837 research outputs found

    Cenopalpus bagdasariani Livshitz & Mitrofanov 1970

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    Cenopalpus bagdasariani (Livshitz & Mitrofanov 1970) (Figs 71–81) Brevipalpus bagdasariani Livshitz & Mitrofanov 1970: 789. Diagnosis. Prodorsum and opisthosoma with dorsocentral and lateral rugose ridges, separated by reticulations. Dorsal body setae broadly lanceolate and strongly serrate. Venter smooth with patch of reticulations laterad 4 a. Ventral and genital shields with few striae and reticulations, anal shield more strongly reticulate. Dorsal setae on femora I–II broadly lanceolate and strongly serrate, and on genua I–II narrowly lanceolate and serrate. Spermatheca a long slender tube, terminating in round bulb. Female. Dimensions: Length of body excluding gnathosoma 274–289; width 132–146, length of gnathosoma 85; Legs: I 135; II 125; III 118; IV 133; setae: v 2 36; sc 1 37; sc 2 31; c 1 26; c 2 23; c 3 31; d 1 15; d 3 19; e 1 13; e 3 18; f 2 20; f 3 19; h 1 18; h 2 11. Dorsum (Fig. 71). Both prodorsum and opisthosoma with dorsocentral and lateral rugose ridges, separated by reticulations. Dorsal body setae broadly lanceolate and strongly serrate. Prodorsal projection deeply notched (notch not reaching setae v 2), forming two broad triangular lobes, with small lateral lobes. Venter (Figs 72 – 73). Venter smooth with reticulated patches lateral to setae 4 a; ventral and genital shields with few striae and reticulations, but anal shields strongly reticulate. Setae 4 a much longer than 3 a. Aggenital setae smooth; genital (g 1–2) and pseudanal setae (ps 1–2) weakly serrate; setae g 2 inserted slightly anterior to g 1. Spermatheca a long slender tube terminating in small round bulb. Gnathosoma (Fig. 74). Infracapitulum reaching middle to anterior margin of genu I. Palp four-segmented; palp tarsus with two eupathidia and a seta, tibia with two setae, femorogenu with one seta and trochanter without setae. Legs (Figs 75–77). Counts of setae and solenidia (included in counts) on podomeres of legs I–IV: coxae 2 - 2 - 1 - 1, trochanters 1 - 1-2 - 1, femora 4 - 4 - 2 - 1, genua 3 - 3 - 1 -0, tibiae 5 - 5 - 3 - 3, tarsi 9 (ω)- 9 (ω)- 5 - 5. Leg chaetotaxy as follows: trochanters I, II, IV v’; tr III v’, l’; femora I–II d, v’, bv”, l’; fe III d, ev ’; fe IV ev ’; genua I–II l’, d, l”; ge III l’; ge IV nude; tibiae I–II d, l’, l” v’, v”; ti III–IV d, v’, v”; tarsus I–II u’, u”, p’, p” tc’, tc”, ft’, ft”, ω; ta III–IV u’, u”, tc’, tc”, ft’. Dorsal setae on femora I–II broadly lanceolate and strongly serrate, and on genua I–II narrowly lanceolate and serrate. Male. Dimensions: Length of body excluding gnathosoma 215; width 108, length of gnathosoma 62; Legs: I 128; II 122; III 110; IV 116; setae: v 2 33; sc 1 35; sc 2 36; c 1 28; c 2 25; c 3 31; d 1 21; d 3 40; e 1 16; e 3 39; f 2 36; f 3 37; h 1 12; h 2 27. Body tapered posteriorly with transverse striae between d and e setae. Prodorsum and dorsal body setae similar to that of female, though some longer. Aedeagus long, gradually tapering towards anal opening. Leg chaetotaxy similar to that of female, solenidia on tarsi I and II similar to that of female. Coxae III–IV also flanked by longitudinal slits. Deutonymph (Figs 78 – 81). Dimensions: Length of body excluding gnathosoma 249–250; width 132–142, length of gnathosoma 60–68; Legs: I 102–105; II 98 –99; III 85 –89; IV 85 –94; setae: v 2 31–33; sