SCIENTIFIC ABSTRACT TSYTOVICH, V.N. - TSYUKHNO, Z.I.
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CIA-RDP86-00513R001757320018-7
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S
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December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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j, uooun-b?
ACC NR, AT6020442 ---SOURCE-C-OD-E-:-UR/0000/65/000/000/01.15/0130
~AU7HOR: T&Y gvich, V. I.; Shapiro , V. D.
11ORG: none
1TITLE: Nonlinear sta.bilization of vlasma beam-instabilities
SOURCE; AN UkrSSR. Vzaimodeystviye puchkov zaryazhennykh chastits s plazmoy (Interac-
tion of charged particle beams with plasma). Kievq Naukova dumka, 1965, 11S-130
TOPIC TAGS: plasma beam interaction, plasma instability, nonlinear plasma, plasmon
ABSTRACT: The study of plasma and interacting beam parameters shows that the stabili-
zation of beams by nonlinear means is possible. The mechanism investigated in this con-
nection is the pumping of-excited oscillations into a nonresonant spectral region. It
is assumed that,the characteristic time of pumping is shorter than the instability de-
velopment time, thus keeping the energy of the waves low. The spectral density time
behavior is obtained by deriving the cross section for dispersion of Langmuir waves on
the plasma particles. This is done both by use of the theory of growing amplitude ex-
citations as well as by the quantum-mechanical approach (plasmons). The effects of
nonlinearities are obtained imm the dynamics of beam instabilities. It is shown that
the beam can be accelerated by the excitation of internal electric fields. The analy-
Card 1/2 4.
L 00006-67
ACC NRs- A716020442 0
sis carried out in this work shows qualitatively that stabilization is possible in the
absence of intense external noise, Orig* art* hass 39 formulas#
SUB ODDE: 201 SUBM DATE: 1INov65/ ORIG REF; 010/ OTH IMF: 001
C.rd 2/2 not
M'W I r~ C (-U/A E
AP6030921 SOURC]j' CODE: U'R/0207/66/000/004/0048/0055
t'AUTHOR: Tsytovich, V6, Ni (Moscow),,, Shapiro, V. D. (Kharikov)
ORG: none
i"TITLE: Nonlinear theoryfor the passage of pulses of elect omagnetic waves
through a plasma boundar
Y-
t/
t'SOURCE: Zhurnal prikladnoy'mekhaniki i tekhnicheskoy fiziki, no.. 4, 1966, 48-55
TOPIC TAGS: wave pulse, electromagnetic wave, transverse wave, longitudinal
wave, plasma, plasma boundary,'. boundary effect
ABSTRACT: The role of,boundary effects is investigated for the passage of pulses
-'of electromagnetic waves through a plasma boundary. Cases of narrow and wide
spectra are analyzed. Stochastic phases of transverse waves and generated
longitudinal waves are assumed. The boundary effects may be used to generate
longitudinal waves needed for the effective acceleration of particles in the plasma
as well as for the modulation and changing of the spectrum of initial transverse
waves. The application of boundary effects in diagnostics of turbulent pksma is
pointed out. The authors,thank ':a. B. Faynbe g, M. S. Rabinovich, L.S.Danilkin
-Card 1/2
'iL 08227-67
ACC NRt AP6022072 SOURCE CODE- bR/0141/66/0091'003/()40'9/0478
AUTHOR: Liperovskiy, V. A.; Tsytovich, V. N.
!'ORG; Institute of Ph.ysics im. P. N. Lebodev, AN SSSR (Fizicheakiy institut AN SSSI)
MILE; Nonlinear interaction of waves in plasma in the presence of strong transverse
waves
SOURCE: IVUZ. Radiofizika, v. 9, no. 3, 1966, 469-478
TOPIC TAGS: plasma wave, plasmon, plasma research
ABSTRACT: The effectsare considered of the induced dispersion of longitudinal waves
in plasma, in the presence of strong transverse waves. It is prove that the spectrum
of longitudinal waves shifts toward higher wave numbers k (lower 7f~) also-in the -~
case of transverse waves in a homogenoouB isotropic plasma. It is found that, in the
process of 4-plasmon interaction, strong compensating effects (similar to those.
occurring in wave dispersion by particles) are possible. The interaction of Langmuir-
type waves is used as an illustrating example. Orig. art. has: 2 figures and
52 formulas.
SUB CODE: 20 1 SUBM DAM 06Sep65 / ORIG REF: 009 OM REF: 001
UDC: 533.951
ACC MRs AP6037069 SOURCEXODHs UR/0056[G&jOWG0Yj13W71j#M
AU7HORt T~ t chs Ve, No
ORG: Physics institute in. Pa No Lebedev, Academy qf Sciences BSSR (FizicheekLy
Institut Akedevii nauk SSSR)
TITLZ: Nonlinear instability of optical frequencies in a partially ionized plasma..
SOURCE: Mutual ekepeFluentallnoyi teoretLcheskoy fJzlkL, v. 519 wo So 1966,
IL363-1386
TOPIC TAGS., nonlinear optics, plasma oscillation, astrophysics
ABSTRAM A thaoretLeal study was red* of the nonlinear InteractLaw of plasma
beams and optical beams, whose freqijencLes are near the frequency (w A2 ) of transL-...
tLon between inversely populated levels. Only the initial stage of evelopment
of a nonlinear Instability was considered, and an invariant level population was
assumed. It is Indicted that rapidly excited plasma oscillations can provide a
mechanism for the luminescence of the system, which thenleads to an Increase in
the generation power. Such an Increase for a powerful pulsed pinch discharge in
a plasma was observed experimentally by'S. Go Kulagin et al. (ZhETF, ~VR, v. 3,
W. 1, 1966, 12). The generation of frequencies differing from vi by the plasma
frequency was observed experimentally by No C. Basov and 0. Vo Bopa;kevich (DAN-
SSM 168, 1966, 6) In an elect ron-basm-pumped semiconductor plasma. The anomalousli-
ACC NR
' AT6033041 SOURCE CODE; UR/z5o4/66/032/000/0112/01291.
LUTHOR: Danilkint I* S. i F4wizhnykh, L. M.; Rayzer, M. D.; Tsytovich, V. N.
)RG: none
MrLE: Nonlinear effect in a plasma without collisions and possible prospects for I
,heir use
3OURCE: AN SSSR. Fizicheskiy institut. Trudy, v. 32, 1966. -Fizika plazmy (P.Iasma
)hysics), 112-129
COPIC TAGS., nonlinear effect, plasma dynamicst plasma electromagnetic wave
WSTRACT: The present article is of the review type (35 literature references) and.
.he authors state that it is primarily based on the theoretical results of a series ofi
3reviously published articles. After an extended mathematical introduction, the I
Luthors consider the subject of the induced dissipation of transverse waves and their !
xansformation into longitudinal waves. The next two subsections deal with processes
of disintegration and merging of waves in a plasma, and processes of three-plasma
lissipation. The next main heading is the nonlinear transformation of transverse
ilectromagnetic waves into longitudinal plasma waves. Following this is a treatment
of the acceleration of clusters in a plasma using electromagnetic waves. Zia final
;ection of the article concerns the possibi1ity of the generation of transverse
:ard 1 /2
033041
Acc NR, AT6 ar effects acco'%Panyir-5 t;he Passa" 0j
)xpense of nonline
electromagnetic waves at the ' ) were brought to our attention by~
s treated her(
111he question the theory of nonlinear
a beam through a plasmaostive part in worldng out questions in
14. s. Rabinovich. An a Litis. For many discussions touching on the problem,
effects was taken by A. K. Ga~( jan )f. 1. Vekslor, 14. S. Rabinovich. and Ya.
the authors are Very grateful to Academic
berg.11 Orige art. has: 41 formulas-
B, F&yn
SUB CODE, 20/ SM DATES nOnO/ O&M But 038/ OM REFS 001
J
ACC NRI AT603i642
-AUTHORt Tsytovich, Vo No
IORG; none
jo~ -/0 0/0130/0164
SOURCE CODE: UH 25647~6 )2 0
J.
