Volume 48 (year 2017), parts:
1
, 2
, 3
, 4
, 5
, 6

Part 1 
up 
XIV International Seminar on Electromagnetic Interactions of Nuclei "EMIN2015" (Moscow, October 58, 2015) (179.502)
Abstracts

Kuzyakin R.A., Sargsyan V.V., Adamian G.G., Antonenko N.V.
Quantum Diffusion Description of LargeAmplitude Collective Nuclear Motion (rus, 3.112.241)
Within the microscopic quantum diffusion approach, the method to calculate the probability of passing through the parabolic barrier and the
quasistationary thermal decay rate from a metastable state is developed. The method is used both in the limit of linear coupling in the momentum
between the collective subsystem and environment and in the more general limit of linear coupling in the momentum and the coordinate. In terms
of the considered approach, the capture process of the projectile by the target nucleus is studied at bombarding energies near and below the
Coulomb barrier. The analytical expression for partial capture probability which defines the formation cross section of a dinuclear system
is derived. The total and partial capture cross sections, mean and meansquare angular momenta of the captured systems, astrophysical
Sfactors, logarithmic derivatives, and barrier distributions are calculated for various reactions. The effects of entrance channel, isotopic composition,
and nuclear deformation of interacting nuclei and neutron transfer between them on capture cross section are studied.
The effects of nuclear deformation and neutron transfer between interacting nuclei, the isotopic dependence of capture cross section, the entrance channel effects on capture process are studied.
The calculated results for the reactions with spherical and deformed nuclei are in a good agreement with available experimental data.

Part 2 
up


To the 80th Anniversary of the Birth of Academician Vladimir Georgievich Kadyshevsky (108.992)

Fronsdal C.
Action Principles for Hydro and Thermodynamics: Review and Prospects (40.178)
A Hamiltonian formulation of hydrodynamics is well known for the case of purely irrotational flows and it now exists in a more general case as well.
The minimal extension of the action principle is obtained from two axioms: 1. That the number of independent degrees of freedom is 4, as in standard hydrodynamics. 2. That
the equation of continuity must be one of the Euler–Lagrange equations, and that it allows
for vorticity. Applications include: 1. Couette flow with a new criterion for the
breakdown of laminar motion. 2. A rotating source for Einstein's equation that respects the Bianchi identity. 3. A new approach to the electromagnetism of fluids. 4. A rigorous
virial theorem for fluids. 5. A critique of the current state of the theory of atmospheres.
Abstracts

Todorov I.
Renormalization of Position Space Amplitudes in a Massless QFT (46.526)
Renormalization of Position Space Amplitudes in a Massless QFT
Ultraviolet renormalization of position space massless Feynman amplitudes has been shown to
yield associate homogeneous distributions. Their degree is determined by the degree of divergence
while their order — the highest power of logarithm in the dilation anomaly — is given by the number of (sub)divergences.
In the present paper we review these results and observe that (convergent) integration over internal
vertices does not alter the total degree of (superficial) ultraviolet divergence. For a conformally
invariant theory, internal integration is also proven to preserve the order of associate homogeneity.
The renormalized 4point amplitudes in the φ^{4} theory (in four spacetime dimensions) are written as (nonanalytic)
translation invariant functions of four complex variables with calculable conformal anomaly.
Our conclusion concerning the (offshell) infrared finiteness of the ultraviolet renormalized massless φ^{4} theory
agrees with the old result of Lowenstein and Zimmermann (Lowenstein J. H., Zimmermann W. On the Formulation of Theories with ZeroMass Propagators // Nucl. Phys. B. 1975. V.86. P.77—103).
Abstracts

Troshin S. M., Tyurin N. E.
Inelastic Diffraction at the LHC (rus, 187.886)
The relativistic scattering is one of the scientific fields where Academician V. G. Kadyshevsky has made an important
and highly cited contribution. In this paper, we discuss the highenergy dependences of diffractive and nondiffractive
inelastic cross sections in view of the recent LHC data which reveal the presence of reflective scattering mode.

Chizhov M. V.
On the Problem of Properties of LowLying Spin1 Hadron Resonances (rus, 500.952)
This review is dedicated to the description of the properties of lowlying spin1 hadron resonances. It is shown how to extend the
NambuJonaLasinio model with new tensor interactions in chiral invariant way. New mass formulas are obtained that are not based on
groups of unitary symmetry, and include particles from different multiplets even with opposite parity. All of them are in good agreement
with the experimental data. The dynamic properties of spin1 mesons are understood and explained. They are confirmed by the QCD sum rules
and lattice calculations.

