SCIENTIFIC ABSTRACT NIKITIN, V.N. - NIKITIN, Y.Y.
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S
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December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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NIXITIN, Ye.N.
Investigation of semiconducting properties in the 87stOm
silicon - manganese. Piz. tver. tela 1 no.2:340-343 F '59.
kMIRA 12:5)
1.1natitut poluprovodnikov AN SSSR, Leningrad.
(Silicon--Electric properties)
tHanganese--Blectric properties)
kSemiconductore)
S/18i 60wa/04/13/034
V49 B002YB063
AUTHOR: Nikitin, Ye. ff.
TITLE; Investigation of Semiconducting Properties in the
Silicon - Cobalt System
PERIODICAL: Fizika tverdogo tela, 1960, Vol. 2, No. 4, pp. 633-636
TEXT: Specimens of the various cobalt silicidesiLre pro ared from
commercial high-purity materials K-0 (K-O) and Kp-0 (Kr-03. Electrical
conductivity and therwelectromotive fore* were measured by means of a
recording electronic potentiometer (Fig. 1). Peaks of the conductivity
curve and values of the photo-emf curve that deviate very little from
zero correspond to the compounds Cc 331, Cc 2Si, CoSt, and CoSi 2* The com-
pound CoSi, however, has a lower conductivity, and its photoolootromotive
force attains - 60 pv/degree. The temperature dependence of the electrical
conductivity a and the thermoelectromotive force a was examined for pure
CoSi, CoSi with a slight hydrogen excess, and CoSi with a slight 8.1licon
excess (Fig. 2). For pure CoSiv d and a decrease with rising temperature;
Card 1/2 X
AUTHOR: Nikitil I
TITLE! Therm )t~ I i
86419
S/161/ 00/002/011/003/042
B006/BO56
r the Silicon-Chromium System
PERIODICALs k'i L i h a t 2, No, 11, pp. 2685 - 2688
TEXT: The autbur i. v, i ec t r i c propert i es of th e
silicon-chrumium _qyj~~!:t i ti,_ of finding the composition that
has optimum therwcjel,~-t. i :--, :it. i lnt~ following chemical compounds
were detected in the C , r~; 1 , --:- _S Cr 3S1 2' CrSi, and Cr3i 2' The
electrical condii---tiv.-ty a, i th- a of samples of various com-
positions werr, ME-aaure':'. eA mett-iod; the temperature
dependence of these quatAitit-8 was x~--;ur~d with a recording electron
potentiometer. Fg,', ) a,,,6 i ~;3 ;a function of the silicon content,
and Fig.2 shows .1 anCi Ll a;-, a f--_*i,,r, (,f temperature. CrSi 2 with a silicon
deficiency was iound t~) ?r,t,.:noelectric properties; a thermo-
I -1
em.f 0 f 110 ~4v/'iegr e e a n -, a i f-Y ut' 700 Ohm- .cm (both measured
h~2 attains its maximum, and the
at room temperature). At
Card );k
86419
Thermoelectric Propert-~: z~ B/181/60/002/011/005/042
Chromium System B0061/1B056
latter its minimum. An ti !,l t A 0 Uoron increases the conductivity,
but a larger boron adL'iL I ~n reo, It. Silver impurities greatly affect
the thermoelectric prcpt rt 1,?.3 (,,f. Ali numerical data of these
measurements are given I iv- t-ic, i ~I:i -irt,akov is ment ioned . There are
2 figures, 2 tab~e:i, 4 US, I British, and
1 German.
kSSOCIATIONs liistitL kiN 655H Leningrad (Institute of
Be m - on d z L e n i n g r a d
SUBMITTEDs May 7
Legend to Tablt3 !- of crsi 2 witn boron and
silver impuritiE:s 1 2 ) a, ~tv/-degree
3) d, ohm -M 4 ti sz-1 tciau t L1~ tj , cal/d egreo . (;m.a ec
Legend to Tab I e 2 Tn t rr., - t:r:3 o f t he CrS i , -Mr,5 i2system.
by A e igf, t av/degre e;
1) Cr3i by weight; i
2 -6re(
4) 0, ohm C111 heat t II t j I d cia t3 e c
Card 2/4
32078
3/181/61/003/012/01.5/028
B104/B'02
AUTHORSi N"kitin, Ye N., Bazanov, V. G. and Tarasov, V, I~
TITLE- Thermoelectric properties of a solid Mg2Sl-MF2 Sn solution
PERIODICALs Fizika tverdogo tela, v. 3; no. 12, 196'. 3645 560
TEXTi Experiments were made for the purpose of obtaining a mate-iRl on
the basis of a solid Mg 231-Lg2Sn solution with good thermoelectric proper
ties, Mg sublimed in vacuo. high-pur-ity tin and silicon with a resistiv---
ty of 10 ohm-cm were used as starting material, Samples were melted in
corundum crucibles in an argon atmosphere. The temperature dependenct, '3'f
electrical conductivity and thermo-emf was determined by a method des
cribed by Ye. N,. Nikitin (ZhTF, XXVIII.. 23, 1958),, The heat conduction
coefficient and the 4-factor were established by T C. Harman s inethod
(J, Appl, Phys~, Z2-. no. 9, '1373- 1958) (see Fig.1). Since deviations
from Pisarenko's formula were established, the noticn of "optimum --arr,-er
concentration" had to be introduced. According to these data. the alloys
Card
Q078
3/161/61/005/012/iDl
Thermoelectric properties B104/B102
Mg231 0 6Sn 0 2and Mg2SIO 'Sn 0,3 possess the leasi thermAl ~ondnztivity
relatively high mobility. and efficiency at room temperature. The
carrier mobility remains unchanged when the two components are disnolvad
Experiments of A,, V Petrov have shown that the carrier mcbillity )lii:kly
drops with increasing content of antimony. The thermoelectrte efficiency
of the alloy Mg 31 Sn , 3 m,-/g 5b (m. 0, RbOUt 90,')0C) (Fiq 4) be~
2 00 7 0~3 z .-1
tween 200 and 600 C amounts to 0,7'10--' deg . The thermoele,2tr~:
soefficient is not deteriorated by heat treatment in a neutral atmosphere
cr in vacua up to 7200C., There are 4 figures. 1 table and '; refere-i-es.
