidovich Rozentall
yadernykh reaktsiy (Kinematics of Nuclear Reactions) Moscow, Fizmatgiz,
1959. 296 p. 8,000 copies printed.
Ed.: Yle. Ye. Zhabotinakiy; Tech. Ed.i S., S. Gavrilov,
?URPOSE: This book is Intended for physicists exploring the atomic nucleus and
elementary particles.,
.COVERAGE: The book consists of two parts. The first part describes characteristics
of motion with relativistic velocities giving relativistic transformations 'and
utilizing,two main coordinate systems. It also describes the classical kin Iematics
of interactions producing two or more particles, as well as cases of nonreldti-:
vistic interactions,and conversions with the participation of photons. The second
part analyzes the scattering matrix and on the basis of the latter and the Dirac
theory introduces Clebsch-Gordan, Racah, Z, and X coefficients in vector addi-.~,
tion. It also analyzes the emergence of polarized particles in nuclear reactions
and the regularities of this emergence. In general the book d,escribes one.of.
the chief methods of processing experimental data in modern,nuclear.physies and
Card 1/ 5
Kinematics of Nuclear Reactions SOV13108
systematizes the data on the kinematics of nuclear reactions. V. A. Petrun'kin
and A. I. Lebedev are responsible for the material in appendix Il. The authors
thank V. B. Berestetskiy and G. N. Kopylov for their constructive criticism.
There are 73 references: 33 Soviet, 35 English, 3 Italian, and 2 German.
TABLE OF CONTENTS:
Foreword 5
PART I. CLASSICAL THEORY
Ch. 1. General Principles of Relativistic Kinematics 9
1. Integrals of motion. Conservation laws 9
2. Basic systems of coordinates 11.
3. Some formulas of relativistic mechanics 12
4. Relativistic transformations of angles and pulses 15
5. Calculating the Y coefficient of relativistic transformations in the
relative conversion from the C-system to the L-system 17
Card 2/ 5
KInema tics of Nuclear Reactions SOV/3108
Ch. II . Effective Cross Sections and Their Transformation on Changing the
Coordinate System 19
6. Integral and differential cross sections 19
7. Relativistic transformation of angular and pulse distributions
(of phase space elements) 20
Ch. III. Kinematics of Interactions Producing Two Particles 28.
80 Interaction in a.general relativistic case 28
9. Basic formulas for a nonrelativi6ti6 case 40
10. Graphical representation of kinematic correlations 44
11. Disintegration into two particles 63
.
12. Relationship of angular and power distributions in C- and L-systems
of particles produced during disintegration 72
Ch. IV . Interactions Producing Three Particles 81
13. Extremal correlations 81
14. Power spectrum of secondary particles 85
Ch. V. Multiple Processes 90
15. Maximum correlations 90
16. Power and angular distributions in multiple processes 96
Card 3/5
Kinematics of Nuoloar Roactions SOV/31 08
17. Determining the enrgy of fast nucleons 103
PART II. QUANTUM THEORY
.Ch. VI. Scattering Matrix and Its Properties
18. S-matrix
19. Unity of the S-matrix 114
20. Integrals of motion 116
21. Time reversal 118
2~2. Transformation functions 124
23. Relationship.of theS-matrix and the effective cross section 127
Ch. VII. Applications of the General Theory of the S-matrix: 132
24. Relationship between effective cross sectionsof elastic and non-
elastic processes 132
25. Relationship between effective cross sections of direct and reverse
reactions 141
Ch. VIII. Collisions of Particles With Spin 11+4
26. Stating the problem. Examples. Parameters of the S-matrix: 144
27. Vector addition factors 150
Card 4/5
Ntnematics of Nuclear Reactions SOV13108
28. Some examples. 154
29. W, X, Z, and Zy coefficients 158
309 Angular distributions in nuclear reactions (when the particles have
a rest mass, other than zero) 166
Ch. IX. Polarization of Particles in Nuclear Reactions 173
31. General formula 173
32j Basic rules of the emBrgenceaf polarized particles in nuclearreactions 178
MIX. Reactions With the Participation of Photons 181,
33. General formulas 181
34. Relationship between photoproduction, IT-meson scattering, and the
Compton effect on the nucleon 188
Appendix I (for the first part) 193
Appendix II (for the second part) 221
$Jbliography 295
AVAILABLE: Library of Congress
04rd,5/5 TM/sfm,
2-10-6o
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.
.
,
TITLZg _4
Scientific Conference of the :.'1F1 (N-.hZAy. k.af-Ut$LY. larl)
PAMIODICALI I'm--- a cargly., 1959. Yol 7, 3r 2, Rp 176-177 (U'js3)
AWTRACT. .cleatific restinj; was hold 1r- 17 AP. i1 to 15 way
t
; -ly
19 in U, Poakol,ckiy irzhonor-fizichazkijr inatitut N03c..".-
.
j9
FhYsima~l Zugi~rinj 1-stituto). Rare th:= 600 p~ticipato 'r=
100 different in3tit4too attended the 4 pl*3~j Wd 18 aoctioa~a
Conferences. A total of 148 loot- -;r. h.ld. Tas following
ls,ct~.x =a sp..Wly sectioned,
A
l
rmc_", ..-a.! the
the :he l.ar -Lr
Physical foujwati.ma of malocular
A T L. ki7 an the awatructLon or a fact ro.ictor,
gt~~EFM tb. theory of the psrlph~ral collision of.= a,*-
i
-4 =cl.oaa, 1. B, Via-1 as ..p.rfI4idlty.axd momentum a I
Lnertia. of the nual.1, L. Z,Y-D,~-Ystg t:- arcog -1-otran,__
CraTtty wave, V. 1. 14'.15 which ~. ox4t.4 .%h-
,thoda of,com:prabunding them.-
the nuclaue shell end al
.
