SCIENTIFIC ABSTRACT MELAMEDOV, N. K. - MELAMUT, D. L.
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CIA-RDP86-00513R001033330002-6
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RIF
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S
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100
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Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
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SMIRNOV, N.A., prof.; DAVIDSON, M.G.; FORADNYA, A.I.; STABNIKOV,
V.N.; VEBM, M.A.; ZHADOVICH, V.K.; KRUPSKIY,A.S.[deceased];
MELAKEDOV, U.K.; SERGEYEV, V.V.: Prinimali uchastiye:
AMMOSOV, N.G., inzh.; AKIMOVA, L.D., kand. tekhn. nauko
dots.; FILIPPOV, N.A., inzh., nauchn. red.; SM]11NOV, N.Ai,
prof., red.; DNEPROVA, N.N., red.izd-va; PULIKINA, Ye.A.,
tekhn. red.
(Technolo of building] Tekhnologiia stroitellnogo proiz-
vodstva. FBy) N.A.Smirnov i dr. Leningrad, Gosstroiizdat,
1963. 435 P. (MIRA 17:2)
&v
TZODOROVIGH. G.I.; MRIAMOOVA, V.S.; PISAaRKO, I.A.
Method for diagnostic coloring of ferromgnesia carbonateE.
Izv.vy9.ucheb.zav,; gool. i razy. 2 no.9:37-44 5 119.
(MIRA 13 - 4)
1. Institut geologii i razrabotki goryuchikh iskopayemykh
AN SSSR.
(Coxbonates)
TEODOROVIGH, Georgiy Ivanovich; PCLCNtZ:ATA, Brungilida Takovlevna;
ANDRIANOVA, Alekeandra Glebovna; HELAHEMOVAtJo1~9
PISARMO, Irina Alaksandrovna; iRbDO_V_A_,_f~_mrs Mikhaylovna;
TARMSOT, M.I,,'f.otv.red.-. SH6FOTALOVA, G.A., fdd.izd-va; RTLIKA,
Tu.V.. temn.ve .
(Mineralogical-geochemical facies and conditions of the formation
of petroleum-producing terrigenous Devonian strata in western
Bashkiria and eaUtern Tatarstanj Hineralogo-geokhimichaskie
fateii i usloviia obrazovaniia nefteproizvodiashchikh terrigennykh
otlozhanii devona Zapadnoi Beahkiril i Vostochnoi Tatarii. Hookva.
Izd-vo Ikad.nauk SSSR, 1960. 148 p.
1. Chlon-korrespondent AN SSSR (for Varenteov). (KIRA 14:3)
(Ural-Volga region--Petroleum geolog7)
TEODOROVICH# G.I.; PISABMJKOv I.A.; MYAAMEDOVA, V.S.
Thermal analysis of iron carbonates. IZVO V78, ucheb. zav.; geol.
i razv. no.11:61-67 N 160. (MIRA 14:2)
1. Institut nefti AN SSSR.
Mocks, Carbonate-Thermal properties)
RK
sit a a 4 5 4 1 1 9 It Is 13 to Is 16 1? p, a 31 It
-A a r a Ita -A-B--F-Q L-1-
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4. A. MIlemid, Aegis Physies;
HYPG(b-1
1-2. 21111- 2!43, 1932. too Rosenthal sought to
I~crgojic hypothemiL, suilicc
prove that the qlu,%, -it for ph)skal applica-
tions of that on the basis of this hypothesis one can prixCed to Is. proof
that ow temporary Ineast value c" be replaced by the exact oicass
value, Tile autijor ticinoruitrates two principal errors of Rosenthal's
proof, The rehittion Iijin #,lli - 1. whose 1, anit Its are the tintes We phase
T-
Imints remain in III,, two 1waittirtc trgions of the energy surti", was coo
dIrmonittratc4l corr'.-tiv by littwitthAl in tho tubst of dow, but t) tautsi too
atwwf* in the change fmat the equivalent to the iWitnetric rNO'n. ;m &too
Altistract 23413 (1933).1 400
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. 63, -Sts-Cs fibits on glAss
so show luminescence Its excitation in the same w,tve-letigth
r3nge which gives rise to elec._ photarood. If the twt.-
d
curveb are
rawn so as to coincide at the max., they be-
come practic-Ally identical along their entire courime. Both
lumineicence and pho(ocfmd. twgin at 0.8 A. piss through
A mbx. Around I A x. ass'~l tcai,c At I Al P. Ilctween the
lie long-wave limit of the external photoelec. effe". at about
Go 0.65 p, and the common short-wave litni( of plustomid.
d l
i
n
uns
newence, at 0.8 so. them is a gap where ljhm~
effects are absent altogether. Intense illumination Will)
short.w4ve radiation. up to M25 A., causes no loag-wiavc
*0 luminescence. 11tottocond. and lumittescertrv are ob-
so VOU441Y due to excitation of CICCUUMS (MM the filled Abair
MA its list cutod. room. Put dAtA lartruill tough c-astruction
of thr eactoly-level whetue chAructeriatic of bb-Cs lllus~,
the 3 levels lie, resp., 0.81, 1.54, and 2.03 c.v. above the
filled zone. N. Thon
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J, 14 IL A .11111tURGOE.I. LITIFIVITURC CLASSWICATICY Ug,
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0 0 0 0 0 0 ale 0 0 0 0 0 0 9 0 0 0 0 0 0 0 0 0 0
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. h I' I " -----TA-'*
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&3gleements with Sb-Cs Whoddo. N. S.
Khkb" an.1 A. H. NfelamM. Hadl. draJ. vi. U.R.-
S.S., Set. dewtipticts of Sb,-Cs
plintocell's Kfe qCn%ItivV well Into the Ultraviolet
and cusploy a my thin gU- wituhm f,w introduction ol
I he activating light beam. C.. m. KCKC"Poff
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New ft-0 FboCmotbL N MIA-A", A A.
All I/ PAV, , V % S R, 1.14j, V.4 Nel
p 1"... ~. q~j....Mc f..r vW 414mit I.P.,
Anvj lhr -slfwr it highly wrUitive ("A/fm) m,Kfel
,h,,wln4 R'l f4ficew rvT" M filatt cAtfs-ofe Illumirta-
1,,,a is-, 1.%) Al.tract ,f a papet of the Acad.
1, s ., lu
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4: wNroull us -Idu moo 44 C14411 I
LL:
004 1'r
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. N- -
114tC41114
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00
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00 A
e The Energy Structure of the AUUMQUY-C"IUM Cath-
00
l ude. (In R-W- L) N, S. KIdelmikov and A. E. Mela-
'
00 El f mid. Duk-ludy Akudemn Nauk SSSU (Iteports of fli-t
NrildemY of Sciences of the USSIO, -w Acr., v. 63,
L)". 21. 194S, p. 649-651.
1
, The above wits investigateal on the busj.~ of a nt,%v
5 theory of the action mechan6m of the isixtvi,
00 rath Ju- as a j*miconductj)r. Method and upparatu.,
u*tA are described. Width of the vmductivity roiw
00 of an Sb-Cs layer was determined experintenuilly.
1
Data are charted.
v #,a-%L AFTALLUftKAL UVIIIIATLAIII CLAWKATION
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to 0 * 0 0 0 0 : 0 0 0 see * 41 so* 0 0 0 0 4
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MZLI:41D, A. Ye.
"Parameters of Photo-Electr-)n Muitliplierr. an(. t1ell-lethods a-d the i~quipm,~:,,
for their 'Measurement,"
A conference on Electron and Photo-Electron Multiplier; RadioteliuLni-lka i
Elektronika, 1957 Vol. II, No. 12, p-d. 1552-1557 (USSFI)
Abst: A conf-2rence to(A place in MIosccow ,IurIr.C, February 2~. and MarcL 6, 1-,)57
and was attended by scientists and engineers from 11-losccrw, Leningrad, K-'ev
and tther centres of the Soviet Union. AIIX,:-~ther, 2,'-, paners were read arAi
17~i A ~-/ e
AUTHORS: Khlebnikov, V.S.,and Melamid, A.Ye. 120-6-2/36
TITLE: Photo-electron and Electron Multipliers (A Review)
(Fotoelektronn,ve i elektronnye umnozhiteli (Obzor)
PERIODICAL: Pribory i Tek-hnika Eksperimenta, 1957, No.6,
pp. 6 - 18 (USSR).
