SCIENTIFIC ABSTRACT BALEVSKIY, D. - PATEK, K.

16(2) SOV/2-50~-3-5/13 AUTHORS: Balevskiyq D., and Tsonev, V. TITLE: Experience 'Nith Spot-Summary of Census Results in the Bulgarian Republic. (Opyt vyborochnoy svodki materialov perepisi naseleniya Narodnoy Raspubliki Bolgarii). PERIODICAL: Vestnik statistikil 1959, Nr 3, pp 1~1_L~8 (TJSSR) ABSTRACT: Preliminary approximate results of the 1956 census in Bulgaria were obtained in a 5% spot summary (method of Indian Professor P.Ch.Mekhalonobis), A preliminary summary for all the 20,000 indices used in that census being impossible, the pre- liminary summary was calculated for only 30 major indices. The article includes the calculations and the formulae used. It was stated after the com- plete data procession, that the errors of the pre- liminary summary were correctly estimated and did not exceed practically permissible values. The Card 1/2 method is recommended for the use in future.  PATAR=Kr, F=0 D. Tokhtlebeeki iswryaniia na razmerite. &ofi"7 Nauka i IsjustTo f195L7 (Vasimosameniaemost v mishinoBtroenoto) ghe technical measurement of dimensions; precision instruments in the construction of tools. Vol. 1. Measurement of length5,7 Vol. 3, 1 1954 0~.C2P SO; Monthly List of. P/Library o ongress, Febr-UM70 IM, Uncl.  PATARINSKI-,-- P.D-.; NIKOLOV, R.Kh. (Bolgarskaya Narodnaya Respublika) 9, - --- Noncontact measurement of displacements in machine tools. Stan.i instr. 33 no.6:36-37 Je 162. (~aRA 15:7) (Machine tools) (Strain gauges)  PATARKAUSHVILTO N.M. : . Patbogenesin and cl.'Inica2 treatment of relapses of typhoid a." paratyphoid fevere.Soob, AN Gruz, SSR 28 nc)o5t621-627 My 162. (MIPA 18,45) 1. Tb.-lissV;.y gosudarst-,renW zeditainakly inatitut. Submitted Ma-rch 15, 19610  eon *or Vol So- IL , 0 a 11-1-1 411901- -10i'". tuvflll.. -- 1-0 Cow lam &we 41. c4ates f. 40C.06 VWVGM so IMMIN11040 46 off 4"m G" 4 wpm "a Zrl - - pme ' lip" t rm RIM lost "Nsma "NOMI coo roe w 1~ 4 -4-r -V 14 Vv ZI 9 a 'A4 x 0a to  VESELOV, S.I.; GUS11CHINA, N.; ILMSHFIN, L.G.; HULINA, L.B.; CHICHILO, I.K.; SHABUN0, Ye.1-1.1 clillIKEN1,M.G., prof.; YUSHKOV, S.B.; GOSIS, I.N.; RYABTSEV, N.I.; K11POll0q, V.I.; PETROV, N.I.: PATAPJJYF,'I- A.D.; BEYRAKH, Z. Ya., doktor tr-khn. nauk Twenty-first arxiversari, of the Trublication *Promy, n-Lennala energatika". Prom. Pn-erg. 21 no. 1.,5-7 Ja 166 19:1) 1. Nachallnik Gosudarstvennoy inspektsli po energet'-chf-r~kntau nadzorLi Ministerstva ei,ergeLlki i elektrifikatsii SSSR (fc,r Veselov). 2. 1-loskov-koye pravleni.ya nauchno-tekhnicheskngo obshchestva energeticheskoy promyoldennosti (for Oushubina). 3. Predsedatell Sverdlovskogo pravleniyaNauchno-tekITi~,lif',skogo obBhcheatva energeticheskoy promyshlennosti (for Nikushk n) . 4. Glav-nyy energetik Peiiogc gosudarstvennogo pocishipnlkovf~ffo zavoda (for Chichilo). 5. Glarnyy energetik Moskovskoga mp il- lurgiches~.ogo zavoda Serp I molot' (for Shal- in). 6. Fiektoi, Moskovskogo energeticheBkogn Inatituta (for Chilik:l-r). 7. Glavnyy i-nzhaner iristltuta Tyazlipromeloktroproyekt (for Knipovich). 8. Glavnyy konstruktor Moskovskogo zavoda teplovoy avtamati-ki (for Bayrakh).  