Your search keyword '"Kukulin, V. I."' showing total 378 results

1. Dibaryon resonances and short-range $NN$ interaction

Author

Kukulin, V. I., Pomerantsev, V. N., Rubtsova, O. A., Platonova, M. N., and Obukhovsky, I. T.

Subjects

Nuclear Theory, High Energy Physics - Phenomenology

Abstract

The dibaryon concept for the nuclear force is presented, assuming that the main attraction between the nucleons at medium distances is determined by the $s$-channel exchange of an intermediate six-quark (dibaryon) state. To construct the respective $NN$ interaction model, a microscopic six-quark description of the $NN$ system is used, in which symmetry aspects play a special role. It is shown that the $NN$ interaction in all important partial waves can be described properly by a superposition of the long-range $t$-channel one-pion exchange and the $s$-channel exchange by an intermediate dibaryon. The developed model gives a good description of both elastic phase shifts and inelasticities of $NN$ scattering in all $S$, $P$, $D$ and $F$ partial waves at energies from zero to 600 - 800 MeV and even higher.The parameters of the intermediate six-quark states corresponding to the best fit of $NN$ scattering data are found to be consistent with the parameters of the known dibaryon resonances in those $NN$ partial configurations where their existence has been experimentally confirmed. Predictions for new dibaryon states are given as well., Comment: 23 pages, 9 figures; version accepted to Chinese Physics C with updated references

Published

2022

2. Isospin symmetry breaking in double-pion production in the region of ${d^*(2380)}$ and the scalar ${\sigma}$ meson

Author

Platonova, M. N. and Kukulin, V. I.

Subjects

Nuclear Theory, High Energy Physics - Phenomenology

Abstract

The first attempt is made to provide a quantitative theoretical interpretation of the WASA-at-COSY experimental data on the basic double-pion production reactions $pn \to d \pi^0\pi^0$ and $pn \to d \pi^+\pi^-$ in the energy region $T_p =1$ - $1.3$ GeV [P. Adlarson et al., Phys. Lett. B 721, 229 (2013)]. The data are analyzed within a model based on production and decay of an intermediate $I(J^P)=0(3^+)$ dibaryon resonance $\mathcal{D}_{03}$ (denoted also as $d^*(2380)$). The observed decrease of the near-threshold enhancement (the so-called ABC effect) in the reaction $pn \to d \pi^+\pi^-$ in comparison to that in the reaction $pn \to d \pi^0\pi^0$ is explained (at least partially) to be due to isospin symmetry violation in the two-pion decay of an intermediate near-threshold scalar $\sigma$ meson emitted from the $\mathcal{D}_{03}$ dibaryon resonance under conditions of the partial chiral symmetry restoration., Comment: 16 pages, 9 figures; version accepted for publication in Phys. Rev. D

Published

2021

3. $P$-wave dibaryon resonances in $pp$ elastic scattering and near-threshold pion production

Author

Rubtsova, O. A., Kukulin, V. I., and Platonova, M. N.

Subjects

Nuclear Theory, High Energy Physics - Phenomenology

Abstract

It is demonstrated within the dibaryon-induced model for $NN$ interaction that $pp$ scattering in $P$ waves is governed mainly by the production of the intermediate dibaryon resonances. Two dibaryon resonances with a mass of about 2200 MeV discovered recently by the ANKE-COSY Collaboration are shown to determine both elastic $pp$ phase shifts and inelasticities in the $^3P_0$ and $^3P_2$-$^3F_2$ channels from zero energy up to $T_p=0.7$-$0.9$ GeV. It is also demonstrated clearly that the $^3P_0$ dibaryon plays a decisive role in near-threshold neutral pion production in $pp$ collisions which is poorly understood to date. The missing dibaryon contribution is found to be the very possible reason for the failure of traditional approaches to explain near-threshold $\pi^0$ production., Comment: 12 pages, 11 figures; version accepted for publication in PRD

Published

2020

4. Properties of dibaryons in nuclear medium

Author

Kakenov, M., Kukulin, V. I., Pomerantsev, V. N., and Bayakhmetov, O.

Subjects

Nuclear Theory

Abstract

Properties of six-quark dibaryons in nuclear medium are considered by example of $A=6$ nuclei within the three-cluster $\alpha+2N$ model. Dibaryon production in nuclei leads to the appearance of a three-body force between the dibaryon and nuclear core. This non-conventional scalar force is shown to provide an additional attractive contribution to the three-body binding energy. This three-body contribution improves noticeably agreement between theoretical results and experimental data for the majority of observables. The most serious difference between the traditional $NN$-force models and the dibaryon-induced model is found for the nucleon momentum distribution, the latter model providing a strong enrichment of the high-momentum components both for $^6$Li and $^6$He cases., Comment: 19 pages, 13 figures

Published

2020

5. Nature of $\bm{S}$-wave $\bm{NN}$ interaction and dibaryon production at nucleonic resonance thresholds

Author

Kukulin, V. I., Rubtsova, O. A., Platonova, M. N., Pomerantsev, V. N., Clement, H., and Skorodko, T.

Subjects

Nuclear Theory

Abstract

Phase shifts and inelasticity parameters for $NN$ scattering in the partial-wave channels ${}^3S_1$--${}^3D_1$ and ${}^1S_0$ at energies $T_{\rm lab}$ from zero to about 1 GeV are described within a unified $NN$ potential model assuming the formation of isoscalar and isovector dibaryon resonances near the $NN^*(1440)$ threshold. Evidence for these near-threshold resonances is actually found in the recent WASA experiments on single- and double-pion production in $NN$ collisions. There, the excitation of the Roper resonance $N^*(1440)$ exhibits a structure in the energy dependence of the total cross section, which corresponds to the formation of dibaryon states with $I(J^\pi)=0(1^+)$ and $1(0^+)$ at the $NN^*(1440)$ threshold. These two $S$-wave dibaryon resonances may provide a new insight into the nature of the strong $NN$ interaction at low and intermediate energies., Comment: 10 pages, 8 figures

Published

2020

6. Theoretical Study of Spin Observables in $pd$ Elastic Scattering at Energies $T_p = 800-1000$ MeV

Author

Platonova, M. N. and Kukulin, V. I.

