Modification of the copper slab surface submicrorelief by applying high-density electric current

The modification of the copper slab surface submicrorelief by applying a current pulse of density higher than J _thr. The passage of a high-density current is shown to change the pattern of the copper slab polished surface, resulting in the formation of regular periodic structures. These structures are produced when moving dislocations emerge on the specimen surface.     

Long-range influence of weak optical irradiation of silicon

We report a new effect, observed experimentally in silicon under irradiation with visible-range light with a power density of 0.2–1.5 W/cm² for 8 s. The effect consists in an increase of microhardness on the side opposite to the irradiated side and is not purely thermal in character. After irradiation, the changes decrease exponentially with time with an activation energy of 0.75±0.05 eV, a value which is characteristic for the migration and reorientation of one of the types of intrinsic interstitial atoms. A qualitative explanation is given for the effect on the basis of a model previously proposed for the case of long-range influence of ion irradiation. Pis’ma Zh. éksp. Teor. Fiz. 70, No. 6, 381–385 (25 September 1999)     

Photophoresis—Light induced motion of particles suspended in gas

When irradiated sideways, by visible light, a particle can perform different kinds of motion, (e.g. in direction of irradiation, opposite to irradiation, vertical movement, helicoidally, etc.). This phenomenon is called photophoresis. Photophoresis is based on momentum transfer between the aerosol particle and surrounding gas molecules. Photophoresis strongly depends on the pressure of the surrounding gas. Particles mostly influenced by photophoresis are those of μm size. Two main types of forces describe photophoretic motion: ΔT force: The thermal accommodation coefficient α is constant over the particle surface. As a result of the thermal accommodation, gas molecules on the warm side of a particle leave the surface faster than gas molecules on the cold side. This leads to ΔT force on the particle towards the colder side. Typical motion of the particle will be either away from light irradiation (positive photophoresis), or in direction of light irradiation (negative photophoresis). In the case of negative photophoresis, the back side of the particle, due the nature of light absorption, will be heated more than front side of the particle. Δα force: If the particle is at a constant temperature, which is different from the temperature of the surrounding gas, and the thermal accommodation coefficient α varies over the particle surface, the net momentum between gas molecules and particle will be transferred. In this case, the result will be body fixed Δα force. Depending on the particle surface properties, Δα force can direct the particle in any possible photophoresis could also play important role in planet formation and astrophysics.     

Study of the long-range effect by the method of Rutherford backscattering with ion channeling under light irradiation of silicon

The results of a study of the effect of light irradiation of silicon on the spectra of Rutherford backscattering with ion channeling (RBSC) in the side opposite to the irradiated one are presented. It is shown that the integral yield of backscattered He⁺ ions increases as a result of irradiation (the long-range effect); in this case, the shape of the dependence of the effect size on the irradiation time is bell-like and agrees qualitatively with the results obtained by hardness measurements previously. These data show light generation of a high concentration of movable defects near the opposite plate side.     

Photoinduced transformation of luminescence centers in C60 crystals at high pressure

The influence of laser irradiation on the photoluminescence spectra of perfect C₆₀ crystals in the orientationally disordered phase is investigated. It is shown that irradiation of the crystals with low-power light for short durations at T=200 K produces radical changes in the luminescence spectrum. The pressure dependences of the spectral bands of the phototransformed and initial (without irradiation) spectra differ significantly, indicating a photoinduced structural transformation of the X centers responsible for the luminescence of C₆₀. The phototransformed C₆₀ crystals are stable against further exposure to light irradiation and pressure. Pis’ma Zh. éksp. Teor. Fiz. 70, No. 12, 784–788 (25 December 1999) Deceased.     

Effects of pulsed irradiation by low-energy ions during homoepitaxy of silicon from a molecular beam

The change in the morphology of a Si(111) surface under pulsed irradiation by 145-eV Kr⁺ ions with a pulse duration of 0.5 s during epitaxy of silicon from a molecular beam is studied experimentally by RHEED. It is found that pulsed irradiation by low-energy ions intensifies the specular reflection. This corresponds to a decrease in the roughness of the growing surface. It is shown that the observed effect depends strongly on the degree of filling of the surface atomic layer, the substrate temperature, and the ion current density. Pis’ma Zh. éksp. Teor. Fiz. 64, No. 10, 689–694 (25 November 1996)     