ACCESSION NR: AP4043636 S/0056/64/047/002/0598/0600 AUTHDRS: Baty*yev, E. G.; Patashinskiy, A. Z.t Pokrovskiy, V. L. TITLEs Behavior of thermodynamic quantities near the Lambda point SOURCE: Zh. eksper. i teor. fiz., v. 47, no. 2, 1964, 598-600 TOPIC TAGS: helium, specific heat, chemical potential, lambda transition ABSTRACT: In view of the lack of agreement between the results of earlier investigations, the authors construct a semi-phenomenological theory of the X transition in helium, which agrees with the experi- mental data. This theory is based on two factst 1) The specific heat has a logarithmic behavior near the curve. 2) The dimension- less quantity (6W6T) (where JL -- chemicA4 potential) has a large X value. This is equivalent to assuming that the X curve has a large slope in the (IL, T) plane and that C has a logarithmic singularity p Card -I .L/2  _. NR: AP4043636 on the entire X curve. The assumption that Oji/6T) ), is large sig- nifies that perturbation theory becomes inapplicable at rather small values of the coupling constant. It is shown that the theory can be verified quantitatively at the X point. Orig. art. hass 11 formulas. I ASSOMATION: Institut radiofiziki i elektroniki Siberskogo otdenen- iya Akademii nauk SSSR (institute of Radiophysics and Electronics, 'Siberian Department, Academy of Sciences SSSR) SUBM17TEDs l9Feb64 ENCLs 00 SUB ODDEs TD, GP NR REP SOVt 000 OTHERs 005 C,rd 2/2  ACCESSION NR: AP4042573 S/0056/64/046/006/2093/2101 AUTHORS: Baty*yev, E. G.; Patashinskiy, A. Z.; Pokrovskiy, V. L. TITLE: Phase transition in a superconductor SOURCE: Zh. eksper. i teor. fiz., v. 46, no. 6, 1964, 2093-2101 TOPIC TAGS: superconductivity, pair theory, boson, Fermi liquid, phase transition ABSTRACT: It is pointed out that the model of a Hamiltonian in which pnly the interaction of particles having opposite momenta is taken into account is inadequate for the development of the theory of the phase transition in a superconductor, since it includes the interac-% tion of large-dimension fluctuations. In order to provide a more realistic model, the authors consider a Fermi liquid, the transition temperature T0of which is small compared with the degeneracy tem- C.,d 1/3  ACCESSION NR; AP4042573 perature 4 (or with the Debye temperature in the case of a metal). It is shown that the phase transition picture is the same as for a Bose liquid, in which Cooper pairs play the role of Bose particles. Only temperatures T > T 0 are considered. It is shown that the re- gion of logarithmic phase transition in a superconductor is very small, (T - T0)/T 0 - (T 0/0 4, owing to the weakness of the pair in- teraction resulting from the small density and small effective mass. Such a narrow temperature interval is too small for experimental purposes. It follows from the results that the thermodynamics of the superconductors as given the Bardeen, Cooper, and Schrieffer model is valid down to the interval of the logarithmic phase transi- tion. Orig. art. has: 48 formulas. ASSOCIATION: Institut radiofiziki i elektroniki Sibirskogo otdei- eniya ikkademii nau~-, SSSR (Institute of Radiophysics and Eiectron-,cs, Siberiari Department, Academy of Sciences SSSR) Card 2/3  ACCESSION NR: AP4042573 SUBMITTED: llDec63 DATE ACQ: ENCL: 00 SUB CODE: GP, NP NR REF SOV: 006 OTHER: 002 Card- 3/3  PATASHINSKIY. A.Z4; POKROVSI=, VA.; KHALATNIKOV, I.M. '..