SCIENTIFIC ABSTRACT KORSUNSKIY, M.I. - KORSUNSKIY, M.I.
Document Type:
Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R000825010010-4
Release Decision:
RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
June 14, 2000
Sequence Number:
10
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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CIA-RDP86-00513R000825010010-4.pdf | 3.9 MB |
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SUNSKIIF M, NEKRASO ~A. J. Techn. Phys. U.S.S.R., 9j 10s
PP. 883-889, 1939. In Russian. - Using Lange and Brasch's idea of erecting a
tube of discs the authors employed discs of micalex and steel alternately. By
pasting the discs together with an insulating varnish it becomes possible to erect
a monolithic tube of sufficiently good electric and vacuum-sealing qualities. It
was shown that the sparking distance in air of a valve designed for a certain
impulse voltage depends on the form of the electrodes. These latter being of a
suitable size the length of the tube is only determined by the breakdown strength
of the air. Thus a tube with 2 m. between electrodes of the Rogowski type will
stand an impulse voltage of 2 700 000 V if there is no gas discharge within the tube.,
A gas discharge spoils the potential distribution in the tube and causes vurface
leakages covering portions comprising several elements of the tube. F.B.K,
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citotim of The vortoolable mote of InIll W 1417,0 & III) e. kv.
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graph," in Journal of Experimental and Theoretical Physics, Vol. XVI, No. 1, 10
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__ _ " .1 11 "0. adoll. K-11
, (.11(l T
i~
1 %0
KORSVNSKJ~-I
Authort F'Oumi&u. is, I.
Titlet The itaide =Imus, issue J2. (Atamwe isim. Lid. 2.)
G:Ltyt YAscow
PublLsbart State Printing Bowe of Teabacal and Theoretical Literatus
Date 1. 2950
AvaiUblo s Library of Congmse
source: Month3y List of Rusnian Amesgdonap Vol, 3p xo. no p. 75o
rawoml,
168T103
P
..Capacitor (Condenser)
"Detection of a ftlnular Bunch on the Basis of the
Variation of a-Capacitor's Electricai Conductivity,"
M. I. Korsunski~,*L. I.. PiYovar, A. M. Mar~kus, Phys-,.
icotech lust, Aca& SdI Ukrainian SSE.
'-Zhur Eksper i Teoret Fiz*,Vol::XX, No 9, pp 860-861
Letter to editor reveals possibility of creating
high-sensitivity detector of molecular rays, based on
..subject variation.by measuring deposition-J, from bean.
under study, upon the Condenser. Shows that conduc-
tivIty of vary-thli metal films- dgends. complexly on
KORMINSKIII, '1. -1 -
Korsunskii,M.I. The atomic nucleus I&d. 3., ispr. i dop. Moskva, Gos. izd-vo
tekhnilco-teoret. lit-r-y. 1951.
347 p. (52-31219) Qc7?8.K6 1951
USWPbysics - Molecular Beam 51
MaWntic Field, Nonhow-,
geneous
"Focusing of a Molecular Beam by a Nonhomogen*ous
X&Mtic Field," M. 1. Korsunskiy, Ya. M. Fogell,~
Pb~yeicotech Inst" Acad.Sci Ukrainian SSR
"Mur Eksper i Teoret Fie Vol XXI, No 1, pp 25-37
Indicates various types of nonhomogeneous magnetic
.fld Vhich permit one to realize double focusing of
mol beam, and considers motion of mol in these fld
takling into account action of gravitational force.
TJSSR/Pbysico - Hole;-]- Boom
(Contd)
1742t
Jan 51
Shows that with aid of 2-dimensional nonhoso-
geneous m6netic fld disclissed here one can
realize lenses for mol beams. Submitted
!&Aug,50.
44T61
T -
The Committee on Stalin Prize& (of the Council of Ministers USSR) in the fields or
science and inventions announces that the folloving scientific works, popdar scign-
tific books, and textbooks have been-subsitted for competition for Stalin PrIzes for
the yea" 1952 and 1953- (Savet!~M Kul vAmov, rio. 22-4o, 2o Feb - 3 Apr 1954)
Home Title Of work r"Inated a
"T110 Atomic Nuelcu"01 Fhrrlkov Polytechnic
Korsungkiy, Institute Imcni V. I. Lenin
r48 ICON
wv;e6
db yo-q, 4ri - 3 -4,0 - 5- 1 4 ju S-3
j
so: w-3o6o4,. 7 JulY 1954
K C) IR ~,-, 0 W ;~ K I Y) ~,-) - I .
PHASE I TREASURE ISLAND BIBLIOGRAPHICAL REPORT AID 596 1
BOOK Call No.: ATIC 101536 D
Author: KORSUNSKIY, M. I.
Full Title: ATOMIC NUCLEUS. (4th ed., cor. and supp.)
Transliterated Title: Atomnoye yadro. (Izd. 4-e, isp. I dopol.)
PUBLISHING DATA
Originating Agency: None
Publishing House: State Publishing House or Technical and Theoretical
Literature
D
Zate: 1952 No. pp.: 407 No. of copies: 50,000
Editorial Staff: None
PURPOSE: Popular presentation of fundamentals of nuclear physics intended
for students of advanced classes of pre-college sahoolso physics
teachers, students in natural science, faculties and technical schoolso
and also technical workers.
TEXT DATA
Coverage:' The book represents a general review in popular descriptive
form of the major stages in the development of nuclear physicas be-
gining with the discoveries of Curie and Becquerel up to the present
study of chain reaction of uranium and neptunium, including work with
Wilson chaniber, Betatron,-, Cyclotron, Varitron, etc. The fourth
edition contains many corrections and additions on recent basic ac-
complishments In the physics of the atomic nucleus.
1/2
L 1\4 S K I
PV
ATOM 11TOLEL 44 ki U16417W.
. ISM-"
G,~rtakhlxdal,1264. 327p. PRintan) (BooLondtaplay
at C-Aava Coderadcol
A raonography an theoretic tivestiptiovA and ened-
inenW 4AA 4n isomeric imolol, their orlain gzA bobxfar.
lave0g340al of the 4t"Cturo al MOM14 lk,4014t. A summary
tAble of Isomeric nuolof ladicittlag #.~efxr propcotlem ad
numtrous dlagams at isomeric, tr%adformaUa-as ara Oven
/at the ettd o! the book. (pubIliber's natn)
KORSUNSKIY,- 14. TO
USSR/Nuclear Physics Nuclear Shells Jan 54
I'The Experiseiiial Foundations of the Model for
Nuclear Shells M. I. Korsunskiy
Usp Fiz Nauk, Vol 52, No 1, PP 3-82
A survey of the literature (1932-1953). Lists 82
references, 30 USSR and 52 Western. Refers to
recent (1952-1950) works of: D. Ivanenko, N. Kole-
snikov., A. Sokolov, L. V. Groshev, I. S. Shapiro,
V. Rodichev, V. A. Kravtsov, B. S. Dzhelepov, L. N.
Zyryanova, M. L. Chepelevetskiy, M. M. Venkov-,
276T92
1. A. Vaysman, M. A. Levitskaya. Treats: the
magic numbers; binding energy of nucleons; distri-
bution of the isotopes; quadrupole moment of nuclei
vs magic numbers; classification of nuclear levels;
nuclear spin; magnetic mownts of nuclei; beta-
Opectra.and nuclear shelis; isomery of atomic
nuclei; investigation of excited nuclear levels;
angular distribution for (d,p) and (d,n).
T-t
-7 -77-- 17~
-7 777~
le'. -- - * '!',, I I ~Ieuil 1.0 -., i. ;_ - !". 4% - I
t
J) RUO rUr NA' Na" :a
skiy,, Moscow, Gostekbizdat., 19506,, 428:pp-,5t ~e~ioniefieiar-
This book is a popular presentation of problems of nuclear physics. it
is intended for the use of upper classes in secondary schools, physics in-.
structors, students of natural sciences and technical schools,, and engineer-,
.lng and technical personnel.
"Numerous changes and additions have been made in the fifth edition
..'-covering advances in the field of atomic physics since publication of the
Iourth edition."
The chapter headings and pages devoted to each chapter follow;
activity (7-6o), Nuclear Model of the Atom (61-84), Mass of Atomic Nuclei
~,85-110) Splitting of Atomic Nuclei (111-141), Discovery of thL- Po itron
142-1641, Artificial Transformation of Atomic Nuclei (165-209), Art2r".Lai_
J,k.udioactivity- (210-231), Mesons* (232-268), The Neutrino (269-285), Structurt-:.-
of Atomic Nuclei and Forces Acting Between Nuclear Particles (286-308),
Xuclear Fission (309-337), Nuclear Chain Reactions (338-355)1 Peaceful Uses:
to -394), 4
Pf-~A-;;ic:~Aw.gY- (356! -!379).,~;-ank T lear Heactions_(~8~ -ppendix
(figdktz)' are' on jAges -- 395 (11)
Category : USSR/MagnatiLl- Mqwimental methods Of Magidetism F-2
Abs Jour : Ref Zhur - Fizika, No 1, 195T N01389
Author :Korsunskin M.I., Fogel$, Y& M., Bykova, G.A., Livshits,L.I., Lozovskiy, N.S.