4 Soviet and 11 non Soviet, The four most recent references to Eng--s"
1~
language publications read as followst C- Celent Electror Industr 7.
65 1959; R. D. Renid R. G. Morris., G, C, Daulson Phys. Rev
1958; Semiconductors, Ed., by N, B.. Hannay. New York. 426. 959j i F
Miller, R. C, Himes, J. Electrochem. Sac, '', 015, 1960.-
ASSOCIATION% Institut poluprcvadnikov AN SSSR Leningradl\'Inc-7--,~ute
Semiconductors AS USSR Leningrad)
Card 2/,f
3/120/63/000/001/033/072
AUTHC16: "Jil'itin, Ye.N., Bazanov, V.G. and Tarasov, V.I.
TITLE: Determination of the tci.ipcraturc-dcpcndcncc of the
resistivity and thermoelectric power of semiconducting
materials
PE:ZIGDICAL: Pribory i telchnika cksp,~rimciiJno. 1, 1965,
146 - 146 A
Fi_c. 1 s~icx%.rs t' c used to c:ctcr:.-,ine tile
resistivity and thermoelectric po-.-Or a
t tc,;.-.-)erature-- u:) to 1 OCC C.
.;.ii t:lc -,,,ctal ;Jarts are Of :itainless !~tccl 111(~ are suo- crid ed
froiii vertical porcclaiii tubes. ILic i:,casurcments. z.iay he
carried out cither ii-i .,-acuu~:i or iii ci;i ar~,Io:i T'-,c :jasic
circuit ei--i-)loyed in t:ie deter-iinatioji of ',::,c il)ovc two,)'Iral." et ers
is stiown in 4. 1-,ic mcuracy is ~ctLcr thall t:,.e i.iain
Source o-'-' error iii the dctc~-..,,inatiori of tiie t c,-:.I:) crat Lire
(a1jout 1 0C at 50C 0C). All the cont~,cts iii t;ic zi,).,arottir, are
--;;rin -loa6ed (as opposocl to solclered). ~oc t1ler;-.1c,clectric :)o'--cr
0
of --lu.,:,.el
-%t 20, 1GC;, -9G0, DG6, 4 C , 5C'- , 6CC zinc: 70GC found
0
to be -16.5, -16, -16, -1G, -13, -20, -21.5 ai -'-5 1 C,
Card 1/3
s/j-,,o/G3/ooo/ool/o36/072
Determination of .... Z-032/1-;314
r (.~s r) cc t ive I y. The resistivity at these te;-.ipcrat~ires was 50-5,
27.0, 24.0, 22-5, 21-5, 1).5 and 16-2 ohm-'IC111-
res pectively. There are 4 figures and 1 table.
ASSGCIATIOLN: Institut polujlrovodni~~ov AN cici5it (Institute of
Semiconductors of the AS U-'~;,O
SLD:-~'ITTED: April 12, 1962
Legend to Fig. 1: 1 - metal screen; 2. - 11cater; 3 tIICr;:IQ-
couple (hot end); 4- contact rods; 5 - spccii~,icn; - contacts
for deterii-iination of resj~-ivity; 7 - taermocoui)lc (cold end);
3 - tantaluw springs; 9 - screen; 10 - vacuum seal; 11
rod; 1-2 - tubc; 13 - cooling fins (heat sink).
Lc~:cnd to Fig. 4: 1 - specirion; 2- --tandard resistance;
3 - switch; It - potentiometer; 5 - current switch.
Card 2/3
IJP(e) JD
AW RIAt P50'2.5789. SOURCE CODE: UR/0363/65/001/009/1526/1529
A UTIHOR-: N kitin. To. 9 Zaytsev, V.-K.
ILtitute of-S-emiconductors,"AcadenZ of Sciences SSSR (Institut
poluprovo-dukkov, Akade-aii nauk SSSR)
TITLE: Preparation of a higher manganese silicide by a gas transport
reaction
SOURCEt AN,-SSSR'. Izvestiya. Neorganicheskiye materialy, v. 1. no. 9.
1965, 1526-.IS29,
TOPTC~TAGS: manganese compound, silicide, thermal emf
ABSTRACT-.. MnSil.77 was synthesized by a gas transport reaction, i. e..
waso.biained . in the solid state from the gaseous phase. The melting
process and the_:defects associated with crystallization and peritectic
reaction war*. t -Imlell -minated. HnCl2--the transporting agent--was re-
acted " 6 ' ~J%d con in sealed, ampoules at 10 S an Hg and 7000C. X
pure - i
w1t
ray diffractVan of: MnSil.,'77 showed- a well. formed crystal structure with-,
-out silicon phas-e impurLty. Thermal eaf measurements showed that the
silicidi-obtained by the gas transport reaction has the same degree of
purity,as a single crysta -obtained by oriented crystallization. The
UDC: 546.711281
rd. 1/2
ja 3605-f
16 _E
-AT
ACCESSION NR; AP5021364
UR/0120/65/000/0"/0203/0205
621 317.33:621.315.592. 2
AUTHOR: Nikltin,'Ye N - Zaytsev, V. K.
-,.jT1TLE- A device for the determination of electrical conductivity of semiconducting
materials In-liquid and solid phase
SOURCE: 'Pribory i tekhntka eksperimenta, no. 4, 1965, 203-205
TOPICTAGS: semiconductor conductivity, semiconducting material, silicon semiconductox
germamum-con(hictor.
TRX6T: This paper describes a device for the high-temperature synthesis as well as
for the contactleiss -measurement of the electrical.canductivity.of semiconductor materials..
During the process.of synthesis the irtstrument can check the electrical conductivity of
i and
ol d.' h4jild semiconductor substances within the crucible and can follow the tempera-
s
dence of the conductivity with- ~n a6curaciv, of some 10 - 20%. Curves in Fig.I
Wre depen
:of the E~iclogurb illustrate the operatic,
n of the device. Orig. art has- 9 figures od I
table.
w
j
w A
N m
m
A 97
V -MWI
SAYBILI, A.O.; NIKITIN. -Te.P.