- W. ~ - Beggs polse in problem involving a quami-clasBical potential vell. Zhur. skap. i teor. fiz. 44 no.6t2O62-2078 Js 163. (MIRA 16W 1. Institut fizichatskikh problem AN SSSR i Institut teolofizi)d Sibirskogo otdoloniya AN SSSR. (Potential, Theory of)  PATASHIKSKIY, A.Z.; PQMVSKIY, V.L.; KRALATNIKOrV, I.M. Regier poles in nonrelativistic quantum mechanics, Zhw, eksp. i t4eore M. 43 ~o.3:1.117-3.119 162. (KMk 15.10) 1. Institut fizicheskikh problem AN SSSR, In8titut radiofiziki i elektroni1d SibizabbSe otdeleniya~Ali,SSSR..tflnot:Lt"'teplaftzUd,, Sibirskogo alftleniyw~M-SSSA; - - - (Hatric;(.4) (Quantum theory)  FATASHINSKIY, A. Z. A. Z. Patashinskiy and V. L. Pokro-iskiy, "Fhase 'ArancitionE of th'~- '"Acvnij Kind in Eose-Liquids.11 report submitted for the Conference on Solid State Theory, held in "oscow, Decen,ber 2-12, 1963, sponsored by the Soviet Academy of Sciences.  PATASHINSKIY, A-Z-; POKKOVSKIY, V-L.; KHALACNIKOV, I.M. Studying of an S-matrix in a complex space of angular momenta in the quasi-classical case. Zhur. eksp. i teor. fiz. 45 n063:760-~771 S 163. (KRA 16:10) 1. Institut teplofiziki Sibirskogo otdoleniya AN SSSR, Institut radlofiziki i elektroniki Sibirskogo otdoleniya AN SSSR i Institut fizicheakikh problem All SSSR. (Matrices) (Quantum theory)  1'giMwl r-1 A 4 U56 W ~A -SD- ACC2MOff HR A?3003139 s/oos6/63/o"/bo6/eo62/2078 7 AUTHMU- I-"aM4 A. Z. I FohyftMy I Vo L X_hslatnikov, - 1. M. Tr=: - Regge poles- in. problems concerning a quafii-clusical potential vell Y.4 j;Ot=1 zhwaal. WaTer. -1 teor..f1zik1,,.v, xio, 6; 1963, W4*20'78 TOPIC TAM, Rme poles.- rectangtilar spherical potential vell'p Apical and Umpbamicalpoles., levels and I resonances. ABSTRACTt. A method recently W*pwe&'by the authors fior findjnx the Poles of the scattering phase (Regge.Toles) for the Tmi-clahsiml potentials -tW to A (M= V. 43s 111 7j 1962) Is lyze th simiest "iem.of Regge pats for the- cue of rectanguler spherically-symetrio potentialven# In this come the scattering phase-abift can 'be explicitly exp ask in terms of Bessel functions. In looking for the Rogge poles.. the proviotisly developed method is used to tollowl the, -properties of the phase shift along level lines Two series of poles am found %*ysical- " -unpbarsical." Mw~ tbaracter. lot the motion of the poles -Vith - 4wQtion of the energy is then clarified IMA finally some general relations are established between the nm&er of levels 77. and 1/2   BAWYEV, E.G. ; PATA' 11111,"F, I Y, -, 1 AH )VI,MY, V. I.. Behavior of theralud., 3 warititle.9 near the 'R-cur-v-. Zhur. ekij~. I t,qpr. fiz. 1,7 nc,~C98.,:,00 kp 164. (XIPA 17.1G) 1. Lnstitut I elektroniki Sibirskogo o-delentya AN SSSR.  j ACC_NRi__ 10436 SOME CODE: urVo3%/66/oo3/oo5/0208/0212 AUTHOR: -6 0 ze ~Llzl A ORG. ~~IM~Xqf tke ib ment of the An#m of Sclences.843SH (VN11Y111 Sibirskogo otdoleniya Akademii nauk SSSR) IMIU: Density correlation near the critical point SOURCE; Zhurnal eksperimentallnoy I teoreticheskoy fiziki. Pis'ma v redaktsiyu. t P~rilozheniyejp v- 3,, no. 5~ 1966, 208-2.12 '~.TOPXC TAGS: critical point., correlation function, fluid density,--phase transition, 't hermo4ynamic characteristicy potential energy - ABSTRACT: The purpose of the article is to determine, within the framework of the phenomenological theory, the dependence of the correlation ftuiction, of the density on the distance near thle_critical point of a liquid-vapor system, using data from thermodynamic experiments. The assumptions under which the calculations are made -are similar to those made by the author earlier (with V. L. Pokrovskiy, ZhETF v. 50, 439j, 3966). The increment In the number of particles in a given region due to a change in the thermodynamic potential Is calculatedj and a final expression is given lor the density as a function of the relative changes of the critical potential and of tbe,temperature difference. The correlation function is then shown to be propor- tional to the distance raised to the -3/2 power. 