ABSTRACT: The review covers the properties and working conditions
of multipliers used for measuring weak light sources and short
light pulses produced in the USSR. First working photo-electron
multipliers were produced by Kubetskiy (Ref.1) in 1933. This
tube was introduced without any substantial changes by RCA in
1934-1935. Kubetskiy anticipated most of the other authors, as
can be seen from Ref.2. In the forties, it became obvious
that photo-electron multipliers can be very useful and con-
venient in the measurement of very weak light sources, e.g. in
spectroscopy and astmnomy. A new stage in the development of
these multipliers began in 1947 when Kallman (Ref.4) showed
that, in conjunction with a phosphor, electron multipliers can
be used as dete6tors of radio-activity. Applications to
nuclear physics soon followed. Such multipliers have three
important properties, namely, high amplification (up to
Ca.r-dr, 108 -109), very small inertia and proportionality between the
Photo-electron and Electron Multipliers (A Review) 12 0 - 2
input and output signals over a wide range of Inputs.
a) Multipliers used in nuclear physics. Table 1 gives com-plete
data f4-f**i4 multipliers used in scintillation counters. The
photocathode diameters range from 15 to 190 mm and the number
of dynodes from 9 to 13. Both focussed and Venetian blind t e
are produced. Amplification factors range from 5 x 104 to 101
and rise times from 10-8 to 5 x 10-9 secs.
b) multipliers used for weak light sources. Characteristics
of 6 such multipliers are given fully in Table 2. The sensi-
tive areas range from 5 x 5 MM2 to 5 x 16 mm2. Two multipliers
having sensitive elements of diameter 15 mm. are also given.
Sb-Cs, Cs-O-Ag and Sb-Cs photocathodes are emiloyed. Spectral
regions covered lie between 2 000 and 10 OC
c) Electron multipliers. The first practical use of the
secondary electron emission multiplier without a photocathode
was described by Allen (Ref.13). Such multipliers can be used
for counting positive ions in mass-spectrometers. In the Soviet
Union analogous work was carried out by Livshits (Ref.16). The
present authors have investigated various multiplier systems
as well as the following alloys for dynodes: Cu-Ee, Cu-Mg,
CE:rd2/3 L;u-AI-M,-,, Al-Mg-Si. The latter alloy was finally chosen as the
Photo-electron and Electron Multipliers (A Review). 12C-~-2/36
most convenient technologically. It is pointed out that it
would be very interesting to compare Soviet multipliers with
foreign. Unfortunately, there is almo!t a total absence of
foreign multipliers in the Soviet Union.
There are 11 figures, 2 tables and 17 references,12 of which
are Slavic.
SUBMITTED: May 20, 1957.
AVAILABLE: Library of Congress.
Uard 3/3
AUTHOR: 4
7ITLE: proc act ion of , hu toell~.,_-T :-an-:.._4 1 -, J_- 1 i CrE a-,r
;ncntary Parai~ieter.; ( Ilru i7,vodstvo fotcQle':tronn~rkh amno:;nitelcy
i ikh elciaentarnyye paraiaetry).
P I U.L I C.t LIzvestiya AN ~366ii ~~eriya Fizicheakaya, 1936, Vol. 22,
Nr 1, PP. 76 - 82
ABZTAACT: Bj the elementary parameters of the photoelectron-maltipliers
(PV) we uncerstand the parameters dependent on the -1roperties
of the photocathode, the construction of the el-2ctron-oDti~_al
input, the construction and the properties of tht~: dynoul_s-,Iste~i.
A short survey of them is ,iv,n he:-e. Thej are: the integral
s%~nsitivity, the quantum yield, th,~ aziif~~r-ait., of thc -,'notoca-
thode-sen3itivity, the collection of electrons, the anifornity
of electron-co 111ect ion at the first e:.-iitter of' th~ c,nouu gy-
stem, uniformity of the cathoue, amolificatiun-c,)ef.ici,~nt of
the dynode-system and the dark cur~-ent of the PV. It is shown
thatit is not necesBary to measare the int(!.,ral sunsitivity in
the case of PV destined for ordinary sci-itillation-co,4nters,
for this is of greater intereot for th(_ eninucr t;:an for the
consumer. It is fufther shown that the activatiun--r--cess of thE
Card 1/3 cathode itself and not the modification of the -.hic'.:ncss ci~ tne
Production of Photoelectron,';ultioliers anc 'iheir ~U- -I -16/121o
;:,lewentary Pa..ra,.,ztAerf3.
cathode i,3 the causc of the spreading of the a:.ioant uf ua:-.tLim
yield and that of the intc-gral sensitivity. It is ointeu out
tliat the amount of the spectrometer resalvir.6! po-.1cr iii tlc _-V
the
~e-jends to a considerable extent on the propurt~, ol . c ta 1
used. It is considered wore expedknt not to ce-rrj out cu,,Arol
of the spuctrotmetric resalving power of the _V at thc: - :roduc,,-.r
at the radioactive soarces andthe 3cizitillation-cr%,stals, but
to dcter2ine it according to the equivalent lijit fla.3h. The
-deasurin,; method employed for this only diJfers fro2 that c.1-
sto::ary for such cases by the exchan~~e ~;:' 'he radioactive
c and the crystal e.g. by a Kerr-cel' or by a s~eciall clect-
L
ron-ray tube with a screen and small afterLglow. It is sho'an
that for obtaining the highest degree the c~.,llection of elect-
rons in every PV it is necessary to select the QptiLiu;,,i voitaCe-
-values at its focusing; electrodes. The amplification coeffi-
C4 ~-,,
I 't of thu dynode-system is determined by the coef -ici-.,,,t of
Lhe secindary emission of the dynode-material. 3y the d-~Irk cjr-
rent thL current in - the collector -circuit without
ion of the ;j-iotocathode is to be understood in the case of a ,V.
Its ma.-nitude consists mainly of 2 components: 1) the leak-a-.-,ce
current in the collEctor-circuit and 2) t'-.e amplified carrLnt of
Card 2/3 the thLrmoemissiori from the cathode and chiefly fro.- the first
On the Production of 1hotoe1ectron-:.'ultipliers anr, 'I''heir 48- 1 -1 6/2o
Parameter-,
dynodes ~'or th(j PV as an element of the scintillatioi-cotnter
thu second component is the Tnore important on~. It de:)ei,,,:s an
t'ae type of the selected cathode, ort the sur: ace of th,_ ~.attcf
ana un the t_.pmperature of the surroundings. 'hur,~fore it is ex-
pc,dient not to give the magnitude of the dark curi~cnt, b,,it the
ruirib,~r o1' the dark impulno:_i per ininuto and Lh(, am,)liLude U" UL-
so iinpulseg. Finally it is pointed out that the probability o_--
obtaining the manitude of the collection of electrons anc t:ie a-
niforiaity of the collection at the first dynode is close t~,
The probability of obtainint- optir.,=~, v-iluesfor the ..;uantul ,i,;16
is (~eter-iiined by the production mcthoQ of. the cat'.-,ode. It is
especially emphasLzed that only in the case of a simultaneoas ful-
fillment of all demands made on the elementary component of t'-o
?V it is possible really to obtain a so-calle(~ s-;ectro_:_.C1,_"
4 _C
pe of p.,.otoclectron-multipliers. in all othLr casus t-.i~- ca-,.
ly be a coincidence. 'Zhere are 7 fi,,~ares, 2 tailes.
AVAILUL-, Library of Con~;ress
1. Secondary emission amplifiers-Production
3/3
sov/iog-4-6-14/27
AUTHORS: Khlebnikov, N.S. and Melamid A.Ye.
TITLE., Energy and Angular Distributions of the Photo-electrons
from Complex Cathodes (0 raspredelenii fotoelektronov
po onergiyam i uglam vylota d1ya slozhylth katodov)
PERIODICAL- Radioteklulika i elektroriika, 1959, Vol 4, Nr 6,
pp 1008 - 1017 (USSR)
ABSTRACT., The investigation reported in tile article was carried
out during 1950 - 1953 and its aim was to obtain the
data necessary for the design of an electron-optical
system employing complex photo cathodes. The results
obtained by the authors and their interpretation differ
from those obtained by later investigators (Refs 1-6).
Tile experiments were carried out by employing a
lisectionalised" spherical condenser having an external
diameter of 100 nun (Figure 1). The experimental tube
containing a spherical condenser was in the form illustated
in Figure 2. The experimental results are sbown in
Figures 3-11. Figure 3 illustrates the maximum energy of
the photo--electrons as a function of the quantum energy
Cardl/4 h1J for two tubes with spherical cathodes ; Curve 1
sov/log-4-6-14/27
Energy and Angular Distributions of the Photo-electron-s from
Complex Cathodes
refers to an antinony-caesium. cathode, while Curve 2
was taken with an oxygen-silver-caesium cathode. The
slope of the curves gives the average value of the
Planck constant. Figure 4 shows that, for both the
above cathodes, the saturation points in the current
curves changed stepwise during the transition from long
to short waves. The energy distribution of the photo-
electrons in an antimony-caesium cathode, deposited on a
platinum-coated glass sphere, is illustrated in Figure 5;
the curves werc taken for the wavelengths ranging from
62oo - 2537 X. The angular distribution of the photo-
electrons is illustrated in Figures 7,8 and 9; the
curves marked Ill were taken with a for-%-jard illumination,
while the, curves marked 121 were measured ivith backward
illuminations. Figure 11 shows the electron energy
distribution of an oxygen-.silver-caesium cathode for
the wavelengths ranging froin 8000 - 28118 9 ., The above
experimental results are employed to explain the energy
Card2/4 structure of the photo cathodes and to interpret the
sov/iog-4-6-14/27
Energy and Angular Distributions of the Photo-electrons from
Complex Cathodes
process of production and movement of the photo-electrons
in the emissive layer. In particular. the experiments
show that the angular distribution of the photo-electrons
is axially symmetrical and consists of two components.