Belokurov V. V., Shavgulidze E. T.
Unusual Properties of Functional Integrals and the Groups of Diffeomorphisms (rus, 369.901)
We give a review of the papers of the authors where some consequences of the quasiinvariance of the Wiener
functional integrals under the action of the group of diffeomorphisms and the behavior of the functional integrals under
the nonlinear nonlocal substitutions are studied. In particular, such substitutions make it possible to define the
functional integrals over the discontinuous trajectories. We propose some simple quantum field theory (Euclidean) models
where the presence of the hidden symmetries or the discontinuous trajectories in functional integration lead to a series
of paradoxical properties that are contrary to the common intuition.

Soloviev V. O.
Hamiltonian Cosmology of Bigravity (rus, 362.677)
This article is written as a review of the Hamiltonian formalism for the bigravity with de Rham–Gabadadze–Tolley (dRGT) potential, and also of
applications of this formalism to the derivation of the background cosmological equations. It is demonstrated that the cosmological scenarios are close
to the standard ΛCDM model, but they also uncover the dynamical behaviour of the cosmological term. This term arises in bigravity regardless
of the choice of the dRGT potential parameters, and its scale is given by the graviton mass. Various matter couplings are considered.

MirKasimov R. M.
Noncommutative SpaceTime and Relativistic Dynamics
Some aspects of the approach to the quantum theory with noncommutative geometry
(NCG) based in general on the nonEuclidean momentum space are considered.
Abstracts

Rodionov V. N.
Exotic Fermions in Kadyshevsky's Theory and the Possibilities of Their Detection (rus, 257.561)
As is known, the main works of V. G. Kadyshevsky are
devoted to the construction of geometric approach to the creation of
quantum field theory with restriction of the elementary
particles' mass spectrum. NonHermitian operators
arising in this case seemed a very serious obstacle on the way of
creating a consistent theory. In recent years, these problems were
rectified and now we have received considerable development of
these physical researches with limiting mass using a
pseudoHermitian algebraic approach to the construction of a
quantum theory. The central point of such theories is the
construction of 𝒫𝒯symmetric nonHermitian Hamiltonians
that have real eigenvalues. It is important to note that among
the numerous works on this subject we can find not only purely
theoretical but also experimental works, as, for example, in
the case of nonHermitian optics. In this regard, we believe that
the development of pseudoHermitian relativistic quantum theory
with a Maximal Mass can create very favorable conditions to
discuss the possibility of experimental verification of the
theoretical results obtained in this area. Kadyshevsky saw an
important prediction of his theory in the hypothesis of the
existence of new particles that he named "the exotic fermions". In
particular, the possibility of detecting exotic neutrino in
precise experiments for determination of neutrino mass is
discussed in this article.

Part 3 
up 
Buchbinder I. L., Ivanov E. A., Samsonov I. B.
The LowEnergy 𝒩 = 4 SYM Effective Action in Diverse Harmonic Superspaces (eng, 52.340)

Inozemtsev V. I.
Classical Integrable ManyBody Systems Disconnected with SemiSimple Lie Algebras (eng, 34.635)

Pankov A. A., Serenkova I. A., Tsytrinov A. V., Bednyakov V. A.
Prospects for Identification of Direct and Indirect Effects of Extra Spatial Dimensions at the Large Hadron Collider (rus, 1.752.891)

Artiomov A. S.
Methods of Organization of the Interaction of Circulating
Particle Beams with Internal Targets for NuclearPhysical Experiments at the Synchrotrons and Storage Rings (rus, 1.554.644)

Basiladze S. G.
ÐReal Signal and Its States (rus, 494.212)