11. _-kh.rov. an th. anulyzi. of the it'
julzitaZ-444 L.
_
or .
--- fr7wri=wns, f 4ra ~ an a f the coan=smanto of the
Card 1/3 p~zosnza, Y-LL_2Aj_A6~~KjQkQv__cz the spectrum of liqui4 =4
Cm7-z41Iiz; k7dragon urA.r pr ... ~o (W00-1.0000 aQ =4 an
i"%rlXm-nt far absorption cubs.,
7_ ica-Lon
G
p
~
,
chza,bor, Aaculat n thads
on
for It-ar I.ctr
9 amaolsrat.r"th isi~;Tat.ry w"vao,.F. A.
an a a generator, S.Lp.
l
l
A. -yQ9
-a in'A ii:-or- -
f
o"dr
.1.4tzon . -A, ~ I tro~ffj;4, L n
3~
h.
) z.v livei- of the K1711.
.
V-1_44~ -4
-
QAA=XZT an exanda-ation. of the aleztron movement in
.t-
he ,
of !~s alatron with consideration of the,.catt4riAC
~
a
n
izPula- cidthod far zoaourina the beat conduction
11
o
i7
f liquido,and Ike thoor7 of this cathad,
~
Kh
w6i A. Chirp on beat zran..L.3-- I
11" in a circul= space
beat trmnavis3ioz to circulating mar.
C-4 2/3 LAI conditions oban oorkine with a flat triads in
tchniqu4, 11~5- Pof-Y6f cn CaIcUll'inn methods =.1
the iz;ul.
oanstracti of 1, ipul, a 'tra~pfvrnor Z,r instr=*nto with
:.
w=1-oonductaroleclintai Ta. A. "Bjt,~ or. a posaibiliq
judee the chs.r"taristica~Zr -ma-%1c racordinZ ofimpulves,
R. 1. Tallniz on %~o element vyzt=. for a universal dizit4l
S. as multi;-,* control of tho Farw.t.r. a
ch..IcCic processes, fops ii w~alyzio of cover4l
-1 a~2=atuo can be wtcqatjc&L:j
.%-s .1-th which J~ J,al nore,
~
started. T., T_ o~=v-f an a method to -m~ -1.. the quulLty of
A, 7.-'.V control rb.A tha r."ti,ity mhnnCa. t.;n,i4,. or
jiz-ri:~v. 'r-t in on. examination
~~~juld A. 1. To
of ". lad ining niobi= -4 charactoristica
,,
L l
u,1c -d 1, C. Ity.b-a on
of the siat.,- obtained. 11
,d
i
of tbd micr i;tr "~',
n nf t=Mr, ndst.n, iron
c, - nium =dLLJ%a %:.lo7nLbx use of ~to-
=4 other alamente i,
M. Todcrair on dozarainntion of the nubltz~tLaa
radicrraphy, Q.
_
has% of zlraoal~,.Vl b~, us radioactive indL;%tors
~~
Za Ld.t.=il-tion or the
and 0, D, Fdo,.y -a A.
diffte-c. coefficients of chromiun, nicke'.. iron and chroolust
iteruture for all than* I*ctur*3 will be
nicks! ooala. The 1.
Csrd 3/3 published by O'oLyl'n "A
ROZENTAL. I Le
DB'1%0fTN ING THE :L?1FRrrY OF PAST PARTICL65 THROUGH
ANGULAR USTRIBOT1011 OF VIE REACTIOU PRODUCTS
A. I. Nikishov, 1'. L. Rozental, and S. A. Slavatirskiy
In this paper an analysis is made of errors in determinations.of tM
energy of the.r3rimary particle from the angular distribution of secondary
particles. Due to fluctuations in the number of generated particles and in
their angle enrgnce and the sharp decrease in the spectrum of primary
W N 65
oarticles e energy va ue may e sys ema ica overes ima e
The extent 0* his overestimation depends on the law of fluctuations in the
number of particles and angles (at a given energy), which at present can be
.estimated only in a very approximate manner. From an analysis of experimental
data on shower energy determined fromthe angular distribution of secondary
particles and measured directly,,an attempt is made to determine thedispersion
of distribution that characterizes the elementary act.
The error in the determination of the energy of showers produced on heavy,
nuclei is also considered. This error arises due to indeterminacy in theJength
of the nuclear tube withwhich the collision occurs.
-Report presented at the-International Cosmic Ray Conference, Moscow, 6-11 July 1959
RO Z,~5N 7 19 L- - Z-
Rosental, L.