Properties of radio pulse range finders equipped wth one integ-rator.
Izv. vys. ucheb. zav.; radlotakh. no.3: W-355 Y7-Je '5-.
(MIRA 11:7)
1.Rekokendovana Imfedroy Moskovskogo ordena Lenina aviEitsionnogo
instituta im. Sergo Ordzhonikidze.
(Radar)
I I.. ; ' T ) , . '
. . I - i
lq* - - . li 1.
; " , . , F
, , - t". 1 1 ,
1. .1 V, ~ , i-
I I
C - ; : - 1 - , - t
21 11
D. . :: . ~ i': I .
GLINE-K-1-Y , Boris A-je;tl'~-,i.,!z , 'ji -". CaPYA-7TOVP Box-iE Semenovichi
D'ftj T jj y ~ lo r I f3 Seak..n - v --' -- h14 1 F -I'M Y---igeniy Petrovich;
VAGNIJL~~Q,'..ff:;Y-TY, V. -0
[Nodciinpr as a s-ienlifl - ro.lear h irchrdque; a gnosec-
I -
-Lcg,j.,-al analys-*sljV.Pdoiit-.,varlIe '~ah meliod nauchnogo issle-
dova-nV.a4 t-',ogkva, lzd-vr.) I.,08k.
I,-
.) j) 7) t
univ. p I (11,11A .18-.8)
NIKTTINO Ye. 114.
Nikitinj Ye. S. NThe comparison of compensating calculations in the interpolation of
aeries between two solid sides according to the method of H. A. Urmayav and D. A. Larin,v
Trudy Mosk. in-ta Inzhanerov geodezii, aerofotoon- yemki I kartografii, fasue 2, 1949,
P. 37-48, with tables. I
Sot U-3736, 21 May 1953, (Letopis "'%urnal Inyk# Statey, No. 17, 1949).
Ic- NIKITI::L_Le.V., _A!~)skva)
laboratory aosignment 11'~casuring the pressure of
depths by mans of a man-).r.-aster." ?iz.v ahkole
Je 161.
liquids at various
21 flo.3.63--',4 Itf-
OUU 14:8)
(Liquids) (Manometer)
KARDYSH, V.G.; NIKITIN, Ye.V.; OKMYANSKIY, A.S.
Methods for drilling shallow holee in friable rocks. Raz7ed. i
okh. nedr 29 no.11:30-35 N '63.
( M I T,,A 17: 12 /'
KARDYSH, V.G.; UIETIN, Ye.V.; ODIYA';S,",IY, A.S.
Present status anti fulure de-elopment of f..:-
sr,aIlow wells in In::,)hr--r-ent 7rj..ks.
te'r-.Y..infcr-m J-7 no.:1:14-19 .11 16-
1 ,, . :.,j, 1~ - -
sa.
~_L.21838-66 Zn(n)/ra JD/JG
AW NR: SOURCE CODE; UR/0364/66/002/001/0112/0115
AUTHOR: Faylzullin, F. F.; Nikitin, V..
je
Kazan State University im. V. 1. Ullyanova-Lenin (Kazanskiy gosudarstvennyy
ir-Tei
universi
..zTITLE. Anodic oxidation of gallium in KOH solutions
-SOURCE - Elektrokhimlya, v. 2, no. 1, 1966, 112-115
'TOPIC TAGS:
gallium, anodic oxidation, electrochemistry
ABSTRACT: 1he present article was written to fill a gap in the literature an the
~'anodic ~ oxidation of gallium in alkaline solutions. The investigation was based on
the automatic recording of kalvanostatic curves and polarization curves. The struc-
ture of anodic oxide filma.was.studied by:electron diffraction. In these investi-
gations . 0.1 N, KOH was used. The.. oxygen was removed -by purging solutions with ni-
trogen. Each ex perimeht was conducted in a freshly prepared electrolyte at 250C.
.~Polarizatidn measurements showed that the.formation of the primary oxide at negatIve
i.' ~wpotentials is preceded by cathodic liberation of hydrogen, followed by its subse-
UDC.:~
541.138.2,: 546.681
Card 1/2.
-~.~ACC NR: AP6003502
desorption.from the electrode surface., When the potential is changed to a
value more positi4e.than -1.1
v vs the normal hydrogen electrode, a sharp increase
the polarization curve occurs, thus indicating the active anodic dissolution of
11' fr
lum. Starting -on -0.25 v, lowering of the polarization current occurs; this
..,is associated with. passivation of the gallium electrode due to formation of the
anodic ~ oxide -~ film.: The electron diffractionstudies identified this film as Ga2O3.
'..~:S'everal distinct regions are distinguishable on potentiostatic curves: a) forma-
of the primary.'oxide film; b) dissolution of the primary oxide film by alkalio,
;c) anodic dissolution of gallium via the primary oxide film with formation of gal-
'I s, formation-of oxide film by hydrolysis of gallate ions along with the
, ate ion
t
to emica
h' ' 1-dissolution.of this film all take-place simultaneously; d) direct anodic
-:-Aoxidation of the: -ode. Anodic'Uberation of oxygen takes place at
gallium electr
high .- entiali (10-30 V). 'Ori
g.,,art has: 3 figures
pot
SUB CODE:. 11, 07 SUBM DATE: 27FWq5/ ORIG RM 004/ OTH mr: 013
:Car
~ACC NR. AP7C04492'__ SOURCE CODE: MV0364/67/003/0()1/0120/012?
AULIORS: Fayzullin, F. F.; Kikitin, Ye. V.; Gudina, N. N.
ORG: Kazaa State University im. V. 1. Ul.'Yanov-LOnin (Kazanskii gosudarstvenxkri
universitet)
TITLE: On the mechani= of the formation of anode films on liquid gallium
SOURCE: Elektrokhimiya, v. 3, no. 1. 1967, 120-122
TOPIC TAGS: gallium, electrode, electrode potential, mercury alloy, mercury compound,
potassium compound. electric impedance, electroly~te, electric resistance, electric
capacitance, gallium compound , oXt0e FORMI)TIoAJ, .4 140 ID InF 73,(-
ABSTRACT: The mechanism of the formation of anode oxide films on a 11-,quid Gallium e1ec-
trode in alkali solutions is studied. The electrode design -is desc---ibed by T. 1.