Part 4 
up 
Hadjiivanov L., Furlan P.
Quantum Groups as Generalized Gauge Symmetries in WZNW Models. Part I. The Classical Model (51.258 Êb)
WessZuminoNovikovWitten (WZNW) models over compact Lie groups G constitute the best studied class of (twodimensional, 2D)
rational conformal field theories (RCFTs). A WZNW chiral state space is a finite direct sum of integrable representations of the
corresponding affine (current) algebra, and the correlation functions of primary fields are monodromy invariant combinations
of left times right sector conformal blocks solving the KnizhnikZamolodchikov equation. However, even in this
very well understood case of 2D RCFT, the «internal» (gauge) symmetry that governs the ensuing fusion rules remains unclear.
On the other hand, the canonical approach to the classical chiral WZNW theory developed by Faddeev, Alekseev, Shatashvili,
Gawędzki and Falceto reveals its PoissonLie symmetry. After a covariant quantization, the latter gives rise to an associated
quantum group symmetry which naturally requires an extension of the state space. This paper contains a review of earlier work on the
subject with a special emphasis, in the case G = SU(n), on the emerging chiral «WZNW zero modes»
which provide an adequate algebraic description of the internal symmetry structure of the model. Combining further
left and right zero modes, one obtains a specific dynamical quantum group, the structure of its Fock representation
resembling the axiomatic approach to gauge theories in which a «restricted» quantum group plays the role of a generalized gauge symmetry.
Abstracts

Hadjiivanov L., Furlan P.
Quantum Groups as Generalized Gauge Symmetries in WZNW Models. Part II. The Quantized Model (50.922 Êb)
This is the second part of a paper dealing with the «internal»(gauge) symmetry of the WessZuminoNovikovWitten (WZNW)
model on a compact Lie group G. It contains a systematic exposition, for G = SU(n), of the canonical
quantization based on the study of the classical model (performed in the first part) following the quantum group
symmetric approach first advocated by L. D. Faddeev and collaborators. The internal symmetry of the quantized model
is carried by the chiral WZNW zero modes satisfying quadratic exchange relations and an nlinear determinant condition.
For generic values of the deformation parameter the Fock representation of the zero modes' algebra gives rise to
a model space of U_{q} (s𝓁(n)). The relevant root of unity case is studied in detail for n=2 when a
«restricted» (finite dimensional) quotient quantum group is shown to appear in a natural way. The module
structure of the zero modes' Fock space provides a specific duality with the solutions of the KnizhnikZamolodchikov
equation for the fourpoint functions of primary fields suggesting the existence of an extended state space of logarithmic
CFT type. Combining left and right zero modes (i.e., returning to the 2D model), the rational CFT structure
shows up in a setting reminiscent of covariant quantization of gauge theories in which the restricted quantum group plays
the role of a generalized gauge symmetry.
Abstracts

Slavnov D. A.
Quantum Erasure and Locality Problem (rus, 218.572 Êb)
The locality problem in the experiments of the quantum erasure
is considered within the framework of the algebraic approach. Contrary to the
opinion widely distributed now, we demonstrate that the results of these experiments
can be reconciled with the assumption that there exists some local physical reality determining
the results of local measurements. A clear physical interpretation of these experiments
that does not contradict classical concepts is provided.

Denisenko I., Guskov A., Mitrofanov E.
Hadron Structure and Spectroscopy at COMPASS: Overview of Certain Tasks (218.572 Êb)
CCOMPASS is a fixedtarget experiment at CERN with a long history and intense
and diverse physics programme. In the review we consider particular points of the existing
and possible future programme: test of the chiral theory predictions with hadron beam,
search for exotic charmonia, study of the EMC effect in the DrellYan process, search for
production of bound p\bar p states, and study of prompt photon production in hadronic interactions.
Abstracts

Bystritsky V. M., Bystritsky Vit. M., Dudkin G. N., Nechaev B. A., Padalko V. N.
High Current Pulsed Ion Hall Accelerator for Experimental Investigation of the Reactions between Light Nuclei in the Astrophysical Energy Range (rus, 855.678 Êb)
The factors of determining the
restrictions of current characteristics of the
ion diode with magnetic isolation (IDM) are considered.
For a specific design of IDM40 intended for acceleration
of heavy ions for investigation of nuclear reactions with
small cross sections in the astrophysical energy range of particles in the entrance channel (240 keV),
the specific current characteristics close to greatest possible are obtained. It is experimentally shown
that the pickedup optimum operating conditions of the IDM40 elements provide high stability of parameters
(energy distribution and structure of the accelerated particle beams, extent of neutralization) of the accelerated particle beams during the pulse.

