Measurement of the tensor analyzing power $T_{20}$ for the reaction $\gamma d \to p n \pi^0$ in the region of low proton energies

B. I. Vasilishin$^1$, V. V. Gauzshtein$^2$, E. M. Darwish$^4$, A. I. Fix$^1$, M. I. Levchuk$^3$, M. Y. Kuzin$^1$, A. Yu. Loginov$^5$, D. M. Nikolenko$^6$, I. A. Rachek$^6$, Yu. V. Shestakov$^6$, D. K. Toporkov$^6$, A. V. Yurchenko$^6$, S. A. Zevakov$^6$

In this paper, we present new experimental results for the tensor analyzing power $T_{20}$ of the reaction $\gamma d \to p n \pi^{0}$ in the region of low proton energies. The results are presented in the photon energy range of $300\,\text{MeV} < E_{\gamma}< 600\,\text{MeV}$ and the proton energy range of $10\,\text{MeV} < E_{p} < 40\,\text{MeV}$. The paper uses the experimental statistics accumulated at the VEPP-3 accelerator complex in 2013. To identify the events of the reaction $\gamma d \to p n \pi^{0}$, we used the registration of the proton and two $\gamma$-quanta from the decay $\pi^{0} \to 2 \gamma$ in coincidence. The experimental results were compared with the results of statistical simulation. To perform the statistical simulation, we used the unitary isobar model MAID 2007 for the elementary pion-nucleon photoproduction amplitude and took into account $\pi N$ and $N N$ rescattering in the final state of the reaction $\gamma d \to p n \pi^{0}$.

Secondary neutrons generated in proton therapy: modeling and simulation

M. B. Mohamed$^1$, Z. Sadoune$^1$, H. El Bekkouri$^2$, A. Didi$^3$, C. El Mahjoub$^2$

Proton therapy uses high-energy proton beams to kill cancer cells while spare surrounding healthy tissues, due to their Bragg peak characteristics, which has become the choice treatment for many types of tumors. However, the production of secondary neutrons by the interactions of primary protons with the body and the environment might provide undesirable extra radiation outside the treatment volume, which could reduce the benefit of this over the traditional radiation therapy. The purpose of this research is to evaluate the secondary neutrons produced from a spot scanning beam in the soft tissue phantom and their contribution in terms of dose mainly to the distal of the Bragg peak, the flux, and energy spectra as well as evaluated using the Monte Carlo code PHITS. According to this study, the contribution to the overall dose that occurred after the peak maximum was at least a thousand times lower. We concluded that this dose has no natural effect on a potentially application therapeutic.

JT Gravity, Random Matrix Theory and Third-Order Phase Transition

J. J. Zhou$^1$

The partition functions of Jackiw-Teitelboim (JT) gravity corresponds to random matrix integral. And we can define three different versions of bosonic JT gravity which are dual to matrix integrals of GUE, GOE and GSE, respectively. In fact, the largest eigenvalue λmax of the Gaussian unitary random matrix GUE is described by the Tracy-Widom distribution. Then we show that there is a third-order order phase transition in the JT gravity as λmax crosses its mean value from left weakly coupled tail to right strongly coupled tail.

A. N. Sharov$^1$, D. V. Lukyanenko$^1$, A. V. Tikhonravov$^2$, A. G. Yagola$^1$

The paper presents a comparison of the results of simulating the processes of deposition of optical coatings using a simplified simulator and a full simulator that takes into account the main error-producing factors of deposition processes and control of coating layer thicknesses. For the simulators under consideration, the distributions of error vector norms in the layer thicknesses of coating, layer error correlation coefficients, and error self-compensation coefficients are calculated. It is shown that the simplified simulator allows one to obtain adequate results for evaluating the deposition process of real multilayer optical coatings and, thus, can be used for faster modeling of a large number of coatings with further analysis of their stability against manufacturing errors.

Neutron and Gamma Flux Distributions of an Americium–Beryllium Facility: Modelling and Simulation

A. Didi$^{1,2}$, H. Amsil$^1$, H. Bounouira$^1$, K. Laraki$^1$, H. Marah$^1$, H. Dekhissi$^2$, A. Dadouch$^3$, I. Aarab$^1$

This study aims to enhance and advance the technique of analysis by neutron activation, which is widely utilized in various industries. The use of alternative neutron sources, rather than nuclear reactors, is a crucial approach to prevent incidents. The primary objective of this research was to assess the neutron flux profile, lateral gamma flux, and axial gamma flux to determine the optimal location of a sample for efficient neutron irradiation. Furthermore, the feasibility of using an $^{241}$Am-Be neutron source facility as an alternative to a nuclear reactor for irradiation was evaluated through simulations conducted with the MCNP6 code.

