SCIENTIFIC ABSTRACT BARCHUK, I. - BARCIKOWSKI, W.
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M V. I. F. ', VERTE-PI-7' 1 VL"C',"
Z. V. V.
TS D, T
I-LA)~'TRMNKC, A.1 ~,USTCVO~. V. 1. A, Pi-
"The parameters of the M4R-M reactor of tne Inst of UkSSR and
its anplicat4 on in nuclear physics research."
report stfomitted Cor 3rd Intl Conf, Peacefid of Atomi,--
Lnergy, Geneva,
31 Ai4g-c) sep 64.
ACC NRl AP7002172
AUnIOR: Barchuk., 1. F.; Pilipets, D. T.
ORG: none
SOURCE CODE: UR/008.9/66/02-1/006/0514/0515
TITLE: Method of checking the tightness of the fuel elements
of the VVR-M reactor
SOURCE. Atomnaya energiya, v. 21, no. 6., lWi 514-515
TOPIC TAGS: reactor fuel element, nuclear fission, fission
product, metal cladding/
WR-M reactor
ABSTRACT: The method described by the authors was developed at
the Physics Institute
of the Ukrainian Academy of Sciences in 1962. Its features are
that the gaseous
fission products accumulated in the fuel elements are
extracted from an unsealed
fuel element by vacuum into a large volume, after which they
are gathered and con-
centrated in an ionization chamber whose volume is 1DO times
as small (Fig. 1).
This greatly increases -the sensitivity of the method. The
current produced in the
ionization chamber by the radioactive products from -the fuel
element serves as a
criterion for determining the degree of Its tightness. A
procedure for applying
this method under reactor conditions is described. The time it
takes to test one
fuel element is about one hour and requires the services of
only one operator.
Orig. art. has: 1 figuxe.
um. 621.039.547
ACC NRt AW002172
Fig. 1. Schematic diagram of iristallation for
checking tightness of fuel elements: 1 - Measure-
ment of ionization current, 2 - to special vent-
ilator, 3 - distillate tank, 4 ionization chamber.,
5 filter, 6 - vacuum meter, 7 forevacuum, flask,
8 forevacuum pump, 9 - compressed air, 10 - watei~-
measuring beaker, U .. to speciixl vasto disposal,
12 - vacuum chamber, 13 - measurement of fuel ele.
ment temperature.
suB com 18/ Sum DATE: a7Apr66
2
MOROMBIt U.I.; BIJSIE,,TKOO A.I.; BARCHUK, V.F.;
TRUIUS, Ye.K. (K-iyev)
Asian influenza of 1962 and the chEracteristics
of its cli
nical course. Vrach. delo no.lt102-105 JaI64
(MIRA 17:3)
1. Thstitut infektsim-n-ykh bolezney Ministerstva
zdravo-
okhrimeniya UkrSSR.
Poliomyelitis in vaccinated children. Vrach. delo
no.11:93-96
N163. (MIRA 16.12)
1. Institut infektsionnykh bolezriey Miristerstva
zdravookhra-
neniya, UkrSSR.
5W
SOV./60 - 12-4 -2-4/a,"i
AUTHORS.
Prantsev~_ch-Zabiudovskaya, T,,F,, Zayats, A.!, and
Barchuk, V,T.
TITLE-
On the Problem of the State of Nickel In
Tartaric Acid Ammonia and
Citric Acid Ammonia Solutions (K voprosu
o sostoyanii nikelya v
vinnokislo- i limonnokisloammiachnykh
rastvorakh)
PERIODICAL:
Zhurnal prikladnoy khimii, 1959, Vol 32, Nr
4, PP 84-7-847 (USSR)
ABSTRACT:
In previous publications ZR-ef 7,
87 the authors DUt forward a
hypothesis that in citric acid and
tartaric acid ammonia electro-
lytes for electrodeposition of the
alloys of molybdenum and
tungsten with nickel, the latter is
discharged from the complex
oxyacid anion, To check this
hypothesis, the authors undertook
additional investigations of the
absorption spectra of nickel
sulfate solutions in the Dresence of
citric acid and tartaric acid
salts, ammonia and their mixtu:~es~
Determinations of the absorption-
spectra were carried out with a
quartz spectrUhotometer of the FIF-4
type. -The--results obtained
are shown in Figures 1 and 2. Determina-
tion of the sign of the
charge of nickel-containing ions was carried
out with a device
shown in Figure 3 which contains non-polarizable
copper - copper
sulfate electrodes at a voltage of 140 v and a
Card 1/3
current
intensity of-20 mA. The results of' observations are shown
SOV/.80 - 3 2:,4 - 2 4'/47
On the Problem of the StaTe of Nickel ii Tartaric Acid Ammonia
and Citric. Acid
Ammonia Soluticns
.M Table 3. Conclusions drawn by the authors, from their
experimen''.*
are as followa.- I. Both pcsitive and nagative charged compounds
of
nickel have been discovered in citric acid dmmonia solutions,
where-
as in tartar4_.:~ a.~id ammonia solutions anions have. not been
detectedi
2, Two absorption max--'-ma have been found in tartaric acid
ammonia
solutions by measuring the optical density, and their wavelengths
correspond to those of ammonia and tartaric acid compounds of
n�ckeli in citric acid ammonia solutions only one maximum has been
observed, and its nature indicates the presence of Interaction
betweer positively and negatively charged compounds; 3, The
nickel
deposition in oxyacidammonia electrolytes occurs mainly from
ammonia
complex cations, and the previous conjecture of the authors thus
Card 2/3 p-roved to be not quite justified,
SOV/,90-"2-,d-24/47
On the Problem of the State of N-L*.ckel in Tartaric Acid
Ammonia and Citric Acid
Ammonia Solutions
There are 2 graphs, I diagram, 3 table3 and 8 references, 6 of
which are Soviet, 1 American and 1 French.
SUBMITTEDt November 14, 1957
Card 3/3
S/073/60/026/001/00-7/021
B004/BO54
AUTHORS: Frantsevich-Zabludovskaya, T. F., Zayats.. A. I.,,
and
Barch V. T~
.,a_uk, _
TITLE: 1,Jechanism of Electroprecipitation of Molybdenum- and
Tungst!~r
Alloys With Metals of the Iron Group, 2. Oscilloscopic
Invesiigation
PERIODICAL: Ukrainskiy khimicheskiy zhurnal, 1960, Vol. 26,
No. 1,
Pp. 10-15
TEXT: The authors have found in Ref, 1 that electroreduction
of
tungstates and molybdates to metal depends on the velocity at
which they
are brought up to the discharge spot. In electroprecipitation
of metals of
the iron group and their alloys, however, the discharge of
ions is the -7-
retarding stage. This was proved in the present study by
taking o3cillo-
grams. The calculation method of V. A. Royter (Ref. 2) was
usel. Royter
derived equations for the potential change as a function of
time when the
polarizing current is switched on and off, For ferrous
metals, only the
switch-off oscillograms are suitable, for which the equation
d,8E/dt
Card 1/4
Mechanism of Electroprecipitation of S/073/60/026/001/002/021
Molybdenum- and Tungsten Alloys With Metals of B000054
the Iron Group. 2. Oscilloscopic Investigation
= +K SiMpJ4 f jed
- lexp(-AE/bf) - exp(AE/bl)] (1) is written down, It can be
for strongly polarized metals: d6E/dt = 1-K exp(LE/bl) (2)
Integration
over 0 - t and AE - LE,, and transformation yielas: t
LE LEO
1 (b/2.3-K)(10-0 /b 10- to) (3). In these equations, t denotes
the
time, bE the difference between the equilibrium potential and
the potential
of any point in the oscillogram,46E 0 the difference between
equilibrium-
and initial potential, b' = RT/azF; b = 2.3b'; K = V zF/c; z
valency of
0
the discharging ion; c-= capacity of the electrode in farads/
'm'; a = c0-.
efficient of the equation for retarded discharge; V 0 = rate
of the proc~~s3
discharge - ionization with switched-off external circu4t-,/K
can be Cal
Ir b b)
culated ' om the linear relation between t and RI 10 10 E
The experiments were conducted by the method described earlier
(Ref- 1)_
The electrode potential referred to a calomel electrode was
mpa3ared by a
IrDT6-1 (PPTV-1) potentiometer. The author3 used all MTrO-2
(MPO-2) 2c~,,p
oscilloBcope combined with an electronic amplifier Thp
velocity cS
A
Card 2/t
Mechanism of Electroprecipitation of S/07 3/60/0206/00 1
/002/021
Molybdenam- and Tungsten Alloys With Metals of B0041BO54
the Iron Group. 2. Oscilloscopic Investigation
recording film was 500 mm/sec) 500 time marks per sec were
recorded. The
oscillograms of electroprecipitation of Ni and its allcys
with W and Mo
from an ammoniacal electrolyte were taken at 250C and a
curreiit density
between 0-4 and 1 ma/cm2 14
- The retarded ~scharge was --onfirmed to be the
decisive stage of electroprecipitation of Ni and its alloys.