7he tber=OynamIc potential used to c;btain this deduction leads to thermodynamic consequences which agree qualitative- Card 2/2   --PATASHIKSKIY, A.Z. Position of sirCular~Jties in Feynman diagrams. Zhur.eksp.i teor.fiz. 42 w.3:812-819 Mr 162. OMIA 15.4) 1. Institut teplofiziki Sibirskogo otdeleniya Ali SSSR. (Quantum field theory)  L, I-', " S /~,- 5 06 /06 2,,'C, 4 30 4 /C4 B 106/310 2 Z. "TLi a i. : inteeral r,~present tions in perturbation theory ?--'RIOD1C-"; Zhurnall ~ksperimerital'rsoy i teoreticheskoy fiziki, no. 4 ( lu 1~,62, 1371 - 1377 T. IXT : Int,~.:-ral repreFentations of Feyn~~an graphs drawn with the aid of perturbation theory are considered. The boundary of a region in which tl~e spectral function vanishes 'when the masses are equal is considered. '.'o find the intersection pf such analytical regions of all j:raphs of a iven p:rocess the authors us 6d the technique of constructinf; major Fcynman Ej~fiplhs (N. 'sakanishi. Suppl. Protr. Tneor. Phys., 18, 1, 1961). Tnereby a Problem- witt, arbitrary interaction can Ire reduced to a problem in wricn three lines join at each, vertex. There are 3 figures. ASSOCIATICN: Institut teplcfiziki Sibirskogo otdeleriya Lzaaemii naue. ---.311, (Institute of Aeat Physics of the Siberian Department cf the Academy of Sciences USSR) SUB,.!ITT--:): April 12, !962 Card 1/1  PATASHINSKIY, AJ ; RUDIK, A.P.; SUDAKCV, V.V. Characteristics of the scattering amplJt-ude in pertrubation theory. Zhur. eksp. i teor. fiz. 40 nq.1:298-311 Ja 161. (K[RA 14:6) (Field theory)  TATASHIPSKIT, A.Z. I- --- Symmetry of solutions obtained "a the determination of characteristic of Feynwan diagrams by Landau's method. Zhur. eksp. t teor. fiz. 39 no. 6:1744-1746 D 160. (MIRA 14:1) 1. Sibirskoye otdelenive Akademit nauk SSSR. (Pield theory)  88453 S/05 6o/039/006/04',/063 ,44-.4-S-00 E006YI3063 AUTHOR: TITLE: Symmetry of Solutions Obtained by Landau's Method for Determinling the Position of Singularities of Feynman Graphs PERIODICAL: Zhurnal ekoperimentallnoy i teoreticheskoy fiziki, 1960, Vol. 39, No. 6(12), pp. 1744-1746 TEXT: The author has demonstrated that for some graphs, the solutions obtained by Landau's method for determining the position of singularities are symmetric. The singularities were determined by L. D. Landau's method for symmetric graphs, i.e., they had to be symmetric with respect to transformations, in which the invariants characterizing the position of singularities do not vary. In the quadratic graphs concerned, these symmary- conserving transfo mations consist in reflections and rotations through the angle n. If symmetric solutions are assumed to exist for the angles and the parameters a, the calculations for the determination of singulari- ties in symmetric graphs may be simplified considerably. The assumption of symmetry is related to the problem of the uniqueness of the solution with Card 1/3  88453 Symmetry of Solutions Obtained by Landau's S/O56/6O/039/OO6/O4r,-/'063A Method for Determining the Position of B006/BO63 Singularities of Feynman Graphs respect to a for given external invariants of Landau's set of equations: aiqi , 0, a > 0, q2_M 2 _0. This equation, together with the theorems ,5-- 1 1 1 of conservation, defines the inner vectors q as linear combinations of the outer vectors p with the coefficients depending on a. The set of equations P, [a,,(p.p.)] - 0, where i,k, - 1 ... 