SCIENTIFIC ABSTRACT AGLINTSEV, K. K. - AGLIULOV, N.K.
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AUTHOR:
TITLE:
( C 7-/)
PERIODICAL:
ABSTRACT:
Card 1/j,
Vino,.`-radov, "k. P., AcadaLiiciar
The Conference Concernin,; thr Utili-mition of Radioactive
Isotopes in Scientific Research (!Ta konfereritsii po
ispoll7ovaniyu radioizotopov v nauclinykh issledovaniyakh)
Vestnik AN SSSR, l953, Vol. 28, 11r 1, ~o~- 71-70 (USSR)
This conference took place from Sente.-iiber 9, to Septenber
2oj 1957 in P-Xis and had been convened by the "INESCO. It
was attended by 15oo scientists frog, 50 countries. The head
of the Soviet delegation was .11. V. Topchiyev; the Soviet
delegation submitted 46 reports, which are dealt wit,. All
other reports were from Western coiintries. The conference
pro6ram was divided into two sections: A physical and a
biological secti.-ni. In the physical section, to which also
the author belonaed, discu3sion,. wcreheld on pliysics,
chemistry, :.,.etallur,y, ~;eophyoic--, etc. The -reatest
attention vta!~ paid at this conference to the reports con-
cernin,, the olljtaininL~ of radioactive isotopes, the pro-
duction of radioactive sources, measuring; technique arid
iethods. V. L. Karpov, on behalf of the collective of the
scientific 111hysical-ChemicP1 Research Institute ineni L.
Tho Conference ConcerninL; t~ic Utili7,ation of Radioactive 30-1-12139
Isotopes in Scientific Research
Ya. Karpov (Kollektiv naucliiio-i--~-ledovatellsko~,-o fiziko-
khimicheskogo instituta ineni L. Ya. Karpova) reported on
the establishment ol' a )--ray source of high efficiency.
X. K. Aelintsev discussed basic problems of mensurin.-
dosace.-T-. -APerfilov and his collaborators reported on
the prodiietion of' a finoly-raint-1 emulsion for nuclear
research. P. L. Gruzin, I. Frantsevich, A. A.
Zhukhovitskiy, V. T. Borisov, S. Z. .3olshteyn and others
sub.~itted data colicernin- the diffusion arid electric trans-
mission of carbon in iron and its alloyt. A. 'I. ;Murin
reported on the diffusion kinetics with respect to the
melts of salts-, oxides, and si:lphides. The method of auto-
radioL~;raphy for the determination of n.)n-metallic
inclusionij. j;- iron alloys was dealt wil'i by Z. Bo.jaral:iy
arid for the p,irpose of investiCatin,; tear in co,~noctit)n
L'
with the strncture of alloys, iron-, chro:.Aum-, and
tungst en- carbides - L. S. Pnlatnil-. V. 1. Spitsyn i3ave
inform,at.ion concernir.,; Vic? stricture of hetoropoly co-nipound.-I
especially of phocp'-orns wolfra-.ates, :,.nd pointed out the
_--reat -obility of ox.-,0en- an3 hydrojen atoms in them. Ye.
Card 2/1'a Ye. Finkel'reported oi the oriL;,-inZil and very simple met-.od
2--
AGLIjg�j"Xu4OXARAVAYEV, FdM.; KARANTAN, A.Sia; KONSTANTINOV, A.A.;
OSTRDMUUMVA, G.P.; INDLINOVA, Yp.A.: YUDIN, ~LF.; TARITSYIIAI I.A.
Achievements in the methrolog7 of ionizing radiation and prospebts
for its development. Trudy.VNIIM n0-33:135-158 158.
(MIRA 11:11)
1. Rukovoditell Wela lontsiruyushchikh Islucbeniy Voesoyusnogo
nauchno-isBIedovateliskogo institute, metrologii imeni D.I.Mendsleyeva
(for Aglintsev).
(~adiation--Standards)
PI Jilt,
aw ry.k.4 hi 1- .1 M. bet" .1 W.".4 411-
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a-wA ll~ - .1 .m
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Iu WO.I. 16.) -koa'a 1. ..' I.- toolt.
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to. i-kk I-I
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Ilk -d-l . ji-lu"k
1. "Aai.. - 1. A., lrh~ W~I- .1 Tr. a hill.. awk .1 Ill,
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4. D'"k Ill, Vl-.,n-. Y-. Y-
$ W14M _4 . -."dw W W-I .Aoii- d
,A M T..' Y. a" + T..
pnstDt*a ot tho Ninth Interntiowl con" ita of pAdialom, *wkich, 23-30 %Iy 1959.
MUSE I BO-. FILMOIT-710q 503
AW-y. -.k SSM. lisdly.,7y
Qkl
Tr.d;: t.,IX. no .17.0-A ?AdI_ 1-titu". Amlow of scl~moo Usm.
Ii! -SIR, 1-?tq. 2e'y "lip I.-W.
copl.v PInt,od.
i,,
Ed.- N.A. P.rf1I-. D~ctr of Ptql I-al and M.th~tlcja Zeiiin"s; Ed. of K-blIshinc
G.IJ_ Aron. Tch. Ed.-. .T. Sairm.-
P1,7MZE- Th. .1-* 1. 1,.t.,.d.d f= phyticlisto.