The following
mechanism is suggested: The tungstate and molybdate anions
are deformed
due to the polarizing effect of the cathode and the Ni
cation~ The bond
between oxygen and metal in the anion is weakened. The nickel
ions are
reduced on the cathode, active nickel Ni* forming whose
valency electrons
are on a high energy level. By reaction of activated Ni with
deformed
anions, active complexes are formed: Ni* , W02--~-Ni*--WO
This facili-
4 4'
tates the interaction between W (or Mo) and electrons, and a
reduction
occurs under formation of a solid solution. Ni*.,.WU4 1 6e +
4H2O---)Ni-W
+ 80H ~ A. N. Frumkin is mentioned. There are 4 figures, i t
ab 1. e . 'ar ~1
12 Soviet references.
Carl 3/4
Mechanism of Electropr-?nipitation of
Molybdenum- and Tungsten Alloys With Metals of
the Iron Group. 2. Oscilloscopic Investigation
ASSOCILTION: Institut cbsh-lhey i neorganiaheskoy
of General and Inorganic Chemistry
SUBMITTED: October 8, 1958
I
S/073/60/026/00-,/002/021 I
EC-04/BO54
khimii AN USSR (Inst--tutc, -
AS UkrSSR)
Card 4/4
IL 17704-63 j(q)AWT(m)/BDS AFnCASD -m
2
--t/007~/63/029/007/07 7 6
Grechina, T. 11.; Barchuk, V. T,.
iAUTHORSs Sheyko, 1. N
TIT123 Anodic dissolution of zirconium in a fused equimolar mixture
of potassium
and sodium chlorides
A
AL IV%,
S OURCE: inskiy khimicbeskiy :hurnal, v. 29, no. 7, 1963, 722-726
TOPIC TAGS: anodic dissolution, potassium chloride, sodium.chloride,
zirconium
LB32RACT: Anodic dissolution of zirconium in wide mrrent density
limits and th(
e:aanges of its ionic condition from the natural layer inside the
electrolyte have
been analyzed. The study was performed between temperatures of 700
and 720C in
a, fused equimolar mixture of potassium and sodium chlorides and
with varied anodic
o,=en* ensity. It was shown that, with ornall current densities of
0-05 to
0.1 a/cm , zirconium dissolves preferentially in the divalent form.
With an
increase, of current density, the average valence of the dissolved
metal grows, but
at a current density of 2 a/cm? and higher, it becomes equal to
four. The dival-
vnt zirconium does not accumulate in the fused mass but is
disproportionated to
lzitconium tetrachloride and metal. Zirconium dichloride exists in
equilibrium
vl~h the metal only on the surface of highly dispersed motallic
zirconium which
is obtained in the process of disproportionation. Orig. art. has' 4
tables arA
!
C,,~d
L 17704-611
ACCESSION NRI
2 figwes.
SSOCIATIMITs Inatitut obschey i neorganicheskoy khimii. All UkrSSR
Ipstitute of
1,T!neral und inorganic chemistry, Academy of Sciences, Ukr
SUBMTM): 07D6o6l DATE ACQt 15AU963 ENCL: 00
SVB GODED CH
NO REP SOVs 003
Card :2/.2
ACCESSION NR: AP4040756 S/0073/64/030/006/057VO581
AUTHOR: Shevko, I. N. ; ~3archuk, V. T.
TiTLE: Zirconium dichloride behavior in molten mixtures of
alkali-
and alkali earth chlorides
SOURCE: Ukrainskiy khimicheskiy zhurnal, v- 30, no. 6, 1964,
577-581
TOPIC TAGS: zirconium dichloride, zirconium tetrachloride '
zirconium!
dichloride disproportioning, alkali chloride, alkali earth
chloride
ABSTRACT: The object of the study wa* to find the behavior of
zirconiun d--*,chloride in the followino, melts: M-31iC!,
NaCL-CaCl., KC1-MgCl,, NaCl-MgC1 , NaCI-BaCl,, NaCI-A!Cl ~Ci-
NaC1-ZrC1 It was ound that u~ to 1~00C Zr remains Lchanged
and insol~Able. it is present in the meltv in -L.?Ie '101-[a
OfL' a fine
suspensiDn. Above 400C, deponding on lk"ho comi-position oi"
the melt,
it dissociates into ZrC11 and Zr metal whi6h rema-ins in
6uspension
together with the unreacted Zr01 at its surface (in a state of
equilibriiun) while ZrCl dissolvh in the melt. Thi3 process
depends.
on the nature of the Meit, on temperature, and on the duration
of
the expuriment. The quantity of ZrC12 SUSDonded in the melt
depends
.Card l/2
ACCESSION NR: AP4040756
on the temperature and the stability of the Zr metal susppnsion.
All melting tests were made in an argon atmosphere, since Zr
powder
spontaneously ignites in the air. The conversion of ZrC12 into
ZrClj, is practically comple.ted in the firat 30 i4i.a. Orig.
art% has:
3 figures, 2 tables.
ASSOCIATION: Institut obahchey i neorganicheskoy lihimii A~N
UkrSSR'
(Institute of General and Inorganic Chemistry AN UkrSSR)
SUBMITTED: 28Dec62 ENCL: 00
SUB CODE; IC NR REF SOV: 002 (MIER: 000
Cord
USSIR/Physics Cogkic Rays
176T, 04
I Aug 50
"Transitional Effect of Density in Electron-Nuclear Showers,"
Y. I. Podgoretakiy,
A. I. Barchulcov, D. F. Rakitinj, Phys Inst imeni Lebedev, Acad
Sci USSR
"Dok Ak Nauk SSSRII Vol LXXIII., No 4. pp 685-688
Reveals "transitional effect of density". Appearance of
difference between (a) the
probability q2 of recording silmiltaneous creation of 2 showers
generated by 2 particles
formed in previous shower and (b) the mm of the probabilities
(2.1) of recordihg 2
successive acts of shower formation created by these 2
particles by separately. This
effect has also been considered by N. G. Birger, V. 1. Vekeler,
N. A. uobrotin, G. T.
Zatsepin, L. V. Kurnosovaj A. L. Lyubimov, I. L. Rozentallp and
L. Kh. Eydus (see
*Zhar Eksper i Teoret Fiz" No 19, 826, 1949). Submitted 3 Jun
50 by Acad D. V.
Bkobelltsyn.
-B)q WC 14 0,tc v lq.=
ussp'i-l,kysics - Microwave spectrosecpy
Card 1/1 Pub 146-17/18
FD-'129
Author Prokborov, A. M., and Barchukov, A. I.
Title Method of measurin,-, the absorption coefficients in
microwave radio-
spectroscopy
Periodical : Zhur. eksp. i teor. fiz., 26, 761-763, Jun 1954
Abstract : Letter to the editor. Points to some defIciencies in
Hugues's method
(Ann. IT. Y. Acad. Sci. 55, 872, (1952)) of measuring
relative.inten-
sities and suggests some improvements. One reference, above
mentioned.
Institution : Physics Institute imeni Lebedev, Acad. Sci. USSR
Submitted : March 9, 1954
USSR/Elect.-Onics F~re'quency Stabilizers FD-2224
Card 1/1 Pub 90-4/12
Author Barchukov., A. I., Vasillev, G. A., Zhabotinskiy, M. E.,
Osipov. B. D.
Title Electromechanic klystron frequency stabilizer
Periodical Radiotekhnika, 10, 29-32, Mar 1955
The article describes results of testing an electromechanic
klystron fre-
quency stabilizer developed by the authors at the Physics
Institute imeni
P. N. Lebedev of the Academy of Sciences USSR in 1951. The aim
of this
research was to develop a stabilizer simple in construction and
operation,
which could also provide an easy means for the klystron
frequency changer..
To attain these prerequisites in a single block, the functions
of cavity
resonator and the discriminator were unified, and the modulation
of reso-
nan't frequency of the cavity-resonator vavemeter was executed
by means of a
movable membrane.
.tution: Physics Institute imeni P. N. Lebedev, Academy of
Sciences USSR
Submitted : 16 Apr 1954
U3-2/Physics - Spectrum of C 2H5C1
C~rd Vl Pub. 146 - WA4
Barchtd.ov, A. I.; Minayeva, T. M.; Prokhorov, A. 11.
Microwave spectrum of the molecule C2H5 Cl
teor. fiz., 29, No 6(12), Dee 1955, 892
The airbhors conducted a preliminary study of the rotational
spectrum
of the molecule C2H Cl noting that a brief communication on
the spec-
trum of this molec2e 'had been published by R. Wagner and B.
Dailey
(J. Chem. Phys., 22, 1459, 1954), who investigated the
transitions
111-21:?, 110-211, 211-332, and 220-321 for molecule C2H5
c135 and
transitions lii-221, 110-21, for molecule C2H C137 and who
obtained
from these transitions the values of the rotaZional constants
B and C
and also the quadrupole bonds along the main axes of the
moment of
inertia. The -Dresent writers of this note studied new
transitions,
whose frequencies are listed, in Lhe care where the
.1--f1liciice of qua,
rupole interaction is excluded. Using these results they were
able to
determine the dipole moment pa of molecule C2H Cl 35 from the
Stprk
broadeninL! of the line of superfine structure ~= 3/2-5/2 to
be Fa
1-79tO-05D.
Physical Institute im. P. N. Lebedev, Academy of Sciences USSR
July 19, 1955
17-
13
icrowave rotation spectrum of the othyl chlorfda,
rmlet0it. A. 1. flayebukov T. M. Alinaeva, and A. V.
, 1~11 I- A - 'c"
X
V.A. SD, If)537/._ p- LL-Ll-
PR I K I t CFF'K 0,
214 (T) 3 Pun i Dom zxPLOITATiom 30V/1365
Lfvoy.
UnIversytet
Materialy X Vaesoyuxn-go noveahchaniya po apektrookopil. t. 1:
MolokulyarnAya spekt-roaV~piya (Paptra of the 10th All-Union
Conference on Spsctrsscop7. Vol. It Mlecular Spectroscopy)
JL1vovJ Izd-vo Llvovakogo univ-tat 195T. 499 p. 4 000 copies
printed. (Sarlasi ites Firychnyy zbirnyk, vyp. 5A~)
Additional Sponsoring Agena7i Akademlys nauk SSSR. Komiselya pa
Bpektromkopil. Pd.% Jazer, S.L.1 Tech. Ed.. Saranyuk. T.V.t
Mitorial Board: Lan4aterg, a.S.* Academician (Rasp. Yd.,
Deo*As*d)#
Neporent, B.S., Doctor or Physical and Mthematical Sciences,
FabelinBkly, I.L., Doctor of Physical and Kathematioal Solencest
Fak,rlkazt, V.A., Doctor of Physical and Mathe=&t1o&I Sciences.