1; s, m = 1, 2, 3, is studied next. 1 is the number of inner lines of the graph; Pi is a polynomial homogeneous with respect to a. For symmetry-conserving transformations of a symmetric graph, this set goes over into itself. A unique solution to this set obtained with given values of the outer parameters is symmetric. The symmetries of a and the angles are clearly interrelated. The asymmetric solutions available for symmetric graphs do not satisfy the condition of positive aV A general proof for the assumption of symmetric solutions cannot be given. For the quadratic graphs under consideration it has been shown that the symmetry of the solution follows from the condition ai > 0. Card 2/3  88453 Symmetry of Solutions Obtained by Landau's S/056 60/039/006/045/063 Method for Determining the Position of B006YB063 Singularities of Feynman Graphs V. V. Sudakov is thanked for interest and advice. There are 2 figures and 2 Soviet references. ASSOCIATION: Sibirskoye otdeleniye 1kademii nauk SSSR (Siberian Branch of the Academy of Sciences USSR) SUBMITTED: july 9, 196o Card 3/3  ACCESSION NR: AP4025932 S/0056/64/046/003/0994/1016 i AUTHORS: Patashinskiy, A. Z.; Pokrovskiy, V. L. TITLE: Second order phase transition in a Bose liquid SOURCE: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, v. 46, no. 3, 1964, 994-1016 TOPIC TAGS: li'quid'helium, Bose liquid, second order phase transi- tion, two particle interaction, many particle interaction, transi- ition temperature, Green's function technique, diagram technique, quasiparticle spectrum, fluctuation spectrum, specific heat ABSTRACT: A theory is proposed for second-order phase transitions in liquid helium. It is shown that-not only two-particle but many- particle interactions become important, so that the only smallness parameter introduced in the theory is the relative absolute devia- tion from the transition temperature IV - T 01 /T The calculations 00 Card 1/4  ACCESSION NR: AP4025932 _7 employ Green's-function and diagram techniques. The chief quanti- ties studied are the Green's function, which determines the fluctua- tion spectrum, and the total vertex part of the diagram, which de- scribes the t-vo-particle scattering. The liquid helium near,the phase transition curve . assumed to be an ideal gas of quasiparticle with a spectrum e = Ap3~2s, and physical arguments are advanced in favor of this assumption. The theory shows that the width of the phase transition region depends on the interaction potential between the particles, but the fluctuation spectrum and the particle scat- tering amplitude are the same for any positive potential, and are independent of the details of the interaction at small distances. At small momenta the effective interaction is determined by a di- mensionless charge, which is defined uniquely by the consistency conditions for the theory, but which cannot be determined accurately because the equations are too complicated. Some arguments are ad- vanced to prove that the mathematical scheme proposed is the only possible one. The main theoretical conclusions of the theory are: Card -2/4-  ACCESSION NR: AP4025932 (1) the specific heat has a logarithmic behavior on both sides of the equilibrium curve; (2) the coefficients