Subjects

Nuclear Theory

Abstract

Various spin observables (analyzing powers and spin-correlation parameters) in $pd$ elastic scattering at $T_p = 800-1000$ MeV are analyzed within the framework of the refined Glauber model. The theoretical model uses as input spin-dependent $NN$ amplitudes obtained from the most recent partial-wave analysis and also takes into account the deuteron $D$ wave and charge-exchange effects. Predictions of the refined Glauber model are compared with the existing experimental data. Reasonable agreement between the theoretical calculations and experimental data at low momentum transfers $|t| \lesssim 0.2$ (GeV/$c)^2$ is found for all observables considered. Moderate discrepancies found in this region are shown to be likely due to uncertainties in the input $NN$ amplitudes. Qualitative agreement at higher momentum transfers is also found for most observables except the tensor ones with mixed $x$ and $z$ polarization components. Possible reasons for observed deviations of the model calculations from the data at $|t| > 0.2$ (GeV/$c)^2$ are discussed., Comment: 13 pages, 9 figures

Published

2019

7. To the nature of nuclear force

Author

Kukulin, V. I., Pomerantsev, V. N., Rubtsova, O. A., and Platonova, M. N.

Subjects

Nuclear Theory

Abstract

It has been shown for the first time that $NN$ interaction, at least in some partial waves, can be quantitatively described by the superposition of a long-range one-pion exchange and a short-range mechanism based on the complex pole in the $NN$ potential corresponding to the dibaryon resonance in this partial wave. For the partial waves $^3P_2$, $^1D_2$, $^3F_3$ and $^1S_0$ the parameters of the complex poles that give the best description of the elastic and inelastic phase shifts of $NN$ scattering are very close to the empirical parameters of the corresponding isovector dibaryon resonances detected experimentally. Based on the results obtained, a general conclusion is made about the nature of nuclear force at medium and small internucleon distances., Comment: 32 pages, 10 figures

Published

2019

8. $^7$Be and $^{22}$Na radionuclides for a new therapy of cancer

Author

Kukulin, V. I., Bibikov, A. V., Tkalya, E. V., Ceccarelli, M., and Bodrenko, I. V.

Subjects

Physics - Medical Physics

Abstract

The $^{10}$B isotope has been almost exclusively used in the neutron-capture radiation therapy (NCT) of cancer for decades. We have identified two other nuclides suitable for the radiotherapy, which have ca.10 times larger cross section of absorption for neutrons and emit heavy charged particles. This would provide several key advantages for potential NCT, such as the possibility to use either a lower nuclide concentration in the target tissues, or a lower neutron irradiation flux. By detecting the characteristic $\gamma$ radiation from the spontaneous decay of the radionuclides, one can image and control their accumulation. These advantages could be critical for the revival of the NCT as a safer, more efficient and more widely used cancer therapy.

Published

2019

9. Single pole dominance in short- and intermediate-range $NN$ interaction

Author

Kukulin, V. I., Pomerantsev, V. N., Rubtsova, O. A., and Platonova, M. N.

Subjects

Nuclear Theory

Abstract

It is demonstrated that both elastic and inelastic $NN$ scattering at laboratory energies up to 600--800 MeV, at least in some partial waves characterized by a large inelasticity, can be described by a superposition of the conventional long-range one-pion exchange and a specific short-range interaction induced by the $s$-channel dibaryon exchange. For the $^3P_2$, $^1D_2$ and $^3F_3$ partial waves, the pole parameters giving the best fit of the real and imaginary parts of the $NN$ phase shifts are consistent with the parameters of the respective isovector dibaryon resonances found experimentally. In the $^1S_0$ channel, the suggested interaction gives two poles of the $S$-matrix -- the well-known singlet deuteron and an excited dibaryon. On the basis of the results presented, a conclusion is made about the nature of $NN$ interaction and its strong channel dependence., Comment: 8 pages, 6 figures

Published

2019

10. Experimental and theoretical study of deuteron-proton elastic scattering for proton kinetic energies between $T_p = 882.2\;\textrm{MeV}$ and $T_p = 918.3\;\textrm{MeV}$

Author

Fritzsch, C., Barsov, S., Burmeister, I., Dymov, S., Gebel, R., Hartmann, M., Kacharava, A., Khoukaz, A., Komarov, V., Kulessa, P., Kulikov, A., Kukulin, V. I., Lehrach, A., Lorentz, B., Mchedlishvili, D., Mersmann, T., Mielke, M., Mikirtychiants, S., Ohm, H., Papenbrock, M., Platonova, M. N., Prasuhn, D., Serdyuk, V., Ströher, H., Täschner, A., Valdau, Yu., and Wilkin, C.

Subjects

Nuclear Experiment, Nuclear Theory

Abstract

New precise unpolarised differential cross sections of deuteron-proton elastic scattering have been measured at 16 different deuteron beam momenta between $p_d = 3120.17\;\textrm{MeV}/c$ and $p_d =3204.16\;\textrm{MeV}/c$ at the COoler SYnchrotron COSY of the Forschungszentrum J\"ulich. The data, which were taken using the magnetic spectrometer ANKE, cover the equivalent range in proton kinetic energies from $T_p = 882.2\;\textrm{MeV}$ to $T_p = 918.3\;\textrm{MeV}$. The experimental results are analysed theoretically using the Glauber diffraction model with accurate nucleon-nucleon input. The theoretical cross section at $T_p = 900\;\textrm{MeV}$ agrees very well with the experimental one at low momentum transfers $|t| <0.2\;(\textrm{GeV}/c)^2$., Comment: 8 pages, 6 figures, preprint submitted to Physics Letters B

Published

2018

11. In-medium bound states and pairing gap

Author

Rubtsova, O. A., Kukulin, V. I., Pomerantsev, V. N., and Muether, H.