KQrmit%ldx, T.G., Candldat4 or Tec!idoal Sclencoal Rayakly, 3.X.~
Candidate of Phy ioal ani Mathematical Sciences, Jalmovakly,
L.K.,
Candidate of Ph.T:-*cal and Mathematical Sciences, Millyanchuk,
V.S.,
Candidate of Fhlsloal mad YatherAtical Sciences " Glaubermax,
A. Ye., Candidate of Physical and Kathematical A41ences.
Card 1/30
AlskaAnymn, V.T., Kh. ye. aterin, M. yu. Luktn&, et ma.
PA=n Spectra of Certain cyoloprop&na Vqd"carbans
" the Double-band Conjugation or a Throe-seubgr*4
Ring 64
SaftlMADVAn. V.T., Xh. Ye. St rtn. "I Yu. Uadna' am
L-A- XA1dU0ttY&ft. PA.= Sp.:tra or Certain Monoalkyl
Cyalobutama aa Of Cyclabutylbr,,aido 68
laoohkov, v.P. affect Of the Solvent on Absorption and
Fluorescence spectra TI
%"_U~qv4k&J, T*N. Airina, and A.K. prgkhor".
. W.Growave Spectrum or the C2H5C1 Holsoulo 75
VArIVOT, F.I. Temperature Dependence of the y"qasngle,
or tbA N_10&r %isdr.1pole pA&OA... . 75
3orod1n, P.M., 1P.1, Mmlpw. Chemical Displaaaawnt and
the Plas 3truatuxe of the ftolo&r Magnetic pmsonaws
of nuorift iz a series or comwounas .6
Sov/51-4-4-14/24
AUTHORS: !Barchukov, A.I., Murina, T.M. and Prokhorov, A.M.
TITLE: Mic-ro~i~v7'e~~S~ectrum and Rotational Constants of the
C2 H5C1
Molecule ~.-Ilikrovolnovyy spektr i vrashchatel'nyye -Dostoya-
nnye molekuly C 2H5Cl)
PERIODICAL: Optika i Spektroskopiya, 1958, Vol.IV, Nr 4
pp 521 - 523 (USSR3.
ABSTRACT: Microwave rotational spectrum of ethyl chloride
(C2H5CI) was first described in 1954 (Referencel). An approx-
imate value of the rotational constant A for the C2H 5 C135
molecu----e and the value of the dipole moment ji a were given
in Ref 2. The present paper reports a more precise deter-
mination of A from transitions related to changes of the
dipole moment jLb - For this purpose, the transitions
OOO--,o lll(,j= A + C) and 101---~ llo(-j = A - C) were found
to
be most convenient. The first of these transitions lies in
the region of 36 000 Mc/s and the second in the 26 000 Mc/s
region. The ethyl chloride spectrum was found to be very rich
Gardl/3 in lineg in the range from 25 000 to 42 000 Mc/s. The
lines of
Sov/51-4-4-14/24
Microwave Spectrum and Rotational Constants of the C2H 5C1
Molecule
the Q-branch from I = 1 to I = 9 lie in this range. The
Q-branch was identified graphically by a method desgibed in
the present note. The value of A for the 02 H5Cl molecule
obtained from the transition 1 01 --;~l 10 is 31 337.6 + 0.5
Mcls
and the value of A obtained from the 0 00 --->l 11 transition
is 31 336.L~ Me/S. Since the hyperfine structure of the
000 --> 1,1 transition was not fully resolved, the value of A
L
obtained from the 101-> 110 transition Jis the more reliable.
From the transitions considered here the value of the
rotational
constant 0 was found to be 4 961.6 Me/s, which agrees with
the value reported in Ref 1. The rotational constant A for
the C2H50137 was found to be 31 285.7 Me/s. Table 1 on
P 522 gives the frequencies of the 101 ---> 110 transition
lines for various values of F . Table 2 gives the calculated
(second colimn) and e3cperimental (third column) valu~,9 of
rotational constants A, B and C for the C 2H5 and
Card2/3
Sov/51-4-4-14/24
Microwave Spectrum and Rotational Constants of the C 2H5Cl
Molecule
02H5C137 molecules. Table 2 shows good agreement between
the experimental and calculated values. The value of the
dipole moment ~L was found from the Stark splittin- of the
a 0
000-,*lol transition. This value is given as
1.745 D + 1.2% . There are 1 figure, 2 tables and 3
referencis, 1 of which is Soviet and 2 are in English.
ASSOCIATIOV: Fizicheskiy institut im. P.B. Lebedeva AN SSSR
(Physics Institute imeni P.n. Lebedev,Ac.Sc. USSR)
SUBMITTED: April 4, 1957
Card 3/3 1. Ethyl chlorides-8pectrographic analysis
AUTHORS: Barc4q,4qy.,,-JL..1.,,apd Basov, N. G. Sov/-21-4-4-la/24
TITLE: Measurements of the Frequencies and Intensities of the
Hyperfine Structure Lines of CH 31 (Transition J = 0-41)
(Izmereniye chastat i intensivnostey liniy sverkhtonkoy
struktury CH 31 (perekhod J = 0-4 1) )
PERIODICAL: Optika i Spektroskopiya, 1958, Vol IV ' Br 4,
P 532 (USSR).
ABSTRACT: Complete translation. Both:Wequencies and absolute
intensities of the hyperfine structure lines of the C 12H3 1127
molecule were measur,5~d. The results of measurements are given
in the table;
Transition Frequency in Mc/s Intensity
F--p F I Measured calculated (in cm-1)
5/2 3/2 1.5275.87+0-05 15275.82 2.3 x 10-6
5/2 5/2 14695.2270.05 14695.22 3.5 x 10-
5/2 ?/2 15100-7410-05 15100.?0 4.3 x 10-6
Cardl/2
Measurements of the Frequencies and Intensities of the
Eyperfine
Structure Lines of CH 31 (Transition J = 0 --.*l )
Calculation of the frequencies was carried out inclusion
of corrections of the second approxi;ration of the perturbation
theory, using a value for the rotational constant
B = 7501.2q Mc/s and the qnadrupole couplint-- constnnt
--l-.)34 f~,Ic/s. The values of the,,,c constants ai~ree with
the
constants given in Refs 1-3. The absolute intensities of lines
were measured by the qethod described in Ref 4. The measured
relative intensities agree within 155o' with the calculated
values
based on spin equal to 5/2. There are 1 table and 4
referc.-.-ices,
1 of r-.,hlich is Soviet and 3 in English.
ASSOCIAMOB: Fizicheskiy institut im.P.V.Lebedeva Li SSSR
(Physics Institute ira.P.i4.Lebedev_)Ac.Sc. USSR)
SUBMITTED: July 22, 1957
Card 2/2 1. Methyl iodides--Spectrographic analysis
SOV/51-.-6-16/2,1
AUTHORS. Barchulcov, A.I. and Prolchorov, A.M.
TITLE: Micromave Spectrum of the CH5GaH3 Molecule
tMikrovolnovyy spektr
molskuly CH3GsH3)
PHRIODICALs Optila% i Spektroskopiya, 1958, Vol IV, Nr 6,
p:799 (USSR)
A.BSTRACT: A canplate translation. Spectrum of various
isotopic combinations
of the molecule CH3GeH3 were studied in the region of
33000-35000 Mel's. The authors studied the transition J =
1-*2 which
lies in this fi-equency region. The studied molecule exhibits
internal
rotation of the CH3 and GeH3 groups with respect to one
another. The
lines 'which 'were due to torsional vibratLons were observed.
These
lines were four times weaker than the lines of the ground
state (v = 0)
and were separated by about 80 Mc/s from the latter. The
excited-state
line (v = 1) was split into two components with a ratio of
intensities
of 1 s 2 and a separation of 1.8.Mc/s between them.
Card 1/4
hilcrovave Spectrum of the CH3GeH3 Molecule
SOV/51-4-6-16/24
Molecule B (v = 0) B (v 1.)
C12113G076H3 .................
6621.1 t 0.2
8 - 6:00
C12H3Ge74H3 .................
8649.5 10.2
8.628
C12H
"73H3 .................
3r
8663.9 Z 0.3
8. W
,
C12H3Ge72H3 .................
8678.9 :t 0.2
8.659
C12H3Ge7QH'3
.................
8710.2 � 0.2
8.689
Cl-',H3G074H3
.................
8275.2t 0.2
-
C 13H,3G07 % .................
8305.2 � 0.2
C13H3G070H.3 .................
6337.2 � 0.3
The table given above contains values of the rotational
constar-to, B
for various Isotopic combinations of the ground, (v = 0) and
excited (v - 1) states. Observation of lines of vaxiour,
isotopic
combinations made it possible to determine the distance
C--Ge -whinh
was found to be equal to 1.946 1 0.001 t From the a Wdy of
the
Card 2/4
Microwave Spectrum of the %Ged3 Molecule SOV/51-4-6-16/24
Stark effect of the Cl2H3G074H3 line the value of the dipole
moment of molecules was found to be it. = 0. 67 t 1. 5%
debyes.