HIGH EVERGY _-MESON SHMUS
A. Yeme
A :[.~ov, I. L.. Rohntal:
Experimental data on *-4~ --meson ..showers observed. under heavy. layers of..
the Earth are analyzed (mainly the data obtained by,Barret, Bollinger,,
Kokkoni, Eisenberg and Greizen).. Calculations made on the basis of Idiff erent
models-show that at small distances the observed showerp.cannot be explained by
the usual mechanisms of -meson production when 27/' --mesons decay in the
air..',-Aikalysis of possible local processes shows that the showers observed at.
great depths cannot be due to pairs of X -mesons produced by,photons,_-~- -mesons
originating when,-)j~ -mesons decay i,nrock, 1-5-1 .~.processes orradiation..
The calculated value for the appearanceof_-& -Meson trident (direct
production of -pairs in rock) is closer to the experimental shower
frequency. However, in thisleas e, too, the experimental value is,somewhat
greater than the-theoretical one.
If this difference is of real significance, one should conclude that
additional sources of -4 -meson production exist for high enerEy particle
interactions.
Calculated curves for the.spacedistribution of.high energy --'mesons
dl6se t6 'the.extensive shower axis are presented.
The calculations are~based upon themost, Iprobable models of,:the elementary
process and in particular upon the Landau theory.
'Report presented at, the International.Cosmic Ray Conference, Mos COW 6-11 July 1959
24(5) SOV/56-35-6-18/44.
AUTHORS: tall, Streirtsov, V. N.
TITLE: On the Passage of p-Mesons With High Energies Through Matter
(0 prokhozhdenii p-mezonov bol'shikh energiy cherez veshchest-
vo)
PERIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, 1958,
Vol 35, Nr 6,- pp 1440-1446 (USSR)
ABSTRACT: The authors first shortly discuss the papers hitherto published
on this subject.(Refs 1-5)- In the present paper the passage
of muons of high as,wellas of low energy.through,.matier.is
investigated, in which connection all,known forms of muon-,
interaction and also the fluctuations of.energy losses are
taken into account. The interaction processes 'of relativistic:.
muons are divided into such as lead to continuous energy
losses and into such as lead to rare losses in large portions.
Among the processes of the first kind, ionization losses
(including Cherenkov radiation), and among those of the
second kind bremsstrahlung, the direct formation of electron-
positron pairs,as well as collisions leading to the fcrmation
M nuclear-active particles~are classed. In the approximation
Card 1/3 used, t1h edistribution of energy losses is taken into.account
SOV/56-35-6-,18/44
On the Passage of it-Mesons With:High Energies Through Matter
only in processes ofthe second kind. A mean value is assumed
for ionization losses. For therange E > 104 the mean value
6 -1 2
of energy losses is -dEr/dx 2.200- g cm A table sho we
4 6
the energy losses for energies of from 6.10 10 .-Also a
number of formulae for-the determination of the differential
arose sections is.giverx..The equation of motion is set up
for the purpose of describing,the passage. of:muons, through
the medium, If results*obtained by taking mason intensity
fluctuations in va3dous depths as well as the distribution.'fune-
tion into,account'are.compared with the data calculated.on
the basis of the mean value.of energy lossesjit is found, that
NIN (particle numbers.in the depth t LW ith particle
It
numbers without consideration of the distribution function)
depends only.slightly on t (Table 2)i The muon flux calculated,
on the~basis of an.averagegd.-Aribution of.energy losses is
redue.ed,by,taking the distribution function into account.:
The authors:finally!thank G.. T.Zatsepin for discussions and
Z. S. Maksimova,for carrying out numerical computatignse.,,:
Card 2/3 There are 2,tables and 13,references, 5:0f which are Soviet.
21M SOV/56-36-31-157/7.1
AUTHOR: Rozentallp I. L.
TITLE: On the Possibility of a Multiple.Production of p-Mesons
(0 vozmozhnoy mnozhestvennoy generatsii p-mezonov)
PERIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fiziki,.1959,
'Vol 36, Nrl 3, PP 943,- 945 (USSR)
ABSTRACT: When investigating the expansi on curve of.showermuons of
very high energies (N 1012ev) Bar ret et al. (Ref 1 ) A, s-
covered a distinct salient pointin this curve in the case
of short dista IncPs (N 1-2m) between the counter systems'with
which measurements,were carried out. The authors gave an':-
explanation for the occurrence of this salient point, which
is discussed in short by the present paper. It was,,however,,~
found that further investigations.,are necessary in order.
to obtain a satisfactory explanation, e,spe.cially:with respect
to the multiple production of muons in matter. In~the~present
"Letter to the Editor" the author makes a contribution
to the discussion of this problem. Local showers in great,
depths maybe caused'l) by.muon pairs produced by,photons,
Card 1/2 2) by muons produced'by pion decay, and 3) by'secondary
On the Possibility of a Multiple Production of W-Mesons SOV/56-36-3-57/71
particles acCOMDanying high-energy muons. Whereas thefirst,
two process es are-discussed.only in short, the author in-'~'
vestigates the third mor .ethoroughly p-me.sonsImay.cause;
a)&-showers-or radiation showers, b)electro'n-nucleon showers,
c) muon pair production.,The last case isagain'discussed,
compared with the theoretical and experimental results ob-
tained by other-authors, and.existing details'.are discussed.