Subjects

Nuclear Theory

Abstract

The propagator of two nucleons in infinite nuclear matter is evaluated by a diagonalization of the $pphh$ RPA Hamiltonian. This effective Hamiltonian is non-Hermitian and, for specific density domains and partial waves, yields pairs of complex conjugated eigenvalues representing in-medium bound states of two nucleons. The occurrence of these complex poles in the two-particle Greens function is tightly related to the well known BCS pairing approach. It is demonstrated that these complex eigenvalues and the corresponding bound state wavefunctions contain all information about the BCS gap function. This is illustrated by calculations for $^1S_0$ and $^3PF_2$ pairing gaps in neutron matter which essentially coincide with the corresponding gap functions extracted from conventional solutions of the gap equation. Differences between the bound states in the conventional BCS approach and the $pphh$ RPA are arising in the case of $^3SD_1$ channel in symmetric nuclear matter at low densities. These differences are discussed in the context of transition from BEC for quasi-deuterons to the formation of BCS pairing., Comment: 7 pages, 7 figures

Published

2017

12. New estimation for neutron-neutron scattering length: charge symmetry and charge independence breaking revisited

Author

Konobeevski, E. S., Zuyev, S. V., Kukulin, V. I., and Pomerantsev, V. N.

Subjects

Nuclear Theory, Nuclear Experiment

Abstract

Recent experimental results for neutron-neutron scattering length are reanalyzed from the point of view of three-nucleon force contribution. We found that the limiting value of $a_{nn}=- 15.8\pm 0.5$~fm must be free of any implicit three-body force contribution. We have also shown that the difference between the above experimental value of $a_{nn}$ and the well established value of neutron-proton scattering length $a_{np}$ can be explained by differences in the one-pion exchange potentials., Comment: 4 pages, 4 figures

Published

2017

13. OpenMP Implementation of Dibaryon-Induced Three-Body Force Potential Calculation

Author

Kakenov, M., Zemlyanaya, E. V., Kukulin, V. I., Pomerantsev, V. N., and Bayakhmetov, O.

Published

2022

14. Refined Glauber model versus Faddeev calculations and experimental data for $pd$ spin observables

Author

Platonova, M. N. and Kukulin, V. I.

Subjects

Nuclear Theory

Abstract

Spin-dependent observables in intermediate-energy $pd$ elastic scattering within the framework of the refined Glauber model are considered. The improvements include an account of all ten $pp$ and $pn$ helicity amplitudes at respective energies constructed on the basis of modern phase-shift analysis, accurate deuteron wave functions taken from the modern $NN$ force model and account of charge-exchange effects. Predictions of the refined diffraction model for the differential cross section and analyzing powers are compared with exact three-body Faddeev calculations and the recent experimental data. An amazingly good agreement between the results of both theoretical approaches as well as between the refined Glauber model and experiment in a wide angular range not only for differential cross section but also for vector and tensor analyzing powers has been found in the first time. Possible reasons for this agreement are discussed., Comment: This submission corresponds to the preprint version of the previuosly published paper [Phys. Rev. C 81, 014004 (2010)]. Misprints found in formulas of the original paper have been corrected [see Erratum recently published in Phys. Rev. C 94, 069902 (2016)]

Published

2016

15. Manifestation of the $P$-wave diproton resonance in single-pion production in $pp$ collisions

Author

Platonova, M. N. and Kukulin, V. I.

Subjects

Nuclear Theory

Abstract

It is demonstrated that many important features of single-pion production in $pp$ collisions at intermediate energies ($T_p \simeq 400$-$800$ MeV) can naturally be explained by supposing excitation of intermediate diproton resonances in $pp$ channels ${}^1D_2$, ${}^3F_3$ and ${}^3P_2$, in addition to conventional mechanisms involving an intermediate $\Delta$-isobar. We predict for the first time the crucial role of the ${}^3P_2$ diproton resonance, found in recent experiments on the single-pion production reaction $pp \to pp({}^1S_0) \pi^0$, in reproducing the proper behavior of spin-correlation parameters in the reaction $pp \to d \pi^+$ which were poorly described by conventional meson-exchange models to date. The possible quark structure of the $P$-wave diproton resonances is also discussed., Comment: Version accepted for publication in Physical Review D

Published

2016

16. Discrete Wave-Packet Representation in Nuclear Matter Calculations

Author

Müther, H., Rubtsova, O. A., Kukulin, V. I., and Pomerantsev, V. N.

Subjects

Nuclear Theory

Abstract

The Lippmann-Schwinger equation for the nucleon-nucleon $t$-matrix as well as the corresponding Bethe-Goldstone equation to determine the Brueckner reaction matrix in nuclear matter are reformulated in terms of the resolvents for the total two-nucleon Hamiltonians defined in free space and in medium correspondingly. This allows to find solutions at many energies simultaneously by using the respective Hamiltonian matrix diagonalization in the stationary wave packet basis. Among other important advantages, this approach simplifies greatly the whole computation procedures both for coupled-channel $t$-matrix and the Brueckner reaction matrix. Therefore this principally novel scheme is expected to be especially useful for self-consistent nuclear matter calculations because it allows to accelerate in a high degree single-particle potential iterations. Furthermore the method provides direct access to the properties of possible two-nucleon bound states in the nuclear medium. The comparison between reaction matrices found via the numerical solution of the Bethe-Goldstone integral equation and the straightforward Hamiltonian diagonalization shows a high accuracy of the method suggested. The proposed fully discrete approach opens a new way to an accurate treatment of two- and three-particle correlations in nuclear matter on the basis of three-particle Bethe-Faddeev equation by an effective Hamiltonian diagonalization procedure.

Published

2016

17. Fast GPU-based calculations in few-body quantum scattering

Author

Pomerantsev, V. N., Kukulin, V. I., Rubtsova, O. A., and Sakhiev, S. K.