Measurement of the relative intensities of the lines of the
ground (v = 0) and the first excited (v = 1) torkional states
yielded value of tho frequency of tortional vibrations, v =
195 cm-l-
Assuming that the potential barrier is of cosine form, the
barrier
height was found to be Vo = 585 cm-1. Spectrum of the studiel
molecule was measured ueiag a radio-6.pectroscope with
Stark-modulation.
The line frequencies were measured with a quartz generator.
GH.3GeH3 was prepared in the Physical Institute imeni P.N.
Lebodev of
the Academy of Sciences of the U.S.3,R. by G. Ya. Vzenkova by
the
method developed by V.A. Ponomarenko and G. Ya. Vzenkova (Ref
1),
and the present authors thank the latter two people for their
help.
card 3/4
Micro,wave Spectrum of the CHSG*H,3 Molecule
BOV/51-4-6-16/24
There is one table and one Soviet reference kVA.
Ponomaren1co and
G. Ya. Vzonkova, Izvestiya AN SSSR, Seriya khimicheakaya,
Vol. 8,
994, 1957).
ASSOCIATIONs Fizicheskiy Institat im. P.N. Labodeva., AN
SSSR (*~,Pbyaias laRtitate
imeni P.N. Lebodev, Academy of Sciences of the U~S.S.R.)
SUENITTEDs December 3, 1957
Card 4/4:
AU !HORS Barchulcov, A.I. and Prokhorov, 30-1/51-5-5-6/23
TITIS; ilia ;,uadruple 3oupling Di-.)olo ~7ci.iant and Barrier
-,o In-.,jrnal
Ro-.a",ion in the GH513H31blocule Obtain-A froi its
Ro~,Ltional Spectrum
kKvadrapolInaya avyazl , dip0l'Ily" LiOMOIA i barlyer
vnutrannego
vraL.hcheniya v aiolekUIeGH3GeE-,-, iz yo, a+ellno~o fpak-ura)
.,,a vrashch - 0
F!',11IODIC"L OptiLu i Spel"trookopi.ya, 1958, -.Tol 3, 11r 5,
)p 530-53-1 (U56A)
.~&35 T~UU T 6iI;SLl8Ii3 lius prapared by Vzun;xva uy tho
i~-jtlwd d3scribad in Raf Z.
This coianound is a colcurlass li(jaid boilinj; a-~ -2300. 1-,
does no',
react Yith the aatarial of the absorp*Uon call. The rol ional
spactrum
Of L;113kiaH3 vas studied usitLe, a radiospec-~ros cope wi-rh
100 kc/ S
S tarL-modulation - Trans itions J = 0 -4 1 ( X - 1. 7 W), J =
1 --, 2 (X -8.9 ILm)
are studied in an absorption call 4 w long and 6 x 12 iiu in
cross -
section. The J = 3-*4 transitiou (X-4.4 i,w) was "tudiad usinG
a
radiospsctros cope for millimatre Y~uvelangtha kilef 3) in an
absorption
call 50 cm lonG and 3.6 x 7.2 uLi in cross -riac-%Aon. Tha
spectrum
cbtrlined at tha tawpara'.-are of dry ice. The linas of
G12H3GaH3 --iare
obsorvad on an oscillograph screen. Tha C;l3HZUaH3 spectrum
-v;as
observed usin- a synchronous detector and an alac :ronic
potantiowt)tar
L> t
Card 113 EPP-09. The fr3qaanciea wora waufu-~-od usirG a
quarrz standard -r,3 an
SOV/51-5-5-6/23
The (,aadruplo ~'oapling Dipole Lo~.-.-3nt and ba~-:-i5r to
Ir,~arnal RotF-tion in the
CHSGaH3 I'lolacule Obl-ainad Frou i-rs Rotational Spectrula
auxiliary Generator which was workirij; at a j~rjquancy
ruch hiGhar thaL.
;Ato quartz s-i;aiidard, The quartz wrtAndard Y-as chucked
uiiiag standard
frequoncy transwissions by radio. Table 1 Gives the
expariuiental
frequencies of the observad liner. kin Tabla 2 -ivas -he
valuos
of the rotational constant B (in Ll-c/s) and the wolients
C3 of inartia IB
(i" Lltomic units X,12), for various isotopic imabinations
of CH6GOH3.
Fro,,i -U,.e experitaontal reuults roported here only the
separ-~tim
can be calculated exactly. Itu value is 1.946 J. To
d9tormine other
bond lengths and angles it is necessary to replace
partially hydrogan
by dauterium in CH.,~GdH3- The authors found thaet, if the
structural
parmaeters of 0113BIR3 kgiveu in Ref b) are usod to
calculate the
rotational constants Of C113G,-,i'3, then the values
calculated iu this
Card 2/3 way differ only by 5 Me/s froca those reported ir,
the present papar.
SOV/51-5-5-6/23
Tha quadruple Coupling Dipole Awant. and Barri,~r to
Intarnal Ro--ation in the
CH3GaH3 kolacule Ob4A-iued From its Rotational Spectrum
The dipole womant of GH3GoH,3 was calculated and found to be
0.67 Debye
units. The nuclear quadruple coupling for Cl2H3Ge73H3 is
lass thaL
1 J-Tc/s The sillallness of this value iki due -to the
covalaut itit-Ire
of the 0--Ge bond. The potential barrier to internal
rotation in
CH3GeH3 is 580 am-l. There is 1 figure, 2 tables and 7
raferoncas,
4 of which are American and 3 Soviet.
SUBMWED: Decatitbor 21, 1957
Card 313 1. MoleculeS--Dipole moments 2. Moleculps--Testing
equipment
3. ~blecular rotation--Spectrum
sov/iog-4-7-11/25
AUTHORS: Barchukov, A.I. and Prokhindeyev, A.V.
TITLE: Details of a aio Spectroscope for the Wavelengths
from 2.5 to 5 mm
PERIODICAL: Radiotekhnika I elektronika, 1959, Vol 4, Nr 7,
pp 1173 - 1179 (USSR)
ABSTRACT: The authors developed a number of devices suitable
for the
spectroscopy at mm lengths. The main item in the range of
devices Is the frequency multiplier. This employs crystal-
diode frequency multiplication. The diode does not comprise
the usual holder, but forms an integral part of a wave-
guide system. The device of this type is shown in
Figure 2. The mechanism which permits the adjustment
of the erystal-whisker contact is in the form of a
differential system permitting a displacement of 0.1 mm
for one turn of the screw. However, even this mechanism
is not sufficiently fine for wavelengths below 4 mm;
in fact, it is necessary to be able to make adjustments
of the order of microns. Figure 2 shows the details of
the multiplier: 1) the adjustment mechanism for the
Cardl/3 crystal point; 2) the screw of the adjustment plunger;
SOV/109-4-7-11/25
Details of a Radio Spectroscope for the Wavelengths from 2.5 to
5 mm
3) crystal diode and the contact spring. The.details
of the point of the contact spring are shown in Figures 3.
The receiving head of the spectroscope is similar to
that of the frequency multiplier. However, the operation
of the receiving head in greatly dependent on the sharpness
of the whisker point and Its contact w1th the crystal.
The next item of the spectroscope is a de-coupling device.
This is in the form of a gyrator made from a thin rod
of ferrite placed in the centre of a rectangular waveguide.
The overall picture of the gyrator is shown in Figure 5.
The absorption cell for the spectroscopic measurements
was about 50 cm long and its electrode was supported by
a holder made of teflon, having a thickness of I mm. The
frequency at the mm waves could be measured by means of
a heterodyne arrangement furnished with an additional
frequency standard. Block schemet1c of the measurement
circuit is shown in Figure 6. Another item necessary in
Card2/3 the measurement is a frequency stabiliser. This employs
SO%109-4-7-11/25
n
Details of a Radio Spectroscope for the evelengths from 2.5
to
5 mm
the circuit &scribed by T.M. Murina (Ref 5) and its block
schematic is shown in Figure 7. The spectroscope con-
structed by employing the above pieces of equipment could
be used at frequencies up to 80 000 mc/s. It uras possible
to use it to determine the rotational spectra of the
m6lemaes at frequencies up to_J20 1alcls, provided the
absorption coefficient was 10 /cm. Th-e authors express
their gratitude to A.M. Prokhorov for his valuable advice.
There are 7 figures and 5 references, of which 4 are
English and 1 Soviet.
SUBMITTED: January 9, 1958
Card 3/3
BAFCHUKGV, M.; PETROV, Yu.N.
Dipole moment of a CH3GeH3 molecule. Opt.i spektr. ll
no.1:129
n '61. (PIRA 14-10)
(Germanium compounds-Dipole n#ents)
BARGHUKOV, A. I.; PROKHOROV, A. M.
'I Investigation of disk resonators at
super-higb frequency "
Presented at 10th Annual Colloq. on
radioelectric Research
(A. Y. P. E. R. E.) Leipzig, 13-1-1 Sep. 1961
3/'10 62/007/003/007/029
D26 6
,D302
'UT11OR
Z'S B-rchuxov, A.I., and Petrov, Yu.N.
T 1 '11 1 E Quality of aisc resona-zors
11"ZIRIODICAL: Rakiioteklinilrza i elektronika, v. 7, ilio.
3, l-)62,
.414 - 415
TE' IT T"he purpose of the paper is to detcr-mine
experi::ien tally the
denendence of the cuality of a disc resonator on the
dis-.,-ance bet-
Ween -L.--Ae discs. 41 - 1,
According -,,o simp-Le theory the quality of the L-eso-
iiator is pro-por-uional -6o its length. This approach takes
into ac-
count unly the _L osses in the plates. However, if -uhe
distance is
lar-e the radiation losses are no longer negligible and the
quali-
iy of the resonaior decreases. In the experii::,ental set-up
the au-
ihors used Dla-ues 190 rim in diameter and emrloyea two
wavelenLths
A an d 1. ',,he ou---
1 2 1~bstractorls note: NhLmerical values not
lity depended very 3!iuch on "che -parallelism of Lhe
plates. The nea-
sured Q (plates adjusted to be as parallel as possible) is
plo-uted
in units of 10.000 against the number of half wavelengths.