,In conclusion, the author,expresses the opinion,.that,,for:
the purpose of clarifying conditions, still-moreaccurate
invest igrat ions of high-energy muon showers.and of their,
electron.component are2necessary. He thanks N. -A. :Dobroltin
for some valuable advice. There are ences
q refer :4. of. Which
are Soviet.
ASSOCIATION: Fizicheskiy institut im. P. N-Lebedeva Akad,emii nauk SSSR
(Physics Institute imeni P. N. Lebede'v ofthe Academy. of,
Sciences, USSR)
SUBUITTED: November 26, 1958
Card 2/2
AUTIHOR. Nik4 shov, A. 1, , Rozental I I, L, S ov 1
I
TITLE: On the Deluermination of the Zner,,~y olf Fast Panic] es
According to the Angular Distribution of Reaction Frodulct_s
(Ob ODredelenii energii byr~trykh chasti'63 PO UGIOVOMU
raspredeleniyu produktov realktsii)
PERIODICAL:, Zhurnal eksoerimentallnoy i teoreticheskoy fiziki, 1958i
Vol. 35, kTr_ 1, PP4 165 - 169 (USSR)
ABSTRIACT: Thepresent paper aims at investigating possible errors
when determining the energy from the angular distribution
particles produced by the collison. The authors worked
of
in ace ordance with Landauls hydrodynamic theory of the
multiple production of particles (Ref 2), which was ex-
tended for the case of a collision between i nucleon and a
heavy particle; for this purpose the "tube model" (11trubo,
chnayall model') according to Rozentall, Belentkiy 6t al.
(Refs 3,4) was used. If the connection between the
angular distributionyt and the energy E is no" knowng the
ratio of the total number of observed star tracks (N) and"E...
Card 1/3 must beused for the determination of E. If and 11 ar e
On the Determination of the Energy of Fast Particles SOV/lc:6-35-1-2 /59
According to the knoular Distribution of Reaction Products
given, the dispersion of..en.ergy values as well as 'the
position of the maximum of the distribution function deDends,-
essentiallY on the ratio between and N; (figures 1-3
show the course taken by the curves p(Eft, IT) in
dependence on E for different values,of 11 and The
distribution of probability is also influenced oy "he
parameters of the collision model. In conclusion the
authors thank G.B.Zhdanov for discussing several problens~
and Z.S.Mak.simova and R.M.Povarova for carryin- ouz
numer~caal computations. There are 3 figures and 8 refer-
ences, 5 of rhich are Soviet.
ASSOCIATION: Fizicheskiy institut im. P.N~Lebedeva Akademii nauk SSSR.
(Physics Institute imeni P.N.Lebedev AS USSR)
SUBMITTED: February 8, 1958
Card 2/3
7 f~ tj J- I-
AUTHORx None Given 30-58-4-30/44~
TITLE. Dissertations (Dissertatsii).
Branch of Physico-Mathema,tical Sciences
(Otdeleniye fiziko-matematicheskikh nauk).
J-uly-December 1957 (Iyull-Dekabr' 1957)
.PERIODICAL% Vestnik Akademii Nauk SSSR, 1958g Nr 4,
pp. 116-116 (USSR)
ABSTRACT: 6) At the Institute for.Physics imeni P. N. Lebedev
(Fizicheskiy Institut imeni P. N. Lebedeva) the following
dissertations were defended:
a) for the degree of a Doctor of Physico-Mathematical
Sciences: B. M..Kozyrev - EXDerimental Investigations"..,
in the Field of Paramagnetic Resonance.,(Eksperimental9nyye
issledovaniya v oblasti paramagnitnogo rezonansa).
I. L. Rozentalt - On Nuclear Interactions of Particles
With High Energy. (0 yadernom vzaimodeystvii chastits
bol'shoy energii).
b) for-the'degreeof a Candidate 0f,Physico-U,athemat,i=.
Card 1/2 cal Sciencesg
Dissertations. Branch of Physico-Mathematical 3o- -4.,-3.oj44,
Sciences, July-December 1957
A. V. Antonov - Investigation of DiffusionTrocesses and
of Neutron Retardation in Different Milieus.and'of the-,
Multiplication ofNeutrons in Heterogeneous:Uranium-
Graphite Systems by Means of the Impulse Method.
(Issledovaniye protsessov diffuzii i zamedleniya neytronov
v razlichnykh sredakh i mulltiplikatsii neytronov.v uran,--.
grafitovykh geterogennykh sistemakh s pomoshchlyu impull=
snogo metoda).
T. A. Sidorov - Infrared,Spectra and the Structure of Some,
Vitrifying Oxides. (Infrakrasnyye spektry i struktura ne
kotorykh stekloobrazuyushchikh okislov).