Lezhava, A. T. Vagramyan. (Izv. AN SSSR, Ser. khim., No. 3, 435, 1964). The purity ol-
the gallium was 99.990/b. A mercury-mercurous oxide electrode served as the cGnparisoa
electrode. The KOH solutions were prepared by dissociation of potassium amalgam in
doubly distilled water; all tests were at 32C. Polarization potentiostatic cux-ves were
plotted (Bee Fig. 1). Alternating current of 100-20 000 cycles was applied to the
gallium electrode and to a platinum-plated platinum disk over the surface of the elec-
trode under atudy. The electrode impedance was also measured. It was found to be
probable that active dissolution of the gallium electrode and the formation and growth
Card 1/2 UDC, 541-13
CC NRs AP7004492
it)"Ald m
Pig. 1. Polarization potentio- 16~
(1)
static curve of i versus q)
of liquid gallium electrode in
0.1-N KOH at 32C; and curves
of capacitance C (2) and
resistance R (3) versus electrode
potential in same solution at
1000 cycles
V
0 jig
of the pasaivating oxide are not controlled by diffusion of the reacting particlea.
Orig. art. hass 2 grapbA.
SUB CCDE: 07/ SM DATE: 04Jul66/ORIG REFs 006/ ON REF: 005
M
?a )IN
IjO.
30
20
Card 2/2_
YO.Ye.
KORST, -
Relaxation in a double potential well. Tecret. i eksper. khim. 1
hooltll-21 J&-F 165. (MIRA 1887)
1. Institut khimicheskoy fiziki AN SSSR, Moskva.
-IIIKITIN Ye.Ye
Statistical theory of endothprmic r,.-IactArjn,-. Part I., Biwoleculq~ re-
actions. Teoret. i eksper. khtm. 1 no.2-1.35-143 Mr-Ap 165.
Statistical theory of endnthr--,-Rjr reactIons. Part 2: Monomolecular
reactions. lbid.tV,4,150 I .- ~ .. ;_ - (MIRA 180)
1. Institut khimicheskoy fiziki AN ST3R, Moskva.
KIKITIN, Ye.ye
Statistical thear-y of exothermic ion-mc,,.ecular reactilnns.
Teoret. i eksper. khim. 1 no.4:428--1,35 165. (M[:~A 18-.10,
1. Institut khimicheskoy fiziki AN OSSSR, Mos.1,va.
NIKITIN, Ye.ye.
Average lifetime of active molecules and oscillator models of
monomolecular reactions. Kin. i kat. 6 no.1:17-22 Ja-F 165.
(miu ip:~,)
1. Institut khimicheskoy fiziki AN SSSR.
p I tecr.
p
r, zj til t c heo,
E:
HFA
13-t (04.1knoVS, 2
CESSIM mi. _:Av5012601 UlVan 116510181005IW6310-76
539. 194. 001. 1
ti~p -Ye. -Ye.
Arang
- _461 tbo prolb
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Tim:, Ulating IC UU
K-Jy(y~ -5
ko
t
on
L ility, ene
TOP-TO 3 PJaOx6n &r== bina strue ure,
rgzr
eso -
-for
ABSTMOT. --silice-Abere As:.appar0#1UV_-no general-,method-at present .-calculAting
f nonadiab _e1ictfoxt:stat6s--by__gotn&
-0 atic tranditiqx~ Vo__
_.ov(ir Into the- cwwlex plane. ~ in-. the cade'.when.the-adiabatic litting. function- (6s)
- ~ - : - ~ - __ - - .9 - ap
_hwq: MWW zei~deai the aiithor investIgates: a model -in which -it i's possible to calcu-,
e- the -dontribution. of thq
a remote zeroes of this, function and the transition pr
0-1
Aioni_~,6f ~the_- problem- are briefly reviewed. Th
bI M. Tzx i ticul= -soll e
skalysis'-be, th
4a ~ma
-16 Lm .6 -_m o~n-~,6~~ei,-fDr-vhite-h-the-analyvtJic r er
as
-p-ro
ties- 76f _the__AVWI6ti~on, (A0
are- first de elrene&. - I As then- E own a br.qu
Me6haacal--MCFtiPA:,of Ihe.- nuclei thelana4sis-of the probvibility-of1he nonadiabati
c
"trdnaltion reduces -to -determining certain coefficients in'the quasi-cussical for-'.
'-whi h --by standard meanse-" The effect of closeness-of two zeroes,
C can-b6-done
'_0f- the' function ~2 on'the probdbilityof the
noj%diAbatic transition is also..,-
.:V2
Car
... . ..........
L 51+50-66 --IJP(c) JDIJCx
WC-M-8 M11 AP501909 URI**I/ 5 0: -L9/00219162/0170
AT UkItIns Yes 539 1&- + M-20-3-001-1
VIVA:
tramaitiow between the structure component
TITW: i;~ab" a OALlne
metal atom during atomic collisions
SOURCZ: Optiks I spektrookoplya, v. 19,, no. 2s, 1965s, 161-170
Topic, TAW: -.4060tral. fine structures, fluorescence, collision cross section, trait-
Sition yrdbabLU-ty', al 4ne metal
'ABSTRACT: I This Is a continuation of earlier vork W the author (with V. K. By-
khoVkMy., Opt I. R*ktre V. ITS, 815, 1964)v in vhich the cross section vas derived
for the nonadiabatic transition between two states or the quasimlecule 1ft*Ar,
which'1eads:to.-qUenching of the sodiun fluorescence. In the present paper the
author derives: w eatimste of the cross section, for Inelastic colliaion, of a, metal
:&toM'LN,with atoms of an Inert gas X,, Inducing a transition -betveen the fine-
(2pL). An example of this re-
stiladt'ilre: CaPpoients, of the first-mited state'
w
dtion in 1ft(2P1/,4) +, +41*(190). Since the conditions or the
:a AWOO) - NIL( 2 Pij2)
-'stomic co2U#Imw a" qxisplilassical AM the energies Imparted during the couision:
are rAich lower tban the kInetle,energles of relative nations, a semiclassical ap-
8~ useds, ch redwas to the solution of three simultanewA equations
card
I - - - 14WIl-
1 M.-Wgwva --n-95 ~~ Izie~,~,;~-~p_-~:-~~ITI~n~-'~Ipwlli-lrl;~;!~~p~c,~r-fl-~~,,~-~~~~is"Y.4 -1 ~,,
SMIM-1- Z7-r--j f 11
I -em
NIKITIN, Te.Ye,, kandidat vaterinarnykh nauk.