1) a component having a maximwii in the direction normal
to the surface and, 2) a component having a maximum at
a comparatively large angle. As regards the energy
structures of an antimony-cae3-Lum cathode, the authors,
results indicate that the Burton model (Ref 15) is
incorrect. The author5 express their gratitude to
Ye.P. Yurlova for preparing the experimental equipment.
Note from the editor! the above article produced a
number of criticisms (from various sources) re"Lating to
the method of the measurements and the interpretation of
the exT)erimental results. However. in view of the novelty
Card3/4
S~K4109-1-1114/27
Energy and Angular Distributions of the o o-e ec rons from
Complex Cathodes
of the results obtained, the editorial board decided to
publish the paper. There are 13 figures and
17 references, of which 7 are English and 10 Soviet;
one of the Soviet references is translated from English.
SUBMITTED: January 15, 1958
Card 4/4
LZ
P7709.
S/120/61/ooo/003/02i/o4i
X -I &
2032/931-
AUTHORS. Khlebnikov, N.S., Melamid, A.Ye. and
Timoshenkov, Yu.A.
TITLE: A Photomultiplier Sensitive Down to 1 300 A
PERIODICAL: Pribory i takhnika eksperimenta, 1961, No. 3,
pp. 129 - 131
TEXT: The shortwave limit of a photomultiplier has been
extended by the present authors by the use of a "wavelength-
shifter", i.e, the short wavelength radiation is converted
into a longer wavelength radiation with the ald of a sultable
phosphor. It was found that the beat results were obtained
with the AQ-49 (ZhS-9) glass plate, 0.1 mm thick. Fig. 1
shows the spectral characteristics of the photomultiplier
0.),/_p_5 (FEU-R5) with different materials used for the
entrance window. Curve 1 was obtained with "optical glass
No. 23" and the R5 photomultiplierl Curve 2 was obtained
with a 1 mm, thick, high-quality uviol glass and an
(FEU-R3) multiplier and curve 3 was obtained with the
ZhS-9 glass (o.1 rwn thick) attached with Canada balsam to the
Card 1/3
27709
S/120/61/000/003/021/o4i
A Photomultiplier .... 9032/z3i4
R5 envelope. Curve 3 could not be extended at the time to below
2 030 X owing to lack of a suitable monochromator. However,there
is evidemeshowing thatthe sensitivity remains quite appreciable
down to 1 300 A. The-pr-esent authors' recent measurements,
using a vacuum monochromator, have yielded the curve shown in
Fig. 2. Fig. 4 shows the light output of the ZhS-9 glass as
a function of thickness (mm).
There are 4 figures and 1 table.
SUBMITTED: August 2, 1960
Card 2/3
27714
S/120/61/000/003/027/041
,:29 4spoo E073/E535
AUTHORS: Yersakov, V.A., Levin, G. Z., MelamiLddt_,~.Ye.,,
Trebukhovskiy, Yu.V. and Khle~-nikov, N.S.
TITLE: Electron multiplier with an axially symmetrical IMlet
window of 24 CM2 area
PERIODICAL% Pribory i tekhnika eksperimenta, 1961, NO-3,PP-157-158
TEXT: For recording wide beams of recoil nuclei, electron
multipliers are required with an as large as possible area of the
cathode from which the recorded particles eject electrons. Fig.1
shows a sketch of the electron multiplier. In this paper an
electron multiplier is described, the cathode of which is in the
shape of a hemisphere of 60 mm diameter with a central opening of
10 mm diameter. Along the axis a short 6 mm diameter cylinder is
placed which is electrically connected with the first dynode.
In the gap between the cylinder and the edges of the cathode
opening, a ring,with welded on 0.15 mm diameter tungsten wires
which are located along the generating lines of the 8 mm, diameter
cylindrical surface inside the cathode cavity, is fixed onto glass
insulators. A potential slightly higher than the cathode
Card 1/5
27714
Electron multiplier with an axially ... S/120/61/000/003/027/o4i
E073/E535
potential is fed to the wire "cylinder" and this produces an
additional field that accelerates the electrons which are released
from the cathode surface by the primary particles so that the
collection of electrons from the peripheral regions of the cathode
into the dynode system is considerably improved. To eliminate
field distortions in the cathode cavity, the inlet window is
covered by a grid to which an independent potential can be fed.
Electrons from the cathode, which come into the near-axial region
of the cathode with only low energies (due to the accelerating
field produced by the wire cylinder), are under the effect of a
strong focusing field of the cylinder of the first dynode which
collects them onto the active part of its surface. Then follows
the ordinary process of multiplication in the dynode system, which
has 17 dynodes instead of the usual 11 in the type (C (1S)
multipliers. The cathode and the dynodes are made of an Al-Mg
alloy with an addition of silicon with thicknesses of 0.2 mm and
0.1 to 0.12 mm, respectively. Activation is by alternating
heating in vacuum and in an 02 atmosphere at 2 t --- 4500C until the
required quantity of oxygen 0 to 5 TL9/cm ) is absorbed. An
Card 2/5
27734
Electron multiplier with an axially ... S/120/61/000/003/027/041
3073/t535
important advantage of this alloy against other alloys (Ag-Mg,
Cu-Mg, Cu-Al-Mg, Cu-Be) is its reactivation after standing in air
(heating in vacuo at 340*C for 3o-6o min). The operation of an
electron multiplier is as followst onto each section of the
cathode a narrow, 8 mm wide, beam of a-particles is directed and
the number of pulses at the output is recorded. Fig-3 shows the
focusing curves (N - pulses/see) taken on displacing the source
along the cathode diameter. The half-width of the curve equals
55 mm (which coincides with the diameter of the inlet window) but
does not change on changing the efficiency of the recording of the
a-particles (curves 1, 2 and 3 were recorded for a-particle
recording efficiencies of 100, 45 and 19%, respectively). The
best amplitude distribution of the pulses (Fig.4) was obtained
for the following operating conditionss
Number of Electrodes Potential difference, V
Grid-cathode 27 + t?
Cathode-wire cylinder 46 + 20
Wire cylinder - lat dynode 380 T100
lst dynode 2nd dynode 210
Card 3/5 17th dynode collector 210
27724
Electron multiplier with an axially ... S/120/61/000/003/027/o4i
E073/E535
The authors also investigated the integral amplitude distribution
of the pulses at the output end of the multiplier. Fig.4 shows the
integral amplitude distribution of the pulses of the multiplier for
a and 0 particles; the bias on the discriminator (V) is recorded
on the abscissa whilst on the ordinate the number of pulses per
second N are recorded, the amplitude of ygich is larger than the
bias voltage (~op curve - a-particles Po , bottom curve -
y-particles Co 0). The plateau of the counting in the range of
small discriminations is characterized by 100% efficiency of
recording the a-particles. The background of the electron multi-
plier for the 70% range of a-particle recording is 2 pulses/sec
and in the range of 50% it does not exceed 1.5 pulses/sec.
Ye. P. Yurlova and V. F. Ivanov participated in the design and
building of the multiplier. There are 4 figures.