M. I~ Trettyakova - Determination of the Mass of Slow
Charged Particles in Photographic Plates. (Opredeleniye
massy medlennykh zaryazhennykh chastits v fotoplastinkakh);'
1. Phyaics-Bibliography 2. Bibliography-Physics.
Card 2/2
I T. .~ - - : -. .:,
I -: R q2-' T P.Pi, - -. -
. r- . 1 1. -~-, - ~ I.. - -!~;,. - i:,''; - ~,:
1 -t.-
56 2-51/5-1
U OR S Pod~;oretc-1-i-,,-, 1". 1. ,RozentU.-il, I. L. , Chernavs':-Ly, D. S.
2 1
rrection of the Ar 4. i
A Co ticle "On Fluctuations in t'he Col-
lision of Particles of Iii-h LAier, 11 (Zhurnal Eksperimentall.
noY Teoretichesko.,,, 1'~55,, Vol 29~ b 25-6)
(Popravka k statlye " 0 fliiI--tuatsiya!di -pri stolknoveni-i
chastits virsokoy ener.1,-
.-i METF), 29 29-f., 1955")
PE1110DICAL: Zhurnal EHsperi:Ientallnoy i Teoret-iches%-oy rizil-~i~ 19587
Vol 34, 1,r 2, 1) 536 (USSR)
AIBSTTI~ICY: in the article nientlioned in the title an error occurred in
the calculation af the qu~-mtity
(n -n)
T'he numerical values resulltin,-, from tbis are corrected
and replaced b-y the ri,r.rht values. T"he authors thank A. I.
Kikishov for his valuable information.
V,~, IB LZ Library of ConZ;ress
Ca--d 1/1 1. Theoretical correctionis
USFR/Human and Animal physiology (Normal and Pathological) T
Nervous System. Higher Nervous Activity. Behavior.
Abs Jour Ref Zhur Biol., No 6, 1959, M48
Author Rozental' I.S
Inst
Title On the ProblQm of the Influence of Overstrain of Higher
Nervous Activity on the Origination of Tumors in Do6s.
Orig Pub V sb.: Probl. fiziol. tsentr. nervn. sistemy. M.-L., AN
SSSR, 1957, 494-499
Abstract In 2 dogs in the course of a long period of tiLie,,over-
of higher nervous activity was induced, by means
of putting forward aifficult problems (differentiation
of tactile stimuli according to rhythm, many errors of
stimulation and iiihibition,.change of conditioned refle-
XeF;, and othern); furthermore, in one dog, the right
hemisphere.was decorticated; in both animal-g, temporary
collapse of higher nervous activity took place.
Card 1/2
I
I
ROZENTALI I I. S.
6 0 W
A a jug It Is IN 41 a 0 M op
'
A
I
A-
I ft -I
7-: -a tv T Pt Z)
1
F Odoctlill #-a PIC"Or'll mate
1 it 1+
tie Miiiiii-'an a dog'Of proton
.44d at, ~o 0
sodiumbiataldd. I.S.Roterital. FAW-Our.S.S.S.M.
0 dog whuer behavior
G Phyidoij 34,431
~wiih MiBr on short application wait re
,d
earlier
0
.
(Arck. ud. b4d. (U~S.S,H.) 41. Na. 2(1 N Be was
gr
4. fare
oven in 4-1. dows (in M in). ndlk) 1.5 firs are expts
I
I
: z
it( for a perlod of 3 months (towl NaDr used--;ll)O
low level of conditioned
d
Th
t
d .0
o uc
on it
e ripts. wcrt con
e
Th
b
d
di
d b
f
d
fl
d
)
.3 .
1 e
un
ant
ee
.
uce
loo
re
exes (pro
ng
y a
. ationull tvwd were sound, light. and metronome ticks. all, zo*
i '
well wk Li "Jack-in box." Contlitinnftl rellexes twoun to
ri4e !tet 3 daim and reached a max. In 20 days, remaining
0
00 3 at fi. level until the end of the elpt.: on the Wth day
00
06 sigim of litusicatimi limint evident and the reflex level
showed a si-arp drop
Cottaiderabit daily virlations were
too
.
the vymptums
Serva days after termination
noted 'lee
.
,
of intoxication were gone and were replaced by the bro.
9 mine-tabancrinent of the reflexes, which rose even higher
than those obtained during brornination. This persisted
Zoo
for I month then dropped to nomal. thirst
TYPI1
1.
was exhibited by the dog during the ex t.
p C
Etc.
Am S L14 4
-
A
R
T
UP
T
ON
A S a S t A MITALLU
GICAL LITIN
41"1 - ----- A
URE CL
I
S
KA woo
SOMMI) .&I a.. a&(
~
jj U AV 10 IS
it
It it n, I
I An -S fW a
L a .4 a 1 It ,m a, a 3 a I
I
U Ana
:10 0 0 0 00 0
0 of 9 go 49 0 0 0 0 0 0
00 00000 0 0 00 0
& 0 0 00 * 00 IL 0000 oe 4P 0 Go I
O
lo
0 *.*-0 0 9 00.g 0 00 0 1
f40
ON~~Tjo OFAH~- KITH
TION. S. 7. Bol~nldl and I.,B..Rozenftl' T,&. LftkL
offfff~aea. USSRI. Soviet Ph".
I- - -
The mechanism an nel _AA.R..
OZENTALY K. by the aWthod of
Mcntainnu
on
Ph -c,, h P"r.-m-m-wr AAWS. ;971
"
,.;e- (e4 0.5 rhm.