Subjects

Physics - Computational Physics

Abstract

A principally novel approach towards solving the few-particle (many-dimensional) quantum scattering problems is described. The approach is based on a complete discretization of few-particle continuum and usage of massively parallel computations of integral kernels for scattering equations by means of GPU. The discretization for continuous spectrum of a few-particle Hamiltonian is realized with a projection of all scattering operators and wave functions onto the stationary wave-packet basis. Such projection procedure leads to a replacement of singular multidimensional integral equations with linear matrix ones having finite matrix elements. Different aspects of the employment of a multithread GPU computing for fast calculation of the matrix kernel of the equation are studied in detail. As a result, the fully realistic three-body scattering problem above the break-up threshold is solved on an ordinary desktop PC with GPU for a rather small computational time., Comment: 23 pages, 9 figures

Published

2015

18. Complex-Range Gaussians as a Basis for Treatment of Charged Particle Scattering

Author

Sailaubek, D. A., Rubtsova, O. A., Kukulin, V. I., Orr, N. A., editor, Ploszajczak, M., editor, Marqués, F. M., editor, and Carbonell, J., editor

Published

2020

19. Wave-packet continuum discretization for quantum scattering

Author

Rubtsova, O. A., Kukulin, V. I., and Pomerantsev, V. N.

Subjects

Nuclear Theory

Abstract

A general approach to a solution of few- and many-body scattering problems based on a continuum-discretization procedure is described in detail. The complete discretization of continuous spectrum is realized using stationary wave packets which are the normalized states constructed from exact non-normalized continuum states. Projecting the wave functions and all scattering operators like $t$-matrix, resolvent, etc. on such a wave-packet basis results in a formulation of quantum scattering problem entirely in terms of discrete elements and linear equations with regular matrices. It is demonstrated that there is a close relation between the above stationary wave packets and pseudostates which are employed often to approximate the scattering states with a finite $L_2$ basis. Such a fully discrete treatment of complicated few- and many-body scattering problems leads to significant simplification of their practical solution. Also we get finite-dimensional approximations for complicated operators like effective interactions between composite particles constructed via the Feshbach-type projection formalism. As illustrations to this general approach we consider several important particular problems including multichannel scattering and scattering in the three-nucleon system within the Faddeev framework., Comment: 49 pages, 16 figures

Published

2015

20. Hidden dibaryons in one- and two-pion production in NN collisions

Author

Platonova, M. N. and Kukulin, V. I.

Subjects

Nuclear Theory

Abstract

Processes of one- and two-pion production in $NN$ collisions are considered in connection with excitation of intermediate dibaryon resonances. In particular, relative contributions of the conventional meson-exchange and dibaryon excitation mechanisms in the reaction $pp \to d \pi^+$ are investigated in detail. Inclusion of the intermediate isovector dibaryon resonances is shown to essentially improve the description of experimental data for this reaction, provided the soft meson-baryon form factors consistent with $\pi N$ elastic scattering are used. Manifestation of the intermediate isoscalar and isovector dibaryons in the two-pion production processes is also studied. The role of the isovector dibaryon resonances in the reaction $pp \to pp \pi\pi$ is discussed for the first time. An explanation of the observed strong differences between two-pion production cross sections in $pn$ and $pp$ collisions based in part on the analysis of dibaryon structure is suggested., Comment: Version accepted for publication in Nuclear Physics A

Published

2014

21. New general approach in few-body scattering calculations: Solving discretized Faddeev equations on a graphics processing unit

Author

Pomerantsev, V. N., Kukulin, V. I., and Rubtsova, O. A.

Subjects

Nuclear Theory

Abstract

Background: The numerical solution of few-body scattering problems with realistic interactions is a difficult problem that normally must be solved on powerful supercomputers, taking a lot of computer time. This strongly limits the possibility of accurate treatments for many important few-particle problems in different branches of quantum physics. Purpose: To develop a new general highly effective approach for the practical solution of few-body scattering equations that can be implemented on a graphics processing unit. Methods: The general approach is realized in three steps: (i) the reformulation of the scattering equations using a convenient analytical form for the channel resolvent operator; (ii) a complete few-body continuum discretization and projection of all operators and wave functions onto a $L_2$ basis constructed from stationary wave packets and (iii) the ultra-fast solution of the resulting matrix equations using graphics processor. Results: The whole approach is illustrated by a calculation of the neutron-deuteron elastic scattering cross section below and above the three-body breakup threshold with a realistic $NN$ potential which is performed on a standard PC using a graphics processor with an extremely short runtime. Conclusions: The general technique proposed in this paper opens a new way for a fast practical solution of quantum few-body scattering problems both in non-relativistic and relativistic formulations in hadronic, nuclear and atomic physics., Comment: 12 pages, 6 figures

Published

2014

22. ABC effect as a signal of chiral symmetry restoration in hadronic collisions

Author

Platonova, M. N. and Kukulin, V. I.

Subjects

Nuclear Theory

Abstract

A new nonconventional mechanism for the basic 2{\pi}-fusion reaction pn --> d+({\pi}{\pi})_0 in the energy region T_p = 1.0-1.4 GeV is suggested. The mechanism is aimed at providing a consistent explanation for the comprehensive experimental studies of this reaction in exclusive setting done recently by the WASA-at-COSY Collaboration. The basic assumption of the model proposed is the production of the I(JP) = 0(3+) dibaryon resonance D03 in the pn collision. The interference of two decay channels of this resonance: D_03 --> d + {\sigma} --> d + ({\pi}{\pi})_0 and D_03 --> D_12 + {\pi} --> d + ({\pi}{\pi})_0 is shown to give a strong near-threshold enhancement in the {\pi}{\pi} invariant mass spectrum, which is well known as the ABC effect. The {\sigma}-meson parameters found to reproduce the ABC enhancement are in a general agreement with models which predict the chiral symmetry restoration at high excitation energy and/or high density of matter, although they are essentially less than those accepted for the free {\sigma} meson. So, this result might be considered as an indication of partial chiral symmetry restoration in dense and excited quark matter., Comment: 6 pages, 3 figures