Part 5 
up

Achasov N. N.
37 Years with the Light Scalar Mesons. The Learned Lessons (48.541)
Abstracts

Alekseev V. V., Belotsky K. M., Bogomolov Yu. V., Budaev R. I.,
Galper A. M., Dunaeva O. A., Kirillov A. A., Kuznetsov A. V.,
Lukyanov A. D., Mayorov A. G., Mayorova M. A., Malakhov V. V.,
Mosichkin A. F., Okrugin A. A., Rodenko S. A., Shitova A. M.
Review of the Results of Measurements of the Charged Components of Galactic
Cosmic Rays Fluxes in the PAMELA and AMS02 Experiments (rus, 176.781)

Bagulya A. V., Dalkarov O. D., Negodaev M. A., Rusetskii A. S.
LowEnergy Nuclear Reactions in the Crystal Structures (rus, 887.395)

Bednyakov A. V.
An Advanced Precision Analysis of the SM Vacuum Stability (37.520)
Abstracts

Ebert D., Faustov R. N., Galkin V. O.
Baryon Properties in the Relativistic Quark Model (41.848)
Abstracts

Galper A., Spillantini P. on behalf of the PAMELA Collaboration
Ten Years of CR Physics with PAMELA (41.848)
Abstracts

Golutvin I. A., Shmatov S. V.
Physics Results and Prospects of the CMS Experiment at the LHC (rus, 1.729.554)

Kekelidze V. D., Matveev V. A., Meshkov I. N., Sorin A. S., Trubnikov G. V.
Project Nuclotronbased Ion Collider fAcility at JINR (56.341)
Abstracts

Stavinskiy A. V.
Dense Cold Baryonic Matter (rus, 83.877)
Abstracts

Boos E. E., Keizerov S. I., Rakhmetov E. R., Svirina K.S.
Comparison of Higgs Boson Pair Production and Associated Radion and Higgs
Boson Production Processes (rus, 181.983)

Bunin P. D., Zarubin A. V. on behalf of the CMS Collaboration
Upgrade of the Hadron Endcap System of the CMS Experiment at the LHC (rus, 970.177)

Cheremushkina E.
Semileptonic (Lepton, Neutrino, and Jets) WW/WZ Resonances Searches at
√s = 8 and
13 TeV with the ATLAS Detector at the LHC (48.582)
Abstracts

ÄDydyshka Ya. V., Yermolchyk V. L., Suarez J. H., Shumeiko N. M.
LePaProGen – Lepton Pair Production Generator (rus, 288.108)

Fedin O.
Measurement of the Angular Coefficients in Leptonic ZBoson Decays with the
ATLAS Detector at the LHC (rus, 158.783)

Fedotovich G. V. on behalf of the CMD3 Collaboration
Measurement of the Hadronic Cross Sections of e^{+} e^{–} → K^{+} K^{–} nπ (n = 1, 2, 3) Processes with the CMD3
Detector at VEPP2000 ElectronPositron Collider}
ÂÝÏÏ2000 (rus, 285.359)

Godunov S. I.
Diphoton Resonance and New Physics at 1 TeV (41.188)
Abstracts

Kovalenko O. A. on behalf of the CMD3 Collaboration
Measurement of the e^{+} e^{–} → π^{+} π^{– }π^{0}
Cross Section with the CMD3 (rus, 153.261)

Kurepin À. B., Topilskaya N. S.
Fixed Target Project AFTER at the LHC Beams for Heavy Ion and Hadron
Physics (rus, 100.038)

Lanyov A. V. on behalf of the CMS Collaboration
CMS Results on Searching for Heavy Dilepton and Diphoton Resonances (rus, 511.369)

Makhaldiani N.
Renormdynamics of Coupling Constants and Masses (29.714)
Abstracts

Palichik V., Voytishin N.
New CSC Segment Builder Algorithm with Monte Carlo TeV Muons in CMS
Experiment (33.613)
Abstracts

Perelygin V. V. on behalf of the CMS Collaboration
Performance of the CMS ME1/1 Muon Station (rus, 2.908.252)

Petrukhin A. A., Bogdanov A. G.
Heavy Particles at the LHC and in Cosmic Rays (rus, 849.047)

Shmatov S. V.
Physics of Standard Model with the CMS Experiment at the LHC (rus, 1.697.814)