iffect of blood transfusion and blood substitutes on the co=vosition
of periphered blood. Yeterinarlis. 33 n0-8:34-35 Ag '56. (KLRA Q:g)
I.Leningradskiy institut n9overshenstvovaniya veterinarnykh vrache7
i Novocharkaoskir zooveterinarnyy institut.
(Blood--Anal, ts and chemistry)
USSR/Diseases of Farm Paiimis. raneral Probler-is. R
Abe Jour: Ref Zhur.-Diol., No 15, 1958) 69462.
Author : Sen'kin, M.M.; Ostrovskiy, N.S.; Vasil'yov, M.A.;
Inst : Novocherkassk Zootechnical Veterinary Institute.
Title : Suppurative-Putrcscer~t Retroperitoneal PhlegDons
in Cattle and Vicir Treatment.
Orig Pub: Tr. Navocherkasokogo zootekhn.-vet. in-to,
1957, vyp.10, 355-359.
Abstract: The suppurative-putrescent phlegraons in cattle
were treated successfully by the authors by mews
of a wide incision in the abdominal wall, per-
mitting the conplete reneval of dead tissues and
putreseent fibrin from the retroperitoneal pyonecrotic
focus, as well as the drainage and washing of the
Card 1/2
TGSR / Human and Animal Physiology (NOftal and Pathological). T -4
Blood -
Abs Jour Ref Zhur - Biologiya, No 13, 1958, No. 60201
Author
Inst Novocherkassk Zootechnical Veterinary Institute
Title Use of Dehydrated Serum for Transfusions in Cattle
After Yasaive Blood Loss
Orig Pub Tr. Novocherkasakogo zootekhn.-vet. in-ta, 1957,
VYP- 10, 381-384
Abstract The effect of the transfusion of an 8% aolution of de-
hydrated serum (DS) in physiological solution was studied
in 15 cows after the withdrawal of 45 - 65% of the total
volume of the circulating blood. The serum was prepared
from the blood of cattle. Five control animals received
whole blood, and five, the native serum. After blood loss,
not exceeding 60% of the total voluze of blood, the
Card 1/2
NIKITIN, Ye.ye.
Drying of biological preparations by atomization. Trudy IEI-rj
no.7:151-161160. A 16:8)
(ATURIZATION) (bIULOGILAI
NINITIN, Yeje., kand.veter.nauk
Dry blood nerum for the trentmcint of tinitahl~i. 7-1-erinar'-a "I
i1o.3:52 Mr 160. tMIRA
(harum therapy) (7pterinary mediciriv)
NHITINv Ye.164, kand.veterin*nauk
Drying 1-mme serum by the method of dispersion. Teterinarlia
37 no.1102-54 N 160. (KIRA 16:2)
1. Thesoyusn" institut eksperimentallnoy voterinarii.
(Berm-Drying)
(Veterinary materls. medics, nad pharmacy)
MIKITIN, Ye.Ye..L_YLALDIMIROV, A.G.; SERGEYEV, V.A.
Resistance of the foot-and-mouth disease and influenza viruses
to desiccation by the pulverization method. Vop.virus. 7
no.6:719-723 N-D 162. (MIRA 16:4)
1. Vsesoyuznyy nauchno-iseledovatel'skiy institut veterinarnoy
virusologii i mikrobiolo ii-
(FOOT-M-HOUTH DISEASE5 (INFLUENZA) (VACCINES)
1,11KITEII, '1,-. SYURRIJ V. N.
"K -iopros,, : -i 'j-: :,. r,,,z f r,~~- * "", - I .r.. " :*- .:.,
protsesse."
report presented at Syq, on Virlll~- ~'. i s12u-,~es, 'A(,~, --,,,w, , - f 0 --t , - -
L,st it A ve te r inarr Lc,., -., i ri i,;c,; c.,.~ i I ,-,, xi.
" -f~. I
I - U-101
"LLU , I L-- r - MIROV p
' , -.r-'ed milk and .food alburdn.
~,~rvjva-, : , V~'rulc,3 -n d lm-,F"A
I-t' ", - ") .
I - 'y yash,
,. Vnr!!;c.)yj-,znrj -,-hwrr'yy ;-IJfAh"'*
ACC NRI AP60307W (A,N) soncr CODE: UR/0346/66/000009/0018/0020
AUTHOR: Nikitin, Ye. Yp, (Doctor of biological sciences); Kamalov, G. Kh.
(Candidatd--6f V~I-erinary sciences); Sviridov, A. A. (Candidate of veterinary
sciences); Kuchmasov, 1. S. (Candidate of veterinary sciences); Uzyumova, N. N.
(Veterinary doctor)
ORG- All-Union Foot-and-Mouth Disease Research Institute (Vsesoyuznyy nauchno-
issledovatels'kiy yashchurnyy institut)
TITLE: Protective media for drying foot-and-mouth virus strains
SOURCE: Veterinariya, no. 9, 1966, 18-20
TOPIC TAGS: lyophilization, foot and mouth disease, virus disease. animal
d i s eas e , A04
ABSTRACT:- Lyophilization has been found to be Che best method of pre-
paring virus preparations for long-term storage. The beat
protective medium for this purpose is an egg-white-gelatin-
peptone mixture. The article discusses the preparation and
properties of this and other mixtures. [WA-50; CBE No. 121
SUB CODE: 06/ SUBM DATE: none/
Card 1/1 UDC:_ -6-19:-616.-968.43-095. 162
WMT'10'14_~
'iP
77~
~- , k~ Ii I ( -fl ..~/r-
STEPUKH - V,- A.D. -' NIKITIV, Ye.Ye.