Published

2012

23. Three-body breakup within the fully discretized Faddeev equations

Author

Rubtsova, O. A., Pomerantsev, V. N., Kukulin, V. I., and Faessler, Amand

Subjects

Nuclear Theory

Abstract

A novel approach is developed to find the three-body breakup amplitudes and cross sections within the modified Faddeev equation framework. The method is based on the lattice-like discretization of the three-body continuum with a three-body stationary wave-packet basis in momentum space. The approach makes it possible to simplify drastically all the three- and few-body breakup calculations due to discrete wave-packet representations for the few-body continuum and simultaneous lattice representation for all the scattering operators entering the integral equation kernels. As a result, the few-body breakup can be treated as a particular case of multi-channel scattering in which part of the channels represents the true few-body continuum states. As an illustration for the novel approach, an accurate calculations for the three-body breakup process $n+d\to n+n+p$ with non-local and local $NN$ interactions are calculated. The results obtained reproduce nicely the benchmark calculation results using the traditional Faddeev scheme which requires much more tedious and time-consuming calculations., Comment: 17 pages, 13 figures

Published

2012

24. Resonance structure in the {\gamma}{\gamma} and $\pi^0\pi^0$ systems in dC interactions

Author

Abraamyan, Kh. U., Anisimov, A. B., Baznat, M. I., Gudima, K. K., Kozhin, M. A., Kukulin, V. I., Nazarenko, M. A., Reznikov, S. G., and Sorin, A. S.

Subjects

Nuclear Experiment

Abstract

Along with $\pi^0$ and {\eta} mesons, a resonance structure in the invariant mass spectrum of two photons at M{\gamma}{\gamma} = 360 \pm 7 \pm 9 MeV is observed in the reaction d + C \rightarrow {\gamma} + {\gamma} + X at momentum 2.75 GeV/c per nucleon. Estimates of its width and production cross section are {\Gamma} = 64 \pm 18 MeV and $\sigma_{\gamma\gamma}$ = 98 \pm 24 {\mu}b, respectively. The collected statistics amount to 2339 \pm 340 events of 1.5 \cdot 10^6 triggered interactions of a total number ~ 10^12 of dC-interactions. The results on observation of the resonance in the invariant mass spectra of two $\pi^0$ mesons are presented: the data obtained in the d + C \rightarrow {\gamma} + {\gamma} reaction is confirmed by the d + C \rightarrow $\pi^0$ + $\pi^0$ reaction: $M_{\pi^0\pi^0}$ = 359.2 \pm 1.9 MeV, {\Gamma} = 48.9 \pm 4.9 MeV; the ratio of Br(R\rightarrow{\gamma}{\gamma}) / Br(R\rightarrow$\pi^0\pi^0$) = (1.8 {\div} 3.7)\cdot10^-3., Comment: 10 pages, 11 figures

Published

2012

25. Solving three-body scattering problem in the momentum lattice representation

Author

Pomerantsev, V. N., Kukulin, V. I., and Rubtsova, O. A.

Subjects

Nuclear Theory

Abstract

A brief description of the novel approach towards solving few-body scattering problems in a finite-dimensional functional space of the $L_2$-type is presented. The method is based on the complete few-body continuum discretization in the basis of stationary wave packets. This basis, being transformed to the momentum representation, leads to the cell-lattice-like discretization of the momentum space. So the initial scattering problem can be formulated on the multi-dimensional momentum lattice which makes it possible to reduce the solution of any scattering problem above the breakup threshold (where the integral kernels include, in general, some complicated moving singularities) to convenient simple matrix equations which can be solved on the real energy axis. The phase shifts and inelasticity parameters for the three-body $nd$ elastic scattering with MT I-III $NN$ potential both below and above the three-body breakup threshold calculated with the proposed wave-packet technique are in a very good agreement with the previous accurate benchmark calculation results., Comment: 5 pages, 5 figures

Published

2008

26. Experimental and theoretical evidences for an intermediate $\sigma$-dressed dibaryon in the NN interaction

Author

Kukulin, V. I., Grabmayr, P., Faessler, A., Abraamyan, Kh. U., Bashkanov, M., Clement, H., Skorodko, T., and Pomerantsev, V. N.

Subjects

Nuclear Theory

Abstract

Numerous theoretical and experimental arguments are presented in favor of the generation of intermediate $\sigma$-dressed dibaryon in $NN$ interaction at intermediate and short distances. We argue that this intermediate dibaryon can be responsible for the strong intermediate-range attraction and the short-range repulsion in the $NN$ interaction, and also for the short-range correlations in nuclei. The suggested mechanism for the $\sigma$-dressing of the dibaryon is identical to that which explains the Roper resonance structure, its dominant decay modes and its extraordinary low mass. A similar transformation mechanism from the glue to the scalar field was discovered in $J/\Psi$ decays. The new experimental data on 2$\pi$-production in the scalar-isoscalar channel produced in $pn$- and $pd$-collisions and in particular the very recent data on $\gamma\gamma$ correlations in $p$C and $d$C scattering in the GeV region seems to corroborate the existence of the $\sigma$-dressed dibaryon in two- and three nucleon interactions., Comment: 14 pages,4 figures

Published

2008

27. Continuum discretization methods in a composite-particle scattering off a nucleus: the benchmark calculations

Author

Rubtsova, O. A., Kukulin, V. I., and Moro, A. M.