[Abstractor's Note: Complete translation]
SUBMITTED: June 6, 1960
Card 4/5
KHLENIKOVP N.S.;
Problem concerning the effect of Vw polarization of light on the
photoeff*4 of complex cathodes. Radiotekh.i elaktron,, 0' no.7:1215-
1216 J:L 161. (KCRA 14:6)
(Photoolectricity) (Polarization (1,ight)) (Cathodes)
-7
S/I Cy- b2/ U-07/337,/rU20/029
324 6 :;3C2
~7? I e b n i1l- c v
C. S :.:e-lamid, A.Ye , an' Kovalev~~,
.r4 '_U--~
0_
n 0- QU~~)Ut
itude d-' ui _-'eS C)f a 3.10.0-
C:) T C _1 T 7, no. 3,
i o t, e1zhnik a i elek-vroniI~a, v. 6 2,
5 3 - 5j 2-Ar
r7 T I
been s1aw,-in t'neo.-e-.JLcaI_'y by janossy (__,.ef,
that ti-.e output pulses of a :-.ave
95: D 28, 6, 599) U
Poisson distribution. On the ot-'--.er hand so-.-.e ex-oer~ments seemea
Uo )rove 'U'.,-.e ccr.-Wrary. '-'-e ai:,t-',-.ors jerformed care fl-,zlly nrerare~ r-.x-
-erf::~ents to P_-ove the correctness of t-e forT~er. orecon'ition
-.Lat only :~.ult-iplicatior. of single electrons shouLd be ::.eLs,-,re--,
in a.- ideal vacuum, free of C~as phenonena. This was ac.-.ieved by
s,)ecially c'-Iloosing photo,_-1-,zltipIier3 (about 20) with low backl-,ro,_~nd
and a T)Iateau in their c.-.~Lracteristics (co -,nt3 versuB o-ier-11 vol-
L,az-e). -zhe p-hotom-ultiiiiers were operated in "-is ,,* 'aldle rc.-Ion,
'e~`re alt single elecirons get multiplied by the tube and -as n-e-
-L tD
I
Card,1/2
S/-, r G 2/ 3.~ 2'_
Am-;1i-.ude distribution o- outz~u-~ D240X302
no--.'ena .,-.ave very -, -ittle effect. T,.e la-,-.ar ~,-:as :neasu_-e,.; -::3
dft Lonal in, a trijie coincide,.ce
-ound -~o be ---I%; it v;as sub-'rac7,ed frc)::: tlhe ,.,ain moasurer:ients. ~o
make sure that only si-Ele elect-rons viere ~..u1tip1_-*e,3, only
e-, ec-.rons were used. Under t'-cso conr~itions the amnI itud-le distr-Lbu-
-ion 'urned out to be Poisscnian, even for -iffe-rent s c~-`ary
emission coefficients. ~_he au-~hors also ccnf_I-_:7:ed
of dark cur-:-ent are due to sin,~`_c electrons. A11thou,---,i- for
4--a-e tubes it was reported to be due to ::-.ultiple elec .urons, tht::sc
are, according to the aut'-_-ors, the resui-~s of !-,.ore co::,,,'-JcateI ::,e-
c,ian-smi. There are 9 fin-ures and 6 references: ) Soviet-bloc an_-~ 3
_~,n-Sov-iet-b-Loc. The references to the '_"_-,-'_ish-Ian,~ua,;-e
lons r4~~- as flollows: j.A. Baicker, = '_rans. Eci . 6-
~4'0_7, 2-3, 74; F.j. Lom-oard, ?. ','artin, Pev. Sci. Irstrun,.., ICIOSI,
32, 2, 200.
SU_-~'.~.ITTED: July 17, 1961
Card 2/2
KHLEBNIKOV, H.S. (deceasedh MELAMID, A.Ye.; KOVALEVA, T.A.
Effect of a gas discharge and optical feedback on the origina-
tion of delayed pulses at the output of a photoelectric multi-
plier. Radiotekh. i elektron.,,9 iko.6:1020-1028 Je 164.
(MIRA 17:7)
of!V3
F:'. , T. '- , ; ir, "'IT A, (~ , 7 ~ ; !E ') ,.~ , 7r,
Effort of trz aci,,- process of 9 P~ 0 tc~-, - F. -.,~ r., ~~ r", " , , ~ i r~ - 0 r,
no4 .
'J[,- powpr apfc-,-Um nf -seq. I i
- I
no. -,: 1(-!-.16-' ja 16~~ , m'-f ~ :. -~ C, : i ~
2. :,eptember 25, lq64,
~351C~ Tit -2 GD
ACC NR: AP6008Z" SOURCE CODE: UR/0109/66/011/oo3/o568/0571
AUTHOR: Kovaleva, T. A.; Kuptsova, G. Z.; Melamid, A. Ye.
Dr
ORG: none
TITLE: Calculating the threshold sensitivity of_multiplier phototubes
SOURCE: Radiotekhnika i elektronika, v. 11, no. 3. 1966, 568-571
TOPIC TAGS: multiplier phototube, photomultiplier
ABSTRACT: H. Bosc (Onde electr. , 1963, v. 43, 436-437, 738) and G. F. Flint
(IEEE Traris. 1964, IMIL-8, 4, 22) suggested a method for calculating the
threshold sigral with an allowance for the statistical properties of the input signal
and photocathode emission. However, these initial distributions are distorted by
the fluctuation of instantanebus values of the accondarv-en-drijion ratio of dynodes.
The present article offers a calculation of the threshold sensitivity with an
Card 1/2 UDC. 621.383.29Z.001.Z4
L 395U-66
AGG NR: AP60C,18299
allowance for the statibtical nature of the multiplication process: the amplitude
distributions (of the photomultiplier output pulses) due to signal and noise radiation
are taken into account. These assumptions have been made: (a) Pois8on-law
probability of occurrence of photons on the photocathode; (b) binorriial-law proba-
bility of emergence of photo electrons from the cathoc~e; (c) Poisson-law proba-
bility of emergence of secondary electrons caused by a primary electron hitting
the dynode; (d) only the distributions after the first dynode are taken into account.
The amplitude distributions have been calculated by the method of generating
functions. It is found that the difference between the threshold signals calculated
by the above method an i the Bosc and Flint inethod may reach high values (3216)
depending on the secon("ary-ei-nission ratio involved. Orig. art. has: 3 figures
and 3 formulas.
SUB CODE: 09 / SUBM DATE: 08Apr65 ORIG R.EF: 000 / OTH REF: 007
Card 2/2
MELAMID,,.A.Ye.; KHLEBNIKOV N.S. [deceased)
I
Interference method for studying complex photocathodes.
Radiotekh. i elektron. 9 no.6:1001-1008 Je 164.
Optical rnna-t-+~ - * - -1-teristi- --4 --I-~x photo-
cathodes Ibid..-1009-1019 (MIRA 17:7)
ACCESSION NR: AP4040912 5/0109/64/UO9/006/1020/1028
AUTHOR: Khlebnikovl, N. S.; Melamid, A. Ye.; Kovaleva, T. A.
TITLE: Effect of the gas discharge and optical feedback on the production of
afterpulses at the output of a multiplier phototube
SOURCE: Radiotekhnika 1 elektroriika, v. 9, no. 6, 1964, IOZO-1028
TOPIC TAGS, phototube, multiplier phototube, phototube afterpulse. FEU-IS
phototube
ABSTRACT: Afterpulses, which oc-cur at the output of a phototube operating at a
sufficiently high supply voltage, cause an increase in the total number of pulses
and distort their amplitude distribution. The afterpulses are generated by the
glow of the gas discharge in the last -dynode -collector gap, which causes an
optical feedback from the phototube output to its photocathode. The afte rpulses
were experimentally studied on a hookup consisting of an FEU-lS-equivalent
Card 11Z
ACCESSION NR: AP4040912
phototube, a broadband amplifier, an electronic" oscillograph, and a movie
camera; 720 and 380 measurements were made at 1. 6 and 2. 1 kv, respectively.
It was found that the distribution of the probability of afterpulses can be described
by this formula: P (i) z A (1 -A), where A' is the average number of electrons
emitted by the photocathode in the i-th avalanche. Afterpulses may be eliminated
from the record by increasing the resolving time of the scaler. Orig. art. has:
9 figures and 7 formulas.
ASSOCIATION: none
SUBMITTED: Z6Apr63
ENCL: 00
SUB CODE: F-C NO REF SOV: 004 OTHER: 004
Card ?,/?-
V*LLL,-LID D Ye.
Of I
Dissertation defended for the degree of Doctor of 4'--nQ;a1 3ciences in the
Institute of World Economics and International Relations
"Political Crisis of the Fascist Regime and the Plot of 20 July 1944
in Germany.11
Vestnik Akad. Nauk, No 4, 1963, pp 119-1-45
MELAIRSD, Z
OFOFL14LENIYE RASCHETINYa I KREDIThfM OPERATSIY KOLMOZO- CHEREZ BANK: POSOBIYE DLYA
PREDSEDATE LEY I SCIIET.%IYYdi RABOTNIYOV KOLUOZ"v. SO':TAVLEv'O Z IMELAMUDOM I IN. O'lClUli
NI.KO,Y,'/. "1103VA GOS--INILDAT, 1955 57 P.
MELAMUD) A*Ac*-assistent
Study of vitamin A by adaptometry in hypertension. Nauch trudy
Llvov.obLl.terap.ob-va no.1:194-196 161. iHIM 16:5)
1e Kafedra goopitalinoy terapii Llvovskogo meditsinakogo instituta.
(zav.' kafadioy - dotsent I.I. Harkov),
(HYPERTENSION) (VITAMBS-A) (NIGHT DIVISION)
- _we*
ICMAMMD, A. YA.
PA 2zIT32
USSR/Geophysics - Seismic Apparatus Jan/Feb 53
"Checking the Sensitivity of Seismic Apparatus,"
A. Ya. Melamud, Geophys Inst, Acad Sci USSR
"Iz Ak Nauk SSSR, Ser Geofiz" No 1, PP 33-40
Describes two methods for checking the s6naitivity
of seismic apparatus: 1) checking of sensitivity
of the entire channel and 2) checking of the sen-
sitivity of the channel of the apparatus without
taking into account the sensitivity of seismographs.
State that the two methods simplify-fi~!ld observa--
tions.
241T32
AUTHORS: Khudzinskiy, L. L. and Melamud, A. Ye. 49-9-2/13
TITLE: S~ation for frequericy aniilyair3 of aoiomic oucill-ationa.
(Stantsiya chastotnogo analiza seysmicneskilch kolebaniy).
