Are you a researcher?
Create a profile to get free access to personal recommendations for colleagues and new articles.
SCImago
Q2
WOS
Q2
Impact factor
1.7
SJR
0.584
CiteScore
3.6
Categories
Nuclear and High Energy Physics
Areas
Physics and Astronomy
Years of issue
1966-2025
journal names
Nuclear Physics A
Nuclear Physics
NUCL PHYS A
Top-3 citing journals

Physical Review C
(202378 citations)

Nuclear Physics A
(180495 citations)
Top-3 organizations

National Institute for Nuclear Physics
(1166 publications)

Joint Institute for Nuclear Research
(740 publications)

University of Tokyo
(722 publications)

Central China Normal University
(32 publications)

Homi Bhabha National Institute
(31 publications)

Lawrence Berkeley National Laboratory
(30 publications)
Most cited in 5 years
Found
Publications found: 505

Assessment of the stability of spring wheat agrocenosis with application of 15N and seed inoculation with biologics
Zavalin A.A., Nyambose J., Chernova L.S.
The purpose of the research is to study the effect of various doses of nitrogen fertilizers and biological products on the functioning of the agroecosystem of spring wheat on dark gray forest soil. The work was performed in two tabs of the micropole experiment in 2020–2021, the scheme of which assumed the study of the following options: N45Р45К45 (background), background + Extrasol based on strain H-13 (standard), background + endophytic strain V 167, background + endophytic strain 417, N90Р45К45. When applying N45 and N90 against the background of PK, plants consume 46 and 42 % of labeled fertilizer to form a crop, respectively. When using biologics against the background of N45, the use of N-fertilizer reaches 51…53 %. 33…36 % of the applied dose of 1⁵N is fixed in the soil, when using biologics, the value of this indicator decreases to 30 %. When adding ammonium nitrate, 33…36 % of 1⁵N is lost, and when using biological products, losses are reduced to 16…18 %. The use of biological preparations for seed inoculation leads to the fact that after harvesting spring wheat, there is less mineral nitrogen in the soil by 0.47…0.51 g/m2, which indicates its best use by plants. According to the criterion of the ratio of reimobilized nitrogen to mobilized nitrogen (RI: M = 25…31 %) the agrocenosis of spring wheat, when applying nitrogen fertilizer and inoculating seeds with biologics, functions in resistance mode and the level of exposure is estimated as the maximum permissible. According to the rationing criterion, which is estimated in relation to the ratio of net mineralized nitrogen to reimobilized (NM: M = 2.24…2.98), the agrocenosis of spring wheat is in stress or resistance mode. The use of an endophytic biopreparation based on the V 417 strain leads to the fact that the agrocenosis of spring wheat functions in resistance mode at the maximum permissible level of exposure.

Research of the method of selective laser sintering for strengthening soil tillage working organs
Mironov D.A., Lamm A.K., Rasulov R.K.
One of the technologies for increasing the service life of working bodies is applying a hardening layer with a material that is more resistant to wear. The study was conducted to evaluate the efficiency of the selective laser sintering (SLS) method for hardening soil-cultivating working bodies. The plasma-powder surfacing method was considered as a comparison option. The studies were conducted on a circular soil test bench, which was a rotor with racks rotating in a cylinder filled with an abrasive medium for rapid surface wear, on which samples were attached. Four experimental samples made of 30KhGSA steel were studied. The dimensions of the hardening layer were determined by calculation. After that, it was applied with P6M5 metal powder using the SLS method to 2 samples, one was hardened before heat treatment, the second after. Similarly, but using FBH-6-2 powder, 2 samples were made using plasma-powder surfacing. The bench test duration was 152 h. The linear wear of the samples when hardened by the SLS method before heat treatment was 1.3 mm, after heat treatment – 0.83 mm, by the plasma method – 1.1 mm and 1.2 mm, respectively. The hardness values that stand out from the others, with the SLS method are observed in the hardening layer zone: the sample before heat treatment is 65 HRC, after it – 73 HRC. With the plasma method, the difference in hardness is observed in the zone near the hardening layer: before heat treatment – 45 HRC, after – 35 HRC. The use of the selective laser sintering method for hardening the blade part of the experimental samples ensured a decrease in the consumption of metal powder, in comparison with the plasma method, by 32 %, an increase in wear resistance of the samples according to the calculated data – by 26 %, on the circular soil stand – by 24 %.

The influence of various plant protection systems on micromycetes in potato cultivation in the conditions of the lower Volga region
Novikov A.A., Rodin K.A., Melnik S.V., Kazhgaliev A.S.
The research was carried out in order to compare the effect of various plant protection systems on the quantitative composition of soil micromycetes when growing potatoes in irrigated of the Lower Volga region. The work was carried out in 2021–2023 in the Volgograd region on light chestnut heavy loamy soils under irrigation by sprinkling in Gulliver cultivar plantings. The degree of infection of potato tubers was assessed on three variants of protection systems: I – biological; II – chemical (control); III – integrated. The experience was laid out in three–fold repetition, the accounting area of the plot was 294 m2. In the pre-sowing soil samples, the number of saprophytic myrcomycetes was 71.93…91.8 %, among which the most common were fungi of the genus Penicillinum sp. (33.6…44.2 thousand CFU/g), and the rest are represented by fungi of the genus Thrichoderma sp. (0…2.5 thousand CFU/g), Aspergillus sp. (1,24…19,7 thousand CFU/g), and Rhizopus sp. (0…8.1 thousand CFU/g). Representatives of the genus Fusarium sp. are noted among the pathogens. (5,8…9,92 thousand CFU/g). A higher percentage of saprophytic (Penicillinum sp., Thrichoderma sp.) was observed in soil samples after the use of biological agents. Aspergillus sp., Rhizopus sp.) of micromycetes (73.9 %) than after the use of chemicals (61 %) and an integrated system (59.6 %). Thus, representatives of the genus Penicillinum sp. were 15.6 % more than with the use of chemicals, Thrichoderma sp. by 70 %, Aspergillus sp. by 77.8 %. The number of pathogenic micromycetes (Fusarium sp.) in soil samples after the use of biological compounds was 26.1 %, chemical compounds 38.9 %, integrated system 40.3 %. Thus, the use of biological protective agents in potato cultivation in the conditions of the Lower Volga region during irrigation contributes to an increase in saprophytivity and a decrease in the pathogenicity of soil microflora and is a promising technique.

Extraction of heavy metal ions from aqueous solutions by frame sorbents based on benzene-1,3,5-tricarboxylate (MBTC) and benzene-1,4-dicarboxylates (MB DC) of various metals
Mushtakov A.G., Markova E.B., Kurochkin A.V., Anistratov N.A., Zaytsev Y.M., Guseva E.A., Skvortsova L.G., Cherednichenko A.G., Glinushkin A.P.
Pollution of soils and water sources with heavy metals leads to negative consequences for the environment associated with disruption of ecosystem balance, harm to the health of living organisms and humans. To solve this problem, organometallic frame sorbents capable of efficiently extracting heavy metal ions from aqueous solutions have been synthesized. During the conducted research, the regularities of the adsorption of cadmium, lead, copper, cobalt and nickel ions were studied using synthesized frame sorbents based on benzene-1,3,5-tricarboxylates (MBTC) and benzene-1,4-dicarboxylates (MBDC). The identification analysis performed on diffractograms of CoBTC and NiBTC powders showed the presence of structures [Co3(BTC)2·12H2O] and [Ni3(BTC)2·12H2O]. Unlike NiBTC, NiBDC dicarboxylate crystallizes in triclinic syngony (spatial group P1¯, Z = 1) and corresponds to the crystal structure [Ni3(OH)2(BDC)2··4H2O], the sample of the CuBTC compound crystallizes in cubic symmetry with the space group Fm3¯m (Z = 16) and corresponds to the crystal structure [Cu3(BTC)2·3H2O], and the CuBDC compound has a structure belonging to the monoclinic symmetry. The results of the analysis of isotherms of low-temperature nitrogen adsorption using synthesized MOFs made it possible to determine important textural characteristics of sorbents. It was noted that a strong adsorbate-adsorbent interaction is realized for CoBTC in the micropore region. It is shown that the specific surface area of synthesized sorbents, calculated by the Brunnauer-Emmett-Teller (BET) method, varies widely. Thus, for CoBTC and NiBTC compounds, it was 276.0 and 9.0 m2/g, respectively. The noted differences are due to the presence of a large number of micropores in the sorbent CoBTC. In most cases, the kinetic patterns of the adsorption of heavy metal ions can be described by a pseudo-second-order equation. The only example of the process proceeding according to the kinetic equation of the pseudo-first order is the adsorption of copper ions on the NiBDC sorbent. It is noted that cobalt, nickel and copper ions are better absorbed by sorbents containing the corresponding ions of the same name according to the Paneta-Faience rule. The linear relationship found between the sorption capacity and the logarithm of the ratio of the radius of ions to their electronegativity implies that the mechanism of adsorption of metal ions on MOFs is determined by the physicochemical properties of the ions themselves. The developed organometallic frame compounds can be effectively used in technologies for purification of water resources from toxic heavy metal ions.

