PЕЛЯТИВІСТСЬКА ТЕОРІЯ СПЕКТРІВ ПІОННИХ АТОМНИХ СИСТЕМ 208Pb З УРАХУВАННЯМ ЕФЕКТІВ СИЛЬНОЇ ПІОН-ЯДЕРНОЇ ВЗАЄМОДІЇ
DOI:
https://doi.org/10.18524/0235-2435.2017.26.126002Ключові слова:
сильна взаємодія, піонний атом 208Pb, релятивістська теоріяАнотація
Представлена послідовна релятивістська теорія спектрів півоній атомів на основі рівняння Клейна-Гордона-Фока з узагальненими радіаційним і сильним півонія-ядерним потенціалом. Виконано розрахунок енергетичних і спектральних параметрів для піоного атома 208Pb з урахуванням радіаційних (поляризація вакууму), ядерних (кінцевий розмір ядра ) ефектів та поправки на сильну піон-нуклонну взаємодію. Також для порівняння представлені дані вимірювань в лабораторіях Berkley, ЦЕРН і Вірджинія і теоретичні результати, отримані на основі альтернативних теорій Клейна-Гордона-Фока з урахуванням кінцевого розміру ядра в моделі рівномірно зарядженої сфери і стандартної Юлінг-Сербер поправки. Представлені нові данні щодо зсуву та уширення 4f рівня в атомі 208Pb завдяки сильній піон-ядерній взаємодіїПосилання
Bystryantseva A.N., Khetselius O.Yu., Dubrovskaya Yu.V., Vitavetskaya L.A., Berestenko A., Relativistic theory of spectra of heavy pionic atomic systems with account of strong pion-nuclear interaction effects: 93Nb, 173Yb, 181Ta, 197Au// Photoelectronics.-2016.-Vol.25.-P.56-61
Serga I.N., Dubrovskaya Yu.V., Kvasikova A., Shakhman A.N., Sukharev
D.E., Spectroscopy of hadronic atoms: Energy shifts// Journal of Physics: C Ser. (IOP).-2012.- Vol.397.-P.012013 (5p.).
Khetselius O.Yu., Hyperfine Structure, scalar-pseudoscalar interaction and parity non-conservation effect in some heavy atoms and ions/ Khetselius O.Yu., Florko T.A., Nikola L.V., Svinarenko A.A., Serga I.N., Tkach T.B., Mischenko E.V.// Quantum Theory: Reconsideration of Foundations (AIP). -2010.- Vol.1232.-P.243-250.
Deslattes R., Kessler E., Indelicato P., de Billy L., Lindroth E. , Anton
J., Exotic atoms// Rev. Mod. Phys.-2003.-Vol.75.-P.35-70.
Scherer S, Introduction to chiral perturbation theory//Advances in Nuclear Physics, Eds. J.W. Negele and E.W. Vogt (Berlin, Springer). - 2003.-Vol.27.-P.5-50.
Lyubovitskij V., Rusetsky A., πp atom in ChPT: Strong energy-level shift //Phys. Lett.B.-2000.-Vol.494.-P.9-13.
Anagnostopoulos D., Biri S., Boisbourdain V., Demeter M., Borchert G.
et al-PSI, Low-energy X-ray standards from pionic atoms/ //Nucl. Inst.
Meth.B.-2003.-Vol.205.-P.9-18.
Olaniyi B, Shor A, Cheng S., Dugan G., Wu C.S., Electric quadrupole moments and strong interaction effects in piomic atoms of 165Ho, 175Lu, 176Lu,179Hf, 181Ta //Nucl. Phys. A.-1982.-Vol.403.- P.572-588.
Serga I., Relativistic theory of spectra of pionic atoms with account of the Radiative and nuclear corrections/ Serga I.N.// Photoelectronics.-2013.-Vol.22.- P.84-92.
Kolomeitsev E.E., Kaiser N., Weise W. Chiral dynamics of deeply bound pionic atoms/ //Phys. Rev. Lett.-2003.-Vol.90.- P.092501.
Khetselius O.Yu., Hyperfine structure of atomic spectra.- Odessa: Astroprint, 2008.-210P.
Khetselius O.Yu., Hyperfine structure of radium// Photoelectronics. - 2005.-N14.-P.83-85.
Khetselius O., Spectroscopy of cooperative electron-gamma-nuclear processes in heavy atoms: NEET effect// J. Phys.: Conf. Ser.-2012.- Vol. 397.-P.012012
Khetselius O.Yu., Florko T.A., Svinarenko A.A., Tkach T.B., Radiative
and collisional spectroscopy of hyperfine lines of the Li-like heavy ions
and Tl atom in an atmosphere of inert gas// Phys.Scripta.-2013.-Vol. T153. -P. 014037.