-Cho-vnik, A.A.
Title :Invostigation of the Thpography of the thhomogeneous Plane btgnetic Field
f a Six-Pole Electrocagnet.
Orig Pub :oh. tekhn. fiziki, ~956, 26, No 2, 122 .2-1232
Abstract :A procedure is described for t4,p.investigation of the topography of an
inhomogeneous plane magnetic field of a six-pole electromagnet, used to
focus Particles that have a -goetic moment. The cited measurement results
show that the above fiild can be produced without substantial distortion in
a circle 10 cm in radius.
Card
Category : USSRINuclear Physics Origin of Charged and neutral particles through 0-6
matter
Aba Jour : Hof Zbmr - Mike.- No 1,, 1957,No 585
Author : I(brBunskiy, M.I., Imiantp Xh-L-, Plvovar-, L.I.,
16t :-I5W9k-o-v-%Ty-te-c-I%aic lzzt.~,
Title : Applicability of the Ratio ( 12 31023/72A3032) a 1, which Holds
for Detailed Equilibrim, to a Been of loss with a Stationary Composition
Orig Pub :Dbkl. All SSSR) 19560 10T) No 5) 664-~67
Abstract :An'analysis of the experimental data, obtained by various investiga-
tors,'is'used to show that the following equality holds with an &a-
curacy to within 5%:
where NJ., N , etc is the ntwbor o ions in the beam having charges 1,
* A 'is L the
j, atc., a2 NJ, N I etc. mmbor of ions in the stationary case.
Equation (I) is ogained if the rdationahip
T (2)
IL
1 J3 2a
is valid i , cross sections that characterizethe charge
exchange between 6. beam of fast ions and a substance at room temperature;
Card 1/2
/V'Y /Z~-- /9?,
AUTHORS: Korsunskiy, M.I., and Bazakutsa, V.A. 120-5-2/35
TITIE. An Electrostatic Analyser with a Non-uniform Field
Produced by a System of Plate Electrodes (Blektrostatiche-
skiy analizator s neodnorodnyr., polem obrazovannym sistemoy
plastinchatykh elektrodov)
PERIODICAL: Pribory i Tekhnika Bicsperimenta, 1957, Vo-5,
pp. 11 - 17 (USSR).
ABSTRACT: An electrostatic analyser of the differential type is
described. It is designed to produce a non-uniform field
which has the following components:
Er i-. Ei/r - E2r1
Ez = 2E2z
(1)
(2)
For such a field, the ion-optical properties depend on the
coefficient of non-uniformity T1 given by:
2 2
2 - 2kr,/(l - kro)
(3)
Cardl/2 where r0 is the radius of the equilibrium trajectory and
-U-LV1-CJ-'Y U-L
Card2/2
-- ZMR~~- - - -- -- -
IKORSUN4KIY. M.I., doktor fiziko-matematichookikh nauk, professor; LAGUNOTO Ass.#
Gn~&kat tekhnichookikh nauk; BATTILI, L.P., kandidat tokhnichosirikh
nauk; SINIII'MICOV, A.N., kandidat tekhnieheskikh nauk.
1~~;aior-':for- re-ginte'ring-*chmW-a'.In,cisarances in steam turoin*s.
Inergomashinostroenie 3 no 5:26 My 157. (KM lot6)
iStem turbines)
AUTHM: RmWantsev, I.A. , Korsunskiy, M. I 4&10-IV20
TITUb The I&- and L -Lines in Cu- and Zn-Spectm (Linii L P6 ' Lt5 v
rv
spektrakh Cu. Anj
PERIODICALi Isvestlys. AN SSSR Serlya Fisichaskaya, 1957, Vol. 21, Nr 10,
Pp. 1435-1437 (USSR)
ABSTRACT: The first results obtained by tests carried out in the L-series of
Cu- and Zn X-ray spectra are described. This paper was intended to
find out vðer in Ou and Zn in the solid state the Ln, ni-Ni
transitions exist. The line LP6 corresponds to the Lill-Ni transi-
tion and the line L to the LII-NI transition. The investipticas
0
of the spectra were carried out in a powerful vacum X-ray Mpectro-
graph with bout mias, crystal and photorooording. The dependence
of the appearance of Cu- and Zn spectra an the conditions of exci-
tation me Investigated. It Is shown that the appearance of the
L spectrum in the case of Cu and Zn depends to a considerable ex-
tent an the conditions of the excitation of the spectzum. There-
fore all data for the L-series of elements with an average atoodo
Card 1/2 number (about 26 Fe to 35 Br) must be re-exudned. In the Cu- and
The L 6- and L5-Lines in Cu- and Zn-Spectra 48-10- 15/20
U-spectre. LP6- ana Lj5-lines we" founa,whioh corresporA to the
transitions from the Nrlevel to the Lljl- &M LII-levela respeo-
tively. There are 5 figures, and 6 references, I of which is
Slavic.
ASSOCUTICE: WarOkov PolytectAnio Institute (KbarOkovskiy politekbnicheskiy
institut)
AMIABLE: Libmry of Congress
Card 2/2
AUTHOR: Borevikova, G.P., Korsunskiy, M.I. 48-10-16/2.0
TITL19: X-Ray Speatruis of the Gertanium L-Series (Rentganovskiy spektr
L-serii germnlya)
PMODICA14 Izvestlya AN SSSR Serlya Fizicheakaya, 1957, Vol. 21, Nr 10,
pp. 1438-1444. (USSR)
ABSTRACTs The X-zvty spectrum of the gormnium-L-series was obtained 'by means
of a tube or the Krasnikov type (Zavodalmya Laboratorlya, 1939s, 4-5).
The investigation of Lp - and Lp ,-lines in -the germanium 3peotrum
gave the following rea2ts: The 'horophotograph shows that the short-
wave line Is more intense then the longwye line. An the Most in-
tome with 9561X ma assumed as L N and that with the wavelength
or 962o x an Lp (on the strength of published data). The ratio of
intensities at i A and 11 L~4 is difficult to determine and to be
obtained only by re-calculating the intensity of the Lp,-line. The
ratio IL P3 . ILpI was found to be equal to 0-13. Herefrom it may be
seen that the intensity of the L - and therefore also of the L
3
Card 1/ 3 line is very low. Furthermore, investigations were carried out
I-Ray Speotn= of the Germanium L-Series 48-10- 16/20
in order to determine the presence of L III -NI, 1,II-NI and
LIA -transitions in solid germanium. It(, 2and LN-recorftap
II-Iii - .
were made at different conditions of excitation and ex-posuree The
miorophotograph shows that the double line is symmetric. It follows
therefrom that the satellites are broader than the base lines. Such
a strong intensity of It( and L& Justifies the statement that
x
these lines cannot be satellites but that they are diagram lines.
It was found that the ratio between the intensities of the satellites
and those of the base lines depends in a considerable degree upan.
whether the sample was subjected to an eleatron, bombardment or not.
On the strength of all factors determined it may be said with Just-
Ifioation that the line 16(7. in the line LP6' and that the Lpi-Ilne
is the Lr-line. As a result of the investigations carried out the
4.15
hypothesis is set up that the lacking of the LP6- and Lir.-lines
Card 213
AUTHOR: KORSUNSKIT BAZAKUTSA, V.A. 20-5-23/67
TITLS: n 0 App=ioatlos of 'an Elootrostatib Field,of the Differential
Type to the Spootrescopy of the Bundles of Charged Particle*.
(Ob. I #pol I sovanit - elektrestaticheakego polya rasnestego, tips v
spektrookepli saryashonnykh ahastits . Russian).
PERIODICAL: Deklady kkadoxii Nauk SSSR, 1957, Vol 113, Nr 5, PP 1029 1031
(U.S.S.R.)
ABSTRACT: First of all the present state of the above problem is briefly die-
cussed and sevaral relevant preliminary papers are quoted. A special
cassof the differential field is defined by a radial and an axial
component of the form Er M (yr) - 12 a 2E2 2. Here 11 and N2 are
certain constants which are in the following way connected with the
inhomegeneity coefficient 1 and with the radius of the path-,.*f
equilibrium: Z 2 12 2
2 (2 re (1 re 3 +01/ar)(r/31V
r
The differential field,f*ousees in radial and axial direction, and
it in possible to apply the WEBER rule in its generalized form: the
Card 1/3 source S. the ei.do of the effective sector angle and the pro-
AUTHORSs Borovikova, G P., Korsunskiyq M. L 20-11j~_&j 5/54
---------------------------
TITLF,s The L6-and LP4-Linos in the Speotrta of Germaniua (Linii
LN i, LP4 Y spektre ormaniyo)
PERIODICALt Doklady kkadeall Sauk SSSR,1957vV*l*114qNr 6,pp.1192-1194(UBBR)
ABSTRACTs The present paper shall find the lines which correspond to
the transitions Lj_-vMjjI and.L,-I!,, , i_ e. the lines L(33
and LO . The wave lengths of these lines shall be measured and
4
their intensity estinted.