Tractor-free agriculture is an intersectoral end-to-end technology of agriculture
Zavrazhnov A.A., Zavrazhnov A.I.
The article presents a new technological direction – «tractor-free agriculture». Its advantages are proved and the attributes that translate this technological direction into the category of intersectoral end-to-end technology are determined. The paradigm of «tractor-free farming» declares the rejection of the use of classic tractors of traction and traction-energy concepts and defines the transition to mobile energy modules-transformers of the energy concept. The principles of the energy concept determine the maximum possible use of engine power for useful movement and execution of work processes, which ensures high efficiency of «tractor-free farming». The use of sets of mobile power transformer modules of electric drive type, complete with technological modules, instead of tractors, ensures maximum technical and technological equipment of agricultural industries for all conditions and various technological operations. The authors have proved that «tractor-free farming» is the most effective in the field of industrial horticulture and nursery farming, characterized by a wide range of conditions and a variety of technological operations performed. The article provides examples of basic configurations and technical appearance of «tractor-free farming» products for the industrial horticulture and nursery industry. The intersectoral nature of the new technological direction makes it possible to effectively use products of «tractor–free agriculture» in other sectors of agriculture – vegetable growing, breeding and seed production, as well as in municipal and urban logistics. An example of the practical implementation of individual fragments of «tractor-free farming» products in industrial gardening can be an existing model demonstrator of a garden e-Drone, with the pilot name «Russian Shuttle», created at the INTECH Engineering Center of the Michurinsk State Agrarian University. This product with a load capacity of up to 1000 kg and an operating speed from 0 to 30 km/h is designed for harvesting and transporting fruits. A distinctive feature of the Russian Shuttle garden drone is the use of 2 mass–produced electric drive bridges with a capacity of 1.2 kW, which significantly reduces its cost (by 10 times) compared to existing foreign self-propelled garden platforms.

Indicators of soil fertility of typical chernozem after prolonged use of various fertilizer systems
Tyutyunov S.I., Navolneva E.V., Dorokhin K.V., Logvinov I.V., Poymenov A.S.
The research was carried out in order to study the effect and aftereffect of various fertilizer systems on the main indicators of fertility of typical chernozem. The work was carried out in a long-term field experience in the grain crop rotation in the conditions of the Belgorod region. The soil of the experimental site is typical medium–sized low-humus heavy loam chernozem on loess-like loam. The scheme of the experiment provided for the study of the effect of mineral fertilizers, in doses of N64P64K64 and N128P128K128; organic fertilizers with crop rotation saturation of 8 and 16 t/ha of the crop area (s. p.) and combinations of organic and mineral fertilizers. Three methods of basic tillage were analyzed: plowing, non-tillage and minimal tillage. During six rotations of the five-field crop rotation, without the use of fertilizers, humus losses amounted to 0.06…0.27 %, with an actual content of 4.96…5.15 %; the content of mobile phosphorus decreased by 2.8…9.2 mg/kg, and was at the level of 47.6…51.2 mg/kg; and mobile potassium remained almost at the same level (108.4…116.2 mg/kg). To obtain the optimal content of the main nutrients in the soil, it is necessary to use an organomineral fertilizer system. In particular: the use of mineral fertilizers in doses of N64P64K64 or N128P128K128 for a background of 8 t/ha of bovine manure (cattle). At the same time, the humus content in these variants reached the maximum value and amounted to 5.30…5.64 %, mobile phosphorus 222.6 …255.1 mg/kg and mobile potassium 156.6…173.5 mg/kg. Or long-term use of cattle manure with a crop rotation saturation of 16 t/ha. At this level of fertilization, the humus content was 5.34 % (on average according to the method of basic tillage), phosphorus and potassium 122.0 and 143.3 mg/kg, respectively.

Reserves for increasing the yield of field crops on chestnut soils of the dry steppe of western Siberia
Kulik K.N., Garkusha A.A., Usenko V.I., Kravchenko V.I., Purgin D.V.
The research was carried out in order to assess reserves for increasing the yield of spring soft wheat, oats and sunflower on chestnut soils of the dry steppe of the south of Western Siberia to increase the productivity of arable land. The work was performed in 2016–2023 in a long-term stationary field experiment in the West Kulunda subzone of the Altai Territory. The experimental scheme provided for a comparative study of the effectiveness of field crop rotations with different saturation of wheat and sunflower on non-fertilized and fertilized (N30). On chestnut soils of the dry steppe, the effect of nitrogen fertilizers was decisive in changing the yield of wheat by pure steam (87.4 % influence), strong ‒ oats (68.2 %) and sunflower (57.5 %), significant ‒ wheat by non‒paired precursors (36.8 %), significant – arable land productivity (24.2 %), whereas The effect of crop rotation was decisive in changing the productivity of arable land (74.2 %), strong ‒ wheat by non-paired precursors (62.5 %), significant ‒ sunflower (41.4 %) and oats (31.5 %), weak ‒ wheat by steam (11.7 %). The most favorable conditions for wheat and sunflower were formed after steam, for wheat by non‒steam precursors – when placed after oats, and oats after wheat in grain-to-crop crop rotations with one sunflower field. The productivity of arable land was minimal in crop rotations without sunflower (0.46…0.57 thousand grain units/ ha), with its share of 16.7…25 % increased by 0.16…0.28 thousand grain units/ha (28.1…60.9 %), and at 50 % ‒ by 0.31…0.42 thousand grain units/ha (54.4…91.3 %), in relation to the grain-pair crop rotation and permanent wheat. The application of nitrogen fertilizers for the crops of these crop rotations provided an increase in arable land productivity by 0.15…0.25 thousand grain units/ ha (20.5…28.4 %), relative to the non-winded background, with a payback of 1 kg of nitrogen up to 8.33 grain units.

Development of technology for restoration and hardening of working bodies of tillage machines by laser surfacing
Shakhov V.A., Uchkin P.G., Zatin I.M., Golubev M.I.
The article proposes a technology for restoring and strengthening the working bodies of tillage machines, including laser surfacing with a mixture of powders containing tungsten carbide to obtain a wear-resistant work surface. The purpose of the study is to determine the rational operating parameters of laser surfacing for the formation of the microstructure of wear-resistant coatings. The laser layers deposited by surfacing were examined for the resulting structure and the resulting hardness to match the modes of laser surfacing and the indicators of abrasive wear resistance. A total of 121 samples were deposited. A mixture of powders is used as a wear-resistant material, including 43…53 % of the iron base in powder form PG-C27 «Sormayt», with particle sizes of 80 microns, 45…55 % of the hardening phase in the form of tungsten carbide with particle sizes of 15 microns and 2 % aluminum oxide Al2O3 nanopowder with particle sizes of 70 nm. During the study of the microstructure, the parameters of the surfacing mode were determined, allowing to achieve the necessary dendritic-cellular structure deposited wear-resistant coating of the ledeburite type: laser radiation power 2500…2700 W, the surfacing speed is 7…9 mm/s, the content of tungsten carbide is 49…53 % of the volume powder mixtures. Theoretical studies of the laser surfacing process aimed at obtaining coatings with increased hardness have made it possible to determine the rational operating parameters for surfacing wear-resistant coatings: the deposition rate is 7 mm/s; the content of tungsten carbide in the powder mixture is 51 %; the laser radiation power is 2700 watts.

The influence of cultivation technology on the content of trace elements in pea plants
Dubovik E.V., Dubovik D.V., Morozov A.N.
The purpose of the research is to assess the level of accumulation of copper, zinc, manganese, cobalt and iron by peas using various cultivation technologies. The work was carried out in 2020–2023 on chernozem typical of the Kursk region. Four agrotechnologies of pea cultivation were studied, based on various methods of basic tillage: traditional, differentiated, minimal, direct sowing. The copper content was highest in the roots with minimal technology (13.37 mg/kg), in straw and grain – with direct sowing (6.16 and 5.74 mg/kg). The maximum amount of zinc in the roots was provided by traditional technology and direct sowing (34.10 and 34.63 mg/kg), in straw – differentiated (13.35 mg/kg), in grain ‒ traditional and differentiated (28.06 and 28.86 mg/kg) technologies. The highest content of manganese in the roots was with differentiated technology (369.95 mg/kg), in straw and grain – with direct sowing (68.11 and 55.30 mg/kg). The maximum amount of cobalt in the roots was observed with direct sowing (7.05 mg/kg), in straw – with differentiated technology (4.44 mg/kg), in grain – with minimal technology and direct sowing (3.51 mg/kg). The iron content in the roots did not differ significantly with traditional, minimal technologies and direct sowing, and with differentiated, it decreased by 16.3…26.0 mg/kg. In pea straw, the lowest amount of iron was found with differentiated technology (270.27 mg/kg). During direct sowing, the highest concentration of iron in the grain was noted (135.7 mg /kg). The coefficient of biological accumulation of trace elements by grain was higher than by roots and straw. The highest values of this grain index for copper (24.33), manganese (27.68), cobalt (12.14) and iron (9.19) were noted with direct sowing, and for zinc – with differentiated (28.36) and minimal (28.31) technologies.