Smirnova L. N., Turchikhin S. M.
Muon and BPhysics Trigger of the ATLAS Experiment in Run2 (rus, 293.103)

Solodkov A. A. on behalf of the ATLAS Collaboration
Electroweak Diboson Production at ATLAS (42.315)
Abstracts

Bork L. V., Onishchenko A. I.
Form Factors with q^{2} = 0 and Grassmannians in N = 4 SYM Theory (52.002)
Abstracts

Bork L. V., Onishchenko A. I.
OffShell Amplitudes and Grassmannians (44.567)
Abstracts

Das C. R., Laperashvili L. V., Nielsen H. B.
New LHC Resonance with Mass of 750 GeV and the Vacuum Stability in the Standard (46.162)
Abstracts

Dubinin M. N., Petrova E. Yu.
ÑHeavy Supersymmetry with $m_{h} = 125 GeV in the Effective Field Theory
Approach (46.875)
Abstracts

Faustov R. N., Martynenko A. P., Martynenko F. A., Sorokin V. V.
Nuclear Radiative Recoil Corrections to the Hyperfine Structure of SStates in Muonic Hydrogen (44.283)
Abstracts

Gurskaya A. V., Dolgopolov M. V., Rykova E. N.
Higgs Bosons in the SM Extensions (121.753)
Abstracts

Karpishkov A. V., Nefedov M. A., Saleev V. A., Shipilova A. V.
Hard Processes at High Energies in the Parton Reggeization Approach (rus, 86.970)

Kotikov A. V., Shaikhatdenov B. G.
Q^{2} Evolution of Parton Densities at Small x Values. Charm Contribution
in the Combined H1&ZEUS F_{2} Data (42.815)
Abstracts

Krutov A. A., Martynenko A. P., Martynenko F. A., Sukhorukova O. S.
Theory of the Lamb Shift in Muonic Ions μLi, μBe, μB (49.040)
Abstracts

Kuvshinov V., Bagashov E.
Decoherence of Quantum States in QCD Vacuum (rus, 80.622)

Monakhov V. V.
Construction of the Fermionic Vacuum and Fermionic Creation and Annihilation
Operators in the Theory of Algebraic Spinors (rus, 91.205)

Part 6 
up 
Achasov N. N.
Why X(3872) Resonance Is Not a Molecule (51.272)
Abstracts

Artamonov A. on behalf of the LHCb Collaboration
Production of ϒ Mesons in pp Collisions at √s= 7 and 8 TeV in the LHCb
Experiment (rus, 349.440)

Berezhnoy A. V., Likhoded A. K., Onishchenko A. I., Poslavsky S. V.
B_{c} Meson Pair Production in the e^{+}e^{–} Annihilation in the Framework of OneLoop Approach (rus, 104.450)

Kalashnikova Yu. S., Mizuk R. V., Nefediev A. V.
On the Parameterization of the Line Shapes of NearThreshold Resonances (rus, 145.464)

Kuznetsova A. L., Parkhomenko A. Ya.
Annihilation Semileptonic BMeson Decays and Their Sensitivity to the Choice
of Distribution Amplitudes Model (rus, 110.356)

Maevskiy A. S., Smirnova L. N.
BMeson Decays into Charmonium States in the ATLAS Experiment (rus, 401.595)

Mizuk R. V., Nefediev A. V.
Scan of Cross Section of e^{+}e^{–} Annihilation into Quarkonia and Light Hadrons in the Belle Experiment (rus, 91.783)

Nefedov M. A., Saleev V. A.
ψ(2S) and ϒ(3S) Hadroproduction in the Parton Reggeization Approach: Polarization
Observables and Fragmentation (rus, 96.915)

Nikolaenko V.
New Measurements on Physics of B Hadrons in the ATLAS Experiment (36.942)
Abstracts

Solovieva E. I.
Charmed Baryons in Electron–Positron Collisions (rus, 95.071)

Trunin A. M.
Pair (bc) Diquarks Production at the LHC (rus, 90.713)

Volkov M. K., Pivovarov A. A.
The Decays τ → (π^{0},η, η′, K^{0})K^{–}ν_{τ} in the Extended Nambu–Jona–Lasinio Model (rus, 84.881)