PERIODICAL: Izvestiya Akademii Nauk SSSR, Seriya Geofizicneskaya,
1957, No.9, pp.1099-1117 + 2 plates (USSR)
ABSTRACT: In November, 1953 the seismic prospecting division of the
Geophysics Institute, Ac.Sc. (Geofizicileskiy Institut
AN SSSR) started developing apparatus for frequency analysis
of seismic waves under field conditions; this work was
completed two years later and the thus produced station
for frequency analysis was tested under field conditions
in 1955. The results were described at an All Union
conference of geophysicists of the Ministry of the Oil
Industry (Ministerstvo iieftyanoy Promyshlennosti SSSR)
in November, 1955 durinS which it was recommended that this
apparatus should be subjected to industrial tests. In this
paper the above mentioned apparatus is described and also
the results of some field tests obtained with this apparatus.
Problems relating to the methods and accuracy of frequency
analysis are dealt with, emphasizing that successive
analysis under impulse conditions has the advantage against
Card and successive analysis under harmonic
Station for frequency analysis of seismic oscillations. 49-9-2/13
conditions that it permits obtaining the limit of detail
of the spectra depending on the width of the pass band of
the resonator. After discussing briefly the present state
of frequency analysis of seismic waves, the authors
describe the apparatus of a station for frequency analysis
showing in Fig.2 a circuit diagram of the wide pass band
amplifier of a frequency analysis seismic station. Fig.3
shows a sketch of the optical system used in the oscillo-
graph for recording oscillations by the method of variable
width and in Fig.6 a sketch of the optical system of the
section for photographic recording is given. Fig.5 gives
the frequency characteristics of the recording canal of the
apparatus with seismographs of certain types, whilst Fig.7
gives the schematic circuit diagram of the analysing equip-
ment. An example of a seismogram obtained in a frequency
analysis station is given in Fig.4 (plate facing p.1112).
A detailed description is given of apparatus for frequency
analysis of seismic waves under impulse conditions in the
frequency range of 10 to 250 c.p.s. This apparatus can
also be used for analysis under harmonic conditions and it
i.s suitable for work under field conditions. It is simple
Card ~21/3 :n,' ~,table in operation. Since it enables recording by the
Station for frequency analysis of seismic oscillations. 49-9-2/13
method of variable width directly on a seismogram, it
permits use of ordinary seismic apparatus for frequency
analysis without appreciable modifications. The apparatus
developed for frequency analysis of seismic oscillations.
can be used as an individual station and also as an
addition to an ordinary seismic prospecting station.
There are 14 figures and 21 references, 19 of which are
Slavic.
SUBMITTED: December l?, 1956.
ASSOCIATION: Ac.Sc. U.S.S.R. Institute of Physics of the Earth.
(Akademiya Nauk SSSR Institut Fiziki Zem.1i).
AVAIL&BLE: Llbrary of Congress
Card 3/3
49-58-4-5/18
AUTHOR: Melamud, A. Ya.
------------
TITLE: Transients in Seismic Prospecting Apparatus (0 perekhodnvkh
protsessakh v seysmorazvedochnoy apparature)
PERIODIGAL: Izvestiya kkademii Nauk SSSR, Seriya Geofizicheskaya,
1958, Nr 4, pp 471-485 (USSR)
ABSThACT; Ricker's work (Ref,17) is extended. using Fourier integral
and Duhamel operational methods and assuming ideal resonant
characteristics in the receiver plus a rather simplified in-
put wave-form, to derive the standard results for systems
showing a transient response, namely, that if the input lasts
for a time less than the reciprocal of the pass-band width
dynamic (transient) parameters have to be used in the calcu-
lations, and if longer, then steady-state ones. There are 9
fi,-ures and 19 references, of which 6 are English, 1 German,
and 12 Soviet,
ASSOCIATION: kkademiya nauk SSSR, Inatuitut Fiziki Zemli (Acaderay of
ocii:Jnces USSR, Institute for Studying the..Physics, of the Earth)
SUBMIT7-ED: July 12, 1)57.
1. Geophysical prospecting-Equipaent 2. Seismographs-Performance
3. Mathematics
Ca_-d' 1/1
MELAMUD, A. Ya., Candidate Pbys-Math Sci (diss) -- "Transitory procesiles In
seismic prospecting equipment". Moscov, 1959. 9 pD, (Acad Sci USSR, Inst of
Pkys of the Eartli im 0. Yu. Shmidt), 125 copies (KL,, No 24, 1959, 126)
PffASE I BOOK ZUWITATIOX SOV/356o
Akademiya nauk SSSR. Inatitut fiziki zemli
Seysmicheskaya razvedka (Seisadc Prospecting) Moscow, Izd-vo AN SWRP 1959.
374 p. (Series: Its: Trudy, Np. 6 /173/) Errata slip inserted. 1,500 copies
printed.
Ed.: I.S. Berzon, Doctor of Physical and Mathematical Sciences; Ed. of Publishing
House: L.I. Ratnikova; Tech. Ed.: V.V. Volkova.
PURPOSE: The publication is intended for geologists and geophysicists, particularly
for those interested in the study of seismic waves and their use In geological
prospecting.
COVERAGE: This is a collectionif 17 articleE, published by the Academy of Sciencee
USSP as transactions of the Institute of Physics of the Earth. The first four
articles present mainly an analysis of amplitudinal properties of waves. The
second group of four articles deals with problems of frequency analysis of
seismic wevear. The remaining articles cover a wide field of problems in seis-
mology such as methods of interpretation of dynamic properties of waves,
Card 1/4
Seismic Prospecting
BOV/356o
observation of reflected latituAinal waves, design of high-frequency seismic
instruments,.ete. References are given at the end of each article.
TABLE OF COMPHIM
Foreword
Yepinatlyeva, A.M. Some Results of the Analysis of Formulas for
the Amplitudes of Refracted Waves
Vasillyev, Yu.I. Some Conclusions from the Analysis of Coefficients of
Reflection and Refraction of Elastic Waves
Starodubrovakaya, S.P. Methods of Approximate Computation of Theoretical
Seismograms of Waves Generated in Thin-Layered Media
Berzon, I.S. Change with Distance in the Amplitude of Waves Reflected
from a Thin Layer
Isayev, V.S. Dependence of the Predominant Frequency of Pulse Vibration
SpectrUm on the Number of Visible Pulse Periods
Khiidzinskiy, L.L. Frequency Analysis in the Zone of Interferdnce of
Seismic Waves
Card 2/4
5
7
52
81
107
U4
120
Seismic Prospecting
SOV/356o
Ioa.yev, V.S. Changes of Wave Spectra in Grouping the Seismographs 136
Berzon, I.S. Determining the Spectrum of the Coefficient of Reflection
of Longitudinal Waves From a Thin Layer 163
Ratle'- Khizgiya, M.I. Averaging the Observational Data for Plotting the
Changes in Seismic Wave Amplitude With the Change in Distance on Graphs 187
Ivanova, T.G. Experimental Data on -tbe Effect of the I'Ver in the Upper
Part of the Cross-Section on the Initial Angle of Waves of Various Freqmency 194
Berzon, I.S. Some Problems in Interpreting the Hodographs of Reflected
Exchange Waves 213
Molotoval L.V. Recording the Depth Reflections in Seismic Prospecting 237
Ratnikova, L.I. Surface Waves Recorded Naar the Source 253
Card 3/4
Seismic Prospecting
SOV/3560
Pariyokaya, G.N. Investigation of the Surface of a Verticelly-Layered
Medixim with Complex Relief by Means of a System of Longitudinal Seismic
Profiles 283
Bokanenko, L.I. Problems of the Control of Sensitivity in Channels
Recording Seismic Vibrations 320
Mel-mid, A.Ya. and N.S. Shipilin. High-Frequency Seismic Instruments 336
Sorokhtin, O.G. Multichannel . Supersonic Pulse Seismoscope 354
AVAILAELE: Library of Congress
Card 4/4
TK/mas
5-16-6o
SOV/4~~-'~9-2-1/2 ~::.
AUTHORS: Melamud, A, Ya., Khudzinsriy, L. L.,, Z A.
TITLE: Station of Intermediate Ma-neti.:' Reccrdin.- 3.- Seismic Waves
(Stuantsiya prcmezhurcchnoy magm1_'-.-_c-7
kolebani,y)
PERIODDCAL: Izvesti-ya Akademii -rauk- SSSR Sera.ya ec2f_z_-_'_,r,:,skaya.,
1
1959~ Nr 2~ pp 197-209 and 4 J)._;.c3'eS 'US-3.91-A
ABSTRACT: A detailed project of a ~_:Ial,-]_)n -f--r t.--- inte.r7i&,_,'iate
recording of seisrai-~ via,,-Ps on a magnetL-' ~;av~--
described, The aLain dLiir4_'si,)n_s -,f Eu,:-h a s-at-ior, ax_~.