ITITL~r: statistical acceleration of particles in a Plasma
SOURCE: AN SSSR. Fizicheskiy institut. Trudy, v- 32, 1966. Fizika plazmy (Plasma
piMics), 130-164
TOPIC TAGS: particle acceleration, plasma flow, statistic analysis
ABSTRACT: 'This is a long article of the review type (34 pages, 111 literature
references). It starts with a mathematical treatment of the problem of the
statistical change of state of the particles in a plasma. Next is a treatment based
on Cherenkov acceleration, followed by a consideration of acceleration by means of
longitudinal oscillations of the plasma. A long section is devoted to nonlinear
effects and the limits of application of induced acceleration. 7he next main heading
is the statistical characteristics of the accelerated particles. A highly
mathematical treatment is given to the problem of the acceleration of photons and
neutrons. The author next treats the mechanism of acceleration in a weakly turbulent
plasma placed in external electric and magnetic fields. The article concludes with a
discussion of the application of the method to the heating and acceleration of
Card 1
ACC NRs AT6033042
particles under laboratory conditions, and in astrophysics, "The author erpresses hiss
deep indebtedness to Ya, B. Faynberg and V. D. Shapiro for discussion of the
experimental work on acceleration of particles in a plasma; to V. L. Ginzburg, So 16
Syrovatskiy, S. B. Pikellner, I. S. Shklovskiy, and N. S. Kardashev for discussion of
astrophysical applications. Me author is sincerely grateful to V. 1. Voksler, M. S.
Rabinovich, and R. Ze Sardeyev for stimulating discussions of pertinent questions."
Orig. art* bass 106 formulas and 6 figures. i
SUB-CODEs 20/ SUBM DATEs none/ ORIG REFs 108/ OM REF: M
ACC NRi
AT6033C43 SOURCE CODE-z UR/25V~/66/032/000/0165/0172
AUTWORs Da-nilkin, 1. S.; Rayzer, M. D.; Tsytovich, V. N.
ORG: none
TITIZ; Acceleration of particles with interaction between high frequency fields and a
plasma
SOURCE: All SSSR. Fizicheskiy institut. Trudy, v. 32, 1966. -Fizika pla2MY (Plasma
physics), 165-172
TOPIC TAGS: particle acceleration, plasma magnetic field, travelin[; wave interaction
ABSTRACT; 7ho present article analyzes several mechanisms for the accoloration of.the!
Individual particles of a plasma acted upon by a high frequency field. It considers
'the conditions under which data can be taken on the mechanism of acceleration, and
offers an evaluation of the mean values of the energy which can be collected by the
ions and the electrons. The article starts with a mathematical development of the
problem of acceleration brought about by waves with a fixed phase in a woak high
frequency field, and then goes on to a consideration of the same problem with waves off
It concludes with the derivation of
random phase in weak high frequency fields.
mathemat,ical expressions for the acceleration of particles in a strong high frequency
field,, "In conclusion the authors thank He 3, Rabinovich for discussion of the
Problem." Drig. art.' hass 25 formulas.
Z&CODS: 20/ SM DATAEs none/ ORIG REFs 012/ OTH REFs 002
L o8807-6Z _ EWT(l) IJP(c)
ACC NRt AT6020441 (WY_A_--SOURE CODE: UR10000165100010i010~13:1103~1T
AVrHOR; TsY:toYich,_V,,_N_-; _Phaqg;nj V. D.
ORG: none
TITLE: The interaction of an electron beam with an optically active medium
SOURCE: AN UkrSSR. Vzaimodeystviye puchkov zaryazhennykh chastits s plazmoy (Interac-
tion of charged particle beams with plasma). Kiev, Naukova dumka, 1965, 1.11-115
TOPIC TAGS: electron beam, plasma resonance, plasma interaction, plasma density
ABSTRACT: The generation of oscillations in the visible and UV ranges is considered
theoretically in the interacting system of a beam and an _pla The
electron beam is of smaller density than the plasma and has a large thermal component.
The plasma frequency is much smaller than that of the most rapidly growing harmonic,
which is about equal to the.characteristic frequency of the plasma. The spectrum of
oscillations excited in the plasma is obtained from the quasilinear theory. At reso-
nance, nearly all the energy of the beam goes into the kinetic energy of oscillators
U. e., atoms or ions of the plasma) exceeding the collisional transfer of energy to a
large degree. A numerical example is given to show that very strong generation of
light by this method is possible. It is shown that a beam with a density of 1014 cm-3
and a particle velocity of 3-10 cm/sac injected into a plasma with a density of 1019
Card 1/2
v., o88o7-67 0
-Acdc-, a 20441
W- 3 will generate 100 kw/cm3 of power at 101" seli-1 angul" frequency (Le ess in the
ultraviolet). Orig, art. has; 9 foMulaS-.
ISUB CODES 20/ SUBM DATEt nNov65/ ORIG IM 002
Card 2/1
ACC NR' AP6036020 SOURCE CODE: UR/0057/66/036/011/1915/1942
Auni[OR: Tsytov~ch#V Shvartsburg,A.B.
ORG:' Physics Institute im. P.N.L obedev, Moscow (Fizichookiy institut im. P.H.
iLebodova)
TITLE: Nonlinear interaction of waves in a plasma in a strong external magnetic field
SOURCE: Zhurnal tekhnichoskoy fiziki, v. 36; no. 11, 1966, 1915-1942
~
IThPIC TAGS: nonlinear plasma, turbulont-tplasma, magnotoactive plasma, plasma
ABSTRACT: The scope of this 27 pngo treatise on nonlinear interactions of waves in
magnetized plasmas is indicated by'tho following section and subsection headings:
1) Nonlinear interaction; 2) Nonlinear scattering; 3) Induced scattering of high fre-
quency waves on ions, a) Scattering through virtual plasma waves of plasma waves and
extraordinary waves into plasma waves and extraordinary waves at the zeroth harmonic;.
4) Scattering through plasma waves at the first harmonics; 5) Induced nonlinear..
scattering of waves on ions through virtual quasitransverse waves; 6) Induced scat-
tering of-low frequency plasma waves on ions; 7) Induced scattering of high frequency-
waves on electrons; 8) Decay processes, a) Decay of plasma waves into low frequency
waves, b) Decay of plasma waves into transverse waves and vice versa, d) Decay of
transverse waves Into transverse waves.. The calculations are based on a modification
for the case of weakly damped waves In a magnetized plastma under conditions of weak
tard 1/2
FA C CN R -iA.P-6 0-3 6-0-2
space dispersion of the general method developed in a series of papers by A.Gaylitis
land V.N.Tsytovich (ZhETF, 46, 1726,1964; 47,1468,1964) and by the present authors
(ZhLTF, 49,795,1965), Three types of waves are discussed: plasma:twaves, ordinary
waves, and extraordinary waves. Under certain conditions the cross section for
scattering on ions can exceed that for scattering on electrons. Tho interaction of
waves propagating nearly perpendicularly to the magnetic field can somewhat exceed that
of waves propagating parallel to the field. Nonlinear scattering involving-virtual
waves of different types Is discussed and it is shown that induced scattering at the
first harmonics of the ion Larmor frequency can exceed that at the zeroth harmonic.