If the
Card 1/2
S/10 62/007/003/007/029
Quality of disc resonators D20-6y:1)302
plate diameter to v.,avelength ratio is larger, a higher
Qcan be at-
tained. The appa-ratus was used for spectroscopic
absorpt-Jon me--su-
remen-~s. There are 2 figures and 5 references: 2
Soviet-bloc and
3 non-Soviet-bloc. The references to the English-language
publica-
tions read as follows: A.G. Fox, T. Li, Bell System Techn.
J., 1961
40, 2, 489; Quantum 3lectronic Symposium, p. 59, Columbia
Univer-
sity Press, N.Y., 1960; G.D. Boyd and I.P. Gordon, Bell
System
Techn, J., 19061) 40f 2# 4896
SUBM'ITTED: February 13, 1961
Card 2/2 Iv
LEBEUKINA, Ye.D.; I-EDOROV, V.Y.: FADBERG, V.Ya.,
kand.fiz,mtem.nauk;
BAiZ-!-',Ul''OVI A.I. kand.tekhn.nauk; IESEN~.j'J,
II.G., akademik;
- -*--j
IT C j I I ~ F-10 V , -.V*F"doltor khim.nauk;
DZEfiDZFYF!.'ISY.!Y, F,;.I . , prof ~;
11 -IRD, C .S - tvkhn.nauk; O.S.: Uij;,L'T'.;l-)V,~,
Z.V.,
AF , S., doktoi
S
doctor istor.nauk; LIIJ?i~Clln,, D.S.
Brief notes. Vest. AN SSSR '32 no.1:119-130 Ja 162.
15:1)
(Scientific societies) ~ Resparcl- )
BILRCRUKOV, A.I., PROKHOHOVO A.M., SAVRANSKIY,
V.V.
"Annonia maser with disk resonator.0
Report submitted to the Third Intl, Conf, on
Quantum Electronics.,
Paris,, France 11-15 Feb 1963
BARCHUKOVY A.I.; PROKHOROV, A.M.; SAVRANSKIY, V.V.
Ammonia maser with disc t aonator. Radiotekh. i
elektron. 8
no-3s438-439 Mr 163. (MUU 16:3)
(Masers)
L 18~8_0;4' (k
A1'Y'1U/Ab0, -3/RADIC M7 YOWT 0c,
ACCE8SI014 NR: APY)rwff
(b)-2/F.S(tj'-2
AUTHOR: Barcliukov-1 A, I.; Prokhorav, A. M.; Savranskiy. V. V
TIV-13; Bibarionic regime of an a nia-be= mas-er-1K
SOURCE: Radiotekhnika i elektronikaj, V-A-078, no. 9, 1963,
1641-1642
TOPIC TAGS: ammonia-beam maserp beam maserp maser
ABSTRACT: Investigations of an a nia-beam maser (line I - 3, K
n 3,
X ' 1.25 am) using a disk cavity have shown that under certain
conditions there
is a simultaneove generation of a nunber of frequencies with a
frequency dif-
ference from several hundred cps to several ka, depending on
test conditioas.
For instance., by applying a constant electric field of the
order of 30 V/cz
to the cavity disks a difference of 5.4 ka is attained; with a
further voltage
increase the oscillatioz. is disrupted. Under ordinary
conditions the beat fre-
quency was about 3.8 cps. The investigations have demonstrated
the existence
of at least two types of oscillations in the region of the
spectral transition
line,, separated by about 20 Me, with a Q-factor of about 7000
to 8000 for one
type and of less than 1000 for the other. The existence of the
biharmonic
Card 1/2
L 18380-6
ACCESSION IR: Ap3oo6472
D
regime is explained by the nonuniform broadening of the
transition line in-
vestigated. This explanation is also confl d by the fact that the
beat
frequency inc-..,esses vith an increase In nonuniform broaUning.
Orig. art.
has: 2 figums.
ASSOCIATION: none
SUMMED: 24Jan63
SUB CODE: 03, SD
DATE ACQ: 3OSc,,p63
NO REP SOV: ODI
ENCL: 00
OTEER: 001
Card 2/2
BARCHUKOV, A.I.; PROKHOIROV, A.M.; SAVRANSKIY, V.V.
Rilu"onio operating mode of an ammonia molecule beam
maser.
Radiotekh. i elelctron. 8 no.9:1641-1642 S 163. (MIRA
16:9)
(masers)
ACC NR: AF'137-1022 SG*~-I-,(C-;-' COD.E.,
AU T H 0 R A 1.; 'Rasov, N. G.; Bun%in, F. V.; Vaselago, V. G.;
Irisova, N. A.; Rarlov, . V.; Manenkov, A. A.
ORG: none
TITLS: !-'cks~ridr IMMialovich Proldiorov
SOU;'C-,:'-. fizichoskikh nauk, v. 81), no. 3, 1966, 520-525
TOPIC TAGS: physics personnel, radio wave propagation, maser,
quantwn
Fencrator, aca6emic personnel
-OSTRACT!
Ale'.-I~;.-nu'r 'Xiikhaylovich Prokhorov is one of the leading
Soviet
phvsicists, a corresponding member of the Acadenly of Sciences
USSR, ana'
. - . . 4 - I I C -, - C
a Nvinner o; Liie 1,,unin and Nobel prizes. lie is associated
with the duvc-~ -0:,'
quantum radiophysics and belo'ngs to tho widely known school of
acadc:1.-I.--ilins
and N. D. Papalleksi. Prokhorov has successful-''."
combined physicni investigations with the development of
worhing dev-~ces
employing now physical principles and phenomena.
H
Pro~!-'Iiorov was born on 11 July 1916 ill Atherton, Australia.
His IL-,her
ad migrated it) Australia in 1911. The
'Va s zi poli"ic'-'l rclugce who 11,
-o',u:,ned ic. Russ.ia in 1923. in 1930 Pro'~Iloi:-ov graduated
with honors
ysics Department of Leningrad Univorsity and entered the
-sci'11 zi c-, S
Ph
L
-.aboratoi- of fhe Physics Institute imeni P. N. Leb -d v for
po-
'ror until 1944, when .1fler bein.--'.
~%,ork. Prokhorov was in the arrny , n 1941
Card 1/6 UDC: C02:53
ACC NR; ill"/311"'122
wounded for t,,e socond time he was released. Prokhorov I s
scientific
activity ~'e~-an ;n 1939 under the guidance of IM. A.
Leontovich and V. V
Migulin with 'L~.e study of radiowave propagation along the
earth' s surface.
From this study Prokhorov and Migulin developed an original
way to observe
fae ionosphere by means of the radio interference method. In
IL944 Prok--o-rov
investigatec the frequcncy stabilization of tube oscillators
in the Oscilla-,ions
Laboratory. of the Lebedev Physics Institute. His first
dissertation wol 'It
was accomiolished under the guidance of S. 1M. Rytov and was
devoted to th'.f
theory of nonlinear oscillations. Prokhorov, Rytov, and M.
Ye. Zhabotir-
skiy received the Mandell shtam, Prize for the development
of the theor,/ of
frequency stabilization.
After defending his dissertatiori, Prokhorov p1roceeded w-'
his work in
radiophysics. In 1948 he began a study of coherent radiatior
i synchrotron.
From this investigation Prokhorov developed a method fo-
-ietermining the
size oj," electron bunches and showed experimentally V . a
synchrotron
r-,enerates cohererit radiation in the centimeter ra- . He
presented his
.resifits in the form of a doctoral thesis, which defended
successfully
in 1951.
:Card -?/6
A C C NP
S;nnultanecasly with his work. in accelerator physi,~s, Prok~orov,
at the invitat'on of acadcmician D. V. Skobell tsyn, began workin-,
in th,--.
field of radio spe cAr os copy. Prokhorovl s interest in
radiospcctroscopy was
encouraged by the fact that well developed methods of
radiolocotiol-I EI-IC!
rachooncrinecring were being employed at that time. These methods
were
soon to 'Und application in the new field of radiophysics,
principally in
spectroscopy cf the rotational and vibrational spectra of'
molecules. Eusidk~s
inxrostigati.~,-, -,purely spectroscopic problerns, Prokho~ov also
studieci 11hc
employnie-i-,,, oi- tl.e absorption SDeCtra in the iflif range for
the construction
of frcquency zind time standards. As :) resLIlt of theoretical
examinatioins
of ways to raise the stability of molec-.1ar frequency and time
standards.
Prokhorov to,,-_-her with N. G. Basov wrote a series of classical
wor-s ~n
the development of masers. It was at this point that Prokhorov
became
one of the founde.-s of quantum electronics.
Pro'Khorov and Basov soon offered a now method for obtaining a
system.
o
with negative tennperature, the so-called "three levels method, "
which
became thc basic method for developing paramagnetic as well as
L.~ca` ;7uznturri t-enera'ors and ampliiiers. During the perioci
from 1955 to
concentrated on fl-io development of quantum parariagne-,ic
L
-n-~plifiers in Lhe uhf range, giving special PiLtention to new
crystals foi,
l__Ccrcj -3/6
ACC NR: AP'7311322
arn "fiers and to the investigation of thuir gp_,ctra arc
re"'..%m-
para, L 11 a L
tion char-- _-eristics. The ruby was investigated in
Prokhorov' s laboratory
and was z:)ro-,)osed for use in quantum paramagnetic
amplifiers.