The apparatus and.the metho& of investigationt The X-ray speo.
trum of germanius was obtained by means of a Krasnikov type
tube. In -the here described 0experiments the temperature of
germanium remained below 50 C. The primary anode of the tube
was covered by an aluminum plate. The main exciting radiation
was the Kot .Ko(2-radiation of Al with the wave lengths 8321,3T
and 8323,81 X. The entire focalspot participated in the.pro-
duction of the spectrum.
Card 1/2 Measuring multat The possible value of the wave length of
t\6
AUTHORi Borovikoval G.P.# Korsunsklyq M.I. 20-1-19/54
TITLE The Satellites of
1he LaL.10 2 and Ifi Lines in the Spectrum of
Germanium v spektre gerzaniya)
(6 sputnikakh liniy LoL 11 2 1 LF1
PERIODICALi Doklady Akadsaii Nauk SSSRq 19579 Vol. 1150 Nr 19 PP- 75 - 77
(USSR)
ABSTRACTs The. authors refer to a respective earlier worko They continue the
study of the L-sories of the spectrum of germanium in order to
determine the extstence oflines not observed hithertot especial-
ly of the ~lines'l + N ) 9 L r5 (transition
46'(transition L ILI I
L 4 N ) and L if (transition N The experi-
mUtal Irrangs'-se Odiscribod'by G.P! Borihioil,and,X.I. Kor-
sUnskly, Doklad* Akad- lauk SSSR, 1957, Vol- 114P Nr 6'is used.
The obtained x-ray'spectra of the L-series of Go within the
range of wavelength@ of from 10150 - 10400 1 (which contains the
lines LoPL3 , (trans,ition L p, L I ) and If, (transition
L N `dffftr:~roatly fAl the,15 otra known Lfrom literature.
9
the iYatures taken bj*the authors-brightlines were observed
on the short-wavo-part next to the lines LoU 1 2 and LF,. A
Card 1/2 picture of thi a spectral range as well as a odrresponding m1cro-
M15
613-7
.K811
Korsunblciy, Moysey Israyllyevich
1958-
The atomic nucleus. Moscow, foreign languages Publishing House
412 p. illus., diagrs., grap'ns, tables.
Translated from the Russian: Atonnoye Yadro.
KORSUNSKIY, M.I.; RUMYANTSLT. I.A.
yC_J~nsm In copper and zinc spectra. Isal, po sharopro
(MIRA 12:U)
'(Copper--Spectra) (Zinc--Spectra)
82792
s/o58/6o/ooo/W) 4/t)08/'0 16
AOO,3/AOO 1
Translation from: Referativnyy zhurnal. Fizika, 1960, No. 4, p. 224, f 9169
AUTHORS: Bazakutsa, V,A .Korsunskiy, MJ,
TITLE: Some Aberrations of a;n~IonnBeam When Passing Tbrough an Electric
Field of the*Er .-Eor-1 (1-kr2) Type
PERIODICAL: Tr. Khartkovsk. politekhn. in-ta 1958, vol. 14, pp. 83-ioi
TEM. The motion of ions in an :electrical field of the difference type
with the components Er = -Eor-l - (1-kr2)'-Ez--= -2kEoz, where E0 and k are
parameters of the field, was considered in the 2nd approximation. The Ist
approximation was discussed by M.I. Korsunskiy (Abstract f 9168),r In so far as
~he motion of the ions is considered near the equilibrium trajectory,the method
of perturbations is applied to the solution of the problem. The calculation of
the side shift of the ion beam from the equilibrium trajectory made it possible
to establish its dependence on the inconstancy of the value of the ion energy
(~), their angle of divergence ((P r) and the width of the input slit (Aro).
The aberration coefficients have the highest value at and q) -3. The aberration
r
coefficients of a difference-type field were compared to the corresponding c0-
card 1/2
S/'058/60jWO/t)04/0O9/t) 16
AOO3/AOOl
Translation from: Referativnyy zhurnal, Fizika, 1960, No. 4, ppL. 224-225, # 9170
AUTHOR: Korsunskiy, M.1.
TITLE: =lMo=ion of ~Ionln an Axial Magnetic Field of the Hz = Hlr2s-H2r Os+2
Type
PERIODICAL: Tr,.Kharlkovsk. politekhn. in-ta 1958, Vol.. 14, PP, 103-110
T W e motion of ions in axial magnetic difference-type fields of the
Hz = Hlr2s_H2rYS14-2 type was investigated in order to find magnetic fields with a
high dispersion and resolution power. The components Hz and Hr of the difference-
type field were determined. Conditions for focusing a diverging ion beam were
established.
At the focusing spot the beam Is decomposed into spectrum with a
dispersion exceeding by one order the dispersion in a homogeneous magnetic field.
A high degree of dispersion can be obtained for a difference-type field wity,
various values of the s parameter. A differenoe-type field with parameters s-0
has a minimum aberration for ions moving outside of the plane z=O. Difference-
type fields have the property of double focusing in direction (in z and in r).
Card 1/2
C^ i P LO L/
67983
SOV/81-59 12-41476
Translation fromt Referativnyy zhurnal. Khimiyaq 1959, *30- (USSR)
P 35
AUTHORS: Pastushuk, N.S.. Litvinov, LeBo, Reznik, M.V., Korsunskiy, M.I,
TITLE: ivit re Selenium~_With
The Negative Photoconduct Arlof Thin LMe #Vof
Admixtures of Tellurium
PERIODICAL: Tr. Khar1kovsk** politekhni.in-ta, 1958, Vol 14, PP-111-115
ABSTRACT: The photoconductivity 6 of thin layers of amorphous Se with an ad-
mixture of Te dusted in vacuum on glass backing at room tempera-
ture has been investigated. The darkness conductivity(5`0 of.the
studied layern is extremely low. It has been shown that the in-
vestigated samples have a noticeable negative photoconductivity
observed at very weak electric fields (10 2v/cm). The ratio of
the dark current to the light current is 1.2-2. The time of es-
tablishing the itationary value of C is equal to 15 - 20 minutes,
and the time of relaxation of the "negative" 6' , determined from
the moment of switching off the light to eatabYishing the equili-
brium value, is 12 - 16 hours, It has been pointed out that there
is no theory which can explain the described phenomena.
Card 1/1 V. Ostroborodova
AUTHORS: Korsunskiy, X. I., Bazakutes., V. A. soy57-28-7-24/35
TITLE: Investigation of Ion Optical Properties of a Sector Electro-
static Field of a Difference Type (Iseledovaniye ionno-opti-
cheakikh evoysty sektornogo elektTostaticheakogo polys,
raznostnogo tipa)
PERIODICAL; Zhurnal tokhaicheakoy fiziki, 1958, Vol. 28, Nr 72 PP-1510-1525
(USSR)
ABSTRACT: The results of the investigation of ion optical properties
of an electrostatic sector field of the difference type pro-
duced by electrodes of the shape of equipotential planes
are given. The authors discuss a special case of a difference
fieldl viz. a simple superposition of the field of acylindric-
al condenser and of an axial fieldp as described in Ref 17-
First the focusing in the difference field is investigated
and it is shown that a use of the difference fields can
practically increase the resolving power also in those cases
where the dimensions of the picture are mainly fixed by the
Card 1/4 dimensions of the sources. An experimental determination of
soy57-28-7-24/35
Investigation of Ion Optical Properties of a Sector Electrostatic Field
of a Difference Type
the ion-optical characteristics of an electrostatic sector
field of the difference type and especially a determination
of the aberration factors is carried out in order to solve
the problem of the usefulness of an application of difference
fields in the spectroscopy of beams of charged particles.
This field was produced by condenser-type coatings to which
the corresponding potentials were applied. It was found that
such a field just as well as the field of a cylindrical con-
denser is equivalent to a thick lens combined with a prism,
and that in the case of good focusing it shows a consider-
ably greater dispersion (by one order of magnitude). The ex-
perimental determination of the values of the aberration
factor coincidowell with those calculated theoretically.
In the determination of the ion-optical characteristics of
the differenee-seotor field the authors started from the
applicability of the geometric parameterg q and p of the
systems and from the parameters A r , Yr and 6 characteriz-
ing the beam of charged particles. fien such a set of
variable magnitudes is at hand the wanted characteristics
Card 2/4 may be determined. - The description of the experimental
:3OV/ 57--29-7-.24/35
Investigation of Ion Optical Properti9a of a Seotor Electrostatio Field
of a DiffererQa Type
apparatus follows. Based on the carried-out investigation
the following is said; 1) The theoretical investigation of
the ion-optical properties of a differenee-field of the sector
type carried out proves the possibility to use it in the
spectroscopy of the beams of charged particles. 2) This was
proved by the experimental checking of the theoretical con-
clusions. The experimental data obtained well agree with
th'ose from theory. The dispersion of first order in the dif-
ference analyzer amounts to the 12-fold of that in the ana-
1~zer with an electric field of a cylindrical condenser.
