Euler Equations on Finite-Dimensional Solvable Lie Groups

Trofimov, V. V.

doi:10.1070/im1981v017n02abeh001365

Math. USSR Izv.

1981

DOI: 10.1070/im1981v017n02abeh001365

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Euler Equations on Finite-Dimensional Solvable Lie Groups

V. V. Trofimov¹

Abstract: The differences in the mean square nuclear charge radius 6 ( r z > of the even cadmium isotopes 110 < A < 116 have been determined by means of K,, x-ray isotopic shift measurements. The results are 6 ( r 2 j = 0.135 k 0,022fmZ, 0,132 & 0,020fm2, 0.142 k0.026fm2 and 0.42 i 0,02fm2 for the isotope pairs 110-112, 112-114, 114-116 and 110-1 16 respectively. These results are in agreement with the available optical isotopic shift (01s) data. Comparison with the available elastic electron scattering (EES) results sh… Show more

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1984

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Cited by 5 publications

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Extensions of Lie Algebras and Hamiltonian Systems

Trofimov¹

1984

Math. USSR Izv.

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The Monte Carlo method was used to study the dependence of the calibration coefficient on the tube voltage, beam aperture and reference plane in simplified over-couch geometries modelling VacuTec's type 70157 KAP-meter both with and without an additional filter. The MCNP5 code was used to calculate (i) energy imparted to air cavities of the KAP-meter and (ii) spatial distribution of air collision kerma at entrance and exit planes of the KAP-meter and at a plane close to the patient. From these data, the air kerma area product and calibration coefficient were calculated and their dependence on the tube voltage and beam aperture was analysed. It was found that the variation of the calibration coefficient as a function of tube voltage was up to 40% when the additional filter was used. The additional filter placed closely in front of the KAP-meter decreased the calibration coefficient for the patient plane by about 10% compared to the ideal additional filter. The effect of the beam aperture was small at the patient plane and negligible for the exit plane.

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Extensions of Lie Algebras and Hamiltonian Systems

Trofimov¹

1984

Math. USSR Izv.

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THE SYMPLECTIC STRUCTURE OF THE ORBITS OF THE COADJOINT REPRESENTATION OF LIE ALGEBRAS OF TYPE $ E\times_\rho G$

Pevtsova¹

1985

Math. USSR Sb.

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Integrability of soluble Lie algebras

Milovanov¹

1999

Sb. Math.

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Euler Equations on Finite-Dimensional Solvable Lie Groups

Cited by 5 publications

References 6 publications

Extensions of Lie Algebras and Hamiltonian Systems

Extensions of Lie Algebras and Hamiltonian Systems

THE SYMPLECTIC STRUCTURE OF THE ORBITS OF THE COADJOINT REPRESENTATION OF LIE ALGEBRAS OF TYPE $ E\times_\rho G$

Integrability of soluble Lie algebras

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