Economic and biological features of sheep obtained from crossing the Edilbaev breed with a dorper
Gorlov I.F., Slozhenkin M.I., Magomadov T.A., Yuldashbayeva A.Y., Shakhbazov O.P., Rajabov R.G.
The relevance of the work is due to the need to increase the efficiency of sheep farming in the southern regions of Russia to improve food security and increase the production of high-quality meat. The purpose of the study was to evaluate the effect of crossing Edilbaevsheep with dorper sheep on the productive and biochemical parameters of young animals in the southern regions of Russia. During the study, three groups of animals were formed: purebred sheep of the Edilbaev breed (control group), mixed young with an equal proportion of blood (½ Edilbaev × ½ dorper, the first group) and young with a greater proportion of blood dorper (¼ Edilbaev × ¾ dorper, the second group). The results showed that the young of the second group demonstrated the highest indicators in terms of live weight and improved biochemical characteristics. The live weight in this group was 10.3 % higher (p0.05) compared to the control group. The total protein level in the second group was 110.89±10.86 g/l, which exceeded the indicators of the control group (105.68±5.33 g/l) by 4.9 % (p0.05). It was also revealed that the serum calcium content in the second group exceeded the values of the first group by 84.3 % (p0.001), which indicates an improvement in mineral metabolism. The analysis confirms that crossing with the dorper breed improves the productive and physiological parameters of young animals due to the pronounced effect of heterosis, especially in the case of half-blooded animals.

Potential of productive longevity of legum-mint grass mixture in the south of Western Siberia
Boyko V.S., Timokhin A.Y.
Perennial legume-bluegrass herbaceous stands stabilize forage production for highly productive livestock farming and make a significant contribution to the nitrogen balance of agroecosystems in Western Siberia. The studies were conducted to study the effect of mineral nutrition conditions on the growth, development and dry matter yield of a mixture of goat’s rue and brome grass in the forest-steppe of Western Siberia. The work was carried out in 2000…2021 in a stationary field experiment on meadow-chernozem medium-deep medium-humus heavy loamy soil in the Omsk region. The experiment was laid out in the hatchery field of the 8-field crop rotation (eastern galega, eastern galega + brome, spring barley, field pea, sweet sorghum, alfalfa + brome, forage beans, millet + rapeseed) according to the scheme providing for the study of the following options: potassium fertilizer (factor A) – K0, K60; nitrogen fertilizer (factor B) – N0, N30, N60; soil supply with mobile phosphorus (factor C) – average (70…80 mg/kg according to F. V. Chirikov, background 0), increased (background I – 120, background II – 140 mg/kg), high (150…160 mg/kg, background III). The most balanced ratio of legume and bluegrass components was on the backgrounds with increased and high content of mobile phosphorus in the soil. Without the application of nitrogen fertilizers against these backgrounds, the competitive ability of goat’s rue increases, which is ecologically and economically effective. Against the background of irrigation, the yield of the grass mixture reaches 8 … 9 t/ha of dry mass in variants with a sufficient level of phosphorus (increased and high content) at 6.35 t/ha without fertilizers. In subsequent years, in the absence of irrigation, the picture changed towards a general decrease in yield to 5 … 6 t/ha of dry mass in fertilized variants at 3.60 … 4.81 t/ha in the variant without fertilizers. In the second decade, a reliable manifestation of yield growth in variants without nitrogen fertilizers is by 0.49 in 2011 … 2015 and by 0.99 t/ha in 2016 … 2021 on average by factor, due to an increase in the share of goat’s rue in the botanical composition.

Centenary of the «Fordson-Putilovets» tractor
Sharov V.V., Tsench Y.S., Serebryakov S.А., Dmitriev M.I., Melnikov D.V.
One hundred years ago, the serial production of the «Fordzon-Putilovets» wheeled tractor began at the «Krasny Putilovets» plant in Leningrad, which was a significant event in the history of machine building in the USSR. The start of production was preceded by the work of the Gosplan tractor commission, which was created to determine the tractor model and the enterprise for its production. (Research purpose) The research purpose is identifying the circumstances of the choice of the object and place of mass production of the tractor, determining the contribution of scientists to the work of the tractor commission; reflecting the importance of mass production in domestic engineering. (Materials and methods) Used sources reflecting the formation of tractor construction, archival materials of the V. P. Goryachkin Museum. Conducted research in accordance with the principles of historicism, scientific objectivity and reliability. (Results and discussion) It was shown that the process of initial tractorization of the country, in addition to purchases abroad and semiindustrial production of original designs, was also characterized by serial production of tractors according to foreign models. It was noted that the tractor «Fordzon» was recommended for mass production by the tractor commission of the State Planning Committee. The role of scientists V. P. Goryachkin and P. M. Belyanchikov, who organized the tests of the american tractor and determined its technical and operational characteristics, was revealed. The «Krasny Putilovets» plant was chosen as the place of mass production. (Conclusions) The tractorization of the country was carried out mainly due to the serial production of a tractor, the analogue of which was «Fordzon». Scientists V. P. Goryachkin and P. M. Belyanchikov were directly involved in the selection of this type of tractor. Its reproduction on «Krasny Putilovets» became possible thanks to the active position of the company’s management. The production of the Fordzon-Putilovets tractor contributed to the saturation of agriculture with traction machines, and the purposeful work on mastering the serial production of tractor equipment at the «Krasny Putilovets» plant marked the creation of the tractorbuilding industry in the USSR machine building.

Management of the technical condition of agricultural machinery using digital technologies
Dorokhov A.S., Kataev Y.V., Kostomakhin M.N., Petrishchev N.A., Pestryakov E.V., Sayapin A.S.
The studies were conducted to substantiate the development of devices and software for managing the technical condition of agricultural machinery using elements of artificial intelligence. The use of artificial intelligence makes it possible to implement a strategy for predictive maintenance and repair of C3 equipment – an integrated approach that allows you to determine the condition of a machine in operation and estimate when maintenance should be carried out. To do this, it is necessary to develop electronic diagnostic devices and sensors that can be combined into a single intelligent information complex that allows you to quickly collect and process large amounts of data on the parameters of the technical condition of agricultural machinery through the use of artificial intelligence. The object of the study is the hydromechanical gearbox of the Kirovets tractor for agricultural and industrial purposes. In 2022–2024, developed data collection devices, software and methods for assessing the technical condition of machines using artificial intelligence and neural network algorithms, and also described the manufactured digital diagnostic devices. Using the example of analyzing the operating parameters of the hydromechanical gearbox of the Kirovets tractor, the introduced concept of technical condition is specified, which consists in calculating the Yn parameter using a neural network, characterizing the nominal, permissible, limiting or emergency technical condition, and establishing recommendations to the owner on the type of possible work and service. Thanks to monitoring and analyzing the operating parameters of the gearbox using AI and continuous updating of the technical condition, technical maintenance and repair are carried out in a timely manner, which ensures technical condition management and increased reliability of agricultural machinery, minimizes failures and related equipment downtime.

The effect of the composition of hepatoprotective action on biochemical and morphostructural changes in the body of laying hens under thermal stress
Drozdova L.I., Krasnoperov A.S., Oparina O.Y., Malkov S.V., Belousov A.I., Chernitskiy A.E.
To reduce the negative effects of hyperthermia on the body of farm animals and poultry, various drugs and feed additives are currently used. Which do not have sufficiently adaptogenic and antitoxic properties. We studied the effect of a hepatoprotective composition consisting of dried live yeast, amorphous silicon dioxide, propylene glycol, calcium propionate, ascorbic acid, manganese, copper and zinc chelates, methionine and choline chloride on the variability of biochemical and morphological parameters of the body of laying hens under temperature stress. It was simulated by increasing the air temperature in a building where laying hens were kept from 18.0 ± 1.0 °C to 28.0 ± 1.0 °C for 48 hours. Due to hyperthermia, changes in biochemical and morphofunctional parameters were observed in the tissues and organs of birds. The obtained values of the biochemical parameters of blood serum in the birds of the control group indicated the intensity of the adaptive capabilities of their body. A complex of morphological changes confirmed a violation of protein metabolism and the regenerative-compensatory process. Pathological changes in the structure of the duodenum, characteristic of catarrhal-necrotic duodenitis, were identified. The stress reaction was also reflected in the condition of the heart muscle, in which an inflammatory process developed against the background of granular dystrophy of cardiomyocytes. The results of biochemical studies of blood serum in birds of the experimental group indicated an increase in the anti-stress response to a temperature stimulus under the influence of the studied composition (tendency to increase glucose and calcium, increase alkaline phosphatase activity by 47.4 %). The introduction of a hepatoprotective composition into the diet of laying hens during periods of temperature stress did not lead to disruption of the structure of tissues and organs, preserving cellular metabolic mechanisms. The