3 *The method worked out permits to determine experimentally
the ion-optic-al system parameters- 4) By realizing the dif-
ference fields by means of a heterogeneity factor which is
as small as p,~~Hsible (where no focusing takes place yet) an
important dispersion can be obtained- 5) The dispersion of
0
the energy field dependa on the magnitudes 6,A r and
which demands an earlier calibration of the analyzer. 6) it
is useful to use the electrostatic seetor field of the dif-
Card 3/4 feron,~e typo for tho eons trdction of tho compact spectral
sov/ 57.. 29-7-24/35
Investigation of lor, Optical Properties of a Seotor Electrostasic Field
of a Difference Type
apparatus with g--aat resolving power.
6 denotes the magaituds oharaoterizing the soatterirg accord-
ing to ener&-.
6.r0 denotes the initlal dtqviatir~xi from the path of equi-
ligrium. i~f aw. ion.
kP denotes the initial angle of the inclination to the tra.-
j6X
,Story of equAilibrium.
q and p are the magnituda-,ir, the scheme of the generalized
rule by N. F. Barber (Ref 22). There are lo figures, 3 tables,
and 25 refarenoss, lo of which are Soviet,
ASSOCIATION: Khar1kovskiy politekhnicheskiy instiltut imeni V. I. Lenina
(Khar2kov Polytechnioal Institute imeni V. N. Lenin)
SUBMITTED: may 3, 1957
1. Electric fields--Optical properties
Card 4A
18M FUSN I DWI EXPLOITATION SOV/3355
Akadesiya naule SSSR. Inatitut "tallurgii. Kaucb=77,40vat PC
problems abaroprochnftbi OVI&TOV
zMalsdo'"anlys po zharoprochnys splayss. t. V (Studies an Reat-ri-
St nt Alloys, val. 4). Xomcov, lzd-vo AN SSSR, 1959. 400 P.
ta slip Inserted. 2,200 copies priza0d.
;=
ad. at PublighlUg NOUN@: V. A. 911sov; Toch. 34.: A. F. Ouseva;
WItarial-Oftards 1. F. Bard1n. Academician; 0. V. Kurdrumov,
Academician, X. V. Agmyev-, Corresponding Member, USSR Academy or
Sciences; 1. A. OdIng. 1. X. Pavlay, and 1. P. Zudln, Candidate
of Technical sciences.
JURPOSgt Thin book 18 Intended for notallurglStO eone*rned with
. the structural metallurgy or alloys.
COVIRAUXt This Is a collection of specialized studies of various
groblem in the structural metallurgy of heat-reMiStAnt alloys.
-Inciplea. @cuts with do
al
z
o
ti
re
c
p
0" are concerned with the
.riptions of now equipment and methods, others with propert
Occurring under
ve iried Conditions are studied and reported on. ftr details,
c
?sbl* Of Contents. The articles are Accompsal-id by a num-
"
ber or references. both Soviet and non-Soviet.
Studies (Ccot.)
1 SOV/3355
Act'-LOO.or a.if-dlffusion and the Debys Charxtris
tic
Tespersturs -of metal. 117
And X L*-r-'
. Npendene~ or
"IS lrfUAI*n Parvait
erg on the Type of
6 on- tim P"Stact Of Small Adaixturss a Crystal lettlce
Ax
f & Second Com~
ponest
. I . 123
x GortspIkon 3 0 &W A Study af Small
During the Annealing Or iworw9d xickel 134
(M the L- iorlos
P.. and X. L. mg%=
~
3pactrum of Oarmajal
140
DavIdenkow x x and A 1. 3m irn," An Investigation or the
lmik~- ~-#;runws:;~~'
Ormed at Various
Temperatures
147
D.
Studies (Cone. 30"355
Investigation Of the Diffusion Or Cobalt and Uran Along
tb4 Grain MOundarles 152
X-OkshtgYn. ~S. -2 j T I Oudkola. A. A. Zhuwhovitakiy, and
,
S
xisiiiin'
.
.
.. and Strain on the Dif-
fusion Procoas
158
Sbinyay*v A Ta DirfuglOn C haracterlstIcs and Heat
to light Component Xickel Alloys 16~
ArkftarQv_-W-X,-S-. X-JUntsman, ind A. X.
Ttso oyov~ The
-
f Small
feet0 -Uslatures an the C4ftlel.nt of D f
fusion In PO1Y*rY8t4l12n* Mat6rL4kls ITO
In the f,,Y*v,, &ndrl. P. Polrkar~pdva. Concerning Changes
at
n' V& lou& ~ Ad&lxtur*s at Different 3t&ggs
of Aging at All
ys 176
Xmtsrftl PrIction or run lkt&ls &W Alloys -
Coro 6/12
24(,4)
Akademiyx naux Ukv~&Ln.Aoy Z.,.jj. Clrlki
Pb4oalaktrizbodkiya I qptj4r4.-dkLy~ ravionlya v poluprovadnikakhi
tri4r p4rvaga vacanyu-.tiogo PO rOtf'v1~ktrI1h4skl;&
I aptlaheaklm yavlenlyam v pol~~avNlnt"kh. 1c. Klyev, 20-26
0074ta"ra 1957 g (rhcto--1-4trL'c SUJ OptLuai rhan0m-.414 In SMU-
conductors; Tranaaaclonts of tm~ First Conre~n4ft on rhatceleatric
and Optical Phenm,,na In XlYev, 1959. 403 P.
4,000 copies print-d,
M"tlonal SPonnorlns Agencyt na.k Aft-n . Prealdium.
KomlsslYa Po poluprovocnikam.
M. of Publishing Houses 1, V. Xzs--a; Teah. Ed.: A. A. R3tveychuk;
Reap. S1.3 V. Ye. Lashkarav, A~--emlci4n_UkralnLaa SSRA Academy
or 3alences.
1MWMKs eLis book In Intended rar scientists In the field or send-
-conductor-PM 3pectro*Capy. and n=lCOAdUUtzr
Will C, UZerul E6-j-4-V7&
GOV1404. The
nced ~etudentslh
vAUv*rs1tlQs and Inatttutca or -11=~r'tachnical training
specializing In the physics and technical application or Be"-
Gonductors.
COVIRAOSt fte collection contains --*P*rt3 and information bulletins
(the latter ars indicated by asz*--Wv-'l read at the nrat All-
Union Conference an OPtLc3l anti Z%or~alectrlc Phenomena In Uzi-
conductors. A wide scope of prccl=3 In semiconductor physic
and technology are considereds ;C'otoco.ductivity, phctc&IQ=O-
motjv* forces. optical properti". phateelactric cells and
photorealstors. the actions or r~rd and corpuscular radiations
the propertlea of thin films and c~=pltx semiconductor systems:
*to. 12he materials were prepare-* -Izr publication by E. 1.
Reshboy, 0. V. SnLtko* X, D. TDIVYS*o A. F. Lubah=X0,And X. X.
Sheynkman. ReCamncaa and dincu*stan rallow, each article.
ycotoel.etrjo and optical FAvOoftefts (Coot-) 30v/-,140
4 M=ihs -dI-nS the
M
jerefelchev. V. G. # and
10
.
o the Ab-Sorption
SuIrimo AccoMLO
1
rhotocan=-rTM f Le
-
or x1crowaves 213
Base roculirities of the photoconductivity
1
.
(Theaef) 229
pmporties of 3w&,_oc=doc tars In 1hic P1105
I I
., JL-L.-XL=&. a n-
aki
v
u
1
-
2=
nA
an' Nazat
rj4
--joTchov
-aj;j~r;or SaTrnT=--TFG-A-f0d With rAer-cury 220
optical
-AL-2i. 1
L1.2-t-A
me Semiconductors
?F~ ---
perrats or T=n Vilng Of 3
227
XjJLy&y, A~ A. 1MahzhSlI70v, 0-
X
~
Allyev. and X. Salarov. In extigstion of the Optical
fropertles of 3~16nium With Adsdx-~& of Iodine, Bromine,
05432
SO'1/120-59-3-3/46
AUTHORS: Korsunskiy, M. I., and Zashkvara, V. V
TITLE- On~tii~`: ~6RTR~Yeduction of Aberration Coefficients
in Non-uniform Field Analyzers
(0 vozmozhnosti umen'sheniya aberratsionnykh
koeffitsiyentov v analizatorakh s neodnorodnymi
polyami)
PERIODICAL: Pribory i tekhnika eksperimenta, 1959, Nr 3,
pp 21-25 (USSR)
ABSTRACT: Contemporary charged particle spectroscopy uses electro-
static and magnetic analyzers with non-uniform 9 axially
symmetric fields. The use of a non-uniform electro-
static field which falls off along the radius more
rapidly than the field in a cylindrical condenser and
also of a non-uniform magnetic field, enables one to
increase considerably the dispersion of analyzing devices
(Refs 1 to 5). However, such fields have the disadvantage
that they have relatively large aberration effects
(Ref 3). The aim of the present paper is to investigate
the possibility of removing or minimising these aberra-
tion effects, which are due to the non-uniform fiold,
Card 1/5 while preserving the large dispersion. It is shown that
0502
SOV/120-59-3-3/46
On the Possible Reduction of Aberration Coefficients in Non-uniform
Field Analyzers
this can be done by using a number of electrostatic or
magnetic non-uaiform flelds,slightly different from each
other. Such a multisector analyzer is analo-gous to a
collection of lenses correcting the principal aberrations
of an optical system. The particular set-up.considered
is shown in Fig 1 and consists of a number of,-non-uniform
electrostatic fields in series. ~In Fig 1 the sources on
the left and the detector on the-right. The field
components in the neighbourhood-of the main orbit (a
circle of radius r.) may be represented as power aeries
in the small uan t ties (r - r~)/r and z/ro
(Eqs (1) and 2)). Expressions (1 ana (2) satisfy
Maxwell-'s equations and the symmetry requirement with
respect to the plane z = o. It is assuiAed that on the
boundary between two neighbouring se re th re 2-1 a
jump within the field from a value EM to EZn + ).