COWIUS!I: The book repro3onts vml-~o 9 of tt, Tr-actims or the P.G!L= 1-titute
-c! co-tal- t)," resloIlts of sio~dl.s cmd.tt.d at U,.. .1:'I'rly fro-A
955 to 1?~6. TI-.- arm a -h~r of 4rtitl*s doalirC uIth the st-T of' n-1-
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71
GORSHKOV, Georgiy Vasillyevich;,.AGLINT' prof., doktor tekhn.
red. -zd va;
IN, N.V.-' MI, M.Ye., tekhn.red.
nank, red.; TRAV rd
[Gamma-radiation from radioactive substances and fundamental
calculations for protection against radiation] Gamma-izluchenie
radionktivnykh tel i elementy rascheta zaahchity ot izlucheniia.
Mosk,va, Izd-vo Akad.nauk SSSR. 1959. 292 P. (KIRA 12:12)
(Gamma rays) (Radiation protection)
Q~ -L t -Au- X, -YX -
4.1
fj
MHz'
':4, ':- ~i ~1 q '-: ; ~ ic ~u
ja A t t A
SOV/ll1r1- 59 -1_4~9138
21(8)
AUTHOR: Aglints2y,_ K.K., Ostromukhova, G.P., Khollnova,Y6.A.
TITLE: Determining the Process of Air Ionization for C060
ionizatsii v
Gamma Radiation (Opredeleniye rabo~6
vozdukhe dlya gamma-izlucheniya Co
)
PERIODICAL: Izmeritellnwia tekhnika, 1959, Nr 2, p 52 (USSR)
ABSTRACT: The author believes that there is a lack of information
so far on the importance of ionization in the field of
hard gamma radiation. Tests were made to determine the
value of ion'tzation in the air for Co6o gamma radia on.
8
m
This was found by measuring the same preparation Co
with the help of a normal ionization chamber to ascer-
tain the-,number-of ion elements and of gamma calori-
meters, which give the value of the absolute ac~6vity of
this preparation. Tests with four different Co pre-
parations showed that the mean value of ionization
equaled 33.7 = 1.5 ev. There are 5 references, 3 of
Card 1/1 which are Soviet and 2 English.
AGLINTSEV, K.K.; MITROFANOV, VOV.; SMMOV, V.V.
Active electron spectra in air-equivalent ionization ebsmbers. Trudy
Radiev.irmt.AN SSSR 9-.253-257 159. .: (MMA 14:6)
(Ionization ckm*ers) (Ek2trons-Speotra)
21'( 3)
AUTHORS: Aal In X., Ostromukhova, G. P. SOV/89-6-1 -6/33
TITLE: Distribution of Ionization Along a r-Beam and Reproduction
of the Roentgen With Normal Ionizatlon Chambers (Raspredeleniye
ionizatsii vdoll puchka r-izlucheniya i vosproizvedeniye
rentgena normallnymi ionizatsionnymi kamerami)
PERIODICAL: Atomnaya energiya, 1959, Vol 6, Nr 1, pp 63 - 66 (USSR)
ABSTRACT: Measurement of the ionization effect of r-radiation which
corresponds to one roentgen unit is carried out in a pressure
ionization chamber. Measurement of the roentgen unit is
reduced to measurement of the ionization current and to
determination of the measuring volume. The gauging method
for reproduction of the roentgen requires knowledge of the
point at which the measured ionization effect is produced.
Hitherto it has been assumed that the measured ionization
current is proportional to the radiation energy absorbed
in the measuring volume, The value of dose output, on the
other hand, refers to the center of the measuring electrode.
Ionization in the chamber is brought about by the electrons
which are produced not only in the measuring volume (above
Card 1/3 the measuring electrode), but also in such parts of the
Distribution of Ionization Along a r-Beam and SOV/89-6-1-8/33
Reproduction of the Roentgen With Normal Ionization
Chambers
volume as are located before and behind the measuring elect-
rode. The influence exercised by this additional ioniza-
tion upon the ionization in the measuring volume is heoretical-
ly calculated and experimentally checked also for CA
radiation.
-follows from measurements and calculations that the
C
measuring method generally used for determining the J'-dose
be means of normal ionization chambers is systematically at
fault, because the absorption of r-radiation in the air is
not properly taken into account. In order to avoid such
errors, it is necessary to take the absorption of r-rays
in the part X 0 into account, which is located between the
effective absorption point of the r-quanta and the center
of the measuring electrode. This is done by multiplying
the measured ionization current by the coefficient k
k . -,,4pxO
Card 2/3 where JI denotes the linear attenuation coefficient of the
Distribution of Ionization Along a r-Beam and SOV/89-6-1-8/33
Reproduction of the Roentgen With Normal Ionization
Chambers
radiation to be measured in air at P = 1 atm and T - 200C.
The value for k is 0.992 for Cc 60 and 0,996 for Gs137. There
are 5 figures and 4 referenGes, 1 of which is Soviet.
SUBMITTED3 September 1, 1958
Card 3/3
21(8) SOV/89-7-2-6/24
AUTHORS: Aglintsev, K. K., Kasatkin, V. P.