1) 9-zhannel magnati-. rec~~rder,_z and rep-,cdu,-,-.-.-,- 2) them_
apparatus for filtering,, .3) tla--'e pointq of fraquenc7 aiialysis
of seismic waves- 4) the general cnntrol and +-lie Power uaz2k
(accumulators -Iz-.7 batten-ies and a general tor c,-' total poWsr
300 W)~ Fig 1 represent~z a general lay,cut, cf tae station
where I - tape Tecorder, !I .- device for printing and
recording the time, III os-Allcgrauh foz frequen_-y
analysis pointe, A - seismographs. D- amplif-lerS of
the seismic (bAt;om) and magri.etir.. top') V --
amplifiers cf reproducers, The detailed plar, -If the station
Card 1/3
SOV/49-~9-2-4/25
Station of Intermediate Magnetic Recording of Seismic Waves
is shown in Fig 2, where A - seismograpli, :1 - amplifier
of magnetic recording (Fig 3 shows i-L's frequ,,acy and voltage),
0 C.)
V multi-channel type reoorder., G -- reproduction a.-:-,lifier,
D seismic amplifier Y'~ seismic escillo-raoh, and Z
C) -
- circuits for indexing and pr:Lnting the
seismograms. The characteristic frequencies of the station
are shown in Fig 4a and Fig 4b A - low frequency filtration,
B - high frequency filtration). The numbers 1, 2, 3 denote
the frequency characteristics of the.- lj-~egister~ reproduct-
ion track, 2 - seismic amplificationv I I - intermediate
magnetic recording, The experimental station was employed
in 1957 by the expedition of the Institute of Physics of tile
Earth, Academy of Sciences USSR, in their investigations on
the nature and dynamical preperties of the multip2e reflected
waves. The fidelity of the magnetic recoidings was excellent,
c_~
which can be seen in Fig 5, Phowing the 9 tracks.- a - seis-
mogram - reproduction, and ')- magnetic recording. The
effect of the channels on each other was negi-igible (Fig.6).
The identiti of the r-~cordings is fLur-ther shown in Fig
where 2 pairs (a and of the c;rJ_ga_nal seismorgrams and the
reproductions froal the tape recorder are shown, Figs 8 and 9
0
Card 2/3 give some examples of the results rbtainvid b,7 mean-s of the
SIOV/40j - 5(1-~--2 -- 4,'L; c.
Statio-n of Intermediate Mlagne'c. ic R~~- 0 ~- 1
magnetio recordingE. Th~- was able to 7eglster t,-qe
seismic waves from 220 to 500 h 1-e. it -ould be employed
in the low, medium and hi,,,,Ij rrequen,:y seism-,,- '-~'-rospec-.ing.
The appaxail-us described do,7js rict ;Lntr,-Juc-.e any distcrtion.
therefore it can be used for nhe dPfeTni-nat--'--;n of the d.7-nami-
cal character'stics of seismic waves. Theie aie 9 fio-1.1-res
and 35 references, J-7 (,f '.-.,je -~'erer-ea iart- 15 are
English 7 2 Italian,
ASSOCIATION: Akademiya. nauk SSSR, 'Ln!~titi--t Zem-Li (Acade.,!1y of
Sciences USSR Institute ef Raysics cf E-ar~`-,)
SUBMITTED: Februa-ry 1-5. 1958..
Card 3/3
IMIAMD, A.Ya.; SHIPILIN. N.S.
Higb frequency selBmic apparatuB. Trudy Inst.fiz.zem.
no.6:336-353 '59. (KIRA 13:5)
(Seismometri*y)
~T- LIMUj , ~;.A.
b/mir-1- -anwe. nnise leve-,, det~-,natj(-.- .
I n ~, m :- r~ '!CI ~- r f-
i ~jj ~ 4 re - d !r,
and nonlinear distuorti-,ns on tho- apparatus. ?a7.ved.
g(,r,fi-z. n,-).3:3-13 165. (MITRA !P:P)
ACC NRt AT7003285 SOURCE CODEs UR/3152/66/000/014/0003/0009
AUTHOR: Mela
:ORG: None
TITLE: Monitoring the sensitivity of seismic prospecting equipment
!SOURCE. Razvedochnaya geofizika, no. 14, 1966, 3-9
iTOPIC TAGS: seismic prospecting, seismic wave, seismograph, seismography, geologic
I I
linstrument, measuring instrument, seismologic instrument, frequency characteristic,
:phase analysis
,ABSTRACT: A method for testing the operation of seismic equipment, based on the
realization that the equipment functions in a pulse mode in actual practice, so that
the sensitivity, and other parameters of seismic equipment in transient modes is of
importance, is described. The method is based on determination of the dynamic
Icharacteristics of the equipment. The signals used to test equipment sensitivity
iare described, as is the manner in which a set of oscillograms is used to evaluate
the amplitude and frequency characteristics of various phases of the seismic waves
J,
!recorded. The evaluation process includes: 1) production of dynamic characteriaticai
Lcard 1/2
'ACC NR; AT7003285
2) the determination of time of arrival of seismic wave phases being evaluated from
seismograms; 3) determination of equipment sensitivity from dynamic frequency
.characteristics. Orig. art. has: 9 formulas and 3 figures.
SUB CODE: 08/SUBM DATE: None/ORIG RZFg 007
Card 2/2
LIVSHITS, B.S.; _.MIALVP,.,~,_A,.,YELEKGYEVA, E,K,; MOVMiOVICH,
I.Kh.; KHAN-DI, G.B,,, ~ODVIDZ, M,M., dots.7 IMETEELISKIY
G.B., otv. red.; ObRAZTISOVA, Ye,A., red.
[Rural crossbar automatiz exchangp K-1-00/20001 Sel*,Pkaia
koordinatnaia ATS K-.--'00/2()00- infOrmatsionnyi sbornik.
Moskva, Sviazl . -1965. J-36
P. (MIFLA 18: 1-1)
1. Naucbnc-issledoiatellsk-ty institut gorodskoy i sellskay
telefonnoy svyazi Ministerstva svya?J- SSSR (for all ext-ept
Metellskiy, Cbraztscva)~
TJKHOV~
W.
s y-n-u 1 b i nc; nt,
CHERKOVP V.I., doteent; OSPOS, H.L., dotsent; ~~Dj K.Ya
YANIaIMCHI Ya.M3.
Dispannerlea in the control of cardiovascular diseases in the
city of Lvov. Nauch.trudy Llvov.oblterapob-va no.1810-15 161.
WRA 16 8 5)
1. Ltvovskiy gorodskoy otdel zdravookhraneniya (zav. otdelom -
Ya.I. Mcibell).
(UM-HOSPITALS-OUTPATIENT SERVICES)
(LVOV-CARDIOVASCULAR SYSTEK-DTSEASES)
MONASTYRSKIY, R.Ya (Llvov); OSNCS, M.L., dotsent (Vvor); HEIAMUD, M.Ya.
(Llvov); YANKKIEnCH, Ya.Kh. (Ltvov); SIRCWFA, G.M. (Li~o-v) -
KOPELIMAN, Te.Sb. (L'vov); KRASNOVA, S.& (Llvov); BAMUR, R.D.
(L'vov)
Organization of rheumatic fever control. Klin. med. 40 no.111
89-93 N162 WIRA 16:12)
1. Iz LIvovskogo oblastnogo otdela zdravookhraneniya (zav. -
R.Ya. Manastyrskiy).
MEMR01 re.Y&L. (OJess&)
U,~ !-,F t two ~-, -, mh ! ? -, ~ , - (1y'. n-p t~li- ~:,, ,f n(,, ut~.,~no.
, , -1 '1
t- (A rr~-
- -- T~ 11 -. I i " c
t", a , - % -, ~;- I . ( m 1 n " a 8 ? -
.Lc, J,
TSARTEVSKIY, A.M.; MELAMUT, DLL.., kand.tek-hn.nauk
One-sided hydraulic-fill construction of dams vithout protective
facing of the upstream slope. Gidr. i mel. 12 no.9:23-28 S 160.
(MIRA 13:9)
1. Chlen-korrespondent Vsesoyuznoy akademii sellskokhozyay8tvennykh
nauk im. Ienina (for TSarevskiy).
(Tedzhen Reservoir-Dams)
I
- ICIAM D) E: . k", .
Nev equIpmem. of a mirCl automa-,la L61ephnne exchange. Vest. W4
0= -- .. -
24 no.6ml&~118 je 164. u - -,
I. Naoha-l?nik laboratorl! Nauchnc-Ileoledovatellskogo Instlituta gorod-
skoy i sellskwy talefoanoy svyazl,.
LIMITS, L.Ya.; MMMUD, E.:5(e_.iS_&ratov)
Treatment of multiple aneurysms of the middle cerebral artf-ry
compli-sated by intracerebral hemorrhage. Vop.neirokhir.
48-49 162. (IIIIIIk 15 ~ 3)
1. Otclelenlye neyrokhinirgii Saratovskogo naurhzic,--isr3ledovatcI'-
skogo instittita travimatologil i ortopedii.
(IETRACWIAL ZOMSMS) (BRAIN--IMIORRHAGE)
-MELAMUD, G., inzhener.
Using electric vibrators for stirring up flour and bran in bins.