The possibility of nonlinear amplification of plasma oscillations at frequencies near
the- elec 'tron cyclotron resonance is discussed. Scattering on ions through virtual
quasit'ranoverse waves can exceed that through quasilongitudinal waves; the conditions
that this be the case are found, and the induced nonlinear scattering on ions of low
frequency plasma waves is discussed. The scattering of waves on the plasma electron
is also discussed. Probabilities are given for a number of decay processes, and
equations are presented in an appendix with which probabilities of other decay pro-
cesses can be calculated. Orig. art, hast 133 formulas, and 5 figures.
SUB CODE: 20 SUBM DATHs MayO ORIGe, REF2 029 OTH REP: 001
A
2/2
ACC NR AP6 03 34 28
SOURCE CODE: UR/0057/66/036/010/1896/1900
Tay ov1 hY,jj,,;,_5hvartaburC,A.B,
AMOR: c`-
'ORG: none
TITLE: On the theory of the excitation and propagation of electromagnetic waves in
aweakly turbulent plasma
SOURCE: Zhurnal tekhnicheskoy fiziki-, v.*36, nb. 10, 1966, 1896-1900
TOPIC*TAGS.,. turbulent plasma, plasma diagnostics, plasma stab
ility, double refraction
hydrodynamic*theory, perturbation method
ABSTRACT: Tho authors employ the hydrodynamic equations for the plasma electrons to
-d iscuss high frequency perturbations of a weakly turbulent cold plasma. An expression
containing terms up *to the third-degree in the electric field strength is obtained
for the current in the plasma. It is assumed that~the random electric field due to
th46 turbulence is large compared with the perturbation field, and only terms lin--ar
in the latter are retained. -,A formula is given for the dielectric tensor of a plasma
containing'boith longitudinal and transverse turbulence. The imaginary parts of the
dielectric tOnsor lead to the known decay instabilities. The expression obtained for
the increment for quasilongitudinal waves in the presence of transverse turbulence
agrees with.that obtained.in the random-phase approximation by V.A.Liperovskiy and
(Preprint FIAN, A-120, 1965) but is valid beyond the limits of appli-
V,K.Taytovich
Card 1/2 UDC: 533.915.7
A 6-6j7ji-2-i
cability of that approximation. New types of instabilities are found, which cannot
be desoribed in the random phase approximation. Conditions for the appearance of
these instabilities in a plasma containing anisotropic longitudinal or transverse
turbulence are foun4 and expressiona for their increments are derived. The double
kefraction of high frequency waves in a plasma containing anisotropic longitudinal
turbulence is'discussed. The double r6fraction in a turbulent plasma may prove use
in plasma diagnostics. Orig. art. has: 24 formulas.
SUB OODE: 20 SUBM DATE: 25Feb66
ORIG. REF: 008 OTH REF; 001
Card 2/2
" i4_ - -' - __ - ----
A
M , Ap6o36767 BOURCE CODE: UR/0053/66/090/003/0435/0489
AUTHOR: Tsytovich, V. N.
ORG: Physics Institute im. P. N. Lebedev, AN SSSR (Fizicheakly instit-tt AN SSSR)
TITLE: Nonlinear effects in a plasma
SOURCE: Uspekhi fizicheskikh nauk, v. 90, no. 3. 1966, 435-489
TOPIC TAGS: plasma interaction, plasma wave, nonlinear plasma, ionized plasma, plasma
decay, plasma oscillation
ABSTRACT: This is a review article with emphasis on the nonlinear interaction between
waves having random phases in a plasma. The nonlinearity Is assumed weak, and the
energy of the interacting waves is assumed to be much larger than the energy of the
equilibrium fluctuations in the plasma. The sections headings are as follows: Intro-
duction (a. Object of investigation, b. Nonlinear effects and plasma physics, c.
Problems in the procedure of calculating nonlinear effects). I. General theory of
interaction of waves in spatially dispersive media (I. Concept of the number of waves
Connection between the spontaneous and induced processes. 2. Processes of radiation-,
scattering, and decay. -3. Kinetic equation for waves. 4. Nonlinear plasma current
and probability of decay processes. 5. Nonlinear and Compton scattering and their
interference). 11. Nonlinear interaction of waves in an isotropic plasma (6, Stimu-
UDCa 533.9
AP6036767
lated scattering of Langmuir waves with transformation into Langnuir waves on the
plasma electrons. T. Nonlinear scattering via virtual transverse waves. S. Induced
-cattering of Langamir waves by ions. 9. Induced scattering of ion-aound-waves.
10. Nonlinear interaction of Langmuir and ion-sound waves. 11. Honlinear interactia
of transverse waves. 12. Nonlinear interaction of transverse and Langcuir waves.
13. Nonlinear interaction of transverse and ion-sound waves). Conclusion. Sow AM-
solved problems in the theory of nonlinear interaction are mentioned in the conclusion
Orig. arts bast 10 figures and 142 fbmulase
SUB CODEt ~20/ SUBM DATEs. 00/ ORIG REF'i 120/. MH Ws 021
ACC NRt
zrr ail k I ),I ET~;~ I)/ Ei#6~M)
AP6013110 SOURCE CODE- Uft/0057/66/036/004/0575/058
rovelkly, V#Ae'
THOR: Ll
Tsytov1ch.V,K,
ORO: Llhysics Institute in, P,K,.Lobedev# Moscow (Fizichookly institut)
TITLE: On the oscillation spectra of a weakly turbulent plasmal_~,
SOURCE: Zhurnal tekhnicheskoy fiziki, v, 36, not 4, 1966# 575-587
TOPIC TAGS: turbulent plasma, unstable plasma, plasma oscillation, plasma stability,
dispersion equation, nonlinear plasma, nonlinear theory
ABSTRACT: In an unstable plasma,there can arise a quasi-equilibrium state of weak
turbulence with a self-consistent distribution of particles and waves. Such quasi-
stationary states have been previously discussed for different types of waves (in-
stabilities) by the authors (ZhTF, 35, 773, 1965; PMTF, No.5, 15, 1965). Here they
discuss the stability of quasistationary states of different types with respect to
excitation of slow plasma oscillations (which are called It second sound') and derive
the spectra of the second sound waves. The calculations are based on equations given
by L.M,Xovrizhnykh and V,N,Tsytovich (ZhE`rF, 46, 2212, 1964; 47, 14540 1964), which
describe the effects of the nonlinear interaction of the waves in the plasma and in
which spontaneous effects are neglected compared with induced effects, Dispersion
equatibns are derived for second sound in different quasistationary states and con-
ditions for the stability of the states are given. It Is shown that the. quasistation
Card _1/2 UDC: 533.9
ljpkc Al
L 28496-66
ACC NRs "60131 10
state noted by V,I,Petviashvili (DAN SSR, 151, 1295, 1963) and B.B.Kadamtsev (Voprosy'
teorii plasmy, vyp.4, str.2BS, Gosatomizdat, 1964), which arises from nonlinear
I
scattering on plasma Ions of ionic sound generated by an electric current in o plasma,
can be unstable with -respect to excit4tion of second sound, and that the quasistation-
ary states associated with decay of transverse waves into longitudinal waves and of
longitudinal waves into sound can be stable. The one-dimensional quasistationary state
associated with decay of longitudinal waves into sound is found to remain stable in the
presence of three-dimensional perturbations4 The authors thank jkjjjjn_for his
interest in the work, Orig, artt hns3 41 formulas.