Prokhorov' s works in quantum ralijillysics were highly
regarded. in
t, 1
1959 Prokhorov and Basov were co-recipients of the Laiii
F~-im for developing a
now method for the amplification and genei ation of
electromagnetic waves.
Prokhorov in 1954 became supervisor of the Oscillations
Laboratory,
which under his supervision developed into two new
laboratories of -Lhe
Lebedev Physics institute: the Radioastronomy Laboratory and
the Quanturn
Radlophysi.cs Laboratory. A professor at Moscow State
University sInce
1957, Prokhorov there organized the Laboratory of
RadiospeCtrOSCOPY aL
the Scientific Research Institute of Nuclear Physics. One of
tile parama(Tne-Lic
amplifiers for 21-cm waves constructed under Prokhorov' s
guidance was
installed on the ?2-m parabolic mirror an-tenna operating at
the Lebodev
InstituteT s Radioastronomy Station at Pushchino (near
Serpukhov) for use
h'- observina hydrogen emissions from space.
Durinlg this period Frokhorov directed a great deal of
attention to the
search for now crystals for amplifiers and generators in the
range of
millirnote-1- and submillimeter wavelengths.. His greatest
attention was friven to
Card /46
ACC NR: A1701102',~
lasers. In 11958, Prokhorov proposed a nf--~w type of' reson-,tor
meter waves, tho so-called open resonator in the form of two
parallel
mirror bu.,LWes.
In I Prokhorov was elected a corresponding M. ember of ihe
of Scicncos '~-)SSR in the Department of Genural and Applied
Physics. Sll-.ce
then he has concontrated primarily on ihe sL'udy of processes in cr
sta-,
Y.
lasers. Prc',horov has investigated and prepared crystals from
fluorite with,
dysprosiu-1-1 L::-iC! ither impurities and has succeeded in using
solar radiation
to punip crystals.
A now :).--:nciple for the operation of quantum gererators by
utihizin.-
'Lle two-quan*.u.-n transitions was developed iin 1963 undar
Prolkhorov, s
vision. Tt,.c cor.L;'ruction of rnulti-photon (in particular
two-photon) tran~-?-I-
tion, lasers is the future of quantum electronics.
In ', 9G-n. Prokhorov aloncy with Basov and, Charles ToN%,nes was
awarc;06
0 -\jb 1 Prize physics. Prokhorov has since achieved significant
-i develoix.-,g continuously operatina- lasers for use in
radiocominunications
I I nolo
Lodi I g-,l I operations.
5/6
'ACC INR: 0 1102 2
Und. r
P -oldiorovl s guiciance investigL.4tions have been procceding
particulariy in the al-ea of the behavior of supernl~-I-
I frocluency solid-statc plasma. This trend ,;',.ould open up
possibilities lor
the construction of new physical devices anu a new type of
solid-state
amplifier.
Through the initiative and under the scientific guidance of
Prokhorov,
a special system for obtaining continuous superstroi-ig magnetic
fields wi-Lh
intensities of the order of hundreds of kilooersteds has been
developed.
This will be the first such installation in the USSR.
A. M. Prokhorov has conducted investigations ranging over various
fields of physics. The results of his investigations ha-.,e been
published in
m ore than 160 scientific reports. A member of the Department of
General
j and Applied Physics, Prokhorov is also Vice-Fresident of the
International
Radio Association (URSI) and is Chairman off its Soviet committee.
ProlCaorovl s works have influenced considerably the development of
n,6dern physics. His scientific and organizational activities have
greatly
affected the whole comulex of works in quantum rad-iophysics
carried out in
t,"-' USS_ Oa~ig. art. has: 1 figure# L/N'QB: v. 2* no#
sua CODE! 20 SUBm DATE: none
Ccrd
6/6
RLRCHUKOV, I.M, redaktor.
[Battle for Tula; collection of materials and
documents)
Bitva za Tulu; ebornik materialov I
dokumentcv. 2-e izd.
ispr. Tula, Obl.khizhnoe izd-vo, 1951. 286 p.
(Microfilm]
(Tula--World War, 1939-1945) (MI'RA 8:1)
BARCHUKOV~ M.I. (1:i7ev)
Late results of using floating obturators in children
with
congenital cleft palate. 1~robl.stom. 61327-331 1626,
(MIRA 16:3)
(GIJWT PALATE) (PROSTHESIS)
---DARCRTJ
Floating obturators in congenital cleft palate. Probl.
stom. 5:
353-357 160. (NIRA 15:2)
1. Kiyevskiy institut usovershenstTevaniya -wrachey.
(PAUTE, Clam)
BA-RCHENKOV, S.A., in:Shener-kapitan 1-go ranga
A useful begirxing. Mor. sbor. 47 no.2013-96 Ja t64~
(MIRA 18-7),
ACCESSION Ym: AmA546 lb'*0089/65/018/()05/0528/0529
621.039.517.5
AUTHOR; Z~retg
S.; Pili to
R)Teriixental atud~
TITM. nts
- y ofthe thermal conditions of tho fuel__elemq_,____pf the
WR-M reactor
SOURCE: _Atomn~ya energiya, y. 18 j, no- 5) 1965) 528-529
1 TOPIC -TAGS: rip-actor fuel element, fuel element temperature,
active zone tempera_
ture distribution, coolant rating/ VVR-M
ABSTRACIT; TheAuthors measured the temperatures of the fuel rods of
the 'V"VR-M re-
actor in order to choose the oDtimal conditions for heat transfer
from the active
-one when operating at different power levels# and also to determine
the heat-
transfer nargin built into the existing cooling system. Ine tests
cortsisted. of
i measuring the temperature distribution on the surf&ce of -the fuel
element relative
to the beigbl; and radius of the active zonep determining -the
influence of the con-
trol rods on this distribution, and choosing the optimal coolant
flow. The temper--
atures were meaBured with thernocoupleg fantened to the surfaces of
&11 the fluel
elementu. The method of securing the thermocouples Is described. It
was founa
!Card 112
L 6310:,5-65
;ACCESSION nR: Ami4546
1 h--t the facl-elcm-o'n'. tcmperature ia practically the came on
both alde.s.- and that
he highest thex=1 stresses in -the active zone is on the
periphery, mar the be-
--y3-li= reflector. The to dctcr7dne the optiml coolant Mow vere
therefore =dc 44n tht pcri-pheral laycr of thc active zones amd
consisted of firid-
iro- thc rca--tor corrcaponddng to cach rate of coolant flow. A
aorac-
..m fo.- dctcrminir~g the.opti;-ml rcacto.- ope:7--tion, IS
plotted on the basin or LLe
rctufttt. It is concludcd tbat t-ble coolin; xict-em ofthe
"TZ.-M, rcactcr has amplc
margin for rcliable operation at its :12 V51 power rating. Orig.
axt. Ims: rig-,
urese
ASSOCIATION: naxie
GUMITIM: 24mrS4 ENCL: 00 BUD CODE: M." To
RR IMF SOV :?003 OTHER: 000
Card- 2
.. ........ ----- ---------
W I
-AC 'if K V Y,
C I
J
.nst..Infel-bo'l. no.,; _I,- ':;i- 'MTRA
I
SIEYKOV I.N.;-BARCHUK, V.T.
Behavior, of zirconium dichloride in fused m,ixtures
oi' alkaline
and alkaline earth metals. Ukr. khIm. zhur. 30
no.6:577-581
164. (MIRA ISO)
1. Institut obshchey i neorganicheskoy k!Amli AN
-LTk-rSSTZ.
DUKOVS-K.A,YA, I.I.; ZNkIENSKAYA, Ye.S.,, riladoldy
nauchnTr sotrudrilk; BARC'!',JIKU"VJ,"%,
A.Ya., m-ladshiy nauchnyy sotrudnik
Determining the optimum spun nylon content in its blend
with cotton
Provid'n- for tl-e maximwn increase of wear resistance
of the fabric.
Nauch.-issi.tmdy TSMILV 15:110-12.7 161.
(!"-TR-A 18-4)
1. Thikovoditell assort-imentnoy llaborator-i
TSentrallr-ogo nauc--no--
issledovatel'skogo instituta promyshlenTOBJ lubyanykh
volokon
(for Dukovskaya).
BARCHUNOVA, F.M.(Moskva).
w"00M. -- j!~ -,
,~,e
- - "I -
Courses for polytechnic training of tenchers. Mat. v
shkole no.6037
N-D '56. (Technical education) (MIRA 10:1)
-Tb a 1-tsofiiin-eiaTzation of air bubbles in
WeVsl faftncip Ic
ki~A ka d A W kstnundW
kr a a a
tr;!!p
v -P 1 51 m7;
L
v J.FJM~
ft
. 72--S lom 4! physk-ochem. aspects of tile
055
7 1"
sttachjuent of the hydrophobized mincral to the air bubble
am described and reviewed, e.g. wetting on the boundary
of 3 phases, wetting hysteresis. therm(Aynamics, basic eqna-
flou of equil. of form ocilug on the ujurgatc bubblc-ruln-
tral, ell'act of added. forces and lime of contact,
kinetics of
mineralization, and elect of elec. forces on minerali
ration.
17 refermces. Mordemi Mcd-wicd
Distr: 4EQ
A
,Prky
tp- 1,
f 1
t~t."67 3
Was U goi nz n ~'i-jllpcixr [[I ot" ";i io
rich flom Arin
io~2ol, R
iionle vollt,.vtor (dod:-~(:
-I the
tj Annc)prjl ph,::p2j,~;pp~ it,zli
-,tl~ : ih.