超热电子产生的靶后相干渡越辐射光谱实验研究

利用OMA光学多道分析仪测量了激光与薄膜靶相互作用中产生的辐射光谱，在靶后观察到红移的二次谐波发射. 这种二次谐波是v×B加热产生的、具有微脉冲结构的超热电子束在等离子体-真空边界产生的相干渡越辐射(CTR). 随着激光能量的增大，红移峰向长波方向移动，光谱同时发生展宽. 分析认为，等离子体临界面的迅速膨胀是导致二次谐波红移的主要原因. 随着预脉冲能量的增大，临界面膨胀速度增大，导致了发射峰更大的红移. 实验还测量了靶面法线方向的辐射光谱，观察到基频辐射的红移和展宽. CTR为诊断临界面的运动方向和速度提供了一种新的方法. 关键词： 相干渡越辐射 超热电子 超短超强激光 等离子体相互作用     

Phototransformations in polysilane films

The absorption (T=295 K) and luminescence (T=5 and 295 K) spectra of films of alkyl and aryl substituted polysilanes, namely, poly(dihexylsilane) (PDHS) and poly(methylphenylsilane) (PMPS), are investigated as functions of the time and the wavelength of light irradiation at T _irr=5 and 295 K. It is shown that the photodegradation in polysilane films depends on the temperature, irradiation wavelength, and the structure of side substituents. The absorption of light by short chain segments in polysilanes at room temperature leads to competitive processes such as the transfer of excitation energy to longer segments, the scission of σ bonds between Si atoms, and the radiationless dissipation of excitation. It is revealed that, at T _irr=295 K, the photo-degradation of PDHS films is accompanied by the transformation of certain chain segments from a low-temperature trans conformation with an ordered arrangement of side hexyl groups to a high-temperature helical conformation with a disordered arrangement of side groups.     

Formation of a two-dimensional periodic structure of local melting regions on a silicon surface upon pulsed light irradiation

The first results regarding the formation of a two-dimensional periodic structure of local melting regions on a silicon surface upon pulsed light irradiation are presented. The conditions are established, and the mechanism of the formation of such structures is discussed. Zh. Tekh. Fiz. 67, 97–99 (December 1997)     

Defect concentration profiles near the surface in nickel irradiated with 2 MeV electrons

Abstract

In the next nearest surface region the vacancy concentration is constant and independent of the irradiation temperature between 750 and 300°C and decreases with increasing electron flux. The conentrations of interstitials and of vacancies in the sink-free bulk of the material are equal and depend on the irradiation temperature, and are almost independent of the irradiation flux. The activation migration energies of vacancies and of interstitials decrease with increasing irradiation flux.It is further shown that the dynamic steady state defect concentrations resulting from the rate equations are artificial concentrations, which will not be achieved in finite times.     

Electron Energy Function Distribution in Hollow Cathode Discharge at Resonant Irradiation

Abstract

The behaviour of electron energy function distribution in hollow cathode discharge at resonant light irradiation is analyzed. The function is calculated for energies near and higher than the energy excitation ?₁ of the hellium metastable levels. It turns out that the electron energy function distribution is essentially influenced in the vicinity of point ?₁.     

Photoinduced formation and aggregation of silver nanoparticles at the surface of carboxymethylcellulose films

Formation and aggregation of photolytic silver nanoparticles at the surface of silver salt of carboxymethylcellulose films (CMCAg films) have been investigated. Detailed X-ray photoelectron spectroscopy (XPS) study and field emission type scanning electron microscopy (FE-SEM) observation have been carried out to characterize silver nanoparticles at the film surface. When the CMCAg films were irradiated with UV light in wet air at room temperature for 30–60 min, silver nanoparticles of ca. 10 nm size were formed at the irradiated surface. According to the FE-SEM observation, the growth of the particle diameter and aggregation of nanoparticles took place after prolonged irradiation, and finally, the irradiated side of the film surface was densely covered with the silver nanoparticles of ca. 35 nm size. Chemical composition analysis by the XPS measurements has confirmed the increase in the atomic concentration of silver with irradiation time. It is suggested that silver atoms and clusters can move in the film and precipitate at the irradiated surface.     

Formation of the composition and topography of surface layers of Cu50Ni50 foils under laser irradiation

The influence of the laser radiation power density on the changes in the composition and mechanical properties of surface layers of Cu₅₀Ni₅₀ foils has been investigated using X-ray photoelectron spectroscopy, scanning probe microscopy, X-ray diffraction, and microhardness measurements. It has been found that, after laser irradiation, the redistribution of elements occurs in the surface layer with a thickness of ～30 nm on the irradiated side of the foil. It has been revealed that there are microdistortions in the crystal lattice of the alloy, microdeformations of grains, and variations in the microhardness of the irradiated surface. The mechanisms explaining the observed changes in the foils after laser irradiation have been proposed.     