SUB CODE: 20 SUBM DAM 16AOr65 ORIG, REFt 023 OM REF: 001
Car 2/2
L 8218-66 FVIT( 'F4
'Q"m) - IlPi-cl AT
ACC WR7_ AT5022301 SOURCE CODE: UR/3137/64/000/075/0001/DO14
~f 9 17 4 L4
AU'rHOR: Isytovich V. iro, V. D.
_ShaL
ORG: Academy of Sciences (ArSSR, Physicotechnical institute (Mcademiya nauk UkrSSR,
Fizikc~-Tj)-_hn1cheskiy institut)
TITLX: Nonlinear stabil-4zation of plasma beam instabilities
SOURCE; All UkrSSR. Fiziko-tekhnicheskiy institut. Doklady, no. 076/P030, 1964.
Nelineynaya stabilizatsiya puchkovykh neustoychivostey plazmy, 1-14
21) 14 q ~ 117 5
TOPIC TAGS: plasma beam, plasma wave,.plasma instability
AISTRACT: The possibility of the stabilization of beams in plasmas is discussed, es-~
pecially for the case where ion temperature greatly exceeds the electron temperature-!
The chief mechanism responsible for limiting beam or stream instabilities is wave scat-
tering by a large number of ions. The problem is discussed in terms of the spectrai ,
shift of the plasma waves frcm the resonant to nonresonant regions. If the shift oc-:
curs in a period less than or of the order of the time of growth of the waves, then
stabilization occurs. This occurs in some instances without the presence of strong
external noise. General stability criteria are derired from the nonlinear kinetic
equations for the beam with large velocity spread. It is shown that the small velo-I
city spread leads to a modified criterion of instability where the electron thermal
velocity exceeds that of the ions. Orig. art. has: 56 formulAs.
SUB ~qff- 20/ SUBM DATE: 00/ ORIG REFt 012/ M RF.F: 000
cc.-A
AUTHORS:
5 EWT(1ME1CAPF(n1,-2/LNrW -----IIP(c)
AP5027265 SOURCE CODE i UR/02(77/65/000/005/0015/0022
rovskiyl V. A. (Moscow); T�Ytovich', V. M. (Moscow)
ORG: none
TITLE: On the decay of longitudinal Langmair plasma oscillations into ion-acoustic
waves
SOURCE: Zhurnal prikladnoy mekbaniki i tekhnicheskoy fiziki, no. 5, 1965, 15-22
2 1, %/'/, 5- 5--
TOPIC TAGS: turbulent plasma, nonlinear theory, nonlinear plasm, unstable plasma,
plasma heating
ABSTRACT: In view or the importance of nonlinear processes arising as a result of
the high intensity of oscillations excited by beam instabilities, of the interest
in proposed turbulent heating schemes, and In connection with a number of other
phenomena.. several theoretical investigations of nonlinear plasma behavior have
r9cently been carried out. This subject is further investigated in the present
paper, in which several one-dimensional self-consistent problems concerning the
decay or combination of Langmair and ion-acoustio waves are considered. It is shown
that instability in a turbulent spactrum with a high level of excited Langmuir waveu
leads both to the excitation of ion-acoustia waves and to the appearance of side-
bands separat-3d b7 a frequancy on the order of Looi fron the electron plasma
L.9000-66
ACC NRs AP5027265
T
frequency W06. shis qualit4tive change In the vave apectm =7 dor, as a direct
indication of the excitation of ion-acoustic mvea in the system. Orig. art. Mat
2 figm-es and 34 formmlas.
0
SUB COMI 20/ SOM DATE: 2Wul64/ ORM MFj Oll
TSYTOVICH, V.N.; SHVARTSBURG, A.B.
Theory of nonlinear interaction of waves ina Magnetoactive aniso-
tropic plasma* Zhur. eksp. i teor. fiz. 49 no.3:797-806 S 165.
(MIRA 18110)
1. Fizicheakiy institut imeni Lebedeva AN SSSR-
non'L ~I-VC3 ',AC' he D rad'ofiY,*
Olrla W,
di la
'64 -
All
men I
KovRIZHNYKH, L.M.; TSYTOVICH, V.N. 1.e
I ransverse electromagnetic walles in
F,,ffects of the decaY Of t
J. 47 no.4:3454-3462 0 '64'
a plasma. Zhur. eksp. J teor. fiz- (141RA 18:1)
1. Fizicheskiy inBtitut imeni P.N. Labedeva AN SSSR.
GAYLITIS, A.; T.SYTOVIC,H. V.N.
Radiation due to the scattering of charged particles by electro-
magnetic waves in an isotropic plasma. Zhur. ekep. i teor. fiz.
47 no.4:1468-1482 0 164. (KRA 18:1)
1. Fizicheskiy institut imeni AP.N. Lebedeva, AN SSSR.
KOV11121INYU) L.M.; TSITOVICH, MI.
Vc-rdinear theory of 'the interaction between electron beaEB ard
transverse waves in a p1asma. Zhur. tekh, fiz. 35
Ja 165. 18:3)
1. Fizicheakiy institut imeni IRbedeva AN SSSR, Moskva.
- -~ .-t , -- . ~ - - I . . - I . I .
I
. . . . . . . . . . . .
ISYTOVICII, VIN,
Theory of cyclotron radiation of ions in a plasma. Zhar. tsLxh. -"
4. 1-Z .
311+ no.9t1701-1705 S 164, (MIRA .17-10)
1. Fizicheskly institut imeni Lebedeva,, Moskva.
TSYTOVI.CH.., _ Y. N. ,
Mechanism underlying plasma turbulence and cosmic ray acceleration.
Astron. zhur. 42 no.1:33-41 Ja-F 165. (MIRA 18:2)
1. Fizicheskiy institut AN SSSR.
3 ~ z~-z ..- , ~~ ~ I, - ;,:~;~7-
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EF EF
mum EMN 9~k ~Mmtl-
GAYLITIS, A.K.; TSITOVICH, V.14.
Acceleration by radiation and the generation of fast particles
under comic conditions. Part 3g Time measurements of the
intensity of radic-amicsion sourcec. ABtron. zhur. 41 no-3:
452-4,63 MY-Je '(4- (MIM 17z 6)
1. Fizicheskiy im. P.N. Lebedeva AN SSSR.
TSYTO SHAPIRO, V.D.
I f
Interaction between an electron beam and an opticaLLy active nedium.
Zhur.'U-ekh. fiz. 34 no.4:764-767 Ap 164-. (MIRA 17:4)
1. Fizicheskiy institut imeni Lebedeva, Moskva.
RUBIN~ S.B.; TSYTOVICII, V.N.
Nonlinear energy losseo by a charge in a plaoma. Zhur. tek-h. f-iz.
39 no.1;3-10 Ja 164. (KIRA 17: 1)
GAYLITISI A,K,; TSYTOVICH, V.N.