I
Retarding and accelerating the cracking of oarmffin h7drocarbons
by tetramethylethylone additions [with su=nry in Inglish].
Zhur.fiz.khim.31 no.8:1677-1686 Ag '57. (MIRA 10:12)
1. Sarntovskiy gosudAretvennyy univereitet im. N.G.Chernyshevakogo.
(Cracking Drocess) (Paraffins) (Ethylene)
AUTHOR: Stepukhovich, A.D., Nikitin, Ye.Ye. 76-11 -3135
TITLE: On the Kinetics and the Mechanism of Tetramethylethylene Decay
(0 kine tike i mekbanizme raspada. tetrametilatilena)
PERICDICAL: ZhurnaLl Fizioheskoy Khimiiv 19579 volo 31, Nr 11 , pp. 2400-24,02
(USSR)
ABSTRACT: A possible explanation for the anomalous decay kinetics of tetrame-
thylethylene is given on the basis of the hypothesis of the heterog-
eneous radical, but not a chain-decay of tetramethylethylene. The
facts stated concerning the decay of tetramethylethylene by meam of
the experiment can be explained by considering their decay to be a
successive radical reaction with a heterogeneous foming of active
centers. There are 5 Slavic references.
ASSOCIATIGNs Samtov State University imeni N.G.Chernyshevakiy (Saratovskiy
gosuniversitet im. N.G.Chemyshevskogo)
SUBM TTED: August 8, 1955
AVAILABLE: Library of Congress
Card 1/1
AUTHOR*' Nikitin, Ye. fe. 2 16/51
TITLE: Note on the Deviations From Boltzmann,q (Bol't-sman) distributi-,,j
in the Decomposition of Diatomic Molecules (0b oWwneniyakli ot
Bol-Itsmanovskogo raspredeLeniya pri raspade dvukhatirmykh moleku!).
PER IOD ICkL' .Doklady AN SSM, 1957, Vol. L16, Mr 14, pp. 554-597 (USSR.).
ABSTRACT: The decomposition velocity of diatomir moleculi-s iq i~-term.Lnt~d ir, the
case of the reaction A-9 - & + B with binary c.-illisions by the prod
babi'Lity of the transMor, of the molenule from the bounded state in*o
the range of states with a continuous spectrum and by the di3tribution
function of the oscillation energy. In the attempt to explain the in-
fluence of the dist,irban-P. of the Boltzmann distribution -on the dec~'m-
position velocity, the author employs several simplifying assxnptionB:
Let the diatomic molecules AB which are destined for a decomposition,
be assembled in a heat trough consisting of the molecules Ce Ther.
the collisions of the molecules AB with earb other may be neglected.
The molecules AB begin to decompose because of the collisions LB with
C. The probability or a non-el-antic coil~Lqion of AB with C cr-riected
with a transition of t!~e molpn~ile AB from the q,iant-im state n to the
atate n' is proportional to the square cf the matrix element of the
Card 113 oscillation coordinate of the molecule AB f-)r the correspr-iding tran-
Note on the Deviations From Boltzmann's (Bolltsmaxi) Distribution 2o-L-i6/51
in the Decomposition of Diatomic Molecules.
sition. Here the aithor irr7?9tigate,-i an a :todel of dlat-x,-,~c
lp.(-.,Ale a quantized moleculL-. with a rojmbo~r n0+ 1. -.' dLsrr~-te apPr,-~-
ximately equ4,113tant lp-veLq with a nPgatLvt-. en#~.r&y and a contin,v~xi
spectr~.n vilt~ positive energy. On the t,.-a%sLt.i!,n frnm the discrete
spec-tru,i to the continuous sper~trim thp matrix elemi-,nt cf thF, C-.-,r)r,
dinate decreases considerably on qn increase r~f the tra:-nitton energy*
Therefore it can be asswned, that the transi*.i--jn tn the continu-1.3
3pectrum takes place only from the higher lev9l. From. these considera=
tiorLi, the relaAation and the dpcomp-siticn -~f a systAM )f oscillators,
which are assembled in a heat through are characterized hy the probas
bilities of the transition to a neighbouring le-;el P -i,n*l " P.-I , (n~l)
and by the probability of the dissociati-n frcm the Last level P -.
A relation is given between the activation prnlhabllity and the dAgac-
tivation probability. The soliition of this system is given here in
the form -f the superposition of the tern-,i x " I (e-) --xp (ZP I t).
n Ti 1~9
The elgerrralneg rr the above relation determine the velocity of the
relaxatinn prore,,35i and of the diss-cl;il.inn, An &xVrPnsi,-,n 1,9 a1r.-
given for the. erristant (-f the dec-nmposition veincity. if P. /P 10
Card 2/3 is small, the distributicn functlnri x n (t) ritffers only Lil.'Ie frnm
Note on the Deviations From !~oltwiannls (Bolltsman), Di-strib-Af-,n 2,:_-,4-i_6/51
in the Decomposition of Diatomic Mcleculesll
Bo]Ltzmann'3 (Boll tsman)-function X Ad :f P is large, t~,e c-quis
I.ibrilxn distribution is disturbed ~o s~,ir-h an extent, that t~,.e pre-
sence probability of the molecule AB in "he uppPr level almost equaLge
zero. The main disadvantage of the molenx;lp model employed here con,
sists in the disregarding of it,3 an~liarmonie properties.
There are 15 references, 1 of which 4-3 31avic.
ASSOCIATION: Institute f-r Chemical Flbygics AN USSR (Institut _khi.-rirhPqkoy f41 7 1
kkademii- naijk SSSR).
PRESENTED: April L2, by V. N. Kon(tratlyev., A~adtlmiclar-.
SUBMITTED: April 9. 1.957.
A.VAIU?LE** Library of Cor,;resq.