Subjects

Nuclear Theory

Abstract

The direct comparison of two different continuum discretization methods towards the solution of a composite particle scattering off a nucleus is presented. The first approach -- the Continumm-Discretized Coupled Channel method -- is based on the differential equation formalism, while the second one -- the Wave-Packet Continuum Discretization method -- uses the integral equation formulation for the composite-particle scattering problem. As benchmark calculations we have chosen the deuteron off \nuc{58}{Ni} target scattering (as a realistic illustrative example) at three different incident energies: high, middle and low. Clear non-vanishing effects of closed inelastic channels at small and intermediate energies are established. The elastic cross sections found in both approaches are very close to each other for all three considered energies., Comment: 10 pages, 7 figures, submitted to Phys. Rev. C

Published

2008

28. Isoscalar short-range current in the deuteron induced by an intermediate dibaryon

Author

Kukulin, V. I., Obukhovsky, I. T., Grabmayr, P., and Faessler, Amand

Subjects

Nuclear Theory

Abstract

A new model for short-range isoscalar currents in the deuteron and in the NN system is developed; it is based on the generation of an intermediate dibaryon which is the basic ingredient for the medium- and short-range NN interaction which was proposed recently by the present authors.This new current model can very well describe the experimental data for the three basic deuteron observables of isoscalar magnetic type, viz. the magnetic moment, the circular polarization of the photon in the $np\to d\gamma$ process at thermal neutron energies and the structure function B up to Q$^2$=60 fm$^{-2}$., Comment: LaTex, 22 pages with 8 figures

Published

2006

29. Dibaryons as carriers of strong internucleon interactions and a basis for nuclear physics based on QCD

Author

Kukulin, V. I. and Pomerantsev, V. N.

Subjects

Nuclear Theory

Abstract

New concept of intermediate- and short-range nuclear force proposed by the authors a few years ago is discussed briefly. The general concept is based on an assumption on generation of the dressed dibaryon in intermediate state in $NN$ interaction. This new mechanism has been shown to lead not only to numerous new predictions in hadronic physics but also should be responsible for a large portion of nuclear binding energy and properties of nuclear wavefunctions at high momenta., Comment: 4 pages, 3 figures, Talk on Int. Conference on QCD in Hadron Physics, Beijing, June 16-20,2005

Published

2005

30. Description of intermediate- and short-range NN nuclear force within a covariant effective field theory

Author

Faessler, Amand, Kukulin, V. I., and Shikhalev, M. A.

Subjects

Nuclear Theory

Abstract

The present paper is aimed to developing an effective field theory in the GeV region to describe consistently both elastic and inelastic NN-scattering in a fully covariant way. In this development we employ our novel s-channel mechanism of NN-interaction at intermediate and short ranges assuming a formation of the six-quark bag dressed with basic meson fields such as $\pi$, $\sigma$, $\rho$ and $\omega$ in the intermediate state. The peripheral part of the interaction is governed by t-channel one- and two-pion exchanges described fairly well by chiral perturbation theory. The $\sigma$-meson dressing should be especially important for the stabilization of the bag due to a high coupling constant of the $\sigma$-meson with the bag and also a strong interaction between the $\sigma$-field and space symmetric quark core $|s^6[6]>$. This stabilization of the intermediate dressed bag (which shifts the mass of the bag downward to NN threshold) will be crucially important for the description of $\pi$, $2\pi$, $\rho$ and $\omega$-meson production in NN-collisions, and, in particular, for the correct description of $\pi^0$ production near threshold. So that, we expect that the results of the present work will lead to a deeper understanding the short- and intermediate-range nuclear forces and internucleon correlations in nuclei., Comment: 42 pages, 17 figures, accepted for publication in Ann. Phys

Published

2005

31. Dibaryon model for nuclear force and the properties of the $3N$ system

Author

Pomerantsev, V. N., Kukulin, V. I., Voronchev, V. T., and Faessler, Amand

Subjects

Nuclear Theory

Abstract

The dibaryon model for $NN$ interaction, which implies the formation of an intermediate six-quark bag dressed by a $\sigma$-field, is applied to the $3N$ system, where it results in a new three-body force of scalar nature between the six-quark bag and a third nucleon. A new multicomponent formalism is developed to describe three-body systems with nonstatic pairwise interactions and non-nucleonic degrees of freedom. Precise variational calculations of $3N$ bound states are carried out in the dressed-bag model including the new scalar three-body force. The unified coupling constants and form factors for $2N$ and $3N$ force operators are used in the present approach, in a sharp contrast to conventional meson-exchange models. It is shown that this three-body force gives at least half the $3N$ total binding energy, while the weight of non-nucleonic components in the $^3$H and $^3$He wavefunctions can exceed 10%. The new force model provides a very good description of $3N$ bound states with a reasonable magnitude of the $\sigma NN$ coupling constant. A new Coulomb $3N$ force between the third nucleon and dibaryon is found to be very important for a correct description of the Coulomb energy and r.m.s. charge radius in $^3$He. In view of the new results for Coulomb displacement energy obtained here for A=3 nuclei, an explanation for the long-term Nolen--Schiffer paradox in nuclear physics is suggested. The role of the charge-symmetry-breaking effects in the nuclear force is discussed., Comment: 64 pages, 7 figures, LaTeX, to be published in Phys. At. Nucl. (2005)

Published

2005

32. The properties of the three-nucleon system with the dressed-bag model for nn interaction. I: New scalar three-body force

Author

Kukulin, V. I., Pomerantsev, V. N., Kaskulov, M., and Faessler, Amand

Subjects

Nuclear Theory

Abstract

A multi-component formalism is developed to describe three-body systems with nonstatic pairwise interactions and non-nucleonic degrees of freedom. The dressed-bag model for $NN$ interaction based on the formation of an intermediate six-quark bag dressed by a $\sigma$-field is applied to the $3N$ system, where it results in a new three-body force between the six-quark bag and a third nucleon. Concise variational calculations of $3N$ bound states are carried out in the dressed-bag model including the new three-body force. It is shown that this three-body force gives at least half the $3N$ total binding energy, while the weight of non-nucleonic components in the $^3$H and $^3$He wavefunctions can exceed 10%. The new force model provides a very good description of $3N$ bound states with a reasonable magnitude of the $\sigma NN$ coupling constant. The model can serve as a natural bridge between dynamical description of few-nucleon systems and the very successful Walecka approach to heavy nuclei and nuclear matter., Comment: 26 pages, Latex, 7 figures

Published

2003

33. The properties of the three-nucleon system with the dressed-bag model for $NN$ interaction. II: Coulomb and CSB effects

Author

Kukulin, V. I., Pomerantsev, V. N., and Faessler, Amand

Subjects

Nuclear Theory

Abstract

Coulomb and charge-symmetry breaking effects in the $^3$He ground state within the dressed dibaryon model developed recently for $2N$ and $3N$ forces are examined in detail. Particular attention has been paid to the Coulomb displacement energy $\Delta E_C=E_B(^3{\rm H})- E_B(^3{\rm He})$ and rms charge radii of $^3$H and $^3$He. A new scalar $3N$ force between the third nucleon a$ dibaryon is found to be very important for a correct description of the Coulomb energy and rms charge radius in $^3$He. In view of the new results for $\Delta E_C$ obtained here, the role of the effects of charge symmetry breaking in the nuclear force is discussed., Comment: 22 pages, Latex

Published

2003

34. A dressed bag model study of the final-state $N\Delta$ interaction in photoproduction processes off the deuteron

Author

Obukhovsky, I. T., Kukulin, V. I., Kaskulov, M. M., Grabmayr, P., and Faessler, A.