...... .
Effect of the mdi= on synchrotron acceleration of relativistic
particles. Izv.vyo. ucheb,zav.1 radiofiz. 6 no.611103-1114
163. (MIRA 17W
1. Fizicheskiy Institut imeni Lebeldeva AN SSSR.
TSYTOVICHP,,.V*N*-- - I
-~,- "
Effect of radiation on relativistic Particles moving in a magnatic
field. Izv- v7s. ucheb. zav.; radiofiz. 6 no.jjql&qZ7 t6j,
1. Fizicheskiy institut imenj Lebedeva AN SSSR* (MRA l6tl2)
ISYTOVICH, V.N.
Induced resonance scattering and radiation in a medium. Dok1.
All SSSR 154 no.1:76-79 Ja'64- (MIPLA 17:2)
1. Fizicheskiy institut im. P.N. Lebedeva AN SSSR. Predstavleno
akademikom I.Ye. Tammom.
/0003/0010
ACCESSION KR: AP4009914 S/0057/64/034/001
AUTHOR: Rubin, S.B.; Tsy*tovich, V.N.
TITIX: On the non-linear energy loss by a charge moving through a plasma
SOURCE: Zhurnal tolthnichaskoy liziki, v.34, no.1, 1964, 3-10
TOPIC TAGS: plasma, cold plasma, non-linear waves, moving charge in plasma, charge
cluster
ABSTRACT: The relativistic motion of a distribution of charge (cluster of charged
particles) through a cold plasma is treated in the hydrodynamic approximation. Only'
the motion of the electrons is considered, the role of the ions being only to as-
sure that the plasma --:ts a whole is neutral. The dimensions of the moving charge
distribution may be comparable with the wavelength of the waves it excites; there-
fore non-linear effects may be important, and these are taken into account. Only
such motions are considered as do not give rise to multi-velocity flow (turbulence).
The relativistic hydrodynamic equations are written in cylindrical coordinates. The
moving charge distribution is transformed to rest at the origin of coordinates, and
,it is assumed that the azimuthal velocity remains zero. Uwmell's equations are in-
Card 1/2
ACC.NR: AP4009914
troduced and two non-linear equations are derived for two velocity functions. One
of these functions is the usual relativistic quantity (1_~2)-1/2 and the other is
essentially the stream function. The electromagnetic field strengths are expressed
in terms of these velocity functions. The non-linear equations for the plasma ve-
locity are linearized by assuming the dependent variables to differe only slightly
from their undisturbed values. The linearizedequations are solved and an expressica
is obtained for the rate of energy loss by the moving charge. The rate of energy
loss is proportional to the square of the total charge, in agreement with the usual
linear theory. The non-linear plasma equations, of course, cannot be solved in Gen-
eral. Two special cases are discussed: 1) the longitudinal dimension of the moving
charge is small, although its transverse dimensions are not; 2) the transverse di-
mensions of the moving charge are small, although its longitudinal dimension is not,
Conditions for the appearance of multi-velocity flows are quoted from earlier work
(V.N.Tsy*tovich,DAN SSSR,142,No.63,1962) and it is concluded that in the ultra-rela-
tivistic case there is a wide range of conditions in which the non-linear effects
are important and turbulence does not develop. For case 1) the solution is complez.
ad and an involved expression is obtained for the rate of energy loss by the moving
chargat Thu equa%&Qns :or case 2) aro simplitied by expanding in powers of the ra-
dius and rotaining only the lowost order terms. The equations are roducod to Ilicao
Card 2/3
ACC.NR: AP4009914
of a one dimensional problem which, it is asserted, can be treated as was case 1).
ZAbstracter's note: The exposition is this section relies heavily on the earlier
work cited abovej It is shown that by assuming an expression for one of the velo-
city functions, the other velocity function and the corresponding charge distribu-
tion can be obtained. An example is worked through and a very involved expression
is obtained for the charge distribution. "The authors are sincerely gratelul, to
V.I.Veksler for continued interest and numerous discussions." Orig.art.has: 52
formulas.
ASSOCIATION: none
SUBMITTED: l0Dec62 DATE ACQ: l0Feb64 EXCL: 00
SUB CODE: PH NR REP SOV.- 003 OMR: 000
Cc~d 3/3
TSYTOVICIf, V.N.
Acceleration of charged particles by plr,~--ma waves. Izv. VY8. uc',eb.zav.;
radiofiz. 6 no.3:641-644 163. (11IFU 16:01)
1. Fizichouldy institut imeni Lobadeva AN SSSR.
(Plaoma (Ionized gasos))
a
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VII
ACCESSION NRs AP30-12
The affect which obtains for4adio waves, op.t1dal:frequ!e!ncies, and
nuclear resonance absorptioniis.very dl-~ght.~ To-obser e. the effect..!
it is necessary' that the absorption line be as.1narrow as! possible.
Observation can be carried out in principle byla-compar, son.of line
intensities with and without neutrinos ~nd by a!symmetryilof the effec .t.
The effect can be amplified by multiplelpassage Iof radfation through"
the neutrino region. In contract to other known ways o,f: neutrino
de'tection with an energy threshhold of 10-50 k.ev I neutrino absorption
of photons has no threshhold and is moria effici.ent at 10Y energies
at which neutrino accumulation in possible. Astrophyst ial applica-
tions of the effect are considered, and it is noted thA gamma
astronomy of discrete lines of nuclear esonance-can yie,ld information
o'n neutrinos. in hyperdense stars.' "The author 'thanks V1. L. Ginzburg',
V. I. Veksler, and G. T. Zatsepin for t eir'int,erest.in the work and,
their discussions." Orig.. art. has: 1 formul1as. I
ASSOCIATION: Fix*icheskiy instLtut Lm.~ 1.0 ~.)Lebe4eva A demii nauk
SSSR (Physic,s Institute, Academy of Sti. nces: SSSR)
J
4CESSION IM AP3004316
410033163VO4010041061 V0624
AUMHOR& Tsy*tcvich, V. N.
.,TITL.7: Acceleration by radiation and the problems of generation of fast particlis
'In cosmic conditions
SOURCE: Astronoxichaskir zhurnal, v. 40, no. 4. 1963, 612-624
TOPIC TAGS: magnetically active plasma,, Fermi acceleration,, magnotohydrodynamic wave,
radiation acceleration, particle charge, radiation pressure, Cherenkov radiation,,
Bre msstrahlung, transversal wavej, quasilongitudinal oscillation
ABSTRACT; The study of fast cosmic particles is connected with three parameters:
the madium, the radiation., and the fast particles. Tho medium, where the particle
;otion occurs, is a magnetically very active pla-sma. The Fermi acceleration in the
form of magnotohydrodynamic waves is the boundary case of radiation acceleration.
The force acting on the particle charge can be greater in the modium than the radia-
tion pressure; it depends upon the wave length and the radius of tho particle, it
charged particle moving within a vacuum cannot orait and absorb aloctromagentie waves;
therefora, only a dispersion of electromagnetic waves takes pluce, In the medium
an absorption and an emission are possible when the condition of Cherenkov radiation
Card 1/3
ACCESSION VR: AP3004316
is fulfilled, i.e., when the particle velocity is higher than the wave velocity.