Alexeev E. N., Gavrilyuk Yu. M., Gangapshev A. M., Gezhaev A. M.,
Kazalov V. V., Kuzminov V. V., Panasenko S. I., Ratkevich S. S.
Observation of Daily and Annual Variations of ^{214}Po HalfLife (rus, 117.533)

Arsenyev N. N., Severyukhin A. P., Voronov V. V., Nguyen Van Giai
Effects of 2Particle – 2Hole Configurations on Dipole States in
NeutronRich N = 80 – 84 Isotones (39.860)
Abstracts

Bashkanov M., Clement H., Doroshkevich E., Skorodko T. for the WASAatCOSY Collaboration
ABC Effect and Resonance d*(2380) (44.838)
Abstracts

Belov P. A., Yakovlev S. L.
The Neutron–Deuteron Scattering Problem in the Framework of the Faddeev Formalism (28.497)
Abstracts

Borzov I. N.
SelfConsistent Approach to β Decay and Delayed Multineutron
Emission (32.430)
Abstracts

Imasheva L. T., Ishkhanov B. S., Sidorov S. V., Stepanov M. E., Tretyakova T. Yu.
TwoParticle Multiplets Splitting as a Guideline in Nucleon Pairing Estimations (rus, 146.855)

Kolganova E. A.
Efimov States in Asymmetric ThreeBody Atomic Clusters (31.302)
Abstracts

Kolomeitsev E. E., Voskresensky D. N.
ZeroSound Condensate in a Fermi Liquid (36.927)
Abstracts

Korobitsin A. A., Kolganova E. A.
Two and ThreeBody Rare Gas Clusters (rus, 130.968)

Kukulin V. I., Platonova M. N.
Dibaryon Resonances in Hadronic and Nuclear Physics. New Results (rus, 100.651)

Mamatkulov K. Z., Ambrozova I., Artemenkov D. A., Bradnova V., Zaitsev A. A., Zarubin P. I., Zarubina I. G., Kakona M., Kattabekov R. R., Marey A., Neagu A., Ploc O., Rusakova V. V., Stanoeva R., Turek K., Firu E., Haiduc M.
Experiment on Study of Nuclear Tripartition in Nuclear Track Emulsion (rus, 436.001)

Molkanov P. L., Barzakh A. E., Volkov Yu. M., Ivanov V. S., Moroz F. V., Orlov S. Yu., Panteleev V. N., Seliverstov M. D., Fedorov D. V.
Shape Evolution for NeutronDeficient Bismuth Isotopes Studied by Resonance Laser Ionization Spectroscopy (rus, 436.001)

Samarin V. V.
TimeDependent Microscopic Description of Total Reaction Cross Sections for
Collisions of ^{6}He and ^{9}Li with ^{28}Si at Low and Intermediate
Energies (rus, 134.773)

Severyukhin A. P.
Strength Fragmentation of Gamow–Teller Transitions and Delayed Neutron
Emission of Atomic Nuclei (34.079)
Abstracts

Sobolev Yu. G., Penionzhkevich Yu. E., Aznabaev D., Zemlyanaya E. V.,
Ivanov M. P., Kabdrakhimova G. D., Kabyshev A. M., Knyazev A. G.,
Kugler A., Lashmanov N. A., Lukyanov K. V., Maj A.,
Maslov V. A., Mendibayev K., Skobelev N. K., Slepnev R. S., Smirnov V. I., Testov D. A.
Experimental Research of Total Reaction CrossSection Energy Dependence for
^{6}He + ^{nat}Si and ^{9}Li + ^{nat}Si (rus, 317.305)

Uzikov Yu. N., Imambekov O.
Contribution of the ΔIsobar Excitation Mechanism to the Reaction pp → {pp}_{s}π^{0} (rus, 116.060)

Antonov N. N., Baldin A. A., Viktorov V. A., Gapienko V. A., Gapienko G. S., Gres V. N., Ilyushin M. A., Korotkov V. A., Mysnik A. I., Prudkoglyad A. F., Pryanikov D. S., Semak A. A., Stavinsky A. V., Terekhov V. I., Uglekov V. Ya., Ukhanov M. N., Chuiko B. V., Shimansky S. S.
Study of Nuclear Matter in Hard Proton–Nucleus and Nucleus–Nucleus Collisions
at the U70 Accelerator (FLUKTON, Project of the Experiment (rus, 98.922)