V. S. Chernysh, D. K. Minnebaev, D. S. Kireev

Experimental results on sputtering of polycrystalline CuPt alloy under bombardment with 20 and 80 keV Ar$^+$ ions are reported. The sputtering yields of the alloy were measured using rather for back scattering spectrometry (RBS) of 2 MeV He$^+$ ions. The sputtering yield of the alloy was found to be less than the corresponding value for pure Cu target, but higher than the value for pure Pt. The results are discussed within the framework of modern visions on the effect of preferential sputtering of multicomponent materials.

E. Yu. Zykova, A. E. Ieshkin, K. F. Minnebaev, K. E. Ozerova, N. G. Orlikovskaya, E. I. Rau, A. A. Tatarintsev

To determine the effect of the surface potential of dielectric samples on the yield of positive ions during ion irradiation, we studied the dependence of the current of secondary particles on the thickness of dielectric films. It is shown that the yield of positive secondary particles increases significantly with increasing thickness if the film charging potential does not exceed the breakdown value determined by the electrical strength of the film. An indirect confirmation of the film charging in these experiments is the time dependence of the current from the sample holder. An experimental evaluation of the apparatus effect caused by the emission of secondary electrons from a hemispherical collector has been carried out. Possible mechanisms of the observed phenomena are discussed.

M. I. Sharipova, T. G. Baluyan, A. S. Sverchkov, D. A. Shilkin, V. O. Bessonov, A. A. Fedyanin

Three-dimensional microprinting by two-photon laser lithography is a promising way to manufacture X-ray lenses. However, as the radius of curvature approaches the voxel size, the refractive surface of the lens deviates from the specified shape, that leads to a deterioration in the focusing of X-ray radiation and astigmatism. In this work we suggest a method for correcting a model for 3D printing of a parabolic X-ray lens taking into account the finite voxel size.

D. A. Shilkin, K. R. Safronov, A. D. Rozanov, V. O. Bessonov, A. A. Fedyanin

One-dimensional photonic crystals that support the propagation of Bloch surface electromagnetic waves attract the interest of researchers as an alternative platform for integrated optics with potential applications in nanophotonics, sensing, and optical manipulation of micro- and nanoparticles. In this paper, we numerically study the properties of surface wave modes in curved waveguides on top of a one-dimensional photonic crystal. It is shown that, when the waveguide is bent, an additional channel of radiation losses appears, which is associated with light leakage from the surface wave mode into bulk modes of the photonic crystal, and the waveguide mode profile becomes asymmetric with respect to the middle of the waveguide. We also determine the conditions for minimizing transition losses, which occur at the junctions of waveguides with different curvatures, by transverse displacement of the waveguide facets relative to each other.

M. V. Sinyakov$^{1,2}$, A. A. Zasypkina$^1$, V. V. Tishkin$^1$, N. A. Ivanova$^1$, E. A. Vorobyeva$^{1,3}$, O. K. Alekseeva$^1$

During the operation of electrochemical devices with a proton exchange membrane, the electrode is gradually destroyed and degrades at the anode side under the influence of oxygen. Performance and service life of electrodes in electrochemical devices can be increased by applying Ti-based protective coatings to the surface of current collectors. Nanostructured coatings of Ti, TiO$_x$, ТiN$_y$, TiO$_x$N$_y$ compositions were obtained by magnetron sputtering using a titanium target under various conditions. The structure and composition of the samples were studied by scanning electron microscopy, energy dispersive X-ray spectroscopy and X-ray phase analysis. The influence of various modes and conditions of magnetron sputtering on the composition and structure of titanium coatings has been established. The service life of the ТiN$_y$ coated electrode in the electrolyzer mode is two times higher than that of the uncoated anode under similar conditions with comparable performance.