Subjects

Nuclear Theory

Abstract

The impact of the short-range $N\Delta$ interaction on the pion photoproduction processes off the deuteron in the $\Delta$-resonance region is studied in the framework of recently proposed dressed-bag model. A common dressing procedure for bare three- and six-quark states is used to describe both the pion decay widths of baryon resonances and the effective $NN$ (or $N\Delta$) interaction at short ranges related to the inner dressed-bag states. It is shown that the effect of short-range $N\Delta$ interaction for the forward-angle $\pi^\mathrm{o}$ photoproduction off the deuteron cannot be neglected. The prospects for further development of the model to describe the short-range $NN$ (or $N\Delta$) correlations in the lightest nuclei are discussed.

Published

2002

35. A six-quark dressed-bag description of np -> d \gamma radiative capture

Author

Kaskulov, M. M., Kukulin, V. I., and Grabmayr, P.

Subjects

Nuclear Theory

Abstract

The radiative capture process $n p \to d \gamma$ is considered within the framework of a recently developed six-quark dressed-bag model for the nucleon-nucleon interaction. The calculations presented here include both the nucleon current and the meson-exchange current contributions. The latter uses short-range hadronic form factors for the pion exchange currents consistent with the soft cut-off parameter $\Lambda_{\pi NN}$ from the $NN$-potential. Contributions of the pion exchange current and $\Delta$-isobar current to the total cross section still cannot explain the discrepancy between the theoretical and experimental cross sections. Possibilities for new types of meson exchange currents associated with chiral fields inside multi-quark dressed-bag states in nuclei are discussed., Comment: 29 pages, 11 figures

Published

2002

36. An inversion procedure for coupled-channel scattering: determining the deuteron-nucleus tensor interaction

Author

Cooper, S. G., Kukulin, V. I., Mackintosh, R. S., and Pomerantsev, V. N.

Subjects

Nuclear Theory

Abstract

We present a practical $S$-matrix to potential inversion procedure for coupled-channel scattering. The inversion technique developed is applied to non-diagonal $S^J_{ll'}$ for spin one projectiles, yielding a tensor interaction $T_{\rm R}$, and is also applicable to spin-1/2 plus spin-1/2 scattering. The method is a generalization of the iterative-perturbative, IP, method. It is tested and evaluated and we investigate the degree of uniqueness of the potential, particularly for cases where there is insufficient information to define the potential uniquely. We examine the potentials which result when the $S$-matrix is generated from a $T_{\rm P}$ interaction. We also develop the generalisation, using established procedures, of IP $S$-matrix-to-potential inversion to direct observable-to-potential inversion. This `direct inversion' procedure is demonstrated to be an efficient method for finding a multi-component potential including a $T_{\rm R}$ interaction fitting multi-energy $\sigma$, ${\rm i}T_{11}$, $T_{20}$, $T_{21}$ and $T_{22}$ data for the scattering of spin-1 nuclei from spin-zero target. It is applicable to other channel spin 1 cases., Comment: 20 pages RevTeX, 6 postscript figures

Published

1999

37. Spin 1 inversion: a Majorana tensor force for deuteron alpha scattering

Author

Cooper, S. G., Kukulin, V. I., Mackintosh, R. S., and Pomerantsev, V. N.

Subjects

Nuclear Theory

Abstract

We demonstrate, for the first time, successful S-matrix to potential inversion for spin one projectiles with non-diagonal $S^j_{ll'}$ yielding a $T_{\rm R}$ interaction. The method is a generalization of the iterative-perturbative, IP, method. We present a test case indicating the degree of uniqueness of the potential. The method is adapted, using established procedures, into direct observable to potential inversion, fitting $\sigma$, ${\rm i}T_{11}$, $T_{20}$, $T_{21}$ and $T_{22}$ for d + alpha scattering over a range of energies near 10 MeV. The $T_{\rm R}$ interaction which we find is very different from that proposed elsewhere, both real and imaginary parts being very different for odd and even parity channels., Comment: 7 pages Revtex, 4 ps figures

Published

1998

38. Determination of Li-6 -- He-4 interaction from multi-energy scattering data

Author

Mackintosh, R. S., Cooper, S. G., and Kukulin, V. I.

Subjects

Nuclear Theory

Abstract

We present the first successful potential model description of Li-6 -- He-4 scattering. The differential cross-sections for three energies and the vector analyzing powers for two energies were fitted by a single potential with energy dependent imaginary components. An essential ingredient is a set of Majorana terms in each component. The potential was determined using a recently developed direct data-to-potential inversion method which is a generalisation of the IP S-matrix-to-potential inversion algorithm. We discuss the problems related to this phenomenological approach, and discuss the relationship of our results to existing and future theories., Comment: 9 pages plain LaTeX, 6 postscript figues

Published

1998

39. New technique for phase shift analysis: multi-energy solution of inverse scattering problem

Author

Cooper, S. G., Kukulin, V. I., Mackintosh, R. S., and Kuznetsova, E. V.