Use of microbiological preparations in the cultivation of promising soybean varieties in the Oryol region
Zotikov V.I., Zubareva K.I.
We studied the effect of microbiological preparations on increasing the yield of soybeans of different varieties. The work was carried out in the conditions of the Oryol region in 2019–2023. Objects of research: soybean varieties Leader 1, Mezenka, Orleya, Osmon, Zusha, as well as Biostim Start preparations, Rizoform Soya, Organit Р, Organit N, Pseudobacterin 3, Biodux, used in pre-sowing seed treatment and foliar feeding of soybean plants in phases 1…3 of trifoliate leaves and budding. The highest increase in soybean yield (6.0 %) compared to the control is provided by inoculation of seeds of the Zusha variety with Rizoform Soya in combination with Biostim Start. Pre-sowing seed treatment in combination with foliar fertilizing with preparations Organit Р, Organit N, Pseudobacterin 3, Biodux in the presence of native races of rhizobacteria in the soil contributed to the introduction of microorganisms included in their composition into the rhizosphere community of plants with subsequent participation in the activation of nitrogen nutrition processes of the latter. On average, for varieties, the number and weight of nodules in the variant with pre-sowing treatment and 2 foliar applications increased by 57.6 and 65 %, respectively, compared to the control, nitrogenase activity – by 67.3 %. The use of a combination of the preparations Organit Р, Organit N, Pseudobacterin 3 and Biodux by pre-sowing seed treatment and one foliar feeding in the phase 1…3 of trifoliate leaves provided the greatest increase in the yield of the Leader 1 variety 0.29 t/ha, Zusha – 0.35, Mezenka – 0 .40 t/ha. The maximum increase in protein content in grain was observed in the Mezenka variety in the variant with pre-sowing seed treatment and 1 or 2 foliar fertilizers – by 1.1 and 1.0 %, respectively.
Top-100
Citing journals
50000
100000
150000
200000
250000
|
|
Physical Review C
202378 citations, 21.68%
|
|
Nuclear Physics A
180495 citations, 19.33%
|
|
Physics Letters, Section B: Nuclear, Elementary Particle and High-Energy Physics
50339 citations, 5.39%
|
|
Nuclear Data Sheets
38589 citations, 4.13%
|
|
European Physical Journal A
34233 citations, 3.67%
|
|
Physical Review D
28855 citations, 3.09%
|
|
Physical Review Letters
23078 citations, 2.47%
|
|
Journal of Physics G: Nuclear and Particle Physics
21755 citations, 2.33%
|
|
Progress in Particle and Nuclear Physics
11326 citations, 1.21%
|
|
International Journal of Modern Physics E
11100 citations, 1.19%
|
|
Journal not defined
9379 citations, 1%
|
|
Journal of Physics: Conference Series
9363 citations, 1%
|
|
Journal not defined
8922 citations, 0.96%
|
|
Physics Reports
8880 citations, 0.95%
|
|
Journal of Physics G Nuclear Physics
7918 citations, 0.85%
|
|
Physics of Atomic Nuclei
7857 citations, 0.84%
|
|
Physica Scripta
7584 citations, 0.81%
|
|
Physical Review A
7346 citations, 0.79%
|
|
Annals of Physics
7031 citations, 0.75%
|
|
EPJ Web of Conferences
6772 citations, 0.73%
|
|
Reviews of Modern Physics
6385 citations, 0.68%
|
|
Landolt-Börnstein - Group I Elementary Particles, Nuclei and Atoms
6383 citations, 0.68%
|
|
Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
5504 citations, 0.59%
|
|
Il Nuovo Cimento A
5289 citations, 0.57%
|
|
Chinese Physics C
5204 citations, 0.56%
|
|
European Physical Journal C
5189 citations, 0.56%
|
|
Reports on Progress in Physics
4689 citations, 0.5%
|
|
Journal of High Energy Physics
4603 citations, 0.49%
|
|
Pramana - Journal of Physics
3663 citations, 0.39%
|
|
Nuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms
3657 citations, 0.39%
|
|
Nuclear Instruments and Methods
3622 citations, 0.39%
|
|
Lecture Notes in Physics
3588 citations, 0.38%
|
|
Astrophysical Journal
3447 citations, 0.37%
|
|
Journal of the Physical Society of Japan
3265 citations, 0.35%
|
|
Few-Body Systems
3176 citations, 0.34%
|
|
Nuclear Physics B
2803 citations, 0.3%
|
|
Atomic Data and Nuclear Data Tables
2760 citations, 0.3%
|
|
Chinese Physics Letters
2584 citations, 0.28%
|
|
International Journal of Modern Physics A
2333 citations, 0.25%
|
|
Modern Physics Letters A
2330 citations, 0.25%
|
|
Hyperfine Interactions
2314 citations, 0.25%
|
|
Zeitschrift für Physik A Hadrons and Nuclei
2195 citations, 0.24%
|
|
Czechoslovak Journal of Physics
2128 citations, 0.23%
|
|
Physics Letters
2049 citations, 0.22%
|
|
Physical Review B
1884 citations, 0.2%
|
|
Journal of Chemical Physics
1802 citations, 0.19%
|
|
Monthly Notices of the Royal Astronomical Society
1758 citations, 0.19%
|
|
Journal of Radioanalytical and Nuclear Chemistry
1740 citations, 0.19%
|
|
Lettere al Nuovo Cimento
1725 citations, 0.18%
|
|
Physics of Particles and Nuclei
1659 citations, 0.18%
|
|
Nuclear Physics B - Proceedings Supplements
1652 citations, 0.18%
|
|
AIP Conference Proceedings
1619 citations, 0.17%
|
|
Progress of Theoretical and Experimental Physics
1616 citations, 0.17%
|
|
European Physical Journal Plus
1558 citations, 0.17%
|
|
Bulletin of the Russian Academy of Sciences: Physics
1549 citations, 0.17%
|
|
Applied Radiation and Isotopes
1513 citations, 0.16%
|
|
Journal of Mathematical Physics
1493 citations, 0.16%
|
|
Progress of Theoretical Physics Supplement
1423 citations, 0.15%
|
|
Astronomy and Astrophysics
1378 citations, 0.15%
|
|
Annual Review of Nuclear and Particle Science
1337 citations, 0.14%
|
|
Communications in Theoretical Physics
1315 citations, 0.14%
|
|
Mesons and Light Nuclei ’95
1303 citations, 0.14%
|
|
Acta Physica Hungarica A) Heavy Ion Physics
1243 citations, 0.13%
|
|
Nuclear Science and Engineering
1216 citations, 0.13%
|
|
Computer Physics Communications
1176 citations, 0.13%
|
|
Journal of Physics A General Physics
1140 citations, 0.12%
|
|
Cluster Models for Surface and Bulk Phenomena
1123 citations, 0.12%
|
|
Europhysics Letters
1115 citations, 0.12%
|
|
Universe
1085 citations, 0.12%
|
|
Il Nuovo Cimento
1046 citations, 0.11%
|
|
Journal of Nuclear Science and Technology
1021 citations, 0.11%
|
|
Advances in High Energy Physics
1011 citations, 0.11%
|
|
Nuclear Science and Techniques/Hewuli
989 citations, 0.11%
|
|
Journal of Inorganic and Nuclear Chemistry
983 citations, 0.11%
|
|
Canadian Journal of Physics
956 citations, 0.1%
|
|
European Physical Journal: Special Topics
925 citations, 0.1%
|
|
Annals of Nuclear Energy
894 citations, 0.1%
|
|
Physics of Particles and Nuclei Letters
843 citations, 0.09%
|
|
Indian Journal of Physics
840 citations, 0.09%
|
|
Brazilian Journal of Physics
812 citations, 0.09%
|
|
Il Nuovo Cimento B
789 citations, 0.08%
|
|
Symmetry
783 citations, 0.08%
|
|
La Rivista del Nuovo Cimento
780 citations, 0.08%
|
|
Frontiers in Physics
763 citations, 0.08%
|
|
Annalen der Physik
711 citations, 0.08%
|
|
Science China: Physics, Mechanics and Astronomy
708 citations, 0.08%
|
|
Pure and Applied Physics
644 citations, 0.07%
|
|
Physics Letters, Section A: General, Atomic and Solid State Physics
641 citations, 0.07%
|
|
International Journal of Quantum Chemistry
631 citations, 0.07%
|
|
Atomic Energy
576 citations, 0.06%
|
|
Radiochimica Acta
575 citations, 0.06%
|
|
Russian Physics Journal
563 citations, 0.06%
|
|
Journal of Physics B: Atomic, Molecular and Optical Physics
537 citations, 0.06%
|
|
Physical Review E
535 citations, 0.06%
|
|
Journal of Physics A: Mathematical and Theoretical
527 citations, 0.06%
|
|
Journal of Physics A Mathematical Nuclear and General
501 citations, 0.05%
|
|
Nuclear Instruments and Methods in Physics Research
490 citations, 0.05%
|
|
International Journal of Theoretical Physics
480 citations, 0.05%
|
|
JETP Letters
479 citations, 0.05%
|
|
Proceedings of the Physical Society
472 citations, 0.05%
|
|
Show all (70 more) | |
50000
100000
150000
200000
250000
|
Citing publishers
50000
100000
150000
200000
250000
300000
350000
|
|
Elsevier
346769 citations, 37.14%
|
|
American Physical Society (APS)
280411 citations, 30.04%
|
|
Springer Nature
101433 citations, 10.87%
|
|
IOP Publishing
69707 citations, 7.47%
|
|
World Scientific
17064 citations, 1.83%
|
|
Pleiades Publishing
14552 citations, 1.56%
|
|
EDP Sciences
9291 citations, 1%
|
|
AIP Publishing
6179 citations, 0.66%
|
|
Oxford University Press
5884 citations, 0.63%
|
|
Taylor & Francis
4688 citations, 0.5%
|
|
American Astronomical Society
4035 citations, 0.43%
|
|
Wiley
3641 citations, 0.39%
|
|
Physical Society of Japan
3357 citations, 0.36%
|
|
MDPI
3050 citations, 0.33%
|
|
Annual Reviews
1568 citations, 0.17%
|
|
Hindawi Limited
1175 citations, 0.13%
|
|
Frontiers Media S.A.
1126 citations, 0.12%
|
|
Walter de Gruyter
1111 citations, 0.12%
|
|
Canadian Science Publishing
1066 citations, 0.11%
|
|