In a magnetically active plasma with Cherenkov radiation and absorption, processes of
magnetic Brom strahlung including radiation and absorption are possible. The radia-
tion action depends upon the particle charge, the wavelength, the ratio of the wave
velocity to the particle velocity, and the particle energy. The solution of the
equation of interaction shows that the acceleration by radiation takes place vhen*a
difference exists between the energies obtained by the particle in collisions; and
the mechanism of the radiation action on the particle is the boundary case of the
Ferlai machanism. Radio emission in the cosmos penetrates into plasma and is there
transformod into plasma oscillations. A transformation of transversal waves into
plasma oscillations is possible because of nonlinear interaction of-waves after dis-
persion on inhomogeneitios. The plasma waves in a magnetic field correspond to the
so called quasi-longitudinal oscillations. The acceleration of a particle which
moves with a nonrelativistic velocity along the force lines is given by a formula.
Plasma waves within a magnetically active plasma have great refraction indicosj, and
under those conditions the accelerative off6ot generates the ordinary and extraordin-
ary waves. The problem of Alfven waves and injection as sources of particle acceler-
ation is discussed with transformation of the formula3 developed earlier. The discus-
aion resulted in the conclusion that the onerg7 density or particles cannot exceed
the energy density of the radiation. Orig. art. hU3& 3 figures and 37 formulas.
Card
jccLssloii Na: ;LP.3004316
.'fASsWl,lTlM,I,s Fisichaskiv institut im- Lebodeva Akademli nauk SSSR (Institute of
tphysics.. Academy Of Sciences SWa)
~SUBM-,r&D: 04Nov62 DATz AcQ: 2oAug63 ENCL: 00
SUB CMES AS NO REF SOV: 012
orRal 001
Card 313
ACCESSION NR: AP4017032 S/0141/63/006/0~6/1103/1114
Gaylitis, A. K.1 Tsy*tovich)*, -V.. N.
AUTHORS;
TITLE: Ef~ect of the medium on:the s"nchrotron,acceleration of
relativistic particles
SOURCE: IVUZ. Radiofizika, V.16, no..:6, 1963, 1103-1114
'61e, s chrotron acceler&tion, rela-
TOPIC TAGS.~' relativistic parti yn
tivistic electron, radio astrori6my, a6celeration by radiation, op-
tical synchrotron radiation, synchrotron electron loss,'Compton
effect, inverse Compton effect,:~'earthradiation belt, c romosphere
flare,
ABSTRACT: 'The authors study tA acceteration of relativistic elec-
trons moving in a magnetic fiel~5, brolight about by tran�verse elec-
tromagneti6 waves for which the L. deviation of the dieleciric constant
from unity.can be appreciable. :]The er~ergy acquired by the particle
Card
ACCESSION NR: AP4017032
X
is calculated and the dependence of the particle acceleration on
its energy is analyzed. The possible role.played by such an ac-
celeratiOTI mechanism in discrete radioastronomy sources is con-
sidered. It is pointed out that ultrarelativistic electrons Can
become selectively accelerated by transverse electromagnetic waves
and thus offset possible synchrotron losses. The fact cited as
evidence in favor of this assumption is that the Crab nebula shows
no variation in the optical synchrotron radiation, although synchro-
tron losses of electrons should be appreciable in this energy re-
gion. It is also pointed out that acceleration by transverse waves
during the initial stage of supernova envelope expansion resolves
some of the difficulties connected with the inverse Compton effect.
It is deduced from the results of the article that it is possible
for electrons to become accelerated to an energy 2-10 MeV in the
internal regions of the outer radiation belt. Consectuently fast
electrons should be produced whenever radio emission from a chromo-
sphere flare passes through the inner zone of the radiation belt.
Card
TSYTOVICH, V.K.
Theory of tho motion of charges along the aXis of a channol in a
medium. Zhur. tekh. fiz. 33 no.7:795-8W Jl 163. (1,11RA 16:9)
I
1. Fizicheskiy imstitut im. F.P.Lebedeva All SSSR., Hoskva.
(Plasma (Ionized gases)) (Electromagnetic waves)
TSYTOVICH, V.N.
Acceleration by radiation and the generation of fast particles
in outer space., Astron.zhur. 40 no.4:612-624 J1-Ag -'63.
(MIRA 16:8)
1. Fizicheskiy institut im. P.N.Lebedeva AN SSSR.
(Cosmic rays)
TSYTOVICH V.No
Acceleration of electrons In the earthts radiation belts*
Ge6mage i aere 3 -no*4:63.6-6;a5 JI-Ag 163 (NIU 16:11)
1. Flzicheskiy institut imeni PoNeLebedeve. AN SWR.
TSYTOVICH, V.H.
Absorption of electromagnetic waves on neutrinos. Zhur. eksp.
i tPor. fiz. 45 no-4:1183-1187 0 163. (MMA 16:11)
1. Fizicheskiy institut imeni P.N.Lebedeva AN SSSR.
SVETOZAROVA, G.1.1 TSYTOVICH. V N,--,
Spacial diapersion of relativistic plasm in a upetlo field,
13v. vys. uoheb. sav.; radlofix. 5 no.4s658470 162. (MM 16t7)
1. Fisicheskiy institut im. P.N.Lebedeva AN MR,
(Plasm (Ionized gas6s)) (Magneitic fields)
I I I ~
-. . 1.~ , , , ~ L , Y
4MF- , . I I
_jqqSAREV, K,
lilorkmen beromee engineers. Sov. profsoiuzy 18 no.19:23-2r~ 0 162.
(1-11RA 15:9)
1. Predsedatelf Tomskogo oblastnogo soveta profeosionaltnykh
GoYUZoVO
(Tomsk Pvovince-Trade unions)
(Tomsk Province-Evening and continuation schools)
BOGOSLOVSKIY. Boris Borisovich, Prinimali uchastlye: TOSWRIAMIY, K.A..
dotsent; T=6ARjJ,_9,T., kand.geograf.nauk. PETROVA, K.A., red,;
OFiCRGIYETA, G.I.. tekhn.red.
[Limnology) Ozerovedenle. Moskva. Ind-vo Mook.univ., 1960.
334 p. (MIRA 14:10
(Limology)
TSYTSkMll G.V.
-- -
Determining the underground component of the runoff Of rive-.B
from hydrochemical data, Sbor, rab, po gidrol. noel,187-
90 159. (MIPA .15-2)
1. Moska7skiy gosudarstvennyy univeraitet.
(Runoff)
TSYTSARIN, G.V. .
----- --
Use of bydromechanical data for determining the underground
component of streamflow. Biul.MJIP. Otd.geol. 31 no.4:108-
log ii-Ag 156. (14LRA 9:12)
(Stream measurements)
MAKSIM07ICH, Georgiy Alskseyevich; ESYTSARIN, G.V., redaktor; PERVAROV, I.L.,
redaktor; MICMUSM, G.K. . KOSHEI-EVA, S.M., tokhnI-
3 9
cheskly redaktor.
[The chemical geography of inlamd waters] Khimicheskaia geograftia vod
sushi. Moskva, Gon.izd-vo geogr. 1955. 32? p. (MIRA 8:0
(Hydrolog7) (Water, UndergviDund)
T--')YT")AI,III, ry. V.
Mi *e-~ e s .
Steep-banked mountain lakes. 26, 1951.