Khetselius O.Yu., Turin A.V., Sukharev D.E., Florko T.A., Estimating of Xray spectra for kaonic atoms as tool for sensing the nuclear structure// Sensor Electr. and Microsyst. Techn.-2009.- N1.-P.30-35.
Khetselius O.Yu., On possibility of sensing nuclei of the rare isotopes by
means of laser spectroscopy of hyperfine structure//Sensor Electr. and Microsyst.Techn.-2008.-Vol.3.-P.28-33.
Glushkov A.V., Malinovskaya S.V, Gurnitskaya E.P., Khetselius O.Yu., Dubrovskaya Yu.V., Consistent quantum theory of the recoil induced excitation and ionization in atoms during capture of neutron// Journal of Physics: Conf. Series (IOP).-2006.- Vol.35.-P.425-430.
Glushkov A.V., Khetselius O.Y., Brusentseva S.V., Zaichko P.A., Ternovsky V.B., Studying interaction dynamics of chaotic systems within a non-linear prediction method: application to neurophysiology//
Advances in Neural Networks, Fuzzy Systems and Artificial Intelligence, Ser: Recent Adv. in Computer Engineering, Ed. J.Balicki.-2014.-Vol. 21.-P.69-75.
Khetselius O.Yu., Quantum Geometry: New approach to quantization of the quasistationary states of Dirac equation for super heavy ion and calculating hyper fine structure parameters// Proc. Int.Geometry Center.-2012.-Vol.5,№3-4.-P.39-45.
Glushkov A.V., Khetselius O.Yu., Svinarenko A.,Theoretical spectroscopy of autoionization resonances in spectra of lanthanide atoms// Physica Scripta.- 2013.-Vol.T153.-P.014029.
Glushkov A.V., Khetselius O.Yu., Gurnitskaya E.P., Loboda A.V., Sukharev
D.E., Relativistic quantum chemistry of heavy ions and hadronic atomic
systems: spectra and energy shifts// Theory and Applications of Computational Chemistry. AIP Conference Proceedings.-2009.-Vol.1102.-
P.168-171.
Khetselius O.Yu., Relativistic calculating the spectral lines hyperfine structure parameters for heavy ions//Spectral Line Shapes, AIP Conf. Proc.-2008.- Vol.1058.-P.363-365.
Khetselius O.Yu., Glushkov A.V., Gurnitskaya E.P., Loboda A.V., Mischenko E.V., Florko T.A., Sukharev D.E., Collisional Shift of the Tl hyperfine lines in atmosphere of inert gases// Spectral Line Shapes, AIP Conf. Proc.-2008.- Vol.1058.-P.231-233.
Khetselius O.Yu., Hyperfine structure of energy levels for isotopes 73Ge, 75As, 201Hg// Photoelectronics.-2007.-N16.-P.129-132.
Khetselius O.Y., Gurnitskaya E.P., Sensing the electric and magnetic moments of a nucleus in the N-like ion of Bi// Sensor Electr. and Microsyst. Techn.-2006.-N3.-P.35-39.
Khetselius O.Y., Gurnitskaya E.P., Sensing the hyperfine structure and nuclear quadrupole moment for radium// Sensor Electr. and Microsyst. Techn.-2006.- N2.-P.25-29.
Florko T.A., Loboda A.V., Svinarenko A.A., Sensing forbidden transitions
in spectra of some heavy atoms and multicharged ions: New theoretical
scheme// Sensor Electr. and Microsyst. Techn.-2009.-N3.-P.10-15.
Sukharev D.E., Khetselius O.Yu., Dubrovskaya Yu.V., Sensing strong interaction effects in spectroscopy of hadronic atoms// Sensor Electr. and Microsyst. Techn.-2009.-N3.-P.16-21.
Glushkov A V, Ambrosov S V, Loboda A V, Chernyakova Yu, Svinarenko A
A, Khetselius O Yu, QED calculation of the superheavy elements ions: energy levels, radiative corrections, and hfs for different nuclear models // Journal Nucl. Phys. A.: nucl. and hadr. Phys.-2004.- Vol.734.-P.21
Glushkov A.V., Khetselius O.Yu., Kuzakon V., Prepelitsa G.P., Solyanikova
E.P., Svinarenko A., Modeling of interaction of the non-linear vibrational
systems on the basis of temporal series analyses (application to semiconductor quantum generators)// Dynamical Systems-Theory and Applications.-2011.-BIF110.