At the input and output of the analyzer the field changes
(liscontinuouzly from zero to the values given by Eqs (1)
Card 2/3 and (2). The equations of motion of an ion with a mass m
05432
SOV/120-59-3-3/46
On the Possible Reduction of Aberration Coefficients in Non-uniform
Field Analyzers
and charge e in the nth sector are given by Eq (3).
This equation is solved by the inethod of successive
approximations and the first order focussing condition
and energy dispersion are derived and are given by
Eqs (10) and (11). Next, an analysis is given of the
aberrations. It is shown that by suitable choice of
the geometry the aberration coefficients may be reduced
to zero. This analysis can be extended to magnetic
fields, In particular, second order double focussing
and high dispersion may be obtained by using a three-
sector electrostatic analyzer in conjunction wi:th a
sector producing a non-uniform magnetic field.. There are
4 figures and 6 references, 5 of which are Soviet and
1 German.
ASSOCIATION: Kharlkovskiy politekhnicheskiy institut
(:Kharlkov Polytechnical Institute)
SUBMITTED: April 14, 1958
Card 3/3
- ~ BOROVIKOVA, G.Pq KORSUASKIY, N.I.
L-sories spectrum of germanium. Isol.po sharoproplav. 4:
140-146 159. (MIRA 13:5)
(Gormanium-Spectra)
.27758
P/0-9p/61/000/007/062/086
aU.2%?.7.2 AOOI/A101
AUTHORS: Korsunskiy, M.I., Zashkvara, V.V., Bazakutsa, V.A.
TITLEt On the joint action of electric and magnetic difference-type sector
fields on an ion beam
PERIODICAL: R-aferativnyy zhurnal. Fizika, no. 7, 1961, 299, abstract 7Zh4q (11Tt.
Kiarl. kovak. politekhn. In-ta% 1959, v. 25, 61 - 71)
TUT: I1; was established that a system of consecutively arranged electric
and mWctic Cifference-type fields ensures double focusing of a divefgent ion
beam, Moreover, in this system it is possible to bring about, by a correspond-
ip,-1y selected shape of the magnetic field, &lso additional focusing along the z-
.t~xis. Conditions are derived for automatic compensation of variation of one
field by varying the other.,- which ensuries a high stability of the ion-optical sys- 44~
tem. As a result of theoretical investigation of th e ion motion, optimum valu-
es of parameters were selected for obtaining high dispersion at small image widti-4
The ion-optical system studied can be utilized for designing a powerful mass-
spectrograph with a high resolving power. There are 11 references. V. Bazakumea.
[Abstracter's note: Complete translation]
Card 1/1
YOF Say,
RUIVAJ,Ts
C Zn cyutelz-
-6,ae Ul-
t Zri in al.LOYJ 14-2)
'pectra 0.
7 no. 6:35C--35-9 D 159-
-1.-Spactra)
24M BOV/48-23-5-6/31
AUTHORSt Borovikova, G. P.f Korsunskiy, M. 1.
TITLE: Investigation of L-Series of Germanium (1, esledovaniye L,-serii
germaniya). Influence of Impurities (Vlijaniye primes
PERIODICALs Izvestiya Akademii nauk SSSR. Seriya fizicheskaya, 1959P
Vol 23t Er 5, pp 564 - 568 (USSR)
ABSTRACTs The transition of matter into another physical or chemical
state causes, an is known, a change of the electron state in
thes6tomc , and-these changes are revealed in the structure of
the X-ray spectral lines. The comparison of the spectra shows
that the spectrum change occurring in.metallic germanium takes
place, as if the samplG surface were oxidized. In the inves-
tigations under review, the intefisity of the lines was measured
with a microphotometer. The classical dispersion curve for-
mula is then written down, and a diagram.shows.the measured
intensities of the L-lines as well as their aplitting up into
individual maxima. Table.1 slimmarizes the.half widths of the
individual maxima, and table 2 the interval between the maxima
(both in ev'). The intensity of all lines is computed with the
Card 1/2 abovementioned formula. Germanium rectifiers are investigated
Investigation of L-Series of Germanium. Intluence of BOV148-23-5-6131
impurities
next, and their frontal and lateral spectra are shown in
two diagrams. Finally, the influence of small iron impurities
(0.002%-0-05%) on form and position of mfxima is investigated,
and results are summarized in four tables. Special samples
serving for these investigations were prepared by the Institut
poluprovodnikov AN USSR (Institute of Semiconductors As Ukrin
and gratitude is expressed to V. Ye. Lashkarev. There are
figures, 10 tables, and 3 Soviet references.
ASSOCIATIONt Khar1kovskil politekhnicheskiy institut im. V. I. Lenina
(Khartkov 1?alytechnic Institute imeni V. I. Lenin)
Card j/2
,t,,
PHASE I BOOK MUWZrATZON SOV/4347
Akademiya neuk Ukrainskoy SSR. Institut neta.Uokeramiki i spetsiallnykh splumv.
Seminar po zharostoykim materialam
Trudy., v-yp. no. 5 (Transactions of the Academy of Sciences, Ukrainian SSR,
Institute of Metal Ceramics and Special Alloys, Seminar on Beat Resistant
Materials, No. 5) Kiyev, Izd-vo AN Ukrainskoy SSR., 1960. 63 p. 2,000 copies
printed.
Ed. of PUblishing House: I.V. Kisina; Tech. Ed.: A.A. Xatveyebuk,- Editorial
Board: G.V. Samsonov (Reap. Ed.), I.N. Frantsevich, V.7. Grigorlyeva,
A.Z. Men'shikov.. and M.I. Korsunskiy.
PURPOSE: Tha book is intended for engineers, scientific workers and students
specializing in refractory metals and their compounds, powder metallurgy,
electronics, machine building and physical wtallurgy in schools of higher
technical education.
COVERAW.6 This collection of papers, originally presented at, the Seminar on Beat
Resistant Materials in Kiyev on June 13-June 17, 1958,
Card 1/4
Transactions of the Academy of Sciences (cont.) SW/4347
discusses the physical properties and production technology of refractory metals
and their metal-like compounds with boron., carbonj, nitrogenL, and silicon. The
results of investigations of the absorption and emission spectra of niobium
and chromium compounds., processes of joint diffusion of two elements in metals.,
and data on phenomenological studies of physical properties of metal-like phases
are presented. Methods of processing rare metals and refractory compounds In
making powders and various articles used in many fields of modern technology are
analyzed in detail. Several articles discuss the particular problem of powder
metallurgy of ordinary metals and alloys. The papers reflect work performed at
the follovIng institutions: Inatitut metall keramiki I spetsiallnykh spl
AN USSR (Institute of Metal Ceramics and Special Alloys,, Academy of Sciences
UkrSSR), Gosudarstvennyy institut prikladnoy khimii (State Institute of Applied
Chemistry) leningrad., Khartkovskiy politekhnicheak:iy institut (Kharlkov Poly-
technic Institute),, Institut fizild.metallov AN SSSR (Institute of the Physics
of Netalsj, Academy of Sciences U=)., Sverdlovskiy gosudarstvennyy universitet
(Sverdlovsk State University),, VrM' TaNIMbEEWT., VNIrMhj, Institut metallurgil
AN USSR (Institute of Metallurgy, Academy of Sciences Ukr8SR) VNIrm.,
RM.. Gorlkovsldy politekhnicbeakiy institut (Gor,kiy Poly-technic Institute)$
and Ytoskmrskiy elektrolampovyy zavod (Moscow Electric Bulb Plant).
accompany individual articles.