Effect of ion sputtering on the statistical properties of a surface

The modification of a gallium arsenide surface during irradiation by heavy cesium ions Cs⁺ is investigated by measuring the surface height distribution with an atomic force microscope. Both increases and decreases in the rms height σ, an integral parameter of the surface, are observed to occur. It is established that for all experimental samples the roughness of the gallium arsenide surface increases in a 1–100 nm lateral range. Analysis of the structure function yields an estimate of the characteristic lateral dimensions of the surface structures arising during ion etching. Zh. Tekh. Fiz. 69, 107–111 (February 1999)     

Propagation of magnetostatic backward surface waves in ferrite-insulator-metal structures magnetized by linearly nonuniform magnetic fields

A theoretical study is made of the trajectories and of the changes in magnitude and direction of the wave vectors of magnetostatic backward surface waves with different frequencies propagating in ferrite-insulator-metal structures with different insulating layer thicknesses and magnetized by a linearly nonuniform static field. It is shown that both forward and backward magnetostatic surface waves (MSSWs) propagate in a waveguide channel, on one side of which MSSWs undergo mirror reflection and on the other side of which their propagation direction is rotated, independently of the thickness of the insulator in the structure. It is shown that when MSSWs propagate in a nonuniform field, the forward wave is converted into a backward wave and, under certain conditions, the backward wave is converted into a forward wave. Some features of the propagation characteristics of magnetostatic backward surface waves are determined. Zh. Tekh. Fiz. 69, 70–77 (February 1999)     

Implications of neutron spectrum and flux differences on fission-fusion correlations at high neutron fluence

Abstract

The application to fusion environments of materials data derived from fission reactors involves considerations related not only to neutron spectra but also the often dominant effect of displacement rate. It is shown in this paper that fission-fusion correlation experiments directed toward helium effects and PKA recoil spectra are frequently difficult to interpret due to the strong influences of displacement rate, low energy recoils from thermal neutron absorption and in some cases a large influence of solid transmutants. It is also shown that materials data published in earlier decades must be reevaluated in light of recent advances in defining irradiation parameters.     

Photoinduced color centers creation in superionic crystals RbAg 4 I 5

Abstract

A new phenomenon of a reversible photoinduced coloration caused by light irradiation is discovered and investigated in superionic RbAg ₄ I ₅ crystals. The reversible photoinduced absorption is found to be a result of irradiation by light with wavelengths in the region from 420 nm to 450 nm. The proposed mechanism of the discovered effect is associated with ambipolar diffusion of screened by mobile ions optically excited electronic carriers. The processes of color centers creation in superionic crystals RbAg ₄ I ₅ due to additive coloring in iodine vapours, ionic implantation and γ-ray irradiation are considered.     

Photo- and thermo-stimulated luminescence of CsI—Tl crystal after UV light irradiation at 80 K

Abstract

Thermo- and photo-stimulated luminescence are studied for CsI—Tl crystal after the irradiation with the UV light at 80 K. Creation spectrum of the photostimulated luminescence coincides with the D absorption band of Tl⁺ ions. Nature of the defects created by UV light at low temperatures is discussed basing on the correspondence between the thermostimulated glow curve peaks and thermal evolution of the photostimulation spectra observed after irradiation in the D absorption band. Three bands at 1400, 950 and 580 nm have been observed in the stimulation spectrum at 80 K. The 1400 and 950 nm stimulation bands are presumably explained as the optical transitions in the Tl⁰ centre forming the spatially correlated defect pair with V_k centre while the 580 nm stimulation band is connected with the unperturbed Tl⁰ centres. It is concluded that the Tl⁺ luminescence at low temperature is connected with the electron recombination with the Tl²⁺ centre.     

On the effect of photoinduced emission of alkali atoms from a paraffin coating on the rate of spin relaxation of atoms in the volume of a cell

The effect of photoinduced emission of alkali atoms from the paraffin coating of a cell on the spin relaxation time of the atoms was studied experimentally. No effect was detected. It was additionally found that long irradiation of the cell surface by light with a power density of about 1 mW/cm² does not cause any degradation of the coating in spite of almost complete removal of the atoms from the coating due to their photostimulated diffusion in the layer and photodesorption. After the irradiation is complete, the surface contacting with the alkali vapor is again saturated with the alkali atoms with a time constant of about 1 h.     

Surface photoemission from ultrathin potassium films adsorbed on tungsten

The initial stage of formation of ultrathin potassium films on W(100) is studied by threshold photoemission spectroscopy using p-and s-polarized light in a photon energy range of 1.6–3.5 eV. It is found that the photoemission current spectrum depends on the surface coverage by the alkaline atoms. Mathematically, this shows up as the dependence of the matrix elements responsible for photoemission excitation on surface coverage. The matrix elements vary because the photoelectron escape depth is small; hence, the emission comes from the surface layer under irradiation by both p-and s-polarized light.