Science in China Press
938 citations, 0.1%
|
|
Institute of Electrical and Electronics Engineers (IEEE)
913 citations, 0.1%
|
|
Societa Italiana di Fisica
828 citations, 0.09%
|
|
American Chemical Society (ACS)
717 citations, 0.08%
|
|
Cambridge University Press
608 citations, 0.07%
|
|
Uspekhi Fizicheskikh Nauk Journal
451 citations, 0.05%
|
|
The Royal Society
388 citations, 0.04%
|
|
National Academy of Sciences of Ukraine (Co. LTD Ukrinformnauka) (Publications)
356 citations, 0.04%
|
|
American Association for the Advancement of Science (AAAS)
311 citations, 0.03%
|
|
Institute of Molecular Biology and Genetics (NAS Ukraine)
308 citations, 0.03%
|
|
Stichting SciPost
288 citations, 0.03%
|
|
Acta Physica Sinica, Chinese Physical Society and Institute of Physics, Chinese Academy of Sciences
238 citations, 0.03%
|
|
Royal Society of Chemistry (RSC)
222 citations, 0.02%
|
|
The Japan Society of Nuclear and Radiochemical Sciences
219 citations, 0.02%
|
|
Steklov Mathematical Institute
174 citations, 0.02%
|
|
Scientific Research Publishing
142 citations, 0.02%
|
|
Japan Society of Applied Physics
106 citations, 0.01%
|
|
Optica Publishing Group
97 citations, 0.01%
|
|
National Documentation Centre (EKT)
53 citations, 0.01%
|
|
SAGE
49 citations, 0.01%
|
|
Moscow University Press
48 citations, 0.01%
|
|
SPIE-Intl Soc Optical Eng
46 citations, 0%
|
|
Social Science Electronic Publishing
41 citations, 0%
|
|
Society for Industrial and Applied Mathematics (SIAM)
39 citations, 0%
|
|
Publishing House for Science and Technology, Vietnam Academy of Science and Technology (Publications)
39 citations, 0%
|
|
Institute of Physics, Polish Academy of Sciences
39 citations, 0%
|
|
American Association of Physics Teachers (AAPT)
37 citations, 0%
|
|
Japan Academy
36 citations, 0%
|
|
Japan Radioisotope Association
36 citations, 0%
|
|
Public Library of Science (PLoS)
33 citations, 0%
|
|
Trans Tech Publications
30 citations, 0%
|
|
30 citations, 0%
|
|
The Russian Academy of Sciences
30 citations, 0%
|
|
Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften
30 citations, 0%
|
|
IntechOpen
30 citations, 0%
|
|
25 citations, 0%
|
|
Proceedings of the National Academy of Sciences (PNAS)
25 citations, 0%
|
|
Akademizdatcenter Nauka
25 citations, 0%
|
|
23 citations, 0%
|
|
The Chemical Society of Japan
23 citations, 0%
|
|
Allerton Press
19 citations, 0%
|
|
Ovid Technologies (Wolters Kluwer Health)
18 citations, 0%
|
|
Oriental Scientific Publishing Company
18 citations, 0%
|
|
American Mathematical Society
17 citations, 0%
|
|
Hans Publishers
16 citations, 0%
|
|
Science Alert
15 citations, 0%
|
|
The Scientific and Technological Research Council of Turkey (TUBITAK-ULAKBIM) - DIGITAL COMMONS JOURNALS
15 citations, 0%
|
|
Copernicus
14 citations, 0%
|
|
Institute of Organic Chemistry & Biochemistry
14 citations, 0%
|
|
The Japan Society of Plasma Science and Nuclear Fusion Research (JSPF)
12 citations, 0%
|
|
L. N. Gumilyov Eurasian National University
12 citations, 0%
|
|
National Library of Serbia
12 citations, 0%
|
|
The Japanese Society for Neutron Science
12 citations, 0%
|
|
University of Chicago Press
11 citations, 0%
|
|
University of Kerbala
11 citations, 0%
|
|
IOS Press
10 citations, 0%
|
|
American Institute of Aeronautics and Astronautics (AIAA)
10 citations, 0%
|
|
American Geophysical Union
10 citations, 0%
|
|
Stockholm University Press
10 citations, 0%
|
|
American Vacuum Society
10 citations, 0%
|
|
Physics Essays Publication
10 citations, 0%
|
|
Sakarya University Journal of Science
10 citations, 0%
|
|
Iron and Steel Institute of Japan
9 citations, 0%
|
|
Radiation Research Society
9 citations, 0%
|
|
Institute of Computer Science
9 citations, 0%
|
|
IGI Global
9 citations, 0%
|
|
Saint Petersburg State Polytechnical University
9 citations, 0%
|
|
Institute of Mathematical Statistics
8 citations, 0%
|
|
Kyushu University
8 citations, 0%
|
|
Education and Upbringing Publishing
8 citations, 0%
|
|
Association for Computing Machinery (ACM)
8 citations, 0%
|
|
Japan Society of Civil Engineers
8 citations, 0%
|
|
8 citations, 0%
|
|
Emerald
7 citations, 0%
|
|
Publishing House Belorusskaya Nauka
7 citations, 0%
|
|
Japan Society of Colour Material
7 citations, 0%
|
|
The Laser Society of Japan
7 citations, 0%
|
|
Celal Bayar University Journal of Science
7 citations, 0%
|
|
Pensoft Publishers
6 citations, 0%
|
|
6 citations, 0%
|
|
Atomic Energy Society of Japan
6 citations, 0%
|
|
Show all (70 more) | |
50000
100000
150000
200000
250000
300000
350000
|
Publishing organizations
200
400
600
800
1000
1200
|
|
National Institute for Nuclear Physics
1166 publications, 2.75%
|
|
Joint Institute for Nuclear Research
740 publications, 1.74%
|
|
University of Tokyo
722 publications, 1.7%
|
|
Brookhaven National Laboratory
677 publications, 1.59%
|
|
Lawrence Berkeley National Laboratory
645 publications, 1.52%
|
|
European Organization for Nuclear Research
591 publications, 1.39%
|
|
University of Copenhagen
554 publications, 1.3%
|
|
Los Alamos National Laboratory
493 publications, 1.16%
|
|
Oak Ridge National Laboratory
475 publications, 1.12%
|
|
Osaka University
464 publications, 1.09%
|
|
Michigan State University
459 publications, 1.08%
|
|
Goethe University Frankfurt
402 publications, 0.95%
|
|
RIKEN-Institute of Physical and Chemical Research
388 publications, 0.91%
|
|
University of Tübingen
383 publications, 0.9%
|
|
Johannes Gutenberg University Mainz
380 publications, 0.89%
|
|
Rhenish Friedrich Wilhelm University of Bonn
370 publications, 0.87%
|
|
Australian National University
364 publications, 0.86%
|
|
Kyoto University
363 publications, 0.85%
|
|
Max Planck Institute for Nuclear Physics
361 publications, 0.85%
|
|
Argonne National Laboratory
357 publications, 0.84%
|
|
University of California, Berkeley
350 publications, 0.82%
|
|
Justus Liebig University Giessen
340 publications, 0.8%
|
|
Ludwig Maximilian University of Munich
326 publications, 0.77%
|
|
Technical University of Munich
319 publications, 0.75%
|
|
Massachusetts Institute of Technology
319 publications, 0.75%
|
|
University of Washington
319 publications, 0.75%
|
|
Heidelberg University
310 publications, 0.73%
|
|
Lund University
308 publications, 0.73%
|
|
University of Warsaw
288 publications, 0.68%
|
|
University of Jyväskylä
278 publications, 0.65%
|
|
TRIUMF - Canada's National Laboratory for Particle and Nuclear Physics
275 publications, 0.65%
|
|
University of Helsinki
264 publications, 0.62%
|
|
Tokyo Institute of Technology
252 publications, 0.59%
|
|
University of California, Los Angeles
252 publications, 0.59%
|
|
Yale University
250 publications, 0.59%
|
|
University of Valencia
242 publications, 0.57%
|
|
Texas A&M University
234 publications, 0.55%
|
|
Tohoku University
232 publications, 0.55%
|
|
Universite Libre de Bruxelles
226 publications, 0.53%
|
|
University of Cologne
225 publications, 0.53%
|
|
University of Manchester
223 publications, 0.53%
|
|
McMaster University
219 publications, 0.52%
|
|
Forschungszentrum Jülich
214 publications, 0.5%
|
|
Ruhr University Bochum
213 publications, 0.5%
|
|
California Institute of Technology
206 publications, 0.49%
|
|
Utrecht University
205 publications, 0.48%
|
|
Indiana University Bloomington
204 publications, 0.48%
|
|
Uppsala University
203 publications, 0.48%
|
|
Kyushu University
201 publications, 0.47%
|
|
Université Paris-Saclay
200 publications, 0.47%
|
|
University of Notre Dame
198 publications, 0.47%
|
|
University of Basel
193 publications, 0.45%
|
|
Ohio State University
190 publications, 0.45%
|
|
Vrije Universiteit Amsterdam
190 publications, 0.45%
|
|
University of Birmingham
189 publications, 0.45%
|
|
Weizmann Institute of Science
188 publications, 0.44%
|
|
Stony Brook University
184 publications, 0.43%
|
|
University of Illinois Urbana-Champaign
184 publications, 0.43%
|
|
University of Colorado Boulder
183 publications, 0.43%
|
|
Duke University
182 publications, 0.43%
|
|
High Energy Accelerator Research Organization
180 publications, 0.42%
|
|
Aarhus University
179 publications, 0.42%
|
|
University of Oxford
176 publications, 0.41%
|
|
McGill University
176 publications, 0.41%
|
|
Florida State University
175 publications, 0.41%
|
|
University of Toronto
173 publications, 0.41%
|
|
University of Maryland, College Park
172 publications, 0.41%
|
|
University of Rochester
172 publications, 0.41%
|
|
National Research Centre "Kurchatov Institute"
171 publications, 0.4%
|
|
University of Catania
171 publications, 0.4%
|
|
Karlsruhe Institute of Technology
170 publications, 0.4%
|
|
Petersburg Nuclear Physics Institute of NRC «Kurchatov Institute»
168 publications, 0.4%
|
|
University of Minnesota
167 publications, 0.39%
|
|
University of Surrey
167 publications, 0.39%