TITLE.j A Method of P -Ray Dosimetry Based on Examining the Electron inthe
14eld of 0- radiattws Speatra (Met6d dozimetrii izlucheniya, osnovaiji;yy na issle-
dovaniyakh elektronnykh spektrov v polyakh izluchateley)
PERIODICAL: Atomnaya energiya, 1959, Vol 7, Nr 2, pp 138 143 (USSR)
ABSTRACTi The relation D . N( dE ) was theoretically calculated and
dx
experimentally confirmed; N is number of P -particles which
penetrate into a certain volume,
(-!E ) (average) the ionization loss of one electron in the
dx
examined matter and D the dose caused by the P)-radiator.'It
was established that the value
F
(M) is determined by the energy of the ~ -spectrum of t~e con-
dx
cerned isotope and that it is practically independent of the
depth of the matter and the diameter of the source. The /3-
spectra were measured with a scintillation-spectrometer (Ref 3)
Card 1/2 using a flattened semi-spherical stilbene crystal of a 35 Dim
A Method of r~7Ray D aimetry Based on Examining the SOV/69-7-2-6/~4
Electron in the Fields of fl- -radiators Spectra
diameter. The preparations of S35, W185, TI 204, Y91
Sr9o+y9o , P32 , Cel44+Prl44 had a diameter of 1,8, 25 and
50 --m and were precipitated on transparent paper. As -an
underlay a 10 mm thick plexiglass plate was used, The distance
between source and crystal was 2-6 cm. As equivalent for a
material similar to the skin for which the depth dose was
meant, filter paper was used. The 0 -spectra were examined-at
the following depths:
S35 3.3-13.2 m�/cm 2, Tl 204 15-150 9/cm2and Sr 90 +Y-90
37.5-450 mg/cm .(Shown in a diagram). The depth-dose curve
enables us to determine the range for which the examined
radiators can be best used. The ranges are:
S35 0-8 mg1cm 2~ W185 8-20 mg/CM 2 Tl 204 2o-30 mg/cM2
91 2 144 2
Y 30-100 mg/cm Pr > 100 mg/cm . There are 4
figures and 3 Soviet references.
SUBMITTED: January 29, 1959
Card 2/2
06201
21 (7) SOV/1 5-59-11-31/36
AUTHORS: Aglintsev,-K#Ko, Bochkarev, V.V.
TITLE: The International Symposium on MetrQlogy,of Radioac-
tive Isotopes
-PERIODICAL: Izmeritel'naya tekhnika, 1959, Nr 11, pp'64-65
ABSTRACT: A symposium on metrology of radioactive isotopes was
held in Vienna from October 14 to 16, 1959. It was
organized by the International Atomic Energy Commis-
sion. About 100 scientists from 27 countries partici-
pated. A total of 37 reports was read, 7 of them were
reviews of radioactive measurement methods adopted in
different countries. The USSR delegation (K.K. Aglin-
tsev, V.V. Bochkarev, V.N. Grablevskiy, P.M. Karavayev)
reported on measuring radioactivity in the USSR. An-
other report (by V.V. Bochkarev and V.A. Bazhenov)
dealt with the results obtained when measuring the ra-
dioactivity of volatile liquids by their vapors.
Card 1/1
BIBERGALIt Anato:Liy Viktorogich; MARGULISO Usher Yakovleviob.- VOROB'Mf
Yevgeniy Ivanovieb; A%MSET, K.K~j prof.p red.j ALEMEV, D,,Mj
red.; LYUDKOVSKAYA, red.-
[Protection against 1~-rays and ga=a rays] Zashchita ot rentgenovskikh
i gamma-luchei. Pod red. K.K.Aglintseva. Izd.2., parer. i dop. lio-
skvav Goa.-izd-vo med. lit-ry Medgizq 1960. 273 p. XMA3457)
(RADIATION PROTECTION) I
FECKTISTOT, Vissarion Ivanovich;..AGLINTSV&...Kj1,, red.; RUINVA, M.S.,
takhn.red,
[Principles of medical radiology; practical reference book)
6snovy maditainakoi radiologit; praktiAeekii spravochnik.
Leningrad, Goe.$zd-vo med.lit-ry Nodgiz, 1960. 163 p.
I (MIRA 14:4)
(RADICWGY, MEDICAL)
.$ K.
"Dose Power and Time Factor."
report presented at the meeting on Radirtion Doeimetry, IntL Atomic Energy Agency,
Vienna, 7-11 June 1960.
rwX I BOOK 30v/14,03
Iya I L=erenlya rad.,O"tIVh-7Jd1 ;reparatorl sbornlk
Netody p lochmn.
atata7 (Rethods ror the P-od=tjon and Meas,~~Ont 0: ikdlo-
active Preparations. Colloczion of Art-_cI'*X) 1103=w, AtOmi:d&t.
1960. 34P7 P. Errata slip inserted. 6,C" coplas prln-.d.
Ovneral Ed.: Vslor~iy V'I'xtorov%ch BoCN48Mv; Zd.- N.A. 3&Cjro;
Tech. 2d.; N.A. Tlmaova.
PURPOSEt This collocticn of articles -.2 Intended for Sclen"ICIQ and
tea"Ic&I personnel ...-kin& in p-oduc%_-nn of radlo~tjve Lao-
twos.
COVERAGI; The collection contains or"IgInal studios m methods of
obtaining and mwss~rlng proparaticns. A-zording to
"0 foromordpthe articles contain new data, and are or theoretical
or practical Interest to the extent that -ne7 di2vass ~tho4a or
Slew.rcocs Infcr~amtlon. In addition ~. several zu~;e7 artt~IeS
the Ilection contLIns discu33lonA on thm product.-cm of radio-
active isotopes msd Inorgan-c radlz4ctivo pregaratt-ch3, 11~cludtng
isotopes and 4evtr&- colloidal and other
a mumaber of carr'
prnp~!j!~Fz. Also d1scussed are "mc-da for propar-
f t-299ed creanic cc=Po=ds, probleas In the analy-
sis or za"ed rCt-ftle oemp-ndx, tkjs,aa~,.ut* and relative measure-
sent or' "tiviy, &,d ,Is dc=etr_
maw Insz.-=ants and cT.Lj;:=.gnt are desc; or P.-paratlons.