Svinarenko A.A., Nikola L. V., Prepelitsa G., Tkach T.B, Mischenko E.V.,
Auger (autoionization) decay of excited states in spectra of multicharged
ions: Relativistic theory//AIP Conf. Proceedings.-2010.-Vol.1290, N1 P.94-98.
Glushkov A.V., Khetselius O.Yu., Loboda A.V., Ignatenko A., Svinarenko
A., Korchevsky D., Lovett L., QED approach to modeling spectra of the multicharged ions in a plasma: Oscillator and electron‐ion collision strengths// Spectral Line Shapes. AIP Conference Proceedings.-2008.-Vol.1058.- P.175-177
Glushkov A.V., Svinarenko A.A., Nuclear quantum optics: Energy approach to multi-photon resonances in nuclei // Sensor Electr. and Microsyst. Techn.-2010.-N2.-P.5-10.
Glushkov A.V., Energy approach to resonance states of compound super-heavy nucleus and EPPP in heavy nucleus collisions//Low Energy Antiproton Phys. AIP Conference Proceedings.-2005.-Vol.796.-P.206-210.
Malinovskaya S.V., S.V., Dubrovskaya Yu., Vitavetskaya L., Advanced quantum mechanical calculation of the beta decay probabilities// Low Energy Antiproton Phys. AIP Conf. Proc.-2005.-Vol.796.-P.201-205.
Glushkov A.V., Ambrosov S.V., Loboda A., Gurnitskaya E.P., Prepelitsa
G.P., Consistent QED approach to calculation of electron-collision excitation cross-sections and strengths: Ne-like ions//Int. Journ. Quant. Chem.-2005.-Vol.104, N4 .-P. 562-569.
Glushkov A.V., Ambrosov S.V., Ignatenko A.V., Korchevsky D.A., DC
Strong Field Stark effect for non-hydrogenic atoms: Consistent quantum mechanical approach// Int.Journ. Quant. Chem.-2004.-Vol.99,N6.-P.936-939.
Glushkov A.V, Malinovskaya S.V, Chernyakova Y.G., Svinarenko A.A.,
Cooperative laser-electron-nuclear processes: QED calculation of electron
satellites spectra for multi-charged ion in laser field// Int. Journ. Quant.
Chem.-2004.-Vol.99,N6.-P. 889-893.
Glushkov A.V, Khetselius O.Yu, Malinovskaya S.V, Optics and spectroscopy of cooperative laser-electron nuclear processes in atomic and molecular systems - new trend in quantum optics// Europ. Phys. Journ. ST.-2008.-Vol.160, N1.-P.195-204.
Glushkov A.V., Dan’kov S.V., Prepelitsa G., Polischuk V.N., Efimov A.,
Qed theory of nonlinear interaction of the complex atomic systems with laser field multi-photon resonances// Journal of Tech. Phys.-1997.-Vol.38 (2).-P.219-222.
Glushkov A.V., Ambrosov S.V., Loboda A.V., Gurnitskaya E.P., Khetselius
O.Yu., QED calculation of heavy multicharged ions with account for
the correlation, radiative and nuclear effects// Recent Advances in the Theory of Chemical and Physical Systems (Springer).-2006.-Vol.15.-P.285-299.
Glushkov A.V., Calculation of parameters of the interaction potential between excited alkali atoms and mercury atoms-the Cs-, Fr-Hg interaction// Optika i Spektr.-1994.-Vol.77 (1).-P.5-10.
Glushkov A.V.,Khetselius O.Yu., Gurnitskaya E.P., Korchevsky D.A., Loboda A.V., Prepelitsa G.P., Sensing the electron-collision excitation crosssections for Ne-like ions of Fe in a plasma in the Debye shileding approximation// Sensor Electr. and Microsyst. Techn.-2007.-N2.-P.9-13
Glushkov A.V., Khetselius O.Yu., Gurnitskaya E.P., Florko T.A., Sensing of
nuclei available in little quantities by means of laser spectroscopy of hyperfine structure for isotopes: new theoretical scheme (U ,Hg) // Sensor Electr. and Microsyst. Techn.-2007.-N3.-P.8-12.
Glushkov A.V., Bunyakova Yu.Ya., Zaichko P., Geometry of Chaos: Consistent combined approach to treating cha the capture of negative muon by atoms: Energy approach// Sensor Electr. and Microsyst. Techn.-2006.-N4.-P.31-35.
Serbov N.G., Glushkov A.V., Bunyakova Yu.Ya., Prepelitsa G.P., Svinarenko A.A., Sensing the kinetical features of energy exchange in mixture CO2-N2-H20 of atmospheric gases under interacting with laser radiation// Sensor Electr. and Microsyst. Techn.-2006.-N4.-P.20-22.