Card 3/3
ye . Yu
di~-, ci n
10 (Inl:t G!, phy,,.icr t;~* t~l,: -,c;-zd Sci
t erl"I c", titlco) k U
NIKITIN, Ye.Ye.
-----------
(Theory of thermal excitation and disoociation of diatomic
molecules; abstract of dissertation presented for the degree of
candidate of physicomathematical sciences] K teorii termi-
cheekogo votbuthdaniia i diaRotsiatsii dvukhatomnykJi molakul;
avtoreferat disaertataii. prodstavlennoi na soiskania uchenot
stepeni kandidata fiziko-matematichaskikh nauk. Koskva, 1958.
9 P. (KIRA 12:8)
(Molecular dynamics)
AUTHOR: Nikitin, Ye. Ye. 2o-1 19-5-37/65
TITLE. On the Computation of the Decomposition Velocity of Diatomic
Molecules (0 vychislenii skorosti raspada dvukhatomnykh mole-
kul)
PERIODICAL. Doklady Akademii Nauk SSSR, 1958, Vol. 119, Nr 3, Pp. 520-529
(USSR)
LBSTRACT: The author computed in a previous work (Ref 1) the constant
of the velocity of the thermal decomposition of diatomic mo-
lecules and the function of the distribution on the vibration
states on occasion of cancellation of the thermal equilibrium
distribution. Of essential interest on this occasion was the
assumption that the vibration quanta until the limit of the
dissociation approximately remain constant. This work now
computes the constant of the velocity of the reaction Ab +
+ C -4 A + B + C without the above mentioned restriction. In
collision in a diatomic molecule only a transition between 2
adJacent vibration levels is assumed to take place and the dis-
sociation of the molecule be p6asible only from the last dis-
creEt level. The Maxwell distribution of the colliding mole-
Card 1/2 cules may be maintained. For the probability of the vibration
On the Computation of the Decomposition Velocity of Diatomic 2o-119-3-37/65
Molecules
an excitation of the molecules at a collision in a transit-
ion from the level k - 1 tc, the level k a formula is given.
An e,.,uation system follows for the change with ru--pect to
time of the probability to find the molecule on the k-th ie-
vel. Then the general solution of this equation system is
written down and discussed. Also on the consideratior, of the
not adjacent levels a shurt report is given. The computed
an.' the experimental values of the constants of the decomlio-
sition velocity agree with each other according to their or-
der of magnitude. Finally the author thanks Professor N. D.
Sokolov for valuable advice and for the discussion of the
work. There are 7 references, 3 of w-ich are 3oviet,
ASSOCIATION; Institut khimicheskoy fiziki Akademii nauk SSSR (Institute
of Chemical Physics.,AS USSR)
PRESEBTED: October 24, 1957 by V. N. Kondratlyev, Member, Academy of
Sciences, USSR
SUBMITTED: September 26, 1957
AVAILABLE: Library of Congress
Card 2/2
NIKITIN, E. E.
"I-Ifirl-I Shriper; or InOurc-r! PrAsitiorvil rind ;f
Molecules .11
report presenteO by SOKOLOV, N. D. at the 4,~h Internatioml Meetin,- of Vlo,clilgr
Spectroscopy, Dolcynn, It-,,AI-Y, 7-12 :'IePtembor IYO.
Institut of Chemical T-byF!c3, MoFcow.
(N/ - 1 -2 - 3/ 3 9
AUTHOR: i kttiny&aq .
TI TLE - On Calculation of' the Probability of Vibrational Excitation of
Molecules by Collisions (0 vychislanii veroyatnosti kolobatellnogo
votbuzhdaiiiya molekul pri BtOlicnoveniyakh)
FERIODMLL OptiKa i SpektrosKopiya, 1959, Vol 6, Mr 2, op 141-145 (USSR)
'_h~;.CT: Using motn,?ds of the theory of non-stationary perturbations the
author cal,:,.Al~Ltad the cross-section for inelastic collisions of diatami-~
molecules vinichare accompanied by excitation of vibrations. it was
asaw-aed that -wia eriargy of intermolecular interaction may be represented
by a Lennard-Jonas Dotential and that the angular dependen,~e of the
interaction doas not affect the order of the cross-section. The author
allowed for the cljan~,e of' tno r,)httive energy of the colliding tnolecule~
before and aft-3r coilision, rinca ttiis affects the vaiua of Lno cross-
section. If' o.ii,i tna repuision oetweeu molecules is taken into account,
then the ca1ck_.ir,,jrJ collision cross-section agrees with the value
obtained earli,~;r rj,/ exact quantum-mechani,~al methods . Dependence of the
cross-section o , the ootential-woll depth, wtich describes the attraction
1/2 between the two :,.ol,j.~:ules , is stroneer than in eariier calculations
~,' _, _~~ _ 7 1't9
,'ai:.-Alation of the Probab~.it-
Pbrationai `:xcitation of Koleculos by Collisions
when the atLraction vi, . 3.xlowed for ao,-)roximately. rhis is in
qualitative a.rroement -it~. the itr,)rq, dependence of the probability
of vibrational doactiv:~-cion on the nature of colliding mole-,Ales .
-c;cnowledpnent is made tr) N.D. Sol~xl,7,v for his advice. rhe ouncer is
entirely tneoretical. ~.-,are are 7 ref3rences, 1 of whi--h is Soviet,
5 English and 1 trans la t:- -)n frcm into Russian.
..IzfE'D: February 6, 1958
. L--~Ya,
of ihe '-nds of -,ii3 fore-ad roti-tiorv.1 i-nd vibretioml
,L
of dipolAriso 1-olaculao. Opt. i rpektr. 7 no. 6:744-
750 D 15cl. C41111, 14:2)
.:olecul--r)
5(4) sk",-V/76- ~13- 3-11/ 41
AUTHOR: Ifikitin, Ye, Ye.