-lb.j and Instruction3 con-
coming "4434rtcl~t =O'hods and te=nlq.e are lncld.d. V.1. L,
camilaa:o or ch~ajca_, scjan~.s. vjm,
c1cal ScIen-cou. 1.g. _-ujCjArQV V-P. 5h1sftkov, Candidate of Tech-
. Caftm-to of Bloloa;!Cal S=Ienceo.
and T"' 3~"05t&X' C'L-!dl:'&te of Ch*M!Cal 3C-'OnCe3, are -n-lon.d
as h&TL=Z helped djreetj~~ _n the A-1-atlon and p-opa_~:lch of tn.
MlAtOrl.al for publication. Reference& accospany asch aL:"Icle.
TM= CM C(X;,EXTS,
Jcm"a~.Ov. 1.s.. and*v A&S'Pov. Qual-Itativa, Determination or
Tyroalne Ta"ed WI-m 217
*9u1c`2Amv, Z-9- Testing for Arsenic 'Z=Puriti.6 In Radioactive.
Medicinal "mrations 221
OP R=ICACT--7E PRZPAIU-="
Characteristic$ of Preparatlors 2V
-L.L-Ustem or Measuring Dosimetrio Maracteristics
-mitz.re -
-tivity 234
__N,A_ and T.T. Bochkarev. MOnsurGEMOnt of the AL
of fi~Z,094* Prom A-R34lation With rJze Aid of az Mrd-din_
dow Counter 239
4-
_zA=%mnj23t_ T.A., and T.Y. b0chkareV. Absolute MWasurment or
me Activity or certain 0~-Actjva Uses And LIQ&Idn L-6 i
and I X Shl met hod or
A Activity of V61A t1le fi
With an tr-d-nndow Counter 268
And 1XL-Zuxmhm&Qv_L. Radi
omezric Analysis
of Corti"in Radioactive ?reparations 278
3OkOlmv- 7 A FrQW&rAtLon of Sa=le3 of Eleoent&r7 SuIrc:., Bar-
Suirtc, . and B&ri= SUlfate Containing V5 for Radicoetric
MI-easuremenle 290
burt**V&- N.A- 'TO!a
_aMd N,N, YU-ik_ Methods of Pro.
parIng 3tmzdard 0-ftitters 293
AVAILABUt Library of Ccmgress (qD466.B47) 03)
0.0000
7-(228'
SOV/89-8 -1-22/29
AUTHORS: Aglint Bochkarev, V. V.
TITLE: Scientific and Technical News. International Conference
on Metrology of Radioactive Isotopes
PERIODICAL: Atomnaya energiya, 19060, Nr 1, PP 76-78 (USSR)
ABSTRACT: This is a report on the International Conference on
Metrology of Radioactive Isotopes which was held in
Vienna on October 111-16, .1959. The relative materials
will be published by the International Atomic Energy
Agency.
Card 1/1
AGLINTSEVp K.K.
Restorative functions in irradiated organisms. BiofisiM 5
no. 6t740-744 160. (MIRA 13:10)
Is ~adiyevyy inotitut imeni V,Go Khlopina AN SSSRp Leningrad,
(RADIATION-PHYSIOLOGICAL EMCT)
S/115/60/000/012/0121/018
B021/BO58
AUTHORS: AElintsevZ...K., Ostromukhova, G. P., and Khollnova, Ye.A.
TITLE: Measurement of the Gamma Constant of Radium
PERIODICAL: lzmeritellnaya tekhnika, 1960, No. 12, pp. 40-42
TEXT: Methods and results of the determination of the gamma constant of
radium which were obtained at the VNIIM (Vsesoyuznyy nauchno-issledova-
teltskiy institut metrologii im. D. I. Mendeleyeva (All-Union Scientific
Research Institute of Metrology imeni D. I. Mendeleyev)), are given in this
paper. The values of the ~_constant were determined by measuring the
values of the dose rate and the activity of one and the same preparation,
e. . P.3600 , -cm distance from the
i
:- P 'Ra) Af P being the dose rate in I
preparation, in T/secj A the activity of the preparation in millicurie,
f the coefficient of correction. Radon preparations were used instead of
radium, in order to exclude errors due to self-absorption of t-radiation
in the source. The linear attenuation factor of the t -ratliation of radium
Card 1/2
Measurement of the Gamma Constant of Radium S/115/60/000/012/012/018
B021/B058
in air was determined experimentally.- The measurement results are representg
graphically. The probable errors of quantities involved in the calcula-
tion of the dose rate are listed. The activity of the radon preparations
was determined by the calorimetric method. The greater part of the studies
for determining the t -constant of radium is based on measuring the dose
rate by means of thimble chambers. Finally it is stated that all measure-
ments made by means of thimble chambers up to the publication of the
theories mentioned, require checking. The dependence of the data on the
conditions of diaphragming is described as being the second error source
in the measurement of the t -radiation by means of thimble chambers.
Moreover, no method for calculating the correction for scattered radiation
in air is elaborated for thimble chambers. Measurement results of the
t-constants of radium during filtering by means of 0-5-mm platinum,
obtained by various authors, are mentioned next. According to the authors'
data, this quantity will be B-04 r/h.mg.cm in the case of an open-air
chamber, if the number of decays per mg radium is assumed as being
3.68-lo7. Other authors determined the t-constant at 8.26, 8.16 and
8.4 r/h.mg.cm. There are 1 figure, 1 table, and 16 references: 4 Soviet,
8 US, 2 Britiah, and I Canadian.
Card 2/2
DMIRKV, Yevgeniy Ivanovich; MAL3W, Pavel Ivanovich; SIDORMO, T18-
d1740-T19dimirovich; KOZLOTA. Y~A.* inzh., rotgenzent;
AGLINTSH,T A, AZAROTA. I.G., red.; TSAL,
yof., red.,
R.K., takhn. red.