9. Monthl List of Russian Accessions, Library of Congress, April -195A Uncl.
AUTffOR: :-Tsytsarin, G.V. SOV/5-58-5-15/20
TITLE: The Borate Waters of the Trans-Emba Channels (Boratnyye vo-
dy zaembenskikh protok)
PERIODICAL: Byulleten' Moskovskogo obshchestva ispytateley prirody,
Otdel geologicheskiy, 1958, P 156 (USSR)
ABSTRACT: The authoreetpft some of the theses of the report he read
on 10 April, 1958 in the Hydrogeological Section of the So-
ciety. He investigated the presence of Boron (B) in the
channels of the Emba river near its estuary on the eastern
shore of the Caspian Sea. According to him, the presence
and concentration of boron and other dispersed elements
in the channels of the river is brought about by the gradual
evaporation of the water. He recommends further prospect-
ing for a possible industrial extraction of boron.
Card 1/1
A012021 Ban$ given
?M11 The W10444614#i4al 046stea (4(drogeolectshaskaya cattail*)
PtNIODICAL# DymIlstent Mookotakago chahch*atva lopylatol
j prirodyt
Gt4sl 1955, IT 5. pp 151 - 1 5 (053B)
;
ASSTRACTo The ffydrogoologic4l Sectic n *1 ,he Society. (Chatrsoa- 0.9.
L*ng., Secretary - N.Y. heard %be following ra-
parts, On 10 April 195a, by 4A. Dubil'Yer. 'The Question
-
-
-
-
of Rjdrachoolool Zotality of U-PP-47
a. Dtpostts in the
T.
R
1
South Oral Region-, and arhe Borst* Waters of the Troms-
tabs channels by a V T It rift The o Log tons
r
"t
:
::
m
n
r
osava,
took per6 in the dl8ou8
1o
1 1:1. Alo
k
a
i.
T
11 P. Marritakly. 3.T. Vlktarov. I.?. Loban.,&, K.A. K.on.-
,aml.ava and 0,1. Leage. On 17 April 1955, by B,L.._L11oh11ov.
4rosive Surfaces of Mountains. the Structur
mountain@
:
and Hydroloology-. and by Y.S._L&q&riA * Th a 'o
o"
mr'n
"
.
'
n4
tb
MwP ". The following per.
,olc,la
Rydr:#
par, ths. ~wcuss one, 9.1. Skol... N.V. D. 11-tr 11-01
,
:
,
,
;
;:1
M. A. A.A. lazoplyantse,. A.$. Dam,
1:
1. V. Filstav, A.A. Brodakil, V.A. 197san. On Key 15, by
;art 1A LT. li stov M. last. Auto. of %be Compact-
. ...... of .. ... &I, "a sons coast-
a Prabl a of Their Console*. and by L.M.
l
Inn, "Th Ragin
ing and Cooloplael Characteristics
to Iran the Al-
I Clan*. The following persons
Al:
:
;.
%oat port in 'he t
.
U.N. yoxtee.a. V I TOM,
A.G. Uvido.ovw, K.?. Lobanovs. To. V. Wkhla. ;.i. ok also
and 0.11. L..Ct. On J[Ky 22, br W.V. Tons *in, *The Gaucho.
.1 try f Part Voters frost Qme ternary wA Pliocene Bodtoonto
of the Ca .,I an 36&-, and by Ch_.Tj~ _Crol-, 'The Googhtsistry
of F4ro Solutions of Carbaniforous Deposit# of the K*ooow
Oblast-% The following persons Uot part In %h* Also.o.
slonsi T.I. Popov, A.A. Cavryukhtne, O.L. Stg4alkov. V.1r.
Bollaksys. Ch. To. Crol', A.G. 2.114.001& sad O.K. Lwqo.
an way 29 1956, the "Ports var* "&a by A XQhN_
al
~
.CAR. .30.0 Problese of xydrogoology, to xor
i
4
care 213 gtod.stas- *Ad by A.JL_ZazLL2M& IT&* Dsveal" Waters of
the T"b#V Obiestf*). r" following person# took port Is
Sao disouselons. Tu.N. Mants, A.G. U1140aeve, I.&. Veal-
*rovokays, A.A. bal,11-yeT. 0.C. Lane "I A.Z. sills-541k.
0"is.
TSYTSARIN, G.V., referent
Boron content in waters of trans-Nmba gullies. Blul.HDIP. Otd.geol-33
no.5-.156 S-0 158. (MIRk 1211)
(Caspian Sea region-4oron)
TSY-i'SA'IITIfj G. V.
Lakes
Steep-banked mountain lakes. Vo-. geog. 26, 1951.
v
9. ~~thl~ List of Russian Accessions, Library of Congress, Apr Ll_~2 Wqy~ Uncl.
TSYTSART111 G. V.
Physical Geography
steep-banked mountain lakes.j Vop. geog.p 26, 1951.
__jPrjj_jq'r
st of Russian Accessions, Library of Congress, ? IM, Uncl.
9. nELhl i I _ - __
y L_
TSYTSARINp G.V.; SHINKAR, G.G.
Optical instrupent for menauring silt density and possibilities
for using it in fqdrologia ratiortroh. Vent.Monk. un. 3ar. 51 Goog,
17 no.L67-68 Ja-F 162. ; (WRA 16:7)
(Silt) (Optical instruments)_
AXIMMITIN, P.V.; TSYTSARKIN, V.N.; RAZIN, V.N.
Results of experimental investigations on selecting compositions of
equivalent materials. Vop. gor. davl. no.7t66~69 f61. (MA 18-7)
1. Tomskiy politekhnicheskiy institut im. S.M.Kirova.
o%lolen',Ya AN ~',Sffh.
gorncgu I L,
- - . . I .. - . - I , - ~ - t I! u f2 ' T-ec Is n, T- I n (ii i r~ I i~ , - - ~p
3- -~-
~,rtl
` -1
P ,
x~'n 1:
TSYTSARIN, V. S.
Kaitkulyatsiya
tables) Moskva,
41+p. tables.
i proverka tsen v stolovoy (Calculation and checking of prices in
0
Gostorgizdat, 1953.
N15
JS
RODKIM. B.S.; TSIVISARKINA, T.H.: CHYJMNICHENKO, L.H. (Khar'kov)
Antitoxin function of the liver in cancer. Vrach.delo no.12:
1273-1276 D '56. (MIRA 12:10)
1. Otdal patofiziologii (zav. - zaal-azhennyy deyatell nauki,
prof.S.G.Genes) Ukrainskogo institute, eksperimental'noy
endokrinologii i khirurgicheoloW klinika (zav. - zaal.doyatell
naWci, prof.G.14.Gurevich) Ukrainskogo instituta rentgano-radio-
onkologilo
(CANCER) (LIVER)
LEBEDEVA, L.P.; KRYSIN, B.T.; KOLPAKOV, Ya.V.; IGNATOV, L.N.;
MIKHAYLOVSKIY, V.A.; SMBNOV, G.G.; TSYTSENKO, M.V.
Experimental-production of Iron-base friction ceramic metnls.
Forosh. met. 5 no.8:96-102 Ag 165. (WRA 18:9)
j~
L 7,96, B'M(J)/EV1T(d /60T /ErIT~m~/LVIP(W)/F-PF(C)/C?iG(s)-2/E,'?P(l) EWG(V)/
YpeblPw_4
ffPR/T/EV1P(t
Bjj~ b /VIA(h) Pe-5#1-4/Pr-
A CE SION ;H: _-AP50118T5 UR-16286165100010111011810119
621.825
a rnT
AUTHOM Kashchenko 1. H*; Krysin, B. T.; Kolpskov I ya. V.1 smirnov
T.- 111 t L. P.1 V no
'G. 0.1 lilkhavlovnkiy, A.1 Toy nka. H I Lebe eve,
`V 11" ~131
kurov. V. I.; Levin, H . H. I YAel 'man, 14. 1.