_J71(1953); cf. C.A. 44, Pt
M
19 couldle fised. as
!thick) rotated in a soln. e.g.. OW r.p.m.)
I
-'the electrode In polarogrdphy if it was polariz~t!4 times In3 -
dAPTAJ Imirr. from the potential V-1,15-0.3 v. relatNe to the NW.,
'
~
l
d
_ e
of such an ano
electrode. The half-wive poteritial B
'
and N JIM, ind the
ivras 1.2 v.Jn N. HCloe, N H:50,,
Chemical Abst. 1imiting current I was Independent of the rotation- of the.
_
I
h
f
i
; e e
CC
charg
ng t
Aectrode.-Le. was detd. by the rate o
"
1
.. 48 No., -3
Vol - I e
trade. In N H,90i + dil. NatM, B was 0 7-0 8 V
'Oil
;;.~;
h
a
0
5
l
i
e
Feb., W, 1954 en.
.
.
e
v.; w
rvo
tage,was
theov
pprox.
increased 10 times, - r also increased 10-fold a'nd'E
Ileatrochemistry ..MLsnior~an6di6by.0.15v.'Atli:~ 1.1, current'i decreased. -
when P increased, and~it qp - 1.5 v. it wai-Q.1; thatlati
v.;1-An inalojous dependence of w'-on i was observed
for NHSO&.+ 0.003A[H2S and for NFIM + 0.0003M~
KNO* (with E --~ I M v.). .- No final explanation was aviii_`
'of i at'higher P. An - N HN03 +'
able for the decrease
0.01M KNOS and in N HC104 + 107W-HA (E - 1-19.
v.), a'2nd wave occurred at V L5 v.; it may be due to,
-~dde. - When
decompn_bf a Ptpero of Pt was Increased
Mori ~2pidly_,(e.g.~ 0.032 faAead of O.OGf v.1sec.),, r was
atnp.'
greater (c.g.j 4'X 40-1 Mead of 2 ~X 10
HC104)'. because. I, - : Is + C(dipIdt). where. I. was thec-
'
-
ca-
to depolarizen.'C the electrode
ONmrrent due
0.005MFeSO, was
Lety.'and I time;" The I in tlF H2S04
-
anclec-,,.~~
depeadent-ofdo/dlbecatL~eFe+t~Fe+t4'v
Vas
..
-
- ~ 6
f
id
t
1e
i6
h
l
. e
zon~o
ern.
x
a
on.- The
ct
c
.tranic react
',;::N(h-,and Hg(hwas dctdi by reactions betweenth*s~b-,."!',~~,:'-'
and the 0 adsorbed by Pt.
CaLeg
.5c,ry: USSR B-12
Abs J ou r: R Zh--Kh, No 3, 1957, 70680
AuLhor Ya?ovleva, Ye. I., Rozental, K. I., and Filippov,.T. S.
Inst Not given
Title On the f4echanism of the Electrochemical Formation of Oxygen Com-
pounds with Chlorine at a Smooth Pt Electrode. I. Investigation of
the Kinetics of the Electrochemical Oxidation of Cl- and C103- Ions
by Paiode Polaro.rraphy
Orig Pub: Zh. Fiz. Khimii, 1956, Vol 30, iio 4, 937-944
'Abstract: The pol~_rographic curves for the anodic oxydation of Cl- M, Cio
- (III) and C10 - (IV),have been recorded with a rotating
(II), C102
Pt electrode for the purpLe of investigating the mechanism of the
electrochemical formation of compounds of oxygen with chlorine by
a previously described method (F2hKhim, 1954, 35690). Sharp waves
-4- 0. 1N H I
were obtained for I on a bac%ground of 0-9N NaP-S04 2SO4j
for 11 and III on a background. of 111 NaCl, and for IV on a background
of 6?1 NaClOj. The half-wave potential E__ under these conditions is
Volt2
equal -to IA5, 0-41, 1.07, and 1.72 S, respectively. The limiting.
Card 1/3 _12-
Gtttego~y: USSR B-12
-Ab 8Jour: R Zh--Kh, No 3, 1957, 7620
I is oxidized,to C12; in dilute HC1 solutions (10-2-10-3 N), I is
oxidized to Fl, and the reaction involves the active oxygen adsorbed
at the Pt surface (RMinim, 1954, 35690); it is assumed that the rate
of the overall process is determined by the rate oil the step in which
the Cl- ions are oxidized by the oxygen adsorbed at the.Pt electrode.
It is also assumed that the anodic oxidation of IV to C104 proceeds
by way of the formation of C10 radicals which are subsequently oxi-
dized by the surface oxygen to Clo,~_.