|
|
Columbia University
166 publications, 0.39%
|
|
Institute for Corpuscular Physics
163 publications, 0.38%
|
|
University of Turin
161 publications, 0.38%
|
|
Hebrew University of Jerusalem
156 publications, 0.37%
|
|
Rutgers, The State University of New Jersey
156 publications, 0.37%
|
|
Darmstadt University of Applied Sciences
156 publications, 0.37%
|
|
University of Oslo
155 publications, 0.36%
|
|
Technical University of Darmstadt
155 publications, 0.36%
|
|
University of Milan
154 publications, 0.36%
|
|
Chalmers University of Technology
152 publications, 0.36%
|
|
University of Melbourne
152 publications, 0.36%
|
|
Bhabha Atomic Research Centre
151 publications, 0.36%
|
|
Saha Institute of Nuclear Physics
147 publications, 0.35%
|
|
Legnaro National Laboratories
147 publications, 0.35%
|
|
ETH Zurich
146 publications, 0.34%
|
|
University of Tennessee
145 publications, 0.34%
|
|
Institut Laue-Langevin
144 publications, 0.34%
|
|
Lawrence Livermore National Laboratory
140 publications, 0.33%
|
|
University of Erlangen–Nuremberg
140 publications, 0.33%
|
|
Jagiellonian University
140 publications, 0.33%
|
|
Lomonosov Moscow State University
139 publications, 0.33%
|
|
University of Liège
139 publications, 0.33%
|
|
University of Wisconsin–Madison
136 publications, 0.32%
|
|
University of Liverpool
135 publications, 0.32%
|
|
Niigata University
135 publications, 0.32%
|
|
Tel Aviv University
134 publications, 0.32%
|
|
Show all (70 more) | |
200
400
600
800
1000
1200
|
Publishing organizations in 5 years
5
10
15
20
25
30
35
|
|
Central China Normal University
32 publications, 3.67%
|
|
Homi Bhabha National Institute
31 publications, 3.56%
|
|
Lawrence Berkeley National Laboratory
30 publications, 3.44%
|
|
Goethe University Frankfurt
28 publications, 3.21%
|
|
Brookhaven National Laboratory
21 publications, 2.41%
|
|
Wayne State University
19 publications, 2.18%
|
|
Indian Institute of Technology Roorkee
18 publications, 2.07%
|
|
National Institute for Nuclear Physics
17 publications, 1.95%
|
|
Joint Institute for Nuclear Research
15 publications, 1.72%
|
|
Bhabha Atomic Research Centre
14 publications, 1.61%
|
|
Frankfurt Institute for Advanced Studies
14 publications, 1.61%
|
|
Stony Brook University
13 publications, 1.49%
|
|
Helmholtz Centre for Heavy Ion Research
13 publications, 1.49%
|
|
Texas A&M University
13 publications, 1.49%
|
|
Université Paris-Saclay
12 publications, 1.38%
|
|
McGill University
11 publications, 1.26%
|
|
Variable Energy Cyclotron Centre
10 publications, 1.15%
|
|
European Organization for Nuclear Research
10 publications, 1.15%
|
|
Massachusetts Institute of Technology
10 publications, 1.15%
|
|
National Autonomous University of Mexico
10 publications, 1.15%
|
|
Institute for Nuclear Research of the Russian Academy of Sciences
9 publications, 1.03%
|
|
Saha Institute of Nuclear Physics
9 publications, 1.03%
|
|
University of Tehran
8 publications, 0.92%
|
|
University of Delhi
8 publications, 0.92%
|
|
Panjab University
8 publications, 0.92%
|
|
University of Chinese Academy of Sciences
8 publications, 0.92%
|
|
Peking University
8 publications, 0.92%
|
|
University of Malaya
8 publications, 0.92%
|
|
Heidelberg University
8 publications, 0.92%
|
|
South China Normal University
8 publications, 0.92%
|
|
Iowa State University
8 publications, 0.92%
|
|
Institute of Modern Physics, Chinese Academy of Sciences
8 publications, 0.92%
|
|
Lomonosov Moscow State University
7 publications, 0.8%
|
|
Al Farabi Kazakh National University
7 publications, 0.8%
|
|
Aligarh Muslim University
7 publications, 0.8%
|
|
Tata Institute of Fundamental Research
7 publications, 0.8%
|
|
Inter-University Accelerator Centre
7 publications, 0.8%
|
|
Yale University
7 publications, 0.8%
|
|
University of California, Berkeley
7 publications, 0.8%
|
|
Lanzhou University
7 publications, 0.8%
|
|
University of Illinois Urbana-Champaign
7 publications, 0.8%
|
|
National Research Centre "Kurchatov Institute"
6 publications, 0.69%
|
|
University of Tabriz
6 publications, 0.69%
|
|
Thapar Institute of Engineering and Technology
6 publications, 0.69%
|
|
National Institute of Science Education and Research
6 publications, 0.69%
|
|
Duy Tan University
6 publications, 0.69%
|
|
Fudan University
6 publications, 0.69%
|
|
Hunan Normal University
6 publications, 0.69%
|
|
Cairo University
6 publications, 0.69%
|
|
Laboratori Nazionali del Sud
6 publications, 0.69%
|
|
Osaka University
6 publications, 0.69%
|
|
National Centre of Scientific Research "Demokritos"
6 publications, 0.69%
|
|
University of Science and Technology of China
6 publications, 0.69%
|
|
Jan Kochanowski University
6 publications, 0.69%
|
|
Institute for High Energy Physics of NRC «Kurchatov Institute»
5 publications, 0.57%
|
|
Fesenkov Astrophysical Institute
5 publications, 0.57%
|
|
Banaras Hindu University
5 publications, 0.57%
|
|
University of Calicut
5 publications, 0.57%
|
|
Technical University of Munich
5 publications, 0.57%
|
|
Himachal Pradesh University
5 publications, 0.57%
|
|
University of Tsukuba
5 publications, 0.57%
|
|
University of Illinois at Chicago
5 publications, 0.57%
|
|
Duke University
5 publications, 0.57%
|
|
Shandong University
5 publications, 0.57%
|
|
Hokkaido University
5 publications, 0.57%
|
|
University of Tokyo
5 publications, 0.57%
|
|
Indiana University Bloomington
5 publications, 0.57%
|
|
Damanhour University
5 publications, 0.57%
|
|
Cadi Ayyad University
5 publications, 0.57%
|
|
Petersburg Nuclear Physics Institute of NRC «Kurchatov Institute»
4 publications, 0.46%
|
|
Birla Institute of Technology and Science, Pilani
4 publications, 0.46%
|
|
Shiraz University
4 publications, 0.46%
|
|
University of Calcutta
4 publications, 0.46%
|
|
Sakarya University
4 publications, 0.46%
|
|
Central University of Jammu
4 publications, 0.46%
|
|
University of Mumbai
4 publications, 0.46%
|
|
Salahaddin University-Erbil
4 publications, 0.46%
|
|
Institute of Physics, Bhubaneswar
4 publications, 0.46%
|
|
Hakim Sabzevari University
4 publications, 0.46%
|
|
Tsinghua University
4 publications, 0.46%
|
|
Central University of Himachal Pradesh
4 publications, 0.46%
|
|
Maharaja Sayajirao University of Baroda
4 publications, 0.46%
|
|
Manipal University Jaipur
4 publications, 0.46%
|
|
Nanjing University
4 publications, 0.46%
|
|
University of Helsinki
4 publications, 0.46%
|
|
University of Jyväskylä
4 publications, 0.46%
|
|
Helsinki Institute of Physics
4 publications, 0.46%
|
|
University of Catania
4 publications, 0.46%
|
|
Korea University
4 publications, 0.46%
|
|
Ohio State University
4 publications, 0.46%
|
|
Vienna University of Technology
4 publications, 0.46%
|
|
Vanderbilt University
4 publications, 0.46%
|
|
National and Kapodistrian University of Athens
4 publications, 0.46%
|
|
Purdue University
4 publications, 0.46%
|
|
High Energy Accelerator Research Organization
4 publications, 0.46%
|
|
AGH University of Krakow
4 publications, 0.46%
|
|
Warsaw University of Technology
4 publications, 0.46%
|
|
University of Wrocław
4 publications, 0.46%
|
|
University of Pennsylvania
4 publications, 0.46%
|
|
University of Santiago de Compostela
4 publications, 0.46%
|
|
Show all (70 more) | |
5
10
15
20
25
30
35
|
Publishing countries
1000
2000
3000
4000
5000
6000
7000
8000
9000
10000
|
|
USA
|
USA, 9309, 21.92%
USA
9309 publications, 21.92%
|
Germany
|
Germany, 5830, 13.73%
Germany
5830 publications, 13.73%
|
France
|
France, 3140, 7.39%
France
3140 publications, 7.39%
|
Japan
|
Japan, 2636, 6.21%
Japan
2636 publications, 6.21%
|
Italy
|
Italy, 1739, 4.09%
Italy
1739 publications, 4.09%
|
United Kingdom
|
United Kingdom, 1699, 4%
United Kingdom
1699 publications, 4%
|
Russia
|
Russia, 1632, 3.84%
Russia
1632 publications, 3.84%
|
Canada
|
Canada, 1484, 3.49%
Canada
1484 publications, 3.49%
|
Switzerland
|
Switzerland, 1266, 2.98%
Switzerland
1266 publications, 2.98%
|
Denmark
|
Denmark, 1073, 2.53%
Denmark
1073 publications, 2.53%
|
China
|
China, 995, 2.34%
China
995 publications, 2.34%
|
India
|
India, 993, 2.34%
India
993 publications, 2.34%
|
Sweden
|
Sweden, 952, 2.24%
Sweden
952 publications, 2.24%
|
Netherlands
|
Netherlands, 899, 2.12%
Netherlands
899 publications, 2.12%
|
Poland
|
Poland, 896, 2.11%
Poland
896 publications, 2.11%
|
Spain
|
Spain, 848, 2%
Spain
848 publications, 2%
|
Belgium
|
Belgium, 821, 1.93%
Belgium
821 publications, 1.93%
|
USSR
|
USSR, 695, 1.64%
USSR
695 publications, 1.64%
|
Australia
|
Australia, 680, 1.6%
Australia
680 publications, 1.6%
|
Israel
|
Israel, 549, 1.29%
Israel
549 publications, 1.29%
|
Finland
|
Finland, 514, 1.21%
Finland
514 publications, 1.21%
|
Brazil
|
Brazil, 463, 1.09%
Brazil
463 publications, 1.09%
|
Hungary
|
Hungary, 325, 0.77%
Hungary