'he r~3ullts of rlcifr ,r cDliectur may b,, u--,.-,d I
"on!nan- c , c ", -l" -
mr4hng pri.- In
17 -o
fllli~ flOt"tia" tvMPE Flit ur-:~ to ZWC. jrnpruvo5 the solln"vity o
tat,ollic celfc-etor,
(3 A
I V
r cC' r In f!,
A_ Bar, 1 ',T,, P_ A. ri:!*,!zIhI!,!.y oi
of
a e ~pp --I
F u~v L Ch, ~mcvn_v~ N;
Exjp~. mts =
Che,inuIV3tai~ .1va ~af Qrwid u
'
'Tor -.a
ra rr"VIQ
D~.;irL.53 cutl!re~4 vias ar,:,J;FLnvd.'rjy un)Uc',_:i uf
-:i
sin~,~i, datermlriLn, fl-~ ,3,.j'z-rtt vf P_-C)t in iho. f: -n,: t
call by
1".1"WI ~~v high"-,
In tile 'r v.-F,
C-Z !:I'- n. tv e~
lul Will Q; WI
tnrf ~.J j!ifl
triale. tO
the h-, in
0. ---o A~ Mm. tj
_t.7 t 0 - nil
se av(-rage Comunt af
of
-with tLnic~-.ic CvNlemov wz,~I
F.-A
0!,~ Optl-
s Mni A~imo,,iol Nr tit-
Prz:cf.-tysl
C4 "roond up
plhlo~pllorife-., of varyl~..4' I s z
in binvy IfQ'Was. The j.-Mlatc-0
lraetloli,~ of pllc-_~pbalc
wt~re by ndel'o3cople "11121VS15 vmd the
degr.,~~ o-,
GI mircral frorn o gangue deierminpd. In this w y w-,~.ru
id ;"le Tl)tllll,.!m conldjlifnl~; V r ile Oc-nn't"
ic, th-e
prom-'~r.of ijt~lativrl at mliP Size Oi 0.' mal. tbe hmuq
o" clemicM
0l -5c,37"led the rOzWon Vv~,.! dtA`fTlinQd
thf... i~olllt-ziqt of
1120, (irt lie) and th,--. de,',!,cv of d;,,!r,,tvj7cat!on,
BmU of
emi-hOig, pntll~pj-,C!Jjt~~,,;
ftjLlzl!l ;o bo Mio v! PIC), conterlL
j
BARCICKA. Ann&
Chomical Abs-,..
vol. 48 No. 9
MaY 10, 1954
General and i'hysical Chemistry
Surfaco tonsion guld .-If, M 4t, mi,
Hine and
"k
t;~
J~~6d.k,
Ft-ff*,M719T, I $On,
surfam (vusion and viwo.,iry -ts stuffied ill sy?qt:v-. (a)
where. it dectvise of suffacc tkni,toi! fullow, an
incre,'A' of ~ k-
cosity cocif., i.e. pyridine: EtOll, 2-propanol,
2-butancil.
and 2-pentano), M where a dLcm,c of nurfam teii-ion i, :it
the saine tinic accompanied by a dl,creaw iii coulT. of k-
cosity, i.e. pyridine: McOll: 'quinoline: M~011. MlW.
propatiol and 2-butanol, (c) WIRIC it dQ(7,C:l%0 Of -1-:i,
sion is followed first by a decreaw, then an
ijicrc~'~Iltl", ill VI
cosity cotfl.. i.e. quitioline: 2-pentanol. The rcl ifi'm
fo,
the stui&d m1stents was fuund to Tic o'/t (aa/r,) + 1,
1where a and b are comts., 7 - viwo~itv cociT. in
.and a - surface terision in dvil"/i.111. "I'lli:
for tire systerm sttrifiM wviv:
Meoll
8 7',0X 1,;",
1
1 11 ~
Molt
LL'115x 11 -
1
S
1
I
'
nI-I
roph
I (KO X 10-
-011
1 1X
T
.
ut not
-.
0 1,1190 x I;)
i W
: ~
7~'
~
l
.;'tu t&no,
)
0 811t,15 xI
I
-
k
WAKSIvUTMZKI, Andrzej; BARGICKA, Annai
Influence of adding of non-polar liquid upon the
collecting
capanity of cation c1lectors in the process of quarz
flotation.
Przem chem 39 no.12-773-776 D 160.
1. Pracownia, Zakladu Fizykochemicznych ZJawisk
Powierzchniowych,
Polska Akademia Vauk, Warszawa
WAK31-11MKI Andrzej; EtuNICKA, Anna; DUERMOLSKI,
Julius:,,; NOWAK) Mz~ciei
.9 Ij
Studies on flotation deactivation of quartz activated
with i4ron
ions. Przem chem 41 no.5:265-266. hy 162.
1. Katedra Chemii Fizyczneyv Uniwersytet in. M.
Curie-Sklodowsk-iej,
Lublin i
Instytut Badan Jadrowych, Warszawa.
BARCICKA., Jbina
Changes of the electrokinetic potential in
the deactiv~4til-:r!
Proces's -f activated quartz with alumimi
ions, Przem
41 no.5&261-264. MY 162.
1. Katedra Chemii Fizycznej, Iniversycet
ilu.
M. Curie-Sklodowskiej., Lublin.
6FDeeolorlLing liroperubs of fduc"Ous] "doeftIcitinfed
clo.1ii"
dftwts. & WaksluundAi and .1. Mr~icki jAnn. Usliv, Af.
'SAlithuska, 19,53, AA, 8, are
conruning the decriloririog rrop-rtii-3 of it ImIct, of F,
fif(t.0,
&Cal'itlated Chalk " (Sill, 87-7, A1,4", 2-6. 1'(-,0, 0-8,
IC.;!O O-r,4,
kMgO UR DIA 11,0 Raw rap 61 -as mmf l,8 I-t matc,ipl
0 (lm eRrth de~olvrk~% the ,if to (lie r.\(C.nt of US-4~
tho
ter bul retainitig 0-75 ml. of oil p(Ir g. of curul ill it
("t
in i ~j ~11 S. XR,'-1-
Z~l
Uwe &I I let if -iiiiiiiiEitToi-al air bubbles In
- =
"
"'
~
i A R-iAr. .11, A a iLndzki
M
7memyss
Paran
U
t
v
7P :
a
"
:
"
M
.
I n
-
,
1, 72-8 1055 phyrdcochem. aspects of the
.
M
ymo
Cy
I. 7
m Pex
?
attachmat of C hydropho Ized mineral to the air bubble
th b
an described reviewed. e.g. wetting cKi the boundary
of 3 phases, wetting hysteresis, themodynamics, basic
equa-
-Uou of equil. of forces acting on the aggregite
bubble-min-
Cral. effect of addal. forces and lime of
contact, kinetics of
-ct of clec. forces on mineralization.
mineralizatiou and eft
Sl
d
i
d
e
e
17 references. Mordecui
.W
Distr: 4E4j
-7-
L 5-
O.M . -lc-
Wp -I 6z, -1 A, Siczv~~a J. 7 1, U I f iD?
43M lbta'JOB 21
Wyc~,.j oleju InLe
2, u. 1 1 li!b-
V"SLng IaB oil 2.; a CoUt'CLOI., Lh~ 1-vv,~51.lizatvd
Tess of pliltz"Imn of phasp, -inltn ~-,)a h-n-
vaff
h.2 :,w,
Were cl~ntcintd w3th lh - iloc., (d ;;N~ rOk"Wing
zlmu~lrll of '--Zrcstr~e and the rlmn~~r
&!Bata Sol ihL mul-ti,-m or lwwtcz, s"Piss in I
ww', ~~siablished Uhlit j. -ijp
the cc~Llccbz znd
.ives bellcr n-.sults lh-sn Ahtn 'he t.73 lge,
nb nxE~ adr-ALd
77n-l- 4-3 probably maiaecled with lhj! impyDveil ejFpa-aj!)rj I-d
;,,I -eirallslial In tha wzl,,r. apthwun
rnfll) Is 4:3. 'With, tuxoi,31ng kaosLn,-, a;'rjAlD.-o, lhe
stsbility C-1 t I
frolb -13 de~pmsvl -ille fmlh Ine-'raw brJUIE! and 1, quie-;I~
The
-13 md t -a b-
be2l P:05 cl m.-
wral ~lra ObtlAnell lit a mineral-lo-Ilquil jztlo 1 3, Pw
Zee ullt7 of tht mli~-)Wm -bunprovto. nkpilail !'A tho CN of
j I eM. The mmfjsviA~hlp pV mi-dhona (pll IV) ii obtzhed by acl,'Prg
V,,XGj- C*'kmun) F~Mltlms of wiqh~r V)ass Ann IC W. eL In the
*1 larou a;2dAlDw ol walpr al,Mq f.,!Tl to hnProve
Increwd ;iddltims of The v.-Irrior.
Kkl.
4, H"316". pp. t" fig-, 2
b.-nk, colk,ctor (dodt!cvlnralno vhluri0w) iq ntkdIv- ~n th~4
Annop-11 pho3,jhm-Rp---
JhQ rez,41-i of floWtow, 3) "ho c-11'an-l", volliclor lony Ln.
1!iphnnry enr!Oolng p.-lor to ftli)U)tlo~; w, Ih ;inltnl~
!n~" fl~AMk'zl ti:mp-ratorv to 17 v., 1~z
U
-'flf-~!tor.
A PO 0 ik-
-t A~, B n.
-nt ci E~wnphvrlle3- i~Lm A~~-wio! '-).f -0oll"
the i
fro-m.