Glushkov A.V., Khetselius O.Y., Bunyakova Yu.Ya., Prepelitsa G.P., Solyanikova E.P., Serga E., Non-linear prediction method in short-range forecast of atmospheric pollutants: low-dimensional chaos// Dynamical Systems - Theory and Applications (Lodz).-2011.-LIF111.
Khetselius O.Yu., Forecasting evolutionary dynamics of chaotic systems
using advanced non-linear prediction method// Dynamical Systems – Theory and Applications, Eds. J. Awrejcewicz, M. Kazmierczak, P. Olejnik, J. Mrozowski.-2013.-Vol.1.-P.145-152.
Glushkov A.V., Kuzakon V.M., Ternovsky V.B., Buyadzhi V.V., Dynamics
of laser systems with absorbing cell and backward-wave tubes with elements of a chaos// Dynamical Systems – Theory and Applications, Eds. J. Awrejcewicz, M. Kazmierczak, P. Olejnik, J, Mrozowski.-2013.-Vol.T1.-P.461-466.
Bunyakova Yu.Ya., Khetselius O.Yu., Non-linear prediction statistical method in forecast of atmospheric pollutants// Proc. of 8th International Carbon Dioxide Conference.-2009.-P.T2-098.
Glushkov A.V., Khetselius O., Svinarenko A.A., Lovett L., Energy approach to nuclei and atoms in a strong laser field: Stark effect and multiphoton resonances // Quantum Theory: Reconsideration of Foundations. AIP Conf.Proc.-2010.-Vol.1232.-P.228-234.
Svinarenko A.A., Glushkov A.V., Loboda A.V., Sukharev D.E., Dubrovskaya Yu.V., Mudraya N.V., Serga I.N., Green’s function of the Dirac equation with complex energy and non-singular central nuclear potential// Quantum Theory: Reconsideration of Foundations.
AIP Conf. Proceedings.-2010.- Vol.1232.-P.259-266.
Glushkov A.V., Khetselius O.Yu., Loboda A.V., Svinarenko A.A., QED approach to atoms in a laser field: Multiphoton resonances and above threshold ionization//Frontiers in Quantum Systems in Chemistry and Physics, Ser.: Progress in Theoretical Chemistry and Physics; Eds. S.Wilson, P.J.Grout, J. Maruani, G. Delgado-Barrio, P. Piecuch (Springer), 2008.-Vol.18.-P.543-560.
Glushkov A.V., Khetselius O.Y., Malinovskaya S.V., New laser-electron
nuclear effects in the nuclear γ transition spectra in atomic and molecular
systems// Frontiers in Quantum Systems in Chemistry and Physics. Series: Progress in Theoretical Chemistry and Physics Eds. S.Wilson, P.J.Grout, J. Maruani, G. Delgado-Barrio, P. Piecuch (Springer).-2008.-Vol.18.-525-541.
Glushkov A.V., Khetselius O.Yu., Svinarenko A.A., Prepelitsa G.P., Energy
approach to atoms in a laser field and quantum dynamics with laser pulses of different shape//In: Coherence and Ultrashort Pulse Laser Emission, Ed. by Dr. F. Duarte (InTech).-2010.-P.159-186.
Glushkov A.V., Khetselius O., Svinarenko A, Relativistic theory of cooperative muon-g gamma-nuclear processes: Negative muon capture and metastable nucleus discharge// Advances in the Theory of Quantum Systems in Chemistry and Physics. Ser.: Progress in Theor. Chemistry and Physics, Eds. P.Hoggan, E.Brandas, J.Maruani, G. DelgadoBarrio,
P.Piecuch (Springer).-2012.- Vol.22.-P.51-68.
Glushkov A.V., Relativistic Quantum Theory. Quantum mechanics of Atomic Systems.-Odessa: Astroprint, 2008. - 700P.
Glushkov A.V., Khetselius O.Yu., Prepelitsa G., Svinarenko A.A., Geometry of Chaos: Theoretical basis’s of a consistent combined approach to treating chaotic dynamical systems and their parameters determination //Proc. of International Geometry Center”.-2013.- Vol.6, N1.-P.43-48.
Malinovskaya S.V., Glushkov A.V., Dubrovskaya Yu.V., Vitavetskaya L.A.,
Quantum calculation of cooperative muon-nuclear processes: discharge of
metastable nuclei during negative muon capture// Recent Advances in the Theory of Chemical and Physical Systems (Springer).-2006.-Vol.15.-P.301-307.