Card 2/4
Transactions of the Academy of Sciences (Cont.) SM/4347
TAMZ OF CMUMM:
Introduction 3
Beshpor, V.S. Physical Properties of Metal-Like Compounds 5
and Ya. Ye. Genkin. Emission Bands L
Korgunakiy,.M dL
- t~ 02 an .1
of Niobium in IM, NW and MbB2 15
Questions and Ansvers 19
Discussions 20
ffenmono,7, S.A.y and A.Z. Men'shikov. KZ pectra of Chromium
Absorption In Borides, Carbides, Nitrideo, and Some Other Compounds 21
Discussions 24
Frantsevichp X.N., and A.N. Pilyankevich. Comparative Brittleness
of Refractox7 Compounds 28
Questions and Ansverp 36
Card 3/4
Tran actions of the Academy of Sciences (Cont.) SOV/4347
Arkharov., VJ.j. and V.N. Konev. Joint Diffusion of Two Elements
in Hard Metal 37
Questions and Answers 40
Discussions 40
Samsonovo G.N'.p and N.N. Zhuravlev. Structure and Properties
of Borides of Rare-Earth Metals 43
Questions and ansvers 51
KudiTartsev., V.1.2 and G.V.Sofronov. Precision Determination of
Lattice Intervals of Boron Carbide of B a B ,,C Composition
According to Roentgenograms Obtained in2Q Re on'6f Large
Scattering Angles (0-0 900) 52
Questions and Ansvers 60
Discussions 61
AVAILAME: Library of Congress
Card 4/4
TA/dvn/
mas
3.1-18-6o
pill
Fie
IN 1 ~! ~e
It lit
~14
t4
P
14
9 v
ell
a,
ICU
, ,
Ir VIP
11
VS
J 82336
A9'T)-)00 S/139/60/000/03/Oi8/o45
a 14 r'>Z_V 0 Efi~'VE314
AUTHORS: Reznik, M.V._and Korsunskiy, t"
TITLE: On the Diffusion of Mercury Atoms Into Selenium
PERIODICAL: Izvestiya vysshikh uchebnylch zavedeniy, Fizika,
1960, Nr 3, pp 107 - Ill (USSR)
ABSTRACT: The effect of mercury impurities on the conductivity
of selenium is well imown (Refs 1, 2, 4). The mercury
impurity increases the conductivity of selenium by
millions of times.and alters its photo-conductivity.
It has been found experimentally that the change in the
photo-conductivity of selenium depends on its electrical
conductivity and consequently on the amount of impurities
introduced into the selenium. Depending on the concen-
tration of the mercury-impurity atoms, the photo-
conductivity of selenium can be either positive or
negative. Henco,,:Ln order to obtain a definite concen-
tration of mercury atoms in stlenium and consequently
a given type of conductivity, it is important to have
information about the diffusion of mercury into selenium.
Published data on this subject are claimed to be not very
Cardl/4 consistent. The present paper reports results of
82336
S/139/60/000/03/018/045
Eg3ef/en -14
On the Diffusion of Mercury Atoms Into um
measurements of the rate of diffusion of mercury into
thin (10-4 cm) films of amorphous and crystalline
selenium. The selenium was deposited onto circular
glass plates, 16 mm in dia, or rectangular glass plates,
14 x 26 mm, with grooves cut into them. Wire electrodes,
0.45 mm in dia, were fixed in these grooves and were
covered with a layer of gold or silver. The selenium
was then deposited on these discscind placed in a vacuum.
The thickness of the selenium deposit was 10-4 _ 10-5 CM.
The form of the discs and plates is illustrated in
Figures I and 2. Depending on the tem erature of the
base, the selenium was in an amorphous or crystalline state.
The structure of the deposits was investigated by X-ray
methods and also metallographically. The mercury atoms
were introduced into the selenium with the aid of the
apparatus illustrated in Figure 3. This simply consists
of a perspex holder B into which the specimen ~ could
be inserted and subjected to the effect of mercury vapour,
Card2/4 the mercury being held in the adjustable reservoir A .
kr
82336
s/i39/6o/ooO/O3/O18/o43
On the Diffusion of Mercury Atoms' -10PARlium
While the selenium was in the mercury-vapour atmosphere,
Its electrical conductivity was continuously measured.
Mercury atoms entering the selenium increase conductivity.
-After a.cert&In_tiizte *L-- after*the beginning.of the
penetration of-mercury into the-s-elenium, a measurable
conductivity could be observed. At toomtemperature
't = 10-20 min for amorphous selenium and 3-5 hours for
crystalline selenium. The conductivity rapidly increases
after this time and & typical graph of conductivity versus
time is shown in Figure 4. When the specimen was removed
from the mercurya-vapour atmosphere the resistance of the
specimen Increased by a factor of 2 _~ 3 and then remained
constant. It was found that ^& decreases with
increasing-temperature ("r, = 10, 3.5 and I min when
t =:36, 48 and 58 OC, respectively). The experiments
-indicate that the diffusion of mercury into selenium takes
place both 40. room and higher temperatures. The rate of
diffusion in amorphous selenium is greater than in
crystalline selenium. The rate of diffusion in crys?alline
Card3/4
83362,
1/ /7 /7 S/139/60/000/oo4/020/033
E201/E591
0 0
AUTHORS: Korsunskiy, M.I., Pastushuk, N.� and Mokhov, G.D.
TITLE: Photoconduc ivi inetics of Amorphous Seleniumh yers
Treated with Mercury Vapour
PERIODICAL:Izvestiya vysshikh uchebnykh zavedeniy, Fizika,
1960, No.4, pp.167-172
TEXT: The paper deals with photoconductivity of amorphous
selenium layers treated with mercury vapour and exhibiting both
positive and negative photoconductivity (positive means here
enhancement of the electrical conductivity by illumination,
negative means reduction of the electrical conductivity). Selenium
layers were produced by vacuum deposit ton (at 10-5 mW Hg) on glass
plates. The layers were from 2 x 10- to 3.5 x 10 cm thick.
The electrode positions are shown in Fig.l. The experiments
ext--anded over the ff7c,11owing wavelength ranges: 360-46o, 530-58o,
600-720, 740-1000 m-0- Figs. 2 and 3 give typical oscillo rams
showing the dependence of the change in the crduct 2 inten N a) with
time (t) under illumination with light of 10- W/cm sity.
The oscillograms show that illumination raised the conductivity
Card 1/3
83362
S/139/60/000/004/020/033
E201/E591
Photoconductivity Kinetics of Amorphous Selenium Layers Treated
with Mercury Vapour
irrespective of the polarity of the applied voltage. Initially
the photoconductivity rose very sharply, reached a maximum (od a max
and then decreased slowly reaching a steady-state value (j& a )
in 4-5 min. A family of oscillograms representing the depenaence
a = ad + A a = y(t), where a d is the dark conductivity, is shown
in Fig.4. Figs-5-10 show, as a function of the intensity of
illumination, (ILO) (Figs. 5 and 6), AU (Figs-7 and 8),
dt t -4 0 max
'AUc (Figs. 9 and 10). It was found that the photoconductivity
kinetics of mercury-treated selenium layers depended strongly on
the wavelength of illumination, on its intensity and on the
polarity of the applied electric field.The negative photoconductivity
was observed under illumination with short-wavelength light of
sufficient intensity. The positive photoconductivity decay became
less pronounced with increase of wavelength at a fixed illumination
intensity. There are 10 figures and 5 references: 4 Soviet and
1 French.
Card 2/3
833052
S/139/6o/ooo/oo4/020/033
E201/E591
Photoconductivity Kinetics of Amorphous Selenium Layers Treated
with Mercury Vapour
ASSOCIATION: Kharlkovskiy politekhnicheakiy institut imeni
V. I. Lenina
(Kharlkov Polytechnical Institute imeni V. I. Lenin)
SUBMITTED: June 29, 1959 (initially)
March 26, 1960 (after revision)
Card 3/3
S', 2 2," foliS, Mpbf 12'73 23332 9/058/61/000/0096/017/063
AOOI/AIOI
AUMHORS: Korsunskiy, M.T., Genkin, Ya. Ye.
TITLE- NiobitLm emission banda I A2 and Ti in NbN, NbC and NbB2
i
PL11:10DICAL: Referativny- no. 6, 1961, 151, abstract 6vii4 ("Tr.
.; zhurnal. Fizika,
Seminara po zharoatoykim materialam", (in-t metallokeramiki i spets-
sPlavov AN UkrSSR, no. 5), Klyev, 1960, 15 - 20)
The authors investigated the L-series of Nb In the compounds NbN,
NbC and ?TbB2- it was found out that intensities and shapes of lines Lo~,, L
21 ~11
L ~.4, LA and others varied'insignifio3antly, whereas these of bands L~ 2'and T
suffer only pa ,
shlrp changes. The bands L~ 2 and L,,,,,l of Nb In compounds are
r .
of ;the corresponding bands of pu e Nb. The"outting-off" of band parts Is a con-
sequence of escaping of a part of electrons in the ffientioned compounds from d-
state of Nb., The measurements performed are insufficiently accurate for reliable
quantitative 2onclunionz, 'out in the NLB2 compound this phenomenon is more pro-
nounced than in NbN and NbC.
[Abstracter's ricte: Ccmplete translation]
Card 1/1
S/115J60/000/05/25/034
B007/BO11
AUTEORS: Korsunekiy. M. 1,. Lagunovt Ae S., BaYvell, Lj_.E"
51neMIKOV9 A6 We
TITLE: Use of Radioactive Isotopes for the Measurement of Vapor
Moistness
PERIODICAL: Izmeritelinaya takhnikap 1960, No- 5P PP 50-52
TEXT: A method of measuring vapor moistness is offered here. It bases
on the determination of vapor density after absorption of 0-partioles.