325 publications, 0.77%
|
Norway
|
Norway, 277, 0.65%
Norway
277 publications, 0.65%
|
Argentina
|
Argentina, 240, 0.57%
Argentina
240 publications, 0.57%
|
South Africa
|
South Africa, 240, 0.57%
South Africa
240 publications, 0.57%
|
Republic of Korea
|
Republic of Korea, 234, 0.55%
Republic of Korea
234 publications, 0.55%
|
Romania
|
Romania, 228, 0.54%
Romania
228 publications, 0.54%
|
Czech Republic
|
Czech Republic, 218, 0.51%
Czech Republic
218 publications, 0.51%
|
Ukraine
|
Ukraine, 194, 0.46%
Ukraine
194 publications, 0.46%
|
Portugal
|
Portugal, 177, 0.42%
Portugal
177 publications, 0.42%
|
Iran
|
Iran, 166, 0.39%
Iran
166 publications, 0.39%
|
Croatia
|
Croatia, 166, 0.39%
Croatia
166 publications, 0.39%
|
Greece
|
Greece, 158, 0.37%
Greece
158 publications, 0.37%
|
Mexico
|
Mexico, 151, 0.36%
Mexico
151 publications, 0.36%
|
Austria
|
Austria, 138, 0.32%
Austria
138 publications, 0.32%
|
Yugoslavia
|
Yugoslavia, 135, 0.32%
Yugoslavia
135 publications, 0.32%
|
Turkey
|
Turkey, 105, 0.25%
Turkey
105 publications, 0.25%
|
Egypt
|
Egypt, 99, 0.23%
Egypt
99 publications, 0.23%
|
Bulgaria
|
Bulgaria, 88, 0.21%
Bulgaria
88 publications, 0.21%
|
Kazakhstan
|
Kazakhstan, 79, 0.19%
Kazakhstan
79 publications, 0.19%
|
Slovenia
|
Slovenia, 73, 0.17%
Slovenia
73 publications, 0.17%
|
Czechoslovakia
|
Czechoslovakia, 65, 0.15%
Czechoslovakia
65 publications, 0.15%
|
Slovakia
|
Slovakia, 62, 0.15%
Slovakia
62 publications, 0.15%
|
New Zealand
|
New Zealand, 58, 0.14%
New Zealand
58 publications, 0.14%
|
Chile
|
Chile, 42, 0.1%
Chile
42 publications, 0.1%
|
Algeria
|
Algeria, 39, 0.09%
Algeria
39 publications, 0.09%
|
Iraq
|
Iraq, 39, 0.09%
Iraq
39 publications, 0.09%
|
Latvia
|
Latvia, 38, 0.09%
Latvia
38 publications, 0.09%
|
Saudi Arabia
|
Saudi Arabia, 37, 0.09%
Saudi Arabia
37 publications, 0.09%
|
Pakistan
|
Pakistan, 36, 0.08%
Pakistan
36 publications, 0.08%
|
Armenia
|
Armenia, 33, 0.08%
Armenia
33 publications, 0.08%
|
Vietnam
|
Vietnam, 30, 0.07%
Vietnam
30 publications, 0.07%
|
Georgia
|
Georgia, 30, 0.07%
Georgia
30 publications, 0.07%
|
Uzbekistan
|
Uzbekistan, 29, 0.07%
Uzbekistan
29 publications, 0.07%
|
Serbia
|
Serbia, 24, 0.06%
Serbia
24 publications, 0.06%
|
Bangladesh
|
Bangladesh, 22, 0.05%
Bangladesh
22 publications, 0.05%
|
Belarus
|
Belarus, 20, 0.05%
Belarus
20 publications, 0.05%
|
Lebanon
|
Lebanon, 20, 0.05%
Lebanon
20 publications, 0.05%
|
Morocco
|
Morocco, 20, 0.05%
Morocco
20 publications, 0.05%
|
Malaysia
|
Malaysia, 19, 0.04%
Malaysia
19 publications, 0.04%
|
Azerbaijan
|
Azerbaijan, 16, 0.04%
Azerbaijan
16 publications, 0.04%
|
Ireland
|
Ireland, 16, 0.04%
Ireland
16 publications, 0.04%
|
Indonesia
|
Indonesia, 15, 0.04%
Indonesia
15 publications, 0.04%
|
Uruguay
|
Uruguay, 11, 0.03%
Uruguay
11 publications, 0.03%
|
Jordan
|
Jordan, 10, 0.02%
Jordan
10 publications, 0.02%
|
Moldova
|
Moldova, 10, 0.02%
Moldova
10 publications, 0.02%
|
Nigeria
|
Nigeria, 10, 0.02%
Nigeria
10 publications, 0.02%
|
Colombia
|
Colombia, 9, 0.02%
Colombia
9 publications, 0.02%
|
Cyprus
|
Cyprus, 8, 0.02%
Cyprus
8 publications, 0.02%
|
Kuwait
|
Kuwait, 7, 0.02%
Kuwait
7 publications, 0.02%
|
Singapore
|
Singapore, 7, 0.02%
Singapore
7 publications, 0.02%
|
Thailand
|
Thailand, 7, 0.02%
Thailand
7 publications, 0.02%
|
Cuba
|
Cuba, 6, 0.01%
Cuba
6 publications, 0.01%
|
Lithuania
|
Lithuania, 6, 0.01%
Lithuania
6 publications, 0.01%
|
Madagascar
|
Madagascar, 6, 0.01%
Madagascar
6 publications, 0.01%
|
Yemen
|
Yemen, 4, 0.01%
Yemen
4 publications, 0.01%
|
Myanmar
|
Myanmar, 4, 0.01%
Myanmar
4 publications, 0.01%
|
Oman
|
Oman, 4, 0.01%
Oman
4 publications, 0.01%
|
Palestine
|
Palestine, 4, 0.01%
Palestine
4 publications, 0.01%
|
Philippines
|
Philippines, 4, 0.01%
Philippines
4 publications, 0.01%
|
Costa Rica
|
Costa Rica, 2, 0%
Costa Rica
2 publications, 0%
|
Tunisia
|
Tunisia, 2, 0%
Tunisia
2 publications, 0%
|
Estonia
|
Estonia, 1, 0%
Estonia
1 publication, 0%
|
Botswana
|
Botswana, 1, 0%
Botswana
1 publication, 0%
|
Vatican
|
Vatican, 1, 0%
Vatican
1 publication, 0%
|
Monaco
|
Monaco, 1, 0%
Monaco
1 publication, 0%
|
Mongolia
|
Mongolia, 1, 0%
Mongolia
1 publication, 0%
|
Nepal
|
Nepal, 1, 0%
Nepal
1 publication, 0%
|
North Macedonia
|
North Macedonia, 1, 0%
North Macedonia
1 publication, 0%
|
Syria
|
Syria, 1, 0%
Syria
1 publication, 0%
|
Tanzania
|
Tanzania, 1, 0%
Tanzania
1 publication, 0%
|
Show all (62 more) | |
1000
2000
3000
4000
5000
6000
7000
8000
9000
10000
|
Publishing countries in 5 years
20
40
60
80
100
120
140
160
|
|
USA
|
USA, 157, 18.03%
USA
157 publications, 18.03%
|
India
|
India, 141, 16.19%
India
141 publications, 16.19%
|
China
|
China, 119, 13.66%
China
119 publications, 13.66%
|
Germany
|
Germany, 62, 7.12%
Germany
62 publications, 7.12%
|
Russia
|
Russia, 47, 5.4%
Russia
47 publications, 5.4%
|
Iran
|
Iran, 47, 5.4%
Iran
47 publications, 5.4%
|
Japan
|
Japan, 34, 3.9%
Japan
34 publications, 3.9%
|
France
|
France, 32, 3.67%
France
32 publications, 3.67%
|
Italy
|
Italy, 29, 3.33%
Italy
29 publications, 3.33%
|
Turkey
|
Turkey, 26, 2.99%
Turkey
26 publications, 2.99%
|
Brazil
|
Brazil, 23, 2.64%
Brazil
23 publications, 2.64%
|
Ukraine
|
Ukraine, 21, 2.41%
Ukraine
21 publications, 2.41%
|
Canada
|
Canada, 20, 2.3%
Canada
20 publications, 2.3%
|
Poland
|
Poland, 20, 2.3%
Poland
20 publications, 2.3%
|
Egypt
|
Egypt, 19, 2.18%
Egypt
19 publications, 2.18%
|
Switzerland
|
Switzerland, 15, 1.72%
Switzerland
15 publications, 1.72%
|
Spain
|
Spain, 14, 1.61%
Spain
14 publications, 1.61%
|
Czech Republic
|
Czech Republic, 14, 1.61%
Czech Republic
14 publications, 1.61%
|
Mexico
|
Mexico, 11, 1.26%
Mexico
11 publications, 1.26%
|
Vietnam
|
Vietnam, 10, 1.15%
Vietnam
10 publications, 1.15%
|
Greece
|
Greece, 10, 1.15%
Greece
10 publications, 1.15%
|
Iraq
|
Iraq, 10, 1.15%
Iraq
10 publications, 1.15%
|
Malaysia
|
Malaysia, 10, 1.15%
Malaysia
10 publications, 1.15%
|
Republic of Korea
|
Republic of Korea, 9, 1.03%
Republic of Korea
9 publications, 1.03%
|
Saudi Arabia
|
Saudi Arabia, 9, 1.03%
Saudi Arabia
9 publications, 1.03%
|
Kazakhstan
|
Kazakhstan, 8, 0.92%
Kazakhstan
8 publications, 0.92%
|
Austria
|
Austria, 7, 0.8%
Austria
7 publications, 0.8%
|
Argentina
|
Argentina, 6, 0.69%
Argentina
6 publications, 0.69%
|
Hungary
|
Hungary, 6, 0.69%
Hungary
6 publications, 0.69%
|
Madagascar
|
Madagascar, 6, 0.69%
Madagascar
6 publications, 0.69%
|
Norway
|
Norway, 6, 0.69%
Norway
6 publications, 0.69%
|
South Africa
|
South Africa, 6, 0.69%
South Africa
6 publications, 0.69%
|
Azerbaijan
|
Azerbaijan, 5, 0.57%
Azerbaijan
5 publications, 0.57%
|
Bulgaria
|
Bulgaria, 5, 0.57%
Bulgaria
5 publications, 0.57%
|
United Kingdom
|
United Kingdom, 5, 0.57%
United Kingdom
5 publications, 0.57%
|
Morocco
|
Morocco, 5, 0.57%
Morocco
5 publications, 0.57%
|
Romania
|
Romania, 5, 0.57%
Romania
5 publications, 0.57%
|
Sweden
|
Sweden, 5, 0.57%
Sweden
5 publications, 0.57%
|
Israel
|
Israel, 4, 0.46%
Israel
4 publications, 0.46%
|
Nigeria
|
Nigeria, 4, 0.46%
Nigeria
4 publications, 0.46%
|
Pakistan
|
Pakistan, 4, 0.46%
Pakistan
4 publications, 0.46%
|
Uzbekistan
|
Uzbekistan, 4, 0.46%
Uzbekistan
4 publications, 0.46%
|
Finland
|
Finland, 4, 0.46%
Finland
4 publications, 0.46%
|
Croatia
|
Croatia, 4, 0.46%
Croatia
4 publications, 0.46%
|
Australia
|
Australia, 3, 0.34%
Australia
3 publications, 0.34%
|
Algeria
|
Algeria, 3, 0.34%
Algeria
3 publications, 0.34%
|
Belgium
|
Belgium, 3, 0.34%
Belgium
3 publications, 0.34%
|
Indonesia
|
Indonesia, 3, 0.34%
Indonesia
3 publications, 0.34%
|
Netherlands
|
Netherlands, 3, 0.34%
Netherlands
3 publications, 0.34%
|
Portugal
|
Portugal, 2, 0.23%
Portugal
2 publications, 0.23%
|
Bangladesh
|
Bangladesh, 2, 0.23%
Bangladesh
2 publications, 0.23%
|
Denmark
|
Denmark, 2, 0.23%
Denmark
2 publications, 0.23%
|
Jordan
|
Jordan, 2, 0.23%
Jordan
2 publications, 0.23%
|
Chile
|
Chile, 2, 0.23%
Chile
2 publications, 0.23%
|
Belarus
|
Belarus, 1, 0.11%
Belarus
1 publication, 0.11%
|
Armenia
|
Armenia, 1, 0.11%
Armenia
1 publication, 0.11%
|
Yemen
|
Yemen, 1, 0.11%
Yemen
1 publication, 0.11%
|
Cyprus
|
Cyprus, 1, 0.11%
Cyprus
1 publication, 0.11%
|
Colombia
|
Colombia, 1, 0.11%
Colombia
1 publication, 0.11%
|
Costa Rica
|
Costa Rica, 1, 0.11%
Costa Rica
1 publication, 0.11%
|
Latvia
|
Latvia, 1, 0.11%
Latvia
1 publication, 0.11%
|
Oman
|
Oman, 1, 0.11%
Oman
1 publication, 0.11%
|
Palestine
|
Palestine, 1, 0.11%
Palestine
1 publication, 0.11%
|
North Macedonia
|
North Macedonia, 1, 0.11%
North Macedonia
1 publication, 0.11%
|
Serbia
|
Serbia, 1, 0.11%
Serbia
1 publication, 0.11%
|
Show all (35 more) | |
20
40
60
80
100
120
140
160
|
10 profile journal articles
Vacchi Andrea
463 publications,
16 745 citations
h-index: 54
8 profile journal articles
Morozov Sergey
DSc in Physics and Mathematics