Burtovoy V. S.
Coherent Production of (K^{+}π^{0})System by K^{+} Beam on Copper Nuclei in OKA Detector (rus, 11.783)

Derenovskaya O., Kurilkin P., Gusakov Yu., Ivanov V., Ladygin V., Ladygina N., Malakhov A., Peshekhonov V., Zinchenko A.
Study of Compressed Baryonic Matter at FAIR: JINR Participation (36.945)
Abstracts

Eyyubova G. Kh., Lokhtin I. P., Belyaev A. V., Ponimatkin G., Pronina E. Yu.
Charm Meson Production in P–Pb Collisions at the LHC in HYDJET++ Model (rus, 112.936)

Gurskaya A. V., Dolgopolov M. V., Chepurnov V. I.
^{14}C Beta Converter (rus, 135.386)

Kovalenko V. N.
Correlation between Multiplicity and Transverse Momenta in pp, p–Pb, and Pb–Pb Collisions at the LHC Energies in DipoleBased MC Model with String Fusion (rus, 156.518)

Malakhov A., Artemenkov D., Lykasov G.
Development of the Baldin Approach to Analysis of Hadronic and Nuclear Processes at High Energies (31.701)
Abstracts

Vysotsky M. I., Zhemchugov E. V.
Looking for Chiral Anomaly in Pion Photoproduction on Kaons (40.137)
Abstracts

Zaitsev A. A., Artemenkov D. A., Bradnova V., Zarubin P. I., Zarubina I. G., Kattabekov R. R., Kornegrutsa N. K., Mamatkulov K. Z., Mitsova E. K., Neagu A., Rukoyatkin P. A., Rusakova V. V., Sarkisyan V. R., Stanoeva R., Haiduc M., Firu E.
Dissociation of Relativistic Nuclei ^{10}B in Nuclear Track Emulsion (rus, 245.774)

Barabanov A. L., Titov O. A.
Monochromatic Modulated Neutrino Beams (rus, 88.324)

Gavrin V. N., Cleveland B. T., Gorbachev V. V., Ibragimova T. V., Kalikhov A. V., Kozlova Yu. P., Mirmov I. N., Shikhin A. A., Veretenkin E. P.
Search for Sterile Neutrinos in Gallium Experiments with Artificial Neutrino Sources (rus, 38.369)
Abstracts

Gilewsky V. V.
Neutrino Detector for Nuclear Power Plant in Belarus and Description of
Neutrino Field (rus, 95.887)

Gorbachev V. V., Gavrin V. N., Ibragimova T. V., Kalikhov A. V., Malyshkin Yu. M., Shikhin A. A.
Measurement of Activity and Spectrum of Internal Bremsstrahlung of ^{51}Cr Source (rus, 88.157)

Gromov M. B.
Methodology of the Search for a Correlated Signal from the Supernova Explosion According to the Data of Gravitational Wave Detectors and Neutrino
Observatories (rus, 414.819)

Gromov M. B., Lukyanchenko G. A., Novikova G. Ya., Obinyakov B. A., Oralbaev A. Yu., Skorokhvatov M. D., Sukhotin S. V., Chepurnov A. S., Etenko A. V.
Reactor Antineutrino Detector iDREAM (rus, 156.087)

Izmaylov A., Suvorov S.
Search for Heavy Neutrinos in the ND280 Near Detector of the T2K Experiment (40.465)
Abstracts

Khabibullin M. M.
Recent Results from T2K (rus, 114.942)
Abstracts

Khruschov V. V., Fomichev S. V.
Oscillation Characteristics of Neutrino in the Model with Three Sterile Neutrinos for Analysis of the Anomalies at Small Distances (rus, 925.807)
Abstracts

Krivoruchenko M. I.
Form Factor of Longitudinal Component of the Weak Vector Current in Pion βDecay (rus,84.164)

Kuzmin K. S., Naumov V. A., Petrova O. N.
Quasielastic Interactions of Neutrinos with Nuclei in the Empirical Model of Running Nucleon Axial Mass (rus, 253.561)

Kuznetsov A. V., Rumyantsev D. A., Savin V. N.
Neutrino Production of Electron–Positron Pairs in a Moderately Strong Magnetic Field (rus, 80.654)

Kuznetsov A. V., Rumyantsev D. A., Shlenev D. M.
Generalized TreeLevel Amplitude of Scattering in a Magnetized Medium (rus, 85.979)