A radioactive sulfur isotope was used for the purpose. Investigations
were first oonducted in the laboratory. Source activity and counter
were selected, the optimum distance between isotope and counter as well
as the absorption coefficient were determined. The experimental setup
shown in Fig. 1 served for the investigations. The setup is briefly
described along with the investigation course4 An aluminum vepoel pre-
pared for the purpose and shown in Fig* 2 was used as source. Radiometer
5 -2 (B-2');$served as recording device. To determine the vapor density
it was necessary to determine the mass absorption coefficient of
Card 1/3.
Use of Radioactive Isotopes for the S/11 60/000/05/25/034
Measurement of Vapor Koistness B007YBOII
irrespective of the state and the drop also of the moistness contained
in the vapor. There are 3 figures and I table.
Card 3/3
IKORMNSKIT, M. I.;- GININ, Ya.Ye -
Possible determination of electron distribution br their d and
d5/2 states in relation to the intensity, of L-series line J~2 Sal.
po zharopr. oplav.6:165-168 160. OGRA 13:9)
(Ilectrons-3kission) (X-rayl3-Dif f raction)
29409
S/081/61/000/017/002/166
B102/B138
AUTHORS: Korsunskiy, M. 1.9 Genkin, Ya. Ye.
TITLE: X-ray L spectra of niobium in the diboride, nitride and
carbide, and the nature of the bond in these compounds
FERIODICAL: Referativnyy zhurnal. Khimiyaq no. 171 1961, 11 - 12,
abstract 17[;65 (Sb. "Issled. po zharoprochn. splavam", M.t
AN SSSR, v. 6, 196o, 169 - 173)
TEXT; X-ray fluorescenceL spectra of metallic Nb and of NbC, NbN and
NbB2 (lines L 0t1, La2, L01 , LY1 , L02 , L,, and LP4 ) have been obtained.
When passing from metallic Nb to compounds, the intensity and shape of the
lines La1 , LPI, L03' LP4change very little, while in the L,2 and L Y1
lines the change is considerable. The first of these lines, which is of
normal shape in metallic Nb, becomes a broad line with two peaks in NbB 2;
the change consists in the "shearing" of part of the band. The same
Card 1/2
Z'
/Y 62550
S/181/60/002/007/030/042
19 0 0 B006/BO60
AUTHORS: Korsunskiy, M. I., Pastushuk,_N. S., Mokhov, G. D.
TITLE: On the Photoconductivity of Sulfur yers Exposed to the
Action of Mercury Vapor
PERIODICAL: Fizika tverdogo tela, 1960, Vol. 2, No. 7, pp. 1581-1583
TEXT: In a previous paper (Ref. 1) the authors had already found that
layers of amorphous selenium treated with mercury vapor exhibited both
positive and negative photoconductivity. The development of photoconduc-
tion proved to ba complicated and very sluggish. In the present paper the
authors examined sulfur layers. The samples were prepared by vacuum sput-
tering of sull)Ar (jo-5 torr) onto a glass plate 18 mm im diameter. Gold
electrodes were applied at intervals of 3 - 4 mm (Fig. 1). The sulfur
layer had a thickness of (2-$.jo-4 om and a dark resistance of 1012 ohms.
After it had been treated with mercury vaporg its resistance dropped to
106 ohms and less, depending on the durat ~on of treatment. At room tempera-
ture the treatment took 4 - 5 days; at 70 C, 7 - 8 hours. The authors found
a peculiar oatalytia action of sunlight: The treatment took no more than
Card 1/3
82550
On the Photoconductivity of Sulfur Layers 5/181/60/002/007/030/042
aposed to the Action of Mercury Vapor B006/BO60 -
12 - 15 minutes with the use of sunlight~ It was further shown that photo-
ac3ivity differed in various parts of the sample; the differences amounted
to almost one order of magnitudeo The highest activity was exhibited by
the layer at the points over an electrode. A loop oscilloscope with a
d-c amplifier and a galvanometer was used for the measurement of photo..
r;onductiYity9 and a projection lamp (400 W) served as light source. Speed
measurements were made on a monoohromator of the type Y11-2-(UM-2). Fig. 2
shows ~d - f(t) for a sample irradiated with X - 453 and 645 mg at room
temperature. At X = 453 mp photoconductivity rises, passes through a maxi-
mum, and drops (below the value of darkness) deeply into the negative range
(nagati-fe photoconductivity). At A - 645 mp a rise is observable vith
subsequent saturation (sluggish positive photoconductivity). Such a dif-
farsnt behavior is also found if the conductivity of the sample whose
photooonduotivity was effected by 453 and 645 mag respectivelyg is measured
in the dark (Fig- 3). The dark conductivity is maintained for 2-5 hours
in both oases. There are 3 figures and 4 references: 2 Soviet and I
British,
Card 2/3
86810
S/185/60/005/001/009/018
Z 7- Yj 12 7.3 A151/AO29
.20
Korsunslkyy, M.I.; Borovykova, H.P.
The Effect of Very Small Admixtures of Antimony on the L-Series of
~,he X-Ray Spectrum of Germanium
--'.OD.'-.CAL- .'ikrainslkyy Fizychnyy Zhurnal, 1960, Vol. 5, No, 1, pp. 88 - 93
M.T. In Ref. I the authors reported on the effect of small admixtures of
Ivon, obalt and gallium on the L-series of the X-ray spectrum of a germanium
single crystal. The aim of thIsInvestigation is to determine the relationship
~--tween the value of the displacement4EB6 -AI12 and the concentration of admix-
r,ures in Ge. The four lines (emission bands) of the L-series of Ge Lcq'.2, LA5,
16,, aad T_-(5 (Ref. 1) were investigated with the aid of a high-vacuum X-ray spectro-
S,aph fit ed with a bent crystal of mica, as well as by a mixed method of X-ray
pe3t-im exciTation. The curvature radius of the mica crystal was 1 m. The
?-F~italls work surface was 10 x 40 mm. The X-ray tube and the spectrograph had
171in'',n Va~.IWJM. The speo Ifu-M. recording ~as effected by a photographic method
~-N .'Ilm Ag-L'a Isopan F - DIN.: The operation conditions of the tube- tension
c~r, current 4 - 8 ma. 19he linear dispersion within the reflection angle range
-1
32 Xmm , the energy dispersion was 3.68 ev - mm-1. The photometric measure-
d 1./? A
86810
s/185/6o/0o5/ooi/oo9/oi8
A151/AO29
The Effect of Very Small Admixtures of Antimony on the L-Series of the.X-Ray Spec-
trum of Germanium.
ments of the spectrilm were oarried out on the ft-4 (MF-4) m1crophotometer with a
magnification coefficient of I x B. Each speotrogram was photometered three U_r-*38
on a different height of the lines. Three spectrograms were made of eaca of
germanium single crystals investigated. It is shown that an introduction of
mony in the quantity of jo-3 _ 10-2 atomic percent into the Ge single crystal
causes a displacement of the line L& in relation to the line W1.2, and a din-
placement, of the line L15 In relation to the line LPj of Ge by the value I - 2 ev,
The value of the displacement,& Ep6 -A 1.2 is proportion4l to the cubic root trom
the concentration of the admixture atoms. A displacement of the lines 10(j.2 and
Lh to -the short-wave direction was revealed which points to the displacement of
the 1 vels Ml-
P 7, V with regard to the levels LIIj and LII. This displaoement., how-
ever, is considerably smaller than the displacement of the level N, with regard
to M The width of the lines depends upon the concentration of admixture
atowiv,it-he germanium single crystal. A linear relationship was established be-
tween the increase in the width of the line and Y-F. There are 6 figures, I table
and I Soviet reference.
ASSOCIATION:.Kharkiv, Politekhnichnyy instytut im. V.I. Lenina (Kharkov, Polytech-
i' Institute lenj V.I. Lenin).
Card 2/2 9MTTED; July , 959
(-.-Xojj5Ujja&jjj_X._Lj LITVINOVAI L,B#; BOROVIKOVAq G.P.
Influence of small amounts of gallium on the position of the I '
and L emission lines of germanium. Fiz. tvers tels. 3 no 1-M-283
ja & (NIRA 14:3)
1. Khartkovskiy politekbnicheskiy institut im.V*I.Lenina.
(Germanium--Spectra)
KORSUNSKIY, M.I.; PASIIJSHUK, H.S.; MOKHOV, G.D.
Wainating the effect of nonphotoconducting layers in studting the
photoconductivity of layers of amorphous selenium with meicury ad-
mixture. Fiztveretela 3 no.5:1366-1370 W 161. (KmA 34:6)
1
I* Khartkovskiy politekhnichookiy inatitut, imeni V.I.Lenina,
(Photoconductivity) (Selenium-Electric properties)
IWA
ct,*/77 /40'399
), (" .'V* )_ I
28084
S/18 61/003/009/016/039
B102YB104
AUTHORS: Korsunskiy, M. I., Pastushuk, N. S., and Alokhov, G. D.