[Nualear radiation detectors] Datek-tory indernvkh izluchenii.
Pod red. K.K.Aglintsevaj Ldningrad, Goa. soiuznoe izd-vo
sudostroit. promyshl., 1961. 222 p. WRA 14:5)
(Nuclear counters) (Radiation--Measurement)
278~111
S/115/61/000/009/003/oo6
000 E032/Ell4
AUTHOR; Aglintsev, K.K.
TITLE. The ionisation chamber as a standard apparatus for
measuring the activity of Beta-emitting specimens
PERIODICALz lzmeritelinaya tekhnika, 1961, N0.9, PP. 39-42-
TEXT.- In the activity range 10-11 to 10-7 curie.standardising
p-activity measurements are carried out with the aid of 41T
0-counters operated either as proportional counters or geiger counters.
Scintillation counters with organic phosphors may be used to extend
the upper limit of the activities to lo-5 curie. In the range above
0.01 curie.absolute activity measurements are carried out with
calorimeters. There is therefore a gap between 10-5 and 10-2
curie. In order to fill this gap, the present author suggests the
use of an ionisation chamber of the "extrapolating type". This
type of chamber is illustrated in Fig.1, where u,3 , n are the
measuring, shielding and potential electrodes respectivVy.
The effective area of the measuring electrode is S = Tf P, / 4where
t is equal to the sum of the diameter of the measuring electrode
and one-.half of the gap between it and the screening electrods,
Card 1/ 4
2 7 U4,
The ionisation chamber as a standard... S/115/61/000/009/003/Oo6
E032/E114
In all cases the diameter of the specimen is assumed to be equal
to the diameter of the measuring electrode. When the ele~;trode
n is displaced from position I to position 2, there is a change
in the working volume (VIL - V2) and h e n c e a corresponding
change in the ionisation current (11 - 12). In Fig.1 the change
in the volume is shaded. The possibilities of this type of
chamber are illustrated by the following example. Suppose that
S = 0.1 cm2, Ll = 6 mml L2 5 mm (L is the distance between the
elec-Arodes) and hence Vl V2 =.o.ol cm3., The specimens to be
meaured are the following isotopes, S35 (167 keV), W185 (430 keV),
T120 (765 keV), Y91 (1560 keV), and p32 (1690 keV). The figuren
in brackets indicate the maximum energy of the �-spectrum.
The attivity of the specimens is assumed to be q = I curie/g,
the intenai-ty of the sourc,-~ i g/zO, and the thitkness of the
specimen 0.1 mg/Cm2. The se!~-absc-rption can then be neglected.
The volume Vl - V2. under these conditions will stibtend a solid
angle of approximately 0.024 at the source (K.A. Petrzhak, M.A. Bak,
ZhTF, 1955, Vol.25, No.4, Ref.1),and consequatntly,thia volume will
be traver8ed by 9000 p-particlets per sezond, The dose. rate P
due to thes-v, p-particles within the volume V, - V? may be found.
C a r rl 2, / 4 V(
27844
The ionisation chamber as a standard... S/115/61/000/009/003/oo6
E032/E114
from the data reported in Ref.2 (K.K. Aglintsev. V.P. Kasatkin,
Atomnaya energiya, 1959, V-7, No~2) and has the following values
(in units of 1o-3 rad/sec) for the above isotopes: 12, 7, 4, 3.3
and 3.2, respectively. In the case of s35, the absorption of the
P-particles in the air layer was allowed for; the correction
amounts to 141,). The energy resolution may be improved and the
current difference Il - 12 may be increased by using larger
thickness and area for the specimens. It is then shown how self-
absorption in the ~-source may be allowed for. Detailed
consideration of various special cases involved shows that the
source should be thick (100 mg/cm2t say) and should have an area
of the order of 10 cm2. The optimum value of the specific
activity of the specimen should lie between 10-4 and 10-2 licurie/mg.
The current difference Il - 12 will then be of the order of
10-11to 10-10 amp. As in the case of calorimetric determinations,
the specimens must be radiochemically pure since the presence of
other isotopes distorts the results.
There are 4 figures, I table and 4 Soviet references.
Card 3/4 dK
3)t2".3
S/58 61/000/055/003/006
D051YI)113
000
AUTHORSt Aglintsev, K.K.1 Ostromukhovat G.P.
TITLEs Roentgen reproduction within the range of e -radiation with a
quantum energy of 0.251.3 Mev
SOURCE: USSR. Komitet standartovt mer i izmeriteltnykh priborov.
Trudy inBtitutov Komitetp, no. 55 (115), Moscow, 1961.
Issledovaniya v oblaoti izmeroniya ionizi4ruyushchikh
izluchen.iyt 55-65
TEXTt The results of an investigation of a standard device for roentgen
reproduction within the range of ff -radiation with a quantum energy up
to 3 Mev are given* A previously described VNIIM installation of this
type was intended for ff -radiation of up to 1.5 Mevo In order to raise
the upper energy limit, some modifications were made. The standard
chamber was placed into a tank permitting the air pressure in the
chamber to be increased to 20 atm. This amount of pressure combined with
Card 1/4
Roentgen reproduction within the range ...