Mak.-olev.prom. 22 no.2:27 F 156. MRA 9:6)
J.Ghkalovskaya malluitea Noe5e
(Bins) (Ylour--Storage)
BUKSHTAMI, 1.1.1 MELAKUD, G.
Scientific and technical organizations of grain elevators and mills
are striving for technical progress. Mukrelev.promr. 27 no.5:1~-20
My 161. (MIR-A 14:6)
1. Zameatitell predsedatelya Tullskogo,.oblastnogo pravleniya nauchno-
tekbnicbeskogo obshchestva (for Bukahtim). 2. Predsedatell Oren-
buigskogo pravleniya nauchno-tpkhnicheskogo obabehestva (for Melamud).
Grain-Odling muchinery)
Grain-milling machinery
ME-LAtR,-G._, inzh.
Electric power supply of grain receiving stations in Orenburg
Province. Muk.-elev. prom. 28 no.10:3-5 0 162. (MIRA 16:1)
1. Orenburgskoye upravlenlye khleboproduktov.
(Orenburg Province-Grain elevators)
(Electric power supply to apparatus)
SOV/ 137-57-6-9570
Translation from: Referativnyy zhurnal, Metallurgiya, 1957, Nr b, p 36 (USSR)
AUTHOR: Melamud, _-G.S.
TITLE: Electrical Conveyor-type Furnaces for Firing Enamelware (Elektri-
cheskiye konveyyernyye pechi dlya obzhiga emalirovannoy posudy)
PERIODICAL: Tr. Nauch.-tekhn. o-va chernoy metallurgii, 1956, Vol 7, pp
489-495. Comments pp 506-511
ABSTRACT: The firing of enamelware was formerly performed in low-output
nonmechanized muffle furnaces (F) with high fuel consumption arid
low-quality firing. Since 1951 the plant has been building and has
perfected, for the firing of such ware, the use of electrical con-
veyor-type F in the form of a U-shaped horizontal tunnel of fireclay
brick with fireclay foam insulation, within which multi-level racks,
containing the ware covered by the slip, move along, suspended
from a conveyor placed above the crown. The speed of the conveyor
is automatically controlled in relation to the F temperature; it is
from I to 4 m/min with D-C electric drive, with a controlled num-
ber of revolutions. The firing F consists of a heat-exchange zone
Card 1/2 where the products are dried and preheated by the warmth of the
Electrical Conveyor-type Furnaces for Firing Enamelware
SOV/ 137-57-6-9570
products previously fired, and of a firing zone divided in half by a longitudinal
brick wall. F for firing the coating composition are equipped with 5, and those
for firing the enamel with 7 electrical heaters of elements of Kh20N80 or
Khl5N60 strip nichrome along the walls and floor, the total installed power
being, respectively, 1090 and 1190 kw. Graphs of temperature distribution and
power consumption per element in the firing of the coating composition are ad-
duced. F heat balances are presented, including on the intake side the heat emit-
ted by the fired products and equipment in the heat-exchange zone with a product-
heating efficiency of 18. 31o in F Nr I and 20. 1% in F Nr 2, heat loss being up to
3Z-34% of the total heat consumption. F output rate exceeds the planned level by
150%, and the production of enamelware at the plant rose by 225% over 1950, with
good-quality firing and considerable saving in labor.
V. G.
Card Z/?_
133-9-19/23
AUTHOR: Ustinov, G. Yaand Melarnud, G.S., Engineers.
TITLE. Enamel-firing Furnaces on the Lys'va Works. (Emaleob-
zhigatellnyye pechi lys'venskogo zavoda)
PERIODICAL: Stal', 195?, No.9, pp. 84'? - 849 (USSR)
ABSTRACT: Electric conveyor and chamber furnaces used for firing
enamelled ware on the Lyalva Works are described and tLeir
operation is compared with fuel-fired furnaces.
There are 2 tables and 3 figures.
AVAILABLE: Library of Uongress.
Card 1/1
I-ILLAMUT), M. G.
Chernov, V.I., Rsd1ko, Z.Yu., and 14elamud'. M.G. "On defects in the work of the spa-selection
comussion".. Vracheb. delo, 1949, No. 1, paragraphs 75-78.
SO: U-3042p 11 March 53, (Letopis Inykh Statey, No. 9, 19h9)
AFANASIYEV, A.V.; BDDSHTEYN, F.I.; Prinimali uchastiyes LANGOVAYA, N.Kh.;
MELAMUD, M.L.
Use of molybdate chrome orange for leather finishing. Lakokras.-
mat.i ikh prim. no.6:73-74 162. (19RA 16:1)
1. Proyektno-konstruktorokwfa i tekhnologichaskoys byurc,
Upravleniya koshavenno-obuvnoy i mekhovoy proqyshlannosti
Leningradakogo soveta narodnogo khoayaystva.
(Dyes and dyeing-Leather)
MLkNASTYRSKIY. R.Ya.; CHERNOV, V.I.; STUKALO, I.T.; OSNOS, M.L.; KffAMUD, M.Ya.
(L'vov)
Certification for specialiste in internal medicine. Vrach.delo no.7:
735 J1 '59. (14IRA 12:12)
(LVOV PROVINCF,-MXDIGINF,--LAWS AND LEGISLATION)
- MELAMUD. M.Ya-,-FISHBEYN, A.V. (LIvov)
Atypical course of a relapse in hypernephroid cancer. Klin.
med. 40 no.10:123-126 0 162. OGRA 15:12)
1. Iz Livovskoy goradskoy bollnitsy No.1 (glavnyy vrach - kand.
med.nauk N.K.Doronina).
(~LMNMS--CANCER)
MELAMUD, N.L., inzh.; RYZROVA, T.P.
Inspection of dilatometers and taking the vol=etric expansion
of water into account in connection with the dilatometric
analysis of oils and fats. Masl.-shir.prom. 28 no.903-34 S
,62. (WRA l5s9)
1. Vsesoyuznyy nauchno-issledovatel'skiy institut zhirov.
(Dilatometer) (Oils and fats-Analysis)
ZAYTSEV. R.Y.. inshener; KWAKUD, Ya.G.. isshener.
Artificial diversion of rua-off between small streams. Transp.stral.
5 no.8:22-23 0 '55- (KEaA 9:1)
(Hydraulic angiasering)
CHIRNYKH, V.I., insh.; IMAM, Ya. G.. inzh.
Using the intersection method in pegging out circular curves.
Transp. stroi. 8 no. 7:29 J1 158. 041RA 11:71)
(Railroads--Surveying)
(Railroads--Curves and turnouts)
KABAROV, Vladimir Fedorovich; YLLUSHTALI, Illya Samoylovich; M-ALINOVSKAYA,
Marlya Lavrentlyevna; IZjA&IUD,_ Y-efim Yakovlevich; ROZENBLYIDI, Yefim
Grigorlyevich; MOSHAROVA, T.P.., Ye.A., tekhn. red.
(Handbook of time norms for lathework in ship repairingl Spravochnik
norm i normativov vremeni na tokarnye raboty v sudoremonte. Moskva,
lzd-vo "Morskoi transport," 1961. 301 P. (MIRA 14:12)
(Turning) (Ships--Maintenance and repair)
MAIM, Z.; OVCHMIKOV, ff.
[Organization of payment and credit oDerations of collective farms through
the bank] Oformlenie raschetnykh i kreditnykh operataii kolkhosov cherez
bank. Moskva, Goofinisdat. 1953. 57 P. (MIRA 6:11)
(Collective farms--Accounting) (Agricultural credit)
K9L4m,Lkz,
Z~ -0.3
Sxpanding credit relations with heavy Industry. Don. I kred.
14 no.12:8-10 D 156. (MLYA 10:2)
(Russia-Industries) (Credit)
MEIAHUD,
Credit relations between the bank and heavy-indUBtr7 enterprises.
Don.1 I-red. 17 no.5:4C'--44 Ar '59. (--LM 12:10)
(moscow Province-Credit)
TS=VSKIY, A.M., laureat Stalinakoy premii, kandidat tekhnicheakikh nauk-.
rAMIR, D.L.. inshener.
lt;~' -'-
Filling earth dame in river beds without first cutting off the current with a
stone barrier. Gidr.i mel. 5 no.12:30-42 D '53. (KLRA 6:11)
(Dams)
HIKEMM. ?.V., kandidat takhnichaskikh nauk; KNAKM, D.L.. inzhener.
V --I
Instream mrfacing of river beds with alluvial soU. Gidr.stroi. 22 no.11:
6-10 N-D 153. (KT-RA 6:11)
(Fqdraulic engineering)
7
). L.
'IThe Spannin : of '?~-ver ~Ieds by the 11,ydronechan'.z.3tion ::ethod. "
Cand Tech Sci, All-*-'ni-on 3ci Res Inst or Hydraulic .,;n -Ineer-iril-
and Soil Improvement, &)scow, 1954. (.?O-4-lekh, "ar 5,~5
I'i
So: Sum. 'o. 670, 29 Sep 5~--5urvey of Scientific and Technical
DissertationE Defended at USSR Hi.-her Educa~ional 1-ist'Autio s (15")
HIJAMUT, Davl& Iaparevich; KOBTLTAKOV,L.K., redaktor; PMM,V.I., takhni-
.1 '*'~ktor; TSARLTSKIT.A.M.. redaktor; PAVLOVA.M.M.. tskJmi-
chaskly redaktor
[Damming rivers by hydromachanical means] Perekrytie rek sposobom
gidromakhanizatsii. Moskva, Gos.izd-vo selkhox.lit-ry, 1955. 151 P.