Subjects

Nuclear Theory

Abstract

We demonstrate a new approach to the analysis of extensive multi-energy data. For the case of d + He-4, we produce a phase shift analysis covering for the energy range 3 to 11 MeV. The key idea is the use of iterative perturbative data-to-potential inversion which can produce potentials which reproduce the data simultaneously over a range of energies. It thus effectively regularizes the extraction of phase shifts from diverse, incomplete and possibly somewhat contradictory data sets. In doing so, it will provide guidance to experimentalists as to what further measurements should be made. This study is limited to vector spin observables and spin-orbit interactions. We discuss alternative ways in which the theory can be implemented and which provide insight into the ambiguity problems. We compare the extrapolation of these solutions to other energies. Majorana terms are presented for each potential component., Comment: RevTeX, 8 pages plus four ps figures; minor clarifications; accepted as Phys Rev C rapid communication

Published

1998

40. Moscow-type NN-potentials and three-nucleon bound states

Author

Kukulin, V. I., Pomerantsev, V. N., Faessler, Amand, Buchmann, A. J., and Tursunov, E. M.

Subjects

Nuclear Theory

Abstract

A detailed description of Moscow-type (M-type) potential models for the NN interaction is given. The microscopic foundation of these models, which appear as a consequence of the composite quark structure of nucleons, is discussed. M-type models are shown to arise naturally in a coupled channel approach when compound or bag-like six-quark states, strongly coupled to the NN channel, are eliminated from the complete multiquark wave function. The role of the deep-lying bound states that appear in these models is elucidated. By introducing additional conditions of orthogonality to these compound six-quark states, a continuous series of almost on-shell equivalent nonlocal interaction models, characterized by a strong reduction or full absence of a local repulsive core (M-type models), is generated. The predictions of these interaction models for 3N systems are analyzed in detail. It is shown that M-type models give, under certain conditions, a stronger binding of the 3N system than the original phase-equivalent model with nodeless wave functions. An analysis of the 3N system with the new versions of the Moscow NN potential describing also the higher even partial waves is presented. Large deviations from conventional NN force models are found for the momentum distribution in the high momentum region. In particular, the Coulomb displacement energy for nuclei ^3He - ^3H displays a promising agreement with experiment when the ^3H binding energy is extrapolated to the experimental value., Comment: 23 pages Latex, 9 figures, to appear in Phys.Rev.C

Published

1997

41. Improved $d$+$^4$He potentials by inversion, the tensor force and validity of the double folding model

Author

Kukulin, V. I., Pomerantsev, V. N., Cooper, S. G., and Dubovichenko, S. B.

Subjects

Nuclear Theory

Abstract

Improved potential solutions are presented for the inverse scattering problem for $d$+$^4$He data. The input for the inversions includes both the data of recent phase shift analyses and phase shifts from RGM coupled-channel calculations based on the NN Minnesota force. The combined calculations provide a more reliable estimate of the odd-even splitting of the potentials than previously found, suggesting a rather moderate role for this splitting in deuteron-nucleus scattering generally. The approximate parity-independence of the deuteron optical potentials is shown to arise from the nontrivial interference between antisymmetrization and channel coupling to the deuteron breakup channels. A further comparison of the empirical potentials established here and the double folding potential derived from the M3Y effective NN force (with the appropriate normalisation factor) reveals strong similarities. This result supports the application of the double folding model, combined with a small Majorana component, to the description even of such a loosely bound projectile as the deuteron. In turn, support is given for the application of iterative-perturbative inversion in combination with the double folding model to study fine details of the nucleus-nucleus potential. A $d$-$^4$He tensor potential is also derived to reproduce correctly the negative $^6$Li quadrupole moment and the D-state asymptotic constant., Comment: 22 pages, 12 figures, in Revtex

Published

1997

42. Complex-Range Gaussians as a Basis for Treatment of Charged Particle Scattering

Author

Sailaubek, D. A., primary, Rubtsova, O. A., additional, and Kukulin, V. I., additional

Published

2020

43. Low-Energy Parameters of Neutron–Neutron Interaction: Analysis of Data Obtained in nd and dd Breakup Reactions

Author

Konobeevski, E. S., Zuyev, S. V., Kasparov, A. A., Kukulin, V. I., Lebedev, V. M., Mordovskoy, M. V., Pomerantsev, V. N., and Spassky, A. V.

Published

2018

44. Model with Coupled Internal and External Channels for 2N and 3N Systems

Author

Pomerantsev, V. N., Kukulin, V. I., and Rubtsova, O. A.

Published

2019

45. Charged particle scattering problem with a complex-range Gaussian basis

Author

Sailaubek, D. A., Rubtsova, O. A., and Kukulin, V. I.

Published

2018

46. Diphoton and dipion productions at the Nuclotron/NICA

Author

Abraamyan, Kh. U., Anisimov, A. B., Baznat, M. I., Gudima, K. K., Kozhin, M. A., Kukulin, V. I., Nazarenko, M. A., Reznikov, S. G., and Sorin, A. S.

Published

2016

47. Efficient Technique for Solving Few-Body Scattering Problems by the Wave-Packet Continuum Discretisation

Author

Rubtsova, O. A., Kukulin, V. I., Plessas, W., editor, Krivec, Rajmund, editor, Rosina, Mitja, editor, Golli, Bojan, editor, and Širca, Simon, editor

Published

2003

48. Dressed Dibaryon Production as a New Mechanism for Basic Nuclear Force and Meson-Exchange Currents

Author

Kukulin, V. I., Plessas, W., editor, Krivec, Rajmund, editor, Rosina, Mitja, editor, Golli, Bojan, editor, and Širca, Simon, editor

Published

2003

49. New Tensor Force

Author

Kukulin, V. I., Pomerantsev, V. N., Cooper, S. G., Mackintosh, R., Plessas, W., editor, Desplanques, Bertrand, editor, Protasov, Konstantin, editor, Silvestre-Brac, Bernard, editor, and Carbonell, Jaume, editor

Published

1999

50. Latest achievements in dynamic calculations for light nuclei

Author

Kukulin, V. I., Mitter, H., editor, Plessas, W., editor, Adam, J., editor, Dobeš, J., editor, Mach, R., editor, Sotona, M., editor, and Dolejší, J., editor

Published

1996