Card 3/3 -14-
Distri h34j
Mectrotheutical dation and reductio 62seous hy-
,Fd .red cfloyd g
to In olutiom ~ .
and V, I.-
an
Zhur. Fia. flu.
p
Various ress
changes at N HbSO, solo. fatd. at p ores with IT
0. and their mists. were measured by the authors' anodic
Plar hy method (C.A. 48. 11744 with linuoth rotating
tartrApul microelectrodes. The H ionization and the 0-
rednetiun processes in HfS04 soln. in the potential range of
G-0.4 v. proceeded apparently independently nt each other,
and the external polarization currents represented the dif-
Ference between the H-oxidation current and the 0-reductlan
current. At 0.8-1.2 v. the 0 reduction practically ceased.
and 0 became adsm-bed an the Pt sur6ca, and the anodic
oxidatloo, cumut was caused by the H ionization and Its
?Xidation by the adsorbed 0. The anode passivation duir-
Ing the H Joakition was increased by jiseow 0. UnMe on
the Pt electrodejito H lonizition occurs att the An electrode,
esumahly. owing~ to the:iery Low H,adsorption cut An;
re
p
the 0 Hnetics ost An did not depend od the H ccacts. W solo.
f- The results ohWned justify the use of anodk polaregraphy
method with rotating Ft or Aft electrodes for the analytical
detn. of R and 0 in HtSO4 soln. W. M:iternbers
AIMIORS; Rozentall,.K. I., Veseldvakiy, V. 1. SOV76-32-6723/46
TITLE-. The Process of the Electrochemical Oxidation of'Tetravalent
Uranium on the Pt-Electrode (Protsess elektrokhimicheakogo
okisleniya soleylchetyrekhvalentnogo urana na Pt-Elektrode),
PERIODICAL: Zhurnal fizicheskoy khimii, 1958,-Vol. 32, Nr 6,
pp, 1341 - 1347 (USSR)
'ABSTRACT. This work was carried out at the Laboratory of Electrochemistry,
of the Physical-Chemical Institute imeni L.Ya.Karpov between,
1948 and 1950; the technical report is to be found- at the
library of this institute. Atpresent few data' are found in
papers dealing with the problem mentioned in.the.title;,among.
them are the papers by Betts (Ref.1) and Real (Ref 2). The pre-. .
sent in-resti,-,ation was conducted by means ofa rotating Pt-micro-
electrode using an already earlier described.method of anode
polarography. From the obtained results of the experiments of
the anodic oxidation of
+2
UO -ions in HC10 -solutionsas shown on the current versus,.vol-.
4
.Card 1/3 ta-e diagrans a wave may be seen at E 1.05 V, as well as
1/2
T.he Process of the Electrochemical Oxidation of SOV/76-32-6-23/46
Tetravalent Uranium on the Pt-Blectrode
a current i d 4.3gA lirect-ly proportional to.the concentration
of the UO+2-ions within the interyal of from 1-107-2 to 2 1 ~10 lw4mo
It, was found that the value of i depends on the'surface of the
d
Pt-electrode, as well as that the value of i decreases with the
d
retardation of the decrease. ofthe I - Ecurve, so that,.for
instance, in the case of an increase of the velocity of the,
potential application to the 8-fold,an in'crease.of the limit
current to the 2.1-fold takes place.In order to make use of-
this knowledge in the increase.of the sensitivity for anallytical
purposes some conditions must howeverbe taken into account,
Based on the evidence obtained and on some rules it is,assumed
that an interaction ofthe U6+2-ions with oxy0len which'is.electro-
chemically adsorbed at the platinum takes place-and that,'it de-
termines the velocity of the reaction mechanism. The electroche-
Mical redox processes which take place only due to the exchange
of ion charg
-es do, however, not.need anyactivation.energy-and
take a reversible course. The investigations of.theanodic oxi-a
Card 2/3 Aation of UO+2-ions in the presence of R 0 and cr+3-ions,
.2 V HN03
The Process of the Electrochemical Oxidation of 16-32-6-23/46
Tetravalent Uranium on the Pt-Electrode
as well as HNO solutions with Th+4_ions showed that a change
of the I-E curve occurs, where, e.g., a higher concentration
of the cr+3-ions can cause the adsorption of the cr+3-io'ns at
the Pt-surface. There are 7 figures and 9 references, 6 of which
are Soviet.
ASSOCIATION: -Fiziko-khimicheskiv institut im.L.Ya.KarpovaMosky., (Institute
of Mysics and Chemistry 1-ni,L.Ya. Karpov., MosdOW)
SUBM'ITTED: February 16, 1957
1. Uranium--Oxidation 2. Uranium--Electrochemistry
3. Platinum.el6ctrodes--Electrochemistry
Card 3/3
AUTHORS: Tyurikov, G S Rozentall, K. I., ~SOV/76-32-7-8/45
Veselovskiy: V: I.