(Dame) (MLRA 9:3)
L Al L) Tj- L
AID P - 1747
Subject USSR/Ilydraulic Engineering Construction
Card 1/1 Pub. 35 - 6/21
Author Melamut, D. L. and Kopiyevskiy, K. P.
Title : Damming of the Dnestr River with earthfill without rock
toe
Perid:tcal
Abstract
: Gidr. stroi., v.24, no.2, 13-20, 1955
Institution:
The carrying out of earthfill work and the settling of
particles in the damming of the Dnestr River at the
Dabossary Power Plant construction is discussed in detail
with the help of tables and equations. Some data on
flow and soil mechanics are included. A description of
the hydrualic fill equipment used is given. The process
of earthfill damming of rivers without a preliminary
construction of the rock toe walls is recommended.
Seven diagrams and 3 photos are given.
None
Submitted : No date
HIMINY, P.V., dektor takhnichaskikh nauk-, MELAKUT, D.L., kandidat takhnichaskikh
nauk.
Damming of the Missouri channel by the hydraulic fill method. Gidr.
mal. 8 x*.8:56-58 Ag 156. (MMA 9: 9)
(Missouri River--Dame)
1 ~! , " t-, ~ %", ~ N ~I
ZININ, A.V., inzhener.;MELAKUT, D.L., kandidat takhnichaskikh nauk.
-, -- ", 4~~
Filling in tha-,14e0i W Terek River in connection with building
the Kargalinakaya hydraulic development. Gidr. i mel. 8 no.11:
25-35 "M 156. (KLRA 10:4)
(Tarok River--Dams) (Farthwork)
.4-
AUTHOR: Melamut, D.L., Candidate of Technical Sciences 99-l-8-6-8/11
TITLE: On the Barring of Large Rivers by Silting Methods (0 perekry-
tii mnogovodnykh rek namyvnym sposobom)
PERIODICAL: Gidrotekhnika i Melioratsiya, 1958, Nr 6, pp 50-54 (U53R)
AB6ThACT: In this article the author refutes the statements advanced by
Engineer I.A. Shneyer in an article published in Nr 12 of' this
journal, 1956, " Transporting Capacity of Barred River Beds".
He shows that the conclusions drawn by Engineer Shneyer on the
barring of the Dnepr river bed at the Kakhovka GES and the
Volga river bed at the Kuybyshev GES, are not supported by
experimental evidences. The actual data on these experiments
shows that the narrowing of the bed up to the outlet channel
can be carried out at any rate by silting. Thus, the outlet
channel can be blocked by dropping the level to 0.3or 0.4
depending on the quantity and size of the silting sa,id. The
barring of large rivers by hydro-mechanical means is capable
of maintaining the flow of the river during the low-water
period with a lateral derivation. While narrowing the Dnepr
river bed by hydro-mechanical means as the flood subsided
Card 112 (Q=4800to 2300 m3/sec and v = 2.06 m/sec), at a soil conveyance
~' I
On the Barring of Large Rivers by Silting Methods
rate of 14to 58,000 m3 within 24 hours, the created turbidity
exceeded the carrying capacity of the current by many time3.
A deposition of about 30% of the soil volume assured the com-
pression of the river bed. There are three figures, one table,
and 1 Soviet reference.
AVAILABLE: L ibrary of Congress
Card 212 1. Rivers-Control
10(4) 501/98-59-7-21/22
AUTHOR: Razincer, S.T., Chairman
TITLE: Conference on Scientific Research in the Yield of
Hydramschanion
PERIODICALs Gidrotakhnichookoya stroltallatvo, 1959, 5r 7, Vp
62-65 (USSR)
ABSTRACTi The article in a chronicle of the above-r-amOd Ocz-
forence, which was hold in momcow from April 15-17,
1959. on the initiative of the coordinatory coaxl&_
*ion for Wromachaalzatior, in the Council for Hyd-
raulle Affairs of t" Academy of Sciences of the
USSR. The All-Union MSES Hydromechanization Trust,
=0 Mining InstItuto of the Academy of Sciences of
the USSR and the Moscow Oblast board of the Tochno-
logical Department of the construction Industry &I-
so participated, In the organization of tho cczxfe-
ro-
400 re
tha
hi
h
t
d
d b
e
n
was a
ten
y more
re.00, w
c
p
sontatives of 149 orfa lzations, Including the Offl.
on
ministries
ion of the USSR
a* of State Construc
t
.
,
national economic councils, Institutes of the Ace.-
desty of Sciences of the USSR and the unig ro a
a,
Card 1/6 the A.SiA of the USSR and the Ukrainian 3
_
__10_44~66 o-f_Zg_r'1Tultur&1 Science ind t6
GUTK of
the =Ion republics, and official scientific and
research instituted. The conference was opened by
Academician A.M. Torpigoray, and at the plenary
session papers were read by the following: Prof.
_1A.Z.ZU= Doctor of Tochalcal Sciences: *Th* State
-
'
f E
i
Lydro-
Work in the field o
fic Itesemrah
of
Soient
'
*Me Cona
0v
Plat
A
h
i
t
E
V
-
.
an
nec
an
z&
ion
.
.
ngineer
l
t=ction of Alluvial Ds=s-=X_t1W-jZ_r_k of Scionti-
flo Organizations"; Engineer M.A. Gorin: "The Ere-
sent State Of and the Outlook-7f-ar-Vo-dQT and Re-
search Work in the field of Equlpzant for Hydrams-
ObAniso,tion"; Engineer "Cortain
atio
h
l
d
e
b
f
of th
H
roci
az
c
z
n
lems o
e
Pro
the Economy
y
of Earth Works-; Prof. CtoA, Zu-k' Doctor of Tech-
n1cal Solencoss -The Present State Of and the --
look for the Development of the Hydrom.chami%ation
of Oponoust Coulmining'; Engineer B M. Shkutdim:
drozechazi MiE a a-
"Zoans of Perfecting S
Card 2/6 y
Metallic Mineral Industry.- The r6caindor of the
QOmX*r~nOO wad divided Into 3 sessions: on tcchZolO_
fF,hG%u1pmeot and transport. At the session dealing
zoorm
I0
O
67 P4POrG were read by the fol2owlngi
Prof. I.N. E
lov
Doctor of Technical Scionco
c,
,
g
-UOr%Aln XrODIama In the Planning of Alluvial Dons-,
o
P To Candidate of Technical Sciences t1notl-
-U
-im
.
m-
chanlon Of the Acadomy of Sciences of the
USSR)l 'Peculiar natures of the Dilution And Co.-
Ion of Sand loundationo*1 P_,D,,jobns.o3c. Candl-
Eat:aaf Technical sciences (VNJ e '~Ioca=aal 11-
luvial Construction, ; YA. MnlotntXe , Candidate of
Technical Sciences (B.S. Vedenoyev V111jr) and J..Z.
Spirldin. Candidate of Technical SoLoncoo (In6tituto
Of Mechanics of the Acade~mjo of Sciences of t%* U$S'R)j
"The Consolidation and C 073reasion of the ro=dations
f th
I
t
t
E
PA_h~lkov-
O
e
0y Par
s Of
arth =3 ; D-.L- XD
(GISI)t "Rocoarch on Alluvial ConBtruction b
No~
s
T
of Cohesive Foundations-1 MZ
't_KM"=IrjQv Camdld~t. cof
ul -
Technical Solonoont *The Rjnrau is onclz~ation of
Marthworka bv Means of Lodes Foundations* ; S_L_ Tol_Z
Card 3/6 _
n1a_ (j.7__kUXbLahov ~JISI): *The Alluvial Construction
of the Sary-razynak dam on the Muxgab River by Nonna
of Fine-Grainod Sand"; 1. Candldt. f
Technical Sciences (Ao~hal. VVIA)j 'R-O~Lxch
into the Morphological Peculiarities or :saaa Pounds-
tiono'l Hxgin6erj,kShnaj_Sr (SAOGIDEP) and
_X^kO-4*V_(T31IGIN i I ormu as for the Dota~_inatlou
of the Angle of Inclination of ::arth Po=datLonao;
I.I..Zolatarey Candidate of Technical 5clenceds 4A
X h d Or UnIculating the Thawing Rate of Frozon
o
P:un
0%tlono on the Upper Slope of Sand Dome whan Ca
!A`
joaL iat Candidate of To~-.K
trusted in Winter2
4
nical Sciences upe oor X.P.
,
tii
(ONTE of the Mold.vlan SAR)a *;rob~a.fi of 3pamairk,
P_L~Gro without the Use of Dank2too~j