A.V. Gaponov-Grekhov Institute of Applied Physics of the Russian Academy of Sciences

Lobachevsky State University of Nizhny Novgorod
682 publications,
140 015 citations
h-index: 78
7 profile journal articles
Boldyrev Alexey
PhD in Physics and Mathematics

Lomonosov Moscow State University

National Research University Higher School of Economics
886 publications,
34 937 citations
h-index: 88
7 profile journal articles
Bordyuzhin Igor

National University of Science & Technology (MISiS)
286 publications,
12 337 citations
h-index: 60
6 profile journal articles
Prokoshin Fedor
PhD in Physics and Mathematics

Joint Institute for Nuclear Research
1 456 publications,
66 298 citations
h-index: 109
6 profile journal articles
Zhemchugov Alexey
🥼
PhD in Physics and Mathematics

Moscow Institute of Physics and Technology

Joint Institute for Nuclear Research
1 820 publications,
72 812 citations
h-index: 113
Research interests
Elementary Particle Physics
6 profile journal articles
Derkach Denis
PhD in Physics and Mathematics, Associate Professor

National Research University Higher School of Economics
831 publications,
36 791 citations
h-index: 90
6 profile journal articles
Ratnikov Fedor
PhD in Physics and Mathematics

National Research University Higher School of Economics
1 172 publications,
59 591 citations
h-index: 106
6 profile journal articles
Abdelwahed El
28 publications,
205 citations
h-index: 8
5 profile journal articles
Golubkov Dmitry

European Organization for Nuclear Research
1 139 publications,
44 312 citations
h-index: 97