'14283
S/589/61/000/055/003/006
D051/D113
chamber parameters of d - 40 cm and r - 40 cm proved to be suitable for
measuring 3 Mev radiation in roentgens. Further details concerning para-
meters, component parts and arrangement of the device are given. Deter-
mining the saturation current,the authors had to take into account the
error due to increased air pressurev which makes it practically impossible
to measure this durrent in the chamber. Using the Jaffe-Zan'stra method
(Ref. llt Zanstra H.p Physika, No. 2, 1935, P 817; Ref. 121 Jaffe G.p
Ann.d.Phys., Bd 42(4), 1913, S.303; Le radium, t. 10, 1913, p 126) and
experimentally ~5rifyi the derivations ?btained by measuring LIIV
P C 0
radiations of S and 7-radiations 0, 0 , it was found that at up to
20 atm the corresponding saturation currents can be calculated according
to this method with potential differences on the electrodes f?-cn. 611 to
18 Vv. The constant C must equal 1.24 # 10 -4 in this case. The t~eore-
tical method of carrying out absolute measurements of the doses of OV -
radiation using the standard device is described. The dose rate P of
d -radiation directed towards the plane of the diaphragm Inarrowing the
ray beamis calculated according to the formu
P ~- K- ITsat__ *3'1 r/sec (4)
V
Card 2/4
3h283
S/589/61/000/055/003/006
Roentgen reproduction within the range,., D051/D113
(i sat - saturation current in amperes, determined from Jaffe-Zanstra
graphs; V - measurement volume equal to the product of the area of the
aperture section of the narrowing diaphragm and the effective length of
the measuring electrode: K = K K K K K K - product of correction factors
1 2 5 ~tc.)
for temperatureg radiation attenuaEQ Special stress is laid on
the calculation of K (correction factor for the effect of scattered
radiation). The foliowing conclusions were drawnt (1) The Roentgen unit
could be reproduced for radiations with a quantum energy of ugoto 3 Mev-
Taking all correctionsinto consideration, the value of the Cc
A ly -
constant as established at VNITM (13 V r/h 0 mc cm) coincided with an
accuracy of 2-5% with the value (12.i r/h ' mc 'cm) obtained at the NBS.
There are 9 figures and 20 references: 8 Soviet and 12 non-Soviet-bloc.
The four most recent English-language references are; H.O. Wyckoff,
J.Research. NBSp v. 64C9 No. 2t 1960; Report of the International Commi-
sion on Radiological Units and Measurementsp 1956, NBS, Handbook 62~
1957; L.V. Spenser, Phys.Rev., v. 98, 1955, p 1609; F.H. Attix, L. de la
Vergne~ J. Research, NBS~ v- 53, 1954, P 393-
Card 3/4
3h283
S/589/61/000/05~~-/003/006
Roentgen reproduction within the range... D051/Dll3
ASSOCIATION8 VNIIM
SUBMITTEDs March 30, 1960.
Card 4/4
8/186/61/003/ 005
d027017/018
?5111 Eili/E452
AUTHOR: Aglintsev K.K.
TITLE: Determination of the effective age of fission fragments
PERIODICAL: Radiokhimiya, 1961, Vol 3, No.2, pp.237-239
TEXT: A simple graphical method is described for determining the
effective age-of fission fragments and the duration of irradiation
of uranium in a reactor. The method is based on the comparison
of the isotopic composition of two different fragment elements.
The ratio of the activities, f of two isotopes is related to to
(the duration of irradiation) and' -r. (the time elapsed from the
end of irradiati.on) by
f (4)
or P2.(j
I=H (to) e
(5)
where Xl, X2 ar the radioactive constants and pl, P2 the
yields (in atoms per fission). To find* f and T the author
'Card 1/2
Determination of the effective
23005
S/186/61/003/'002/017/018
Elll/E452
recommends use of.measurements'for Cel4l/Ce,144 and Sr89/Sr9O, the.
relevant.information being available from the author's (Ref.2:
At'omnaya energiya, 4, 5, 461 (1958)) qnd other (Ref.l: D.Strominger,
T.Hollander, G.Seabord,.Rev.Mod.Phys., 30, 2, 585 (1958)) work. .
The f- T relation in a logarithm form is linear and is used by the
author to construct the nomogram which gives to and the time when
irradiation ended. There-are I figure and 2 references:
I Soviet-bloc and I non-Soviet-bloc. The reference to the English
language publication reads as follows: D.Strominger, T.Hollander,
G.Seabord, Rev.Mod.Phys., 30,,2, 585 (1958).
SUBMITTED: April 23, 1960
Card 2/2
- AGLIfiTSJTX.X,,; OSEW)UMOVA, G.P.; KOLINOVA, Ye.A.
Rx"rivental, determination of self-absorption along the axis In
Co'Du preparations of cylindrical shape, Atom. energ. 10 no-1:75-76
ja 161. (MIRA 13:12)
(Cobalt--Isotopes) (Gamma rays)
*1
;b
S/0-1/62/000/003/031/090
B150/B101
AUTHOR Arlintsev
IT 1;';" Levels of ionizin,p radiations or the earth
2 10 D I C A 1, :Referativnyy zhurnal. *A'112imlya, no. 3, 10,62, 130, abstract
3G117 (Tr. Konferentsii po radiats. gigiyenem, 1959, L.,
19100, 93 - 97)
T: The earth's population is exoosed to a systematic action of
radiation. '.Ohe irradiation dose by the natural back6round
(cosmic rays, radioactivity of rocks) is 0.1 rem Der annum, and from
artificial sources (X-rays irradiation) it is 0.1 rem. per annum. ~',
Particular daniTer is prezented by long,-lived raiioactive substances -.-ihich
havearrived in the stratom)here ab a result of atomic exnlosions. The
rate of radioactive fall-out in 1953 lias -3 irCu/km2 per annum, and the
content of radioactive substances in the soil was __10 mCuAM2.
Abstracter's note: ComDlete translation.
Card 1/1
AGILINTSEV, K.K.