TITLE: On the Perturbation of the Equilibrium Thermal Distribution
in the Thermal Dissociation of Diatomic Molecules (0 narush-
enii teplovo;;o ravnovesnogo raspredeleniya pri termicheskoy
dissotsiataii dvukhatomnykh molekul)
PERIODICAL: Zhurnal fizicheskoy khimii, 1959, Vol ~3, Nr
pp 572 - 560 (USER)
ABSTUiCT; For the calculation of tl,e rate of decomposition of diatomic
molecules it is necessary to investigate carefully the pro-
cess of collision of the molecules, The present paper de-
scribes calculations of this type taking into account the
effect of perturbation of the Boltzmann-distribution upon
the rate of decomposition. After an investigation of the
initial conditions and the model of molecules AB the constant
of reaction rate of the decomposition reaction is calculated
and the distribution function is determined with the reaction
not being in equilibrium. The following statements are made:
Card 1/3 in the case of a harmonic oscillator with a finite number of
On the Perturbation of the Erjui li bri um T,ieri.:al Di 3 t ributi on S(_V/7~, 1141
in the Thermal Dissociation of Diatomic Molecules
discreet levels the rate of decomposition ;till del.(.-.,id on the
probability of a traiLrition of tLe oscillator in the discreet
and a probability of transition to the con
spectrum P,
tinuous spectrum P 00 . In practice, when P Go is Sufficiently
great (as compared to P 10 ) the rate of decomposition will be
determined by the addition velocity of the molecules with a
low energy level to the dissociation threshold, In this
connection the maximum value of the pre-exponer.tial factor
has the order of magnitude of the number of collisions. The
distribution function of the decomposing oscillators for
periods of time that are longer than the time of relaxation
of the oscillation energy I Ao~ decreases exponer.tially with
time. It decreases more rapidly than tl;e Boltzmann function
exp(-EAT) in the case of an increase in which cornection it
takes a zero-value at the last discreet 1.--,vel, w.,.ereas the
constant of the rate of decomposition attai..s a maximwa value
Card 2/3 as a function of P 10 and P.0 ~ The yield in molecules whicl.
On the Perturbation of the Equilibrium Thermal Distributicn _-)~-V, 76- 1, 41
in the Thermal Dissociation of Diatomic Molecules
decompose at the time t -x-, 1/k0arid which initially vrQre at
low temperature is smaller than the ratio between relaxation
time and the time characteristic of this reaction, Tl-.e re-
maining moleculos decompose accurdint, to the exporieritial
law in the characteristic time 1/k, In conclusion the author
tha-ke Professor N. D_ Sokolov, There are 8 rel'crerices, 1 of
which is ~;oviet,
Mo sk va
AS30CIATIU: Akademiya naulk S'_SR, Institut khimicheskoy fizi-i,
(Academy of Sciences, US:~R, Institute of Chemical Phy3ics,
Moscow)
S UB MIT "2Z D June '15, 1957
Card 3/3
5(4 SOV/76 35-8 34,'39
AWOR: Nikitin, Ye. Ye.
TITLE: On the Calculation of the Rate Constant of Bimolecular Thermal
Decomposition of Molecules
PERIODICAL: Zhurnal fizicheskoy khimii, 1959, Vol 53, Nr 8, PP )893-1894
(USSR)
ABSTRACT: It is pointel out that in the calculation of the rate constant
kd of the bimolecular decomposition AB + M -0 A + B + M (1),
the disturbance of the Boltzmann distribution with respect
to the state of vibration is not considered, In a previous
paper (Ref 2) the author calculated the constant k d for
biatomic molecules according to equation (2), This equation,
which does consider the above disturbance, may also be used
for the decomposition of polyatomic molecules. The validity
of (2) is explained by means of the example of ozone decom--
position, and calculationB made by means of (2) aro compared
with the experimental values on the thermal decomposition
of polyatomic molecules (Table). It is ascertained that
the statement made in reference 17 on the work done in ref-
Card 1/2 erence 8 is correct, ioe~ that hydrazine decomposes bimole
SOV/76-34, 8 38/39
On the Calculation of the Rate Constant of Bimolecular Thermal DecompoBition
of Molecules
cularly and not, as had been assumed, monomolecularly Finally,
the author thanks Professor N, D. Sokolov., TheTr~ are ' table
and 11 references. 4 of which are-Soviet.
ASSOCIATION: Akademiya nauk SSSR,Institut khimiches~oy fiziki,Moskva
(Academy of Sciences USSR, Institute of Chemica. Physics
Moscow)
SUBMITTED: December 26, 1958.
Card 212
5W, 24(7) SOV/20-124-2-35/71
AUTHORS: Nikitin, Ye. Ye., Sokolov, N. D.
TITLE: On the Relation Between the Dissociation Constants of the
Thermal Docomposition of Biatomic Molecules in the Presence
and in the Absence of Equilibrium (0 sootnoshenii mezhdu
konstantami skorosti termicheskogo ra8pada dvukhatomnykh
molekul pri nalichii i pri otsutstvii ravnovesiya)
PERIODICAL: Doklady Akademii nauk SSSR, 1959, Vol 124, Nr 2, pp 366-369
(USSR)
ABSTRACT: Short reference is first made to earlier papers on the disso-
ciation of biatomic molecules AB + M - A + B + M. The dis-
turbance of Boltzmann distribution over the oscillation states
of the decomposing molecule decreases the degree of population
of the oscillation levels near the limit of dissociation. The
disturbance of Boltzmann distribution increases as a result of
the decrease of the oscillation quanta near the limit of dis-
sociation. The kinetice of thermal decomposition and of re-
combination probablj does not satisfy the usual kinetic equa-
tion. Dissociation is a process developing in several stages
Card 1/4 and therefore the kinetics of decomposition and recombination
SOV120-124-2-35171
On the Relation Between the Disoociation Constants of the Thermal Decomposi-
tion of Biatomic Molecules in the Presence and in the Absence of Equilibrium
must be described by the following systems of equations:
(d/dt)xn 2:F nkxn + 7 P knXk* Here x n denotes the distribu-
k k
tion function, i.e. the degree of population of the n-th level
of the system AB, and P kn - the probabilities of the rotation-
and oscillation transitions k - n of the molecule A.B. The Bums
of the formula given above extend also to Btates of the con-
tinuous part of the spectrum. The authors investigate the
simplest case in which at [ABJ