Mefodiev A. V., Kudenko Yu. G., Mineev O. V., Khotjantsev A. N.
Neutrino Detector BabyMIND (rus, 238.678)

Mosichkin A. F.
Average Energy Losses of Neutrinos with a Magnetic Moment in Strong
Magnetic Field Taking into Account the Positronium Influence on the Photon
Dispersion (rus, 73.596)

Naumov D. V., Naumov V. A., Shkirmanov D. S.
Quantum Field Theoretical Description of Neutrino Oscillations and Reactor Antineutrino Anomaly (29.705)
Abstracts

Oralbaev A. Yu., Skorokhvatov M. D., Titov O. A.
Search for Neutrino Transitions to Sterile States Using Intense Beta Source (rus, 130.453)

Ovsiannikova T., Antonova M., Izmaylov A., Kudenko Yu.,
Khabibullin M., Khotjantsev A., Mefodiev A., Mineev O.,
Suvorov S., Yershov N. on behalf of the WAGASCI Collaboration
The New Experiment WAGASCI for Water to Hydrocarbon Neutrino Cross Section
Measurement Using the JPARC Beam (rus, 285.109)

Semenov S. V.
Contribution of the Excited 1^{+}States of ^{100}Òñ to the 2ν2βAmplitude of ^{100}Ìî (rus, 117.208)

Semikoz V. B.
Cosmological Bounds on Neutrino Degeneracy and the Dirac Neutrino Magnetic
Moment (117.208)
Abstracts

Simkovic F., Krivoruchenko M. I., Kovalenko S.
Neutrinoless DoubleBeta Decay and Nonstandard Neutrino Interactions (rus, 117.208)

Smirnov O. Yu.,
Agostini M.,
Appel S.,
Bellini G.,
Benziger J.,
Bick D.,
Bonfini G.,
Bravo D.,
Caccianiga B.,
Calaprice F.,
Caminata A.,
Cavalcante P.,
Chepurnov A.,
D'Angelo D.,
Davini S.,
Derbin A.,
Di Noto L.,
Drachnev I.,
Etenko A.,
Fomenko K.,
Franco D.,
Gabriele F.,
Galbiati C.,
Ghiano C.,
Giammarchi M.,
GoegerNeff M.,
Goretti A.,
Gromov M.,
Hagner C.,
Hungerford E.,
Ianni Aldo,
Ianni Andrea,
Jedrzejczak K.,
Kaiser M.,
Kobychev V.,
Korablev D.,
Korga G.,
Kryn D.,
Laubenstein M.,
Lehnert B.,
Litvinovich E.,
Lombardi F.,
Lombardi P.,
Ludhova L.,
Lukyanchenko G.,
Machulin I.,
Manecki S.,
Maneschg W.,
Marcocci S.,
Meroni E.,
Meyer M.,
Miramonti L.,
Misiaszek M.,
Montuschi M.,
Mosteiro P.,
Muratova V.,
Neumair B.,
Oberauer L.,
Obolensky M.,
Ortica F.,
Pallavicini M.,
Papp L.,
Perasso L.,
Pocar A.,
Ranucci G.,
Razeto A.,
Re A.,
Romani A.,
Roncin R.,
Rossi N.,
Schönert S.,
Semenov D.,
Simgen H.,
Skorokhvatov M.,
Smirnov O.,
Sotnikov A.,
Sukhotin S.,
Suvorov Yu.,
Tartaglia R.,
Testera G.,
Thurn J.,
Toropova M.,
Unzhakov E.,
Vishneva A.,
Vogelaar R. B.,
von Feilitzsch F.,
Wang H.,
Weinz S.,
Winter J.,
Wojcik M.,
Wurm M.,
Yokley Z.,
Zaimidoroga O.,
Zavatarelli S.,
Zuber K.,
Zuzel G.
(Borexino Collaboration)
Borexino: Recent Results and Future Plans (51.853)
Abstracts

Titov N. A. on behalf of the KATRIN Project
KATRIN2016: Project Status and Systematic Error Investigations (rus, 62.031)

Zemskova S. on behalf of the OPERA Collaboration
Discovery of ν_{μ} → ν_{τ} Oscillations in the OPERA Experiment (38.744)
Abstracts

Author index (rus)

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