Malinovskaya S., Glushkov A., Khetselius O., Lopatkin Yu., Loboda A.V.,
Svinarenko A., Nikola L., Perelygina T., Generalized energy approach to calculating electron collision cross-sections for multicharged ions in a plasma: Debye shielding model//Int. Journ. Quant.Chem.-2011.-Vol. 111, N2.-P.288-296.
Malinovskaya S.V., Glushkov A.V., Khetselius O.Yu., Svinarenko A.A.,
Mischenko E.V., Florko T.A., Optimized perturbation theory scheme for
calculating the interatomic potentials and hyperfine lines shift for heavy atoms in the buffer inert gas//Int. Journ. Quant.Chem.-2009.-Vol.109, N14.-P.3325-3329.
Glushkov A.V., Relativistic and correlation effects in spectra of atomic
systems.-Odessa: Astroprint.-2006.-400P.
Glushkov A.V., Khetselius O.Y., Malinovskaya S.V., Spectroscopy of cooperative laser-electron nuclear effects in multiatomic molecules// Molec. Physics. (UK).-2008.-Vol.106, N9-10.-P.1257-1260.
Glushkov A.V., Khetselius O.Yu., Svinarenko A.A., Prepelitsa G.P., Mischenko E.V., The Green’s functions and density functional approach to vibrational structure in the photoelectron spectra for molecules// AIP Conf. Proc.-2010.-Vol.1290.-P. 263-268.
Glushkov A.V, Malinovskaya S.,Co-operative laser nuclear processes: border lines effects// In: New projects and new lines of research in nuclear physics. Eds. G.Fazio and F.Hanappe, Singapore: World Scientific. -2003.-P.242-250.
Glushkov A V, Ivanov L N, DC Strong Field Stark Effect for Non-hydrogenic Atoms: Consistent Quantum Mechanical Approach // Journal of Physics B: Atomic, Molecular and Optical Phys.-1993.-Vol.26,N14.-P.L379 – L386.
Glushkov A.V., Lovett L., Khetselius O.Yu., Gurnitskaya E.P., Dubrovskaya Yu.V., Loboda A.V., Generalized multiconfiguration model of decay of multipole giant resonances applied to analysis of reaction (m-n) on the nucleus 40Ca// Internat. Journ. Modern Physics A.-2009.- Vol. 24, N.2-3.-P.611-615.
Glushkov A.V., Malinovskaya S.V., Sukharev D.E., Khetselius O.Yu., Loboda A.V., Lovett L., Green’s function method in quantum chemistry: New numerical algorithm for the Dirac equation with complex energy and Fermi-model nuclear potential//Int. Journ. Quant. Chem.-2009.-Vol.109.-P.1717-1727.
Glushkov A.V., Kondratenko P.A., Lepikh Ya., Fedchuk A.P., Svinarenko
A.A., Lovett L., Electrodynamical and quantum - chemical approaches
to modelling the electrochemical and catalytic processes on metals, metal
alloys and semiconductors// Int. Journ. Quant. Chem.-2009.-Vol.109,N14.- P.3473-3481.
Glushkov A.V., Khetselius O.Yu., Gurnitskaya E.P., Loboda A.V., Florko
T.A., Sukharev D.E., Lovett L., GaugeInvariant QED Perturbation Theory Approach to Calculating Nuclear Electric Quadrupole Moments, Hyperfine Structure Constants for Heavy Atoms and Ions//Frontiers in Quantum Systems in Chemistry and Physics (Springer), 2008.-Vol.18.-P.507-524.
Khetselius O Yu, Relativistic calculation of the hyperfine structure parameters for heavy elements and laser detection of the heavy isotopes // Phys. Scripta.-2009.-Vol.T135.-P.014023.
Khetselius O.Yu., Relativistic energy approach to cooperative electron-γ-
nuclear processes: NEET Effect// Quantum Systems in Chemistry and Physics: Progress in Methods and Applications. Ser.: Progress in Theoretical Chemistry and Physics (Springer, Dordrecht).-2012-Vol.26.-P.217-229.
Buyadzhi V V , Glushkov A V, Spectroscopy of atom and nucleus in a strong laser field: Stark effect and multiphoton resonances // Photoelectronics.-2014.-Issue 23.-P.38-43
Glushkov A.V., Rusov V.D., Ambrosov S.V., Loboda A., Resonance states of compound super-heavy nucleus and EPPP in heavy nucleus collisions // New projects and new lines of research in nuclear physics. Ed. G.Fazio, F.Hanappe, Singapore : World Scientific.-2003.-P.126-132.
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