Using the ionization chamber as a standard im-it for measuring
the activity of beta-emitting substances, lzm,'ekh. no.9:39-
42 S 161. (AIRA 14:8)
(Ionization chambers)
(Beta ray"easurement)
S/263/62/000/006/014/015
IOOB/I208
AUT11ORS Pglintsev,_~K.K. nnd Ostroinukhova, G.?-,
T ITT'LE A unit for producing 1 roentgen in the X -radiation
range of quantum energy of 0.25-3 nev.
ET &
-110DICAL: Roferritivn-,"- zhiirnal, otdollnyy-vypusk. 32. lzmeritelf-
P
naya tolchn',P%, no.6, 1962, 53, abatract 32,6,330.
(Ti-, in-tov Kuiri-ta stancl"'tov, mor I izmerit. priborov
pvi Sov. Lllin. SSSIR. 1961,1v.55(115), 55-65)
TEXT: A standRrd unit of VNI111.1 for producing I roentgen in the
X,-radintion range of quantum energy of 045-3 MiEU is described.
The ionization chamber was installed in a tank, in which the air
prossuro could be Increased up to 20 atm. This was sufficient'to
enable vintvm easure with an ionIzation ohFtmber of d = 40cm. and
.r = 40cm paramoters rndiations in a reciator-of quantum energy up
to 3 MW. The anode vol'Ungo was 20 W. The ionization currents
wore measured bv, the null method, using a ti.c. unplifier of the
-)MY-3 (EM-3) type, in this inethod the non.L.Lnunrity of the am-
Card 1/2
S/2~3/62/000/006/014/015
100P/1208
A unit for producing 1 roentgen,..
plifier di-i not introduce-,an error in the measurements of the
current strength. At the same t.1me the error in the ionization
curront did not exceed d~ 3,3. Taking into account all the correct-
Ion coefficient3 the value of the W-constani of Co6~ measured by
nenns of this standnrd i~nit,ngreed with the-values measured bv. the
US -A . 114ational Burenu of Stp-ndards within 2.5%. There are 9
figures, I table and 20 references.
[P. bstracter's notes Conplete translation.]
Card 2/2
38039
S/263/62/000/005/007/010
1007/1207
Authors: Aglintsev, K. K., Maksimova, M, P., and Uryaycv, 1. E.
Title. A SPECTRAL METHOD FOR DETERMINING GAMMA-RAY DOSES
Periodical: Rrjerolivnyy -hurnal, Afashinostroyeniye. no, 5,1962, 64 abstract 32.5.356 (Trudy in-row Koyn-to
standartov, iner i izineritpriborovpri Sot,. Afin. SSSR, no. 55(115),1961,90-98)
Te.xt: Descriptiort is given of a method for determining radiation doses from flat #-sources, the method being
based on the use .3f an active electron spectrum. Spectral research was carried out by means of a scintillation
beta-spectrometer consisting of a I-C photomultiplier ansd a stilbene crystal 20 mm long and 25 mm in
diameter. During the measurements the spectrometer and radiation source were enclosed in a nontranslucent
(opaque) container. The efficiency of the measuring unit was determined by comparing the measurement
results obtained by the same source and by a 471 counter. Comparison was made of the intensity values
of the absorbed dose, by measuring both with the ionization (extrapolation) and the scintillation chambets-
When using a T1204 source with a working diameter of 38 mm, the intensity values of the dose measured by the
above methods tit a distance of 9 cm from the source, showed good agreement, with a deviation of only � IS %.
The distribution of the dose field was investigated for a series of beta radiators (S-35, T1204, Y90 and 1131) of
varying working diameter, applied to different supports. In these experiments, the scintillation counter was
Card 1/2
,AGLINTSE-V K.X,- MITROFAVOV V.V.; RIMSKly-MRMOV, A.A.;
$
-gflimovt V.V.
Investigation of the angular distribution of photoelectrono
knocked out of Ag a,,d Bi targets by game rays from Go 1379
Izv. AN SSSR. Ser. fiz. 26 no.9:1141-1145 161.
(141RA 14:8)
. ~Electrons--Spectra)
Gamma rays)
AGLINTSEVJ_K,~f.; MOSKVINA, Ye.P.; RUSINOVA, S.A.
Wasuring the activity of b9ta emitters by means of an
ionization chamber. Trudy inst. Kom. stand., mer i izm. prib.
no.69:42-55 162. (KRA 17t8)
1. Vaesoyuznyy nauchno-issledovatellskiy institut metrologii
im. Mendeleyeva.
AGLINTSEV) KOKO
060
Use'of C
the unit of
i izm. prib.
glqmma ISO- rd r-easures in determining,
urces as standa
exposure dose rates. Trudy inst. Kom. stand., lber
no.69:70-74 162. WRA 1718)
1. Vsesoyuznyy nauchno-issledovatellskiy institut metrologii
im. ~%ndeleyeva.
2~. 2LI 00 S/089' r62/012/001/009/019
-.9' V ~ Ll Lo B102 B138
AUTHORSt Aglintsev, K. K., Kasatkin, V. P.
TITLEt The shape of the beta spectra at various depths of an
irradiated medium
PERIODICALt Atomnaya energiya, v. 12, no. 1, 1962, 51 - 52
TEXT: Problems of beta dosimetry require knowledge of the spectral
shape. This has been found to be only slightly dependent on the depth
of the irradiated medium. This empirical fact was verified by investiga-
tions of the shape of transmission ~_spectra for S35(E max ~ 0.167 Mev),
W185(E max ' 0.43 Mev) and Y91 (Emax a 1.55 Mev). In all cases the peaks L'A/
were of equal height, independent of depth and were somewhat broader for
smaller thicknesses. On the N(E/E lim )-curves they shifted toward higher
E/E lim values when thickness was raised. The dose D 1 was found to be
constant in each caseq which holds for filtrations in which 7 - 10% of
the number of incident ~-partiales remain in the beam. With stricter
Card 112
32oo6
S/089/62/012/001/009/019
The shape of the beta... B102/B138
filtration the spectrum becomes softer. The ~_spectrum of Y91, filtered
through 525 mg/cm2 of a tissue-like stAbstanoe, is similar to the non-
filtered Tl 204 spectrum (E max 0 0.76 Mev). There are 2 figures and X
2 Soviet references.
SUBMITTEDi September 22, 1961
Card 2/2
AGLINTSEV, K.K.. KASATKIN, V.P.
Physical principles of adopting a specific /3-irradiation
technique. Mod. rad. 5 no.1:52-58 J& t6O. (MIRA 15:3)
(RADIATION DOSA )
(BETA RAYS-M&RAFEUTIC USE)
kG=EVj-K-cK-6 KODYUKOV, VA, Ly7LOVt A.F.; SIVINIOSEV, Yu.V,~
I
CHUGASOV, A.A., red.; MAZELI, Ye.I.. tekhn. red.
(Applied dosimetry]Prikladnala dozimetriia. Pod obshchei
red. K.K.Aglintseva. 14oskva, Gosatomizdat, 1962. 2416 p.
(MIRA 16:2)
(Radiation--Dosage)
PHASE I BOOK EXPLOITATION SCI'V/6376
Aglintsev, K. X., V. M. Kodyukov, A. F. Lyz1ov, and Yu. V. Sivintsev.
Prikladnaya dozimetriya (Applied Dosimetry). Moscow, Gosatomizdat, 1962.
246 p. 7800 copies printed.
Ed. (Title page): K. K. Aglintsev, Professor; Ed.: A. A. Chugasov;
Tech. Ed.: Ye. I. Mazell.
PURPOSE: This book is intended for engineers and technicians working* in the
.field of atomic energy. It can also be used by students specializing in
ioni zhig- radiation dosimetry.
COVERAGE: The physical principles of dosimetry are described, and the
organization of radiation control ~n laboratories and enterprises engaged
in work with ionizing radiation is discussed. No personalities are
mentioned. There are 30 Soviet references, 10 of which are translations.
CarA412-
AGLINT,MV, K.K.,-- KI.JL'KOVA, L.P.i Yo.A.
Standard calorimtric un-i'l II.M-1. Nov. rauch.-issl. rab. po meettr.
VNIIM no.2:1-4 164. (MIRA 1~3Z4)
AGLINT,SEV, X.K. .
Calculation of the radiation spectrum of standard Go6O and
csl37 emitters. Nov. nauch.-issl. rab. po matr. VNIIM no.2~~
24-27 164. (MIRA 18:4)
, tjANT',)EV,K.K.; KOCHINA, M.P.: URYAYFV~ I.A.
Ac
Unit with extrapolation ohambers for mi-asurlrg the lin-.An.-Aty of
radiation doses from pbx~e Betva-rtay emitters. Nov.
rab, Po mf3tr. VNIIM no.4,)2-35 164.
UPK apparatus for studying tI-Le fields and inter;sitie3 of ~_I-Ilys
from plane emitters. Ibid..36-40 (MIRA 18.-1,)
AGLINTSEV, K.K.; URYAYEV, I.A.
Unit for spectral and dosimetric measurements of plane fl-emitters.
Nov. nauch.-issl. rab. po metr. VNIIM no.2:40-43 164. (MIRA 18:4)
L 11512-3-65 ---WT(m) D1AAP/9SD/AF141. D".
ACCESSION' NR- AP4045336
AUTHOR: AjZlintsev, K. K. , Kasatkin, V. P,
TITLE - On the passage of beta-particl s thrnuKh; Ti _tter-
SotTRCE: Atorinava ene rViva, v 17 no ~ I c) 64 7 1)
TOPIC TAGS: beta particle , passage, beta particie scatterin,g, maxirial beta
particle energy, beta particles absorption r--_)effic7ient
ABSTRACT- The paper describes the experimental investigation of the passage
of beta-particles through substances with Z 27 The spectra of scattered beta-
eff
part;cles were measiired with a scint,11-ili- - c; i-v- mf' * F- -The angular dis-
tribution was measured of scattered -r)articles emitted bv P14-1 (F 0. 22
- M
Mev). W1 85 , E 204'f F I pj~ax
riax 7 0. 43 Mev), T! ',,1e-, d (F-inax
1. 7 lviev) of 4. microcuric stren
_zf h The .:,z between the
absorption'' co-ffk ient and the max:-TI I, 'Pt1!-*._!-.'; Frniix was ~-)und
,,uz 0. 01,5,1 Ej~a~;37 . Orig. art. has: 5 figures
C,,d 1/ 2
L 1Q,123-65
ACCESSION NR: AP4045336
ASSOCIATIO14: None
SUBMITTED- llNov63 ENCL: 00
SUB CODE. NP NO REF SOV: 001
OTHER: 005
Card2/2
G.K.; RUNOVSKAYA, I.V.
I., '~"Rjsovl
fractionating coluTiuj for pas scrull ~'av. lab, '~C
ne.%I11,2-1153 164.
1. Nt~,iietino-J.s,,;ledovatellskiy institut khimi.~ pi-i ll-rl ""I'A...im
gosudarst,jennom universitete Imeni Lnbachevsk~~4-,~~
ACCESSION NR: AT50le649 UR/2950/65/000/004/0017/0022
OR:- ---A' illtsev~ X. X.
SOURCE: EIKA, Entsiklopediya izwer-eniy, I