A. G. Khundjua, E. A. Brovkina

The aim of the work is to analyze the relationship of the architecture of self-accommodation complexes (SC) with the lattice syngony of martensite crystals. Self-accommodating complexes consist of a set of pairwise twinned domains – crystals of martensite belonging to crystallographically equivalent variants of the orientation relationship between the lattices of austenite and martensite. The simplest SC are calculated for tetragonal, orthorhombic, rhombohedral and monoclinic distortion of the cubic lattice of austenite. It is shown that complete self-accommodation is possible only in complexes containing simultaneously all variants of the orientation relation. The issue of external faceting of complexes is discussed. The reason for the formation of SC is the minimization of elastic energy, i.e. the appearance regulated by the energy of the interphase boundary. On the other hand, if the outer surface of the SC is a polyhedron, then its symmetry should "fit" into the anisotropy of the elastic properties of austenite. For reasons of symmetry, it is clear that the polyhedron must be correct and have the same symmetry elements as the cubic lattice of austenite, while the axes of symmetry of the cubic lattice of austenite must coincide with the axes of symmetry of the polyhedron. Similar polyhedra are some of the bodies of Platon and Archimedes, which have axes of symmetry of the 2nd, 3rd and 4th order. A number of examples calculated in the work confirms the possibility of the existence of complexes in the form of these polyhedra.

T. T. Muratov

in article is considered

A. A. Ivanova, I. V. Mursenkova

The motion of quasi-plane shock waves with Mach numbers М = 2.20–3.50 in the plasma of a nanosecond combined volume discharge in air at an initial pressure of 10–100 Torr has been experimentally studied on the basis of high-speed shadow registration of the flow field. The dynamics of shock-wave configurations after the discharge at various stages of an unsteady supersonic flow, which is formed after the diffraction of a plane shock wave by a rectangular obstacle, is studied. An increase in the velocity of the shock wave front over a time interval of up to 15 µs in a plasma region of 9–40 mm long and its dependence on the plasma parameters is found. An analysis of relaxation processes in plasma showed that the acceleration of the shock wave front can be caused by air heating due to the quenching of electronically excited nitrogen molecules, in which the internal energy is converted into thermal energy at times up to 30 μs.

I. I. Tsiniaikin$^1$, G. V. Presnova$^2$, I. V. Bozhev$^1$, A. A. Skorik$^1$, M. Yu. Rubtsova$^2$, A. S. Trifonov$^1$, O. V. Snigirev$^1$, V. A. Krupenin$^1$, D. A. Presnov$^{1,3}$

We present a CMOS compatible technique for fabrication a sensor system based on field-effect transistors with a nanowire channel with an integrated thermoregulation elements. The proposed system provides the necessary temperature regimes for many bioanalytical studies. Field-effect transistors with a nanowire channel were fabricated using of reactive-ion etching of the upper layer of a silicon on insulator through a mask formed by electron beam lithography. Titanium thermoresistive strips for temperature control were located on the surface of the chip nearby to the nanowire transistors. Their fabrication is carried out simultaneously with the formation of contact pads to the transistor electrodes, which made it possible to avoid additional technological steps. A demonstration of a system with a built-in temperature controller for the determination of nucleic acids was carried out on model oligonucleotides. Increasing the operating temperature of the device to the ranges at which DNA hybridization occurs most efficiently allows increasing specificity and avoiding false positive results, as well as reducing analysis time. The possibility of heating up to 85-90°C allows you to reuse such devices.

A. M. Tatarnikov$^{1,2}$, A. A. Tatarnikov$^{1,2}$

In this paper, we consider a method for determining the coefficients of the transformation equations between different photometric systems based on the photometry of all field stars recorded during observations of the primary standards of one of the photometric systems. Using this method, the coefficients of color transformation equations between the photometric system of ASTRONIRCAM of the 2.5-m telescope KGO SAI MSU and the 2MASS all-sky survey catalog photometric system are obtained.

P. A. Budnikova$^1$, N. V. Emelyanov$^2$, B. S. Safonov$^2$

The aim of this article is to analyze the dynamics of the Linus satellite of the asteroid (22) Kalliope. New results have been obtained, and now they are being published. New observations of the satellite were made at the Caucasus Mountain Observatory of the SAI from October 2021 to March 2022. The obtained astrometric results are presented in the article. Based on the updated set of observations, the parameters of the satellite's orbit were re-determined. An increase in the accuracy of ephemeris with the addition of new observations is shown. A new attempt was made to determine the precession of the satellite's orbit caused by the compression of a rapidly rotating asteroid. The goal was to determine the dynamic compression of the central body. The entire observation interval is divided into groups. From the observations of each group the position of the axis of the satellite's orbit was found. Changing the position of the axis gives the desired precession. Studies on several examples show that the position of the axis from such groups of observations is determined very unreliably. The reason lies in the strong correlation between the determined parameters with limited observational accuracy. Ways of studying precession are outlined by joint determination of dynamic parameters on the basis of all available observations.