TITLEs Method for producing friction parts from povd~r c Is onentso
lClase 47, No. lTlT02
SOURCE:. Byulletent izobreteniy i tovarnykh snakov, no. 11, 1965,
lle-il9
TOPIC TAOSj ?aircraft brake friction part , powder metallurgy
ABSTRACTt An Author gertificate has been issued for &'method of pro-,.
ducing friction partelg(e.g., brake-unit parts) for aircraft from pov--
der components~ To reduce wear, the mixture contains 0-TO iron, "
13-16%' C opper, 8-10% barium sulfate% 3-7% graphiteA-5% asbestos;,
and 2-5% silicon oxide. The mixture is compact molded, at a pressure
of 5 8 t C102 and sintered at'a temperature of 10600 and a pressure or!
25 k;/cn;s (LBY
icard if 9
65- . - ..- I..----
L 57596-
AMSSION BRI AP301T T5
ASSOCIATIONt none
.SUDMITTEDt ogmay63 ENCLI 00
so alif Boys 000, OTHER# 00
N
X4
:ard 2 /2
TSYTSENKO, V.I., inzhener,
A~.- . -
P
~U~UgQ
Modification of the bearing of the SH-170 coal crusher. Znergetik
5 no.,2:9-10 IF 157, (mm 1010)
(Pulverizers)
AID P - 4o65
Subject USSR/Power
Card 1/1 Pub. 26 - 23/33
Author Tsytsenko, V. I., Eng.
Title standardizing the fuel mill unit types.
Periodical Elek. sta., 12, 52, 1955
Abstract The article describes the conversion of fuel mills
to one type in order to facilitate repair and mounting
work. One diagram.
Institution : None
Submitted : No date
TSYTSMMO, V.I., inzbener.
New regulating valve for continuous blowdown of boilers.
Zlek.sta. 27 no.7:51-52 JI '56. (KIaA 9:10)
(Boilers--Accessories)
-7-~ Y. r ~, Z P"', /~ c ) 1, - i ,
Subject USSR/Electricity
AID P - 3705
Card 1/1 Pub. 29 - 1Q/25
Author : Tsytsenko, V. I., Eng.
Title : 'Replacement of cast-iron nozzle turbine segments with
steel
Periodical : Energetik, 12, 15-16, D 1955
Abstract : The author describes the replacement work done with a
AEG,. 10,000-kw turbine where cast-iron nozzle segments
were replaced with steel ones. One drawing.
Institution None
Submitted No date
TSYTS1M, V.I., inzhener.
Standardization of impact mills. Blek.sta. 26.ne.12:52 D 155.
(Coal, Pulverized) (MIRA 914)
TSYTSENKO, V.I., inzh.
First outdoor-type solid fuel power plant of the U.S.SeR.
glek. ota. 35 no.30-8 Mr 164. (MIRA 17s6)
TSYTS'i2rfO, V.I., Inzhener.
Replacing cast-iron turbine n*tzle iegmnnts with steel onqs.
19nergetik 3 no*12:15-16 D 155. (KLRA 9:?/'
(Nozzles)
USSR / Human and Animal Morphology (Normal and
Pathological). Nervous System. Peripheral
Nervous System.
Abs Jour :Ref Zbur - Biologiya;-No 4, 1959, No. 16929
Author :Slobodin, Z. G.; Tsytsorina, N. A.
Inst :Karaganda Medicaf-rn-stitute
Title :On Innervation of the grist and Foci
Orig Pub :Tr. Karagandinsk. med. in-ta, 1957, 1, No 2,
133-134
Abstract :No abstract given
Card 1/1
38
TUMAN 2 V. P.
Promising types of loading and unloading machinery. Vekh. oil'.
hoop. 12 no.10:18 0 261. (MIRA 14--l1)
1. Khar2kovskaya iseledovatellskaya stantsiya Ukrainskogo
naucbno-isaledovatellskogo instituta makhanizateii i, elektri-
filmtsil. sellsko o khozyaystva.
fLoading and unloading)
TMMSURE'll E. I.
Tsytsurin, E. I., Wave graphs, Sb. rabot po geofiz. i meteorol metodam izmereniy
pribor (Collection of vorks an geophysics and meteorological methods of measurements and
instruments), Leningrad, 1958, p 94-96; (RZhGeofiz 11/59-11128)
KHASIN, A.V.; TSYUBLEVSKIY, A.M.
Adsorption drying of ethylene. Khim.prom. no.1:35-38 Ja 163.
(KCRA 16:3)
(Ethylene--Drying)
I
BELIXUVIUMI, P.I.; Yo.A.
Study of pat a3phal-,C'---.3 by infrared spectroscopy. Inst.
torf. AN BBSS.--~ 0:296-300 '60. (:-'i 7-A 14: 2)
Mat) (An, ',,.-.iltrc r,--S i-ectra)
A
TsTuKATTI,s, G.K.; TMIS, A.P.
1111- A.- ~~ ~ f , ,
Two-configurational approximation in the case of 1s z2512p3s
configuration of carbon atoms. Zhur.eksp. i toor .fis. 25 no.6:
679-682 D 153. (MM ?:10)
(Carbon) (Atoms)
Articular complications In DOGA theraff of adrenal insufficiency.
Klin. med., Noskya 30 no. 5:77-78 May- 1952. (CLML 22:3)
14 Candidate Medical Sciences. 2. Of the Department of Indoc-
rinalogy (tioaa -- Prof..H. A. Kopelevicb), Ukrainian Institute for
the Advanced Training of Physicians. Kharlkov,
USSWHuvan and inirml Physiology. Intarml Secretion T-8
,'.ba Jour :&,f Zhur - Biol.) No 14; 1958, No 65552
Author
Inst : Uk-minian Scientifid Research Institute of Clinical Medicine
Title : C--pillaroscopic Data in Diabetes Mellitus.
Orig Pub : Materi-nly po obnenu nauchn. infom. Ukr. in.-i. in-t klinich.
meditsiny, 1957, vyp. 11 143-145
Lbstract No abstract
Card 1/1
TSYUKHNO,
Oxyhemometric data in diabetes mellitus. Trudy Mr. rAuch.-issl. inst.
eksper. endok. 19%48-58 f64~ (MIRA 18t7)
1. Iz klinicheskogo otdela Ukrainskogo instituta eksperimentallnoy
endokrinologii. i kafedry endokrinologit Ukrainskogo instituta
usovershenst-trovanlya vrachey.
I'SYUKON Z#l- -
asr.Illar . -bet,13 mellitU3. Trudy LO=.
couarse of cardlov ~ lisease-9 in dl,-- - (MIRA 18:7)
nwich.-islql. inst.-f-,ksper. endolk. 19167-72 164.
ZHUROVA, ------ issana. Trudyllkr. r,,uch.-issl~ Inst. eksPer-
Hiroutiam in the porphyrin d
andok. 19093-396 164. (KI RA 18 0)
1. lz klinicheakogo otdola Ukrainnkogo instituta eksperimentallnoy
endok,rinologii.
i