TITLE: The Mechanism:of the Electrochemical Reactions on a. Mercury
Cathode in Uranium Salt Solutions (Yokhanizm elektrokhimiches-
kikh reaktsi/v rastvo .rakh soley urana na rtutnom katode)
PERIODICAL: Zhurnal fizicheskoy khimii, 1958, Vol. 32, Nr 7,
PP. 1490 1498 (USSR)
ABSTRACT: The electrochemistry,of uranium has been investigated by a
'great number of scientists, thereare,'however,.a number of
contradictions in publicationsp.In a previous paper one of the
authors of this papercarried out polarographic investigations
on a dropping mercury electroae,,as wellias on a steady:mer-
cury electrode inthe.case Pf~a.weak:polarization by alternating
currentf these,inviestigations d.ealt-wiih the electrochemical
reactions
2+ 2+ +
U0 + e-->UO and U0. + The polaro ams.of the
2 2 ee Up .9r,
cathodic reduction of uranyl ions were~automatically recorded,
Card 1/4 on a ~oiarograph-according~to Geyrovskiyi.the w.ork..having
The.Mechanism of the Electrochemical Reactions on a SOV/76-32-7-8/45
Mercury Cathode in Uranium Salt Solutions
0
been carried,out in a hydrogen atmopshere at 250+ 0,1~c.. In
thelinvestigations conCerriing the influence of the concentration
of H+ ions and of the nature of the anion of the solutions,
on the process of the cathodic reduction the author.used,con-
stant uranyl ion concentrations in solutions of sulfuric acid,
hydrochloric acid and KC10 The current.versus voltage.curves
4
obtained showed two and three polarographie,wav6s respectively#
corresponding to the acidity of the solutions; the first.wave
is explained by the reversible reaction
2+ +
UO +e "U0 while in the.presence of three waves the-
2 4t 2 + 12+
second represents.the irreversible reaction 'U 2+e4H+---." UO' +
+H20, and the third wave characterizes.the reversible reduction
of uranium from the tetra-,to the trivalent state t02+ +e-."UO+.
The I - E curves of the highly acid HC1 and H SO solutions
2 4
do not show a second wave- and a dispropo*Ioning reaction is
assumed: 2 UO + + H+--, U02++ UO(OH)+. The function of the
1 2 2
Card 2/4 va ue for i d of the first wave vs.,the,nature of.the:,acid
The Mechanism of the.Elec~rochemical Reactions on a SOV/7673277-8/4:5:.
Mercury Cathode in Uranium Salt.solutions
anion is expressedby the series
d H SO d Hcl,>'d HC10 it was observed.that the effect:,,
2 4~'
of the anions extend toAhe various. stages of the.cathodic,.:
reduction For:determining the velocity of dispropor,tioning
of the UO -ions an apparatus.was usedj~with the measuring
2
method having an advantage as compared tolthat by Heal,:(Ref 6),
viz., that the measurements were carried out directly-The
technique of current measuring in-the,determinations carried
11 1 7 2+
out in the exchAnge reactions' UO , _~e;i~~Uo+ and UO?+-~e.,-i:-, UO+9
2 2
as well as the apparatus has.been des Oribed inthe paper by
X.I.Rozentall*and B.V.ErBhler.(Ref.'11).~ From the*results,-of,
the investigation.meritioned,m6y be'seen that the electrochemical,
reduction of U02+ in UO+ determines the velocity,of the'ex-
2
change of the first reaction. It was found that the exchange,
current acquires various values in solutions of.different.'con-
centrations; this fact'is traced back to a function of:the
Card 3/4 degree of dissociation of the~uranium (VI)_.salts vs.-,the pH
The Mechanism of the Electrochemical React ions on a SOV/76r32.-7:-8/4'5
Mercury Cathode in Uranium Salt Solutions
of the solution. Thedeterminations in the,second exchange
reaction showed a linear function-of the,quantity of the
exchange current vs..the U02+ ion concentration in the,
solution; this is explained by,theinfluence of the eleciro-.1
chemical reduction of the tetravalent ions to trivalent ions.
on the velocity of the exchange. There are 9 figures, 2_tables,
and 11 references, 5,0f which are Soviet.
ASSOCIATION: Fiziko-khimicheskiv institut im.L.Ya.Karpova.Moskva. (Uoscow
Fbysicochemies..I Institute imeni L.Ya.Karpov)
1. Mercury cathodes-Electrochemistry 2. Uranium salt solutions
"E"'Otiochemist* :'3. "Uranidm~:~ola~ogr'~Vkd- dnii*lysis
4. Exchange reactions
Card 4/4
28287
S/076/61/035/010/004/015
B101/B110
1~~26,c,2,Tlo r,16-o 1.2oP)
AUTHORS: Rozentall, K. I., and Veselovskiy, V,, I. (Moscow)
TITLE: Kinetics of the electrochemical reactions of oxidation and
reduction of H
21 02, and oxyhydrogen gas on a platinum
electrode in electrolyte solutions
PERIODICAL: Zhurnal fizicheskoy khimii. v. 35, no~ 101 1961, 2256-2264
TEXT: The authors describe a method of measuring the effective rate of H2
oxidation, 02 reduction, and "combustion" of oxyhydrogen gas on a platinum
electrode, based on gas consumption. A confrontation is made with data
found earlier by polarography (Ref. 11: K. I. Rozentall, V. I. Veselovskiy,
Zh. fiz. khimii, 11, 1555, 1732, 1957). Fig. 1 shows the experimental
arrangement. The electrode to be tested-is placed in the central part A,
and the auxiliary platinum electrode B is situated in.the lateral
ramifications along with the reference electrode C (Pd sheet saturated with
H2).. The electrode to be tested consisted of a platinum net wrapped around
a glass tube which was caused to rotate at 700 rpm by a magnetic field. A
,was filled with electrolyte (1 N H SO or 1 N KOH) which was
car-di 1/* 2 4; 1 N~HC104