preceding the term ln(IT - T01/T0) are the same on both sides of the ), curve; (3) the ,specific heat experiences a finite jump which is superimposed'on ,the logarithmic curve. All the results have been confirmed experi- mentally. The probXem q9 second-ordpr phase trarisitions and its .present status are discussed. "We thank A. A. Vedenov for numerous discussions contributing to the clarification of the physical as- pects'of the problem, A.. I. Larkin, V. V. Sudakov# D. V. Shirkov,' .G. M. Eliashberg, and other participants of the second Odessa Sym- ,posium on Theoretical Physics for fruitful discussion, and E. G. Baty*yev, S. K. Savviny*kh, and G. I. Surdutovich for useful remarks ;which helped eliminate some errors. The authors point to the role played by Yu. B. Rumer whose undiminishing enthusiasm has supported research in this field for many years." Orig. art. has: 1 figure and 108 formulas. Card 3/4  ACCESSION NR: AP4025932 'ASSOCIATION: Institut teplofiziki SAirskogo otdeleniya AN SSSR AInstitute of Heat Physics, Siberian Department,. Academy of Sciences USSR); Institut radiofigiki i elektronikia Sibirskogo otdeleniya AN SSSR (Institute of Wipphysics and Electronics, Siberian Depart- ment AN SSSR) ,SUBMITTED: 14Aug63 DATE ACQ: 16Apr64 ENCL: 00 ;SUB CODE: PH NR REP SOV: 006 OTHERs 004 Cord _-4/4  PATASUBSKIL A.Z. Integral repreoentations in perturbation theory. Zhur. eksp. i teor. fia. 43 no.4:1371-1377 0 162. (MIRA 15:11) 1. Institut teplofiziki Sibirskogo otdeleniya AN SSSR. (FWAwbation) (Calculuo, Integral)  ?ATASHINSEY, A. 1%; PI ICRUV'SMY, V. L. T___ - - __ -, - ___ - - Second-order phase transition in a Bose fluid. Zhur.eki3p. i teor. fiz. 46 no. 3:994-1016 Mr 164. (m:R.4  89222 t 8/056/61/040/001/028/037 B102/B212 AUTHORSt PatashinBkiy,_A-.-Z., Rudik, A. P., Sudakov, V. V. TITdo Singulikritits-.3 of scattering amplitudes in the perturbation theory PERIODICALs' Zhurnal eksperim'entallnoy i teoreticheskoy fiziki, V. 40, 1, 1961, 298-311 TEXTs A study has been made of the position of singularities of the scattering amplitude and its asymptotic behavior in the perturbation theory. Due to conservation of the four-momentum of scattered particles, the four-momenta of the scattering and virtual particles are located in a three-dimensional space for any perturbation-theoretical graph. The three linearly independent four-vectors are chosen for basis vectorst W - p 2 2 1+P2 p1+p3' P pl+p4 . For p i i 2QW M11 - M,3 - M31 + M,-, 2WP - M12 - Ms, + MIII MIII 2QP -. M12 + Mat M,31 - M:, Q1 + W1 + PI - M11 + M,' + M,' + MI. (1.2) holds. Card I  89222 S/056/61/040/001/028/037 B102/B212 Singuliritles of scattering... The scattering amplitude is characterized by six parameterej for con- M2 2 2. venience they are chosen to bet and the invariants W and 0. Only the singularities with real invariants are considered. There is a certain relation between W2 1 Q2 and the masses of the virtual particles'at the singularityl this relation is ch racterized for graphs of the type shown in Fig.1 by the ratios between N i and the squares of masses of virtual 3 articles. Pig:i2 shows some singular curves of this graph. The authors then wanted to find out under what conditions anomalous singularities do occur for more complicated (than Fig.1) graphs of perturbation theory. An analysis is made for an asymptotic case, there on arint approaches ;0V L 4i~ infinity. The condition that JW Q )I