TITLE: A new type of photoconductivity
PERIODICAL~ Fizika tverdogo tela, v. 3,no. 9, 1961, 2667-266a
TEXT: The authors discovered a new type of photoconductivity in mercury-
doped selenium., They studied the dependence of this photoconductivity on
wavelength andintensity of illumination. The specimens were irradiated
with monochromatic light in a vacuum chamber (10- 6 mm Hg) and the photo-
conductivity change was recorded by a loop oscilloscope. The curves
a = f(t) for illumination wavelengths between 0.425-0.715P. were taken and
dark conductivity was measured. It was found that upon illumination with
A 0.535~1. conductivity did not change, at A > 0.535pit increasea and at
A 0,535t.4 it decreased. The transient period of a steady conductivity is
much shorter in illumination with short-wave light than in illumination
with light of longer wavelengths. On illumination with any monochromatic
light (except for X = 0-425~0 the photoconductivity of the specimen
Card 1/4
28084 S/181/61/003/009/016/039 A-
A new type of photoconductivity B102/B104
decreases during 2-3 min. This decrease is tile stronger, the longer the
wavelengthq howeverg it never exceeds 5%. This new photoconductivity is
termed quasisteady dark conductivity and may be regarded as a new effect.
Observations made during 2 hr showed that it did not change. It was found
by measurements that the strongest conductivity changes occur upon
-4ff
illumination with wavelengths between 0.610-0.490~t(intensity 10 /cm 2).
In some specimens they were even of one order of magnitude. In the
intensity range 1*10-4 _ 801,10-4 W/cm2 and in the range of the Arange
0,420-0-71* the amount of the quasisteady photocurrent was independent of
the intensity. There are 2 figures, 1 table, and 1 Soviet reference.
ASSOCIATION: Kharlkovskiy politekhnicheskiy institut im. V. I. Lenina
(Kharikov Polytechnical Institute imeni V. I. Lenin)
SUBMITTED: April 7, 1961
Card 2/4
ff 0 0 Odftj,~ //x wo) S/16IJ61/003/01*0/030/036
B1251BI02
AUTHORs Korsunskj".. i.
TITLEs Nature of a new type of photoconductivity
PERIODICALs Fizika. tverdogo tela, v. 3, no. 10, 1961, 3181 3186
TEXTs M. I. Korsunskiy,'N * S. Pastushuk, and G. D. Mokhov (FTT, UIP 90
1961) reported on a new type of photoconductivity in mercury doped
selenium samples. The photo-response is independent of light intensity
used but depends on its wavelength. The transient period of the photo-
response will decrease with increasing light intensity. This paper tries
to explain this phenomenon. This new type of photoconductivity will occur
when all other- carri er-recombinat ion mechanisms are of such a small
probability that the recombination induced by light plays the principal
role* The photoconductivity is assumed to be of hole type. Then, the
0
concentration of free carriers is given by no a cxp/hVpj, where the rela-
tion (dn/dt) excit 0 (dn/dt )recomb is valid. Eq. (4) yields the ex-
pression ao a euno for the photoresponse, where u denotes the carrier
29700 S/181/61/003/010/030/036
Nature of a new type of photoconductivity B125/BI02
0
mobility, e the carrier charge, n the equilibrium concentration of
' . 9 1
electron traps, a the quantu m yield, ~ the absorption coefficient, y. the
frequency of exciting light$ and r a coefficient dependent on the wave-
length.The author investigated the type of photo-response obtained when
changing from a monochromatic. light with a wavelength to such with a
wavelength >-2 for the following two casest a) n 9~~n and b) n.. a no
At the-inatant of changing the.,following expressions are valids
cot (8a)
1301:=eu
When'ohanging frop'l to
0 01
I d*
T 7t TIR,, (Ooi am).
I d
Card 2/3 011;01~0 (0.,
KjR3UN3KIY, 11. 1., LOGUNJV, A. S., and BAYVIL, L. P.
------
IlThe Application of Radioactive Isotopes for the Control of Parameters
-if Moving Wet Steam"
paper prejented at the All-Union Seminar on Application of
Radioactive Isotopes in k1easurements and Instrument Buildin6,
Frunze (Kirgiz SSR), June 1961)
So; Atormiaja Lnergiya, Vol 11, No 5, Nov 61, Pi) 468-470
B10481611025100610091009
B104/B202
AL.L~HORS: Korsunskiyt M. 1.t Genkin# Ya. Yo.
TITLE: Device for correcting the shape of emission spectra
PERIODICAL: Akademiya nauk SSSR. Izvestiya. Seriya fizicheskaya,
v. 25, no. 8, 1961, 1013-1016
TEXT: The present paper was the subject of a lecture delivered at the
5th Conference on X-ray Spectroscopy at Khartkov, January 30 to
FebruarY 4, 1961. The authors studied the scheme shown in Fig. 2 for
taking account of the distortions of the emission spectra caused by the
apparatus and the width of the inner levels. By means of these scheme
fi
relation f - !:E b F (i . 192# ... s), where 11b 11 is a certain
i k=1 ik k ik
transformation matrix and Fk the ordinate of the experimentally determined
spectrum. The elements of the matrix 11bikIl are produced in the form of
resistors rik consisting of manganin wire. The device consists of n
the authors determine the rectified ordinate
of the spectrum using the
Card 1/7
3/048/61/025/008/009/009
Device for correcting the shape ... B104/B202
cells. Each k-th cell contains s resistors corresponding to the elements
of the k-th column of the matrix and which are connected in series.
Furthermore# each cell contains a d-o source, a tuning potentiometer, a
load resistor, and a resistor having the same resistance as the instrument
measuring the amperage in the cells. With the aid of the tuning potentio-
meter an amperage is tuned in each cell which corresponds to the value of
the ordinate at the k-th point. Thusp a voltage drop V ik ' rikik
= ab ikFkoccurs in each cell where a is a constant of the instrument.
Hence, the sum of the voltage drops in all i resistors of the cells is
proportional to the value of the ordinate at the i-th point of the
rectified curve; n
Vi - kM.:1 vik - a fi-
Fig. 2 shows the scheme of this device. As can be seen, each matrix
element is connected with an immobile contact panel which sums the voltage
drops at the matrix elements 11, 12, 13, .... f It23. I.e., the voltage
drop proportional to fI is calculated. This voltage at the ends of the
resistors 11 and 1,23 is applied to the mobile contact of the compensating
Card 2/7
S110481611025'00610091009
Device for correcting the shape ... B1041B202
potentiometer and its central point. If the voltage drop at the
potentiometer between the central point and the mobile contact is not
equal to that at the ends of the elements 11 and 1923 the galvanometer
needle is deflected to one side or the other. By means of a motor the
mobile contact of the potentiometer is adjusted such that the galvanometer
needle again indicates zero. In this case the voltage drop at the
potentiometer is proportional to fl. The position of the mobile contact
can be exactly read on a scale. After the determination of f, the mobile
contact panel is adjusted to position 2, in which the summation of the
voltage drops at the resistors 21, 22p 23P .,..p 2.23 is made. In this
case the voltage at the ends of the resistors 21 and 2,23 is applied to
the compensating potentiometer. This voltage is compensated according to
the above scheme, with the value of the rectified coordinate being read
at point 2 of the scale. A scheme representing a (11,23) matrix and
serving for the direct correction of spectra from the microphotographB
without transformation with respect to intensity was tested. Pig- 3
shows a comparison of a rectified curve with one calculated directly. The
authors than% L. I. Lukashenko for valuable help and V. F. Balditsyn and
Card 3/7
S1001611025100810091009
Device for correcting the shape ... B104/B202
I. A.-Belenko for the production of the device described here. There are
3 figures and 2 Soviet-bloc references.
ASSOCIATION: Kharlkovskiy politekhnicheskiy institut im. V. I. Lenina
(Khar1kov Polytechnic Institute imeni V. I. Lenin)
Card 4/7
KORSOUNSKIY, M.I.; GENKIN, Ya.Ye.
CorTected LA2 --emission band in pure niobium and its Compounds.
Izv, AN BBSi,. Ser, fiz. 25 no.8:1028-1030 Ag 161
(MIRA 14:6
-.- . NJ obium--Spectra)
%obium compounds-4pectra) '
KORSUNSKIY H.I.; GENKM.. la.Yee
Botablinhing the Fermi boundaz7 from X-ray opectral eminoion bandso
Isv. AN SSSR. Ser, fis. 25 no.8:1031-1037 Ag 161s
(MIRA 3418)
1. Kafedra obshchey i skeperimentallnoy firsiki Kharskovskogo
politekhnicheaka o inotituta ims Vil, laninat
fl-ray opectroneopy)
KORSUNSKUY9 Moieg lzrailevich; VERES, L.F., red.; MMCHKOVA, V.N.,
tekhn, red,
(Optics, atomic structures and the atomic rrucleus] Optika,
stroenie atomas atomnoe isdro. Moskva, Fizmatgiz, 1962. 516 p.
(MIRA 15:6)
(Optics) (Nuclear pbysics)
ion-optical properties is described In fj_r_Fj_t_-ap"p`f`o-x-j`ffi`A 5 Ion UY --- UwV-rnwxx--
of linear distribution functions depending on two field factors and on
the dimensions of the cylindrical torus. It is shown possible to
Card 1/2