-0.2*-)- MI, pre.-Ommly
o1
n-,-A
PrL-C~~,s vlas
C-- z!c-vz-~. ~ni;l by 0,
11; illu
h Z-4, zlzu, hi;l',,--t 11-0~
-
l
v D n 7f: f 9 C)
1i
nn
n n
,
tit.
hi
nvQ
VAKSMUNDMI, Andrzej; BARGICII, Janusz
. ----- - --- -- --- ---- --- -
Determination of the optimal solvent systAim for Craig's
method from
paper chromatographic data. I. Rocz chemi.J. 35
no.5:1363-1372 161.
1. Department of Physical Chemistry, M. Curie-Sklodowska
University,
Lublin and Department of Inorganic Chemistry, Medical
Acadeny, Lublin.
WAKSMUNDMI, Andrzej; BARCICKI J z
P17sico-chemical processes in the system: mixed
collector(oleic acid
kerosene) - alkaline aqueous solution. Rocz chemii 35
no.5:1373-1380
1610
1. Laboratory of the Department of Physico-chemical
Surface Phenomena,
Institute of Physical Chemistry, Polish Acadeny of
Sciences, Lublin.
-AA~C~CKI, _Janusz.. ---
Interfacial strove of ji -liquids ayfff -tfA border angle
9 f?v tf% sys"m:
apatite-mixed collector-aqueous solution. Przem chem A
no.5:293-
297 Yq 160.
1. Instytut Chemii Fizycznej, Polska Akademia Nauk,
Pracownia
Zakladu Fizykochemii Zjawisk Pawisrzchnimycbf,~ Lublin -
BARCICKI, Janusz
- Influence-cf- Ymn-polar liquid (kerosene) upon
the flotation of
non-sulphide mi"arals. Przem chem 39 no.10:624-629
0 160.
1. Instytut Chemil Fizycznej, Polska Akademia Nauk,
Warszawa i
Pracownis. Zakladu Fizykochemii Zjawisk
Powierxchniowych, Lublin
BARGICKI. Janusz
Moistening of apatite surface in aqueous medium with
rpixtures
of 1wrosene and oleic acid, Przem. chem 40
no.7:390--393 Jl '61o
1. Pracownia. Zakladu Fizykochemii Zjawisk
Powierzchnip Instutut
Chemii Fizycznaj., Polska Akademia Nauk, Lublin,
BARCICKI, Jftn'ASz
Emulsified reagents to flotation; a preliminary
note. Przem
chem 41 no.7:393 J-1 162.
1. Zespolowa hatedra Chemii nzycznej i Technologii
Chemicznej,
Univeraytet im. M.Curia-Sklodowskiej, Lublin.
BARCICKI., Janusz; WAKSMUNDZKI, Andrzej; MARLISM,
Edward
A now method of measuring directly the adhesive
force between
a mineral particle and an air bubble during
elementary flotation
proceBsess Chemia Btonow 6 no.1:99-106 162.
1. Imstytut Chemii Fizycznej,, Polska Akademia Nauk,
Pracownia
Zakladu Fizykochemii Zjawisk Powierzchniowych,
Lublin, i Zespo-
lowa Katedra Chemii Fizycznej i Technologii
Chemicznej., Uniwar-
sytet im. Marii Curie-Mdodouskiej, Lublin.
BARCIKOVISKA , Barbara
Flowering biology of white inelilot (Melilotim
albus Dasr.)
and yellow melilot (Melilotus officinalis (L.)
Desr.).
Postepy nauk roln 10 no. 2: 71-76 Mr-Ap 163.
1. Katedra Genetyki, Vyzsza Szkola Rolnicza,
Olsztyn.
BARG IKOWSKIL-STWM, Aleksandra; HORSKI-HORONCZYK,
Stanislaw; PRUSIIIA, Antoni
Significance of x1crosymptoms of the nervous system in
cases of
late syphilis. Neur. &c. T)olska 7 no.6:933-938 Nov-Dec 57.
1. Z Xliniki Chorob Newowyoh A. M. w Iod2i. lierownik:
prof. dr nauk
zed. 3. Hermn Z Osrodka Konsultaoyjnego d1a Kily Poznej
przy Kliniae
Chorob Skorno-WeneryC2nych A. M. w Igodzi. Kierownik:
prof. dr mad.
J. Latowiecki i z Gentralnej Foradni
Skorno-Wenerologicznej w Lod2i.
lierownik: dr mod. 4 Nitecki
(NIUROSYPHILIS. mnifeat.
microsyWt. of NS in late syphilis (Pol))
BARCMOWSKI-Edward, mgr inz.
Research work on new designs of engines is going
on. Frzegl
techn no.35:7 2 S 162.
ACC NR, AP6033809 SOURCE CODE: PO/0061/66/000/005/016210172
;AUI-1110R: Barcikowski, E. (Major, Master engineer)
ORG: none
TITLE: 1,Tnat-should be the infantry fighting vehicle like?
iSOURCE: Prz*6glad wojsk ladowych, no. 5, 1966, 162-172
TOPIC TAGS: infantry weapon, military engineering, armored
vehicle, vehicle engineer-
ing
ABSTRACT: An infantry fighting vehicle is proposed as a substitute
for the presently
used armored transporter; the shortcomings of the latter and the
detailed design and
construction of the former are discussed. The proposed vehicle is
evaluated on the
basis of its mobility, firing power, and armor. The caterpillar
type of drive is pre-
ferred over the wheel type, since it assures greater mobility over
difficult terrain.
The vehicle should be self-propelled in water. It should have at
least 1.5 times
greater mobility range than tanks and should be fitted with
supplies of food and waterl
suff., nt for several days of fighting without replenishment. The
maximum speed
should be 70 km/hour on finished roads and at least 40 km/hour
over rough terrain. The
fuel and lubricants should be the same as those used for tanks.
The firing equipment
should be light and yet sufficient for defense of the infantry and
the vehicle. It
should have a deck weapon which can provide fire support for tanks
with which it acts
Card
: ACC NR%
AID05033809
in concert. The armor of the vehicle should be light, so that the
mobility io not
impaired. but sufficient to protect the car and its crew from
bomb. mine. and artillerv
BARCIKOWSKI Stanislaw; JANOWSKI, Bogdan
Remote results in 150 patients operated on for pulmonary
tuberculosis.
Postepy hig. mad. dow. no.2:41-42 16o.
1. Z Wojevodskiej Przychodni Przeciwgruz3.iczej dla m.
Lodzi Dyrektor:
prof. dr J. Ssustrowa.
(PNEUMONECT%ff Btatist)
BAIRCIKC.-ISKI, Stanislaw
SUMAJE, Given Nanes
country: Poland
Academic Degrees: Lekarz J-1ilitary rank: Captaiq7
Affiliation: First Surgi (I Klinka Chirurgiczna), Military School
o1 Med1cine klqPJ4--';Iojskowa Akademia Medyczna), Lodz.
Source: Warsai-17 Iekarz-1,ToJskowyj Vol 36, No 51 1961, pp. 481-488.
hatat. "Control of Post-Pericardioectomal Acute CirculatFry #nd
Respiratory
Insufficiency.with the Aid of an Engstrom Respirator.
APn aRIAUA
BALRCIKOWSKI, Stanislaw
Rewte results after surgical therapy of pulmnary
tuberculosis.
Gruzlica 29 no-3:213-226 Mr 161.
1. Z Wojewodzkiej Przychodni Przeciwgruzliozej m.
Ioodzi Dyrektor:
prof. dr mad. J. Szustroiira.
(TUBERCUL03IS PULMONARY surg)
PRUSZYNSKI, J.; GEBICKI, L.; TKACZE;WSKI,W.;
KASPRZAK, M.; BARCIKOWSSKI, S.
Starr-Edwards prothesis for mitral incompetence. 1.
Clinical
evaluation. Kardiol. Pol. 8 no.lt9-13 165
1. Z 11 Kliniki Chirurgicznej (Kierownik: prof. dr.
J.PruszynsM)
1 z III Kliniki Chorob Wewnetrznych Wojskowej
Akademii Medycznej
w Lodzi (Kierownik: prof. dr. A. Unmel).
"LAI .
;SK A, C?77b I CH 7 Tr A C ~ 7Ee'SK I, IT.
S'Waia--;-'c.Iwa3-dF protheols f~,r mitral
incumpetence. v S u
J K.--rd I*(- i . 165
1.1-7fti-ki -Ili (E-Aercunik,. pi-of. J.
BARG IKOWM I, W.
Iffect of war an public health and on the number of
cripples.
Chir. nars, ruchu ortop. polsks, 17 no. 4:27~1-280
1952. (GLKL 24:2)
1. Of the Orthopedic Glinic (ELmd -- Prof. W. Degsi,
M.D.) of Poznan
Kedical AcadwW.
-1
RMIKOWSKI, W.
I.^
ProblemB of orthopedics and traumatology accordingto the
Pavlovian theory.
Chir. narz. ruchu ortor. polska 18 no.l.,9-20 1953, (CLKL
24:5)
1. Report given at the Tenth Congress of the Polish
Orthopedic and
Traumatologic Society, Poznan, 22 Nov 1952.
BARCIKOWBKI . . !-Min. Dr
11ducational work In medical achonlo. Zdrowto pub.,
Warez. no.l:
1-22 Jan-Feb 55.
(XDUCATION. iaMICAL
in Poland, tasksi
BARCIOWSKI, W., Doe., Dr.
Organizational problems of Polish orthopedics. Cesk.
zclravot,
5 n0-3:168-175 Mar 57.
1. Namestak mintstra prace a socialni pace.
(ORTHOPEDICS,
In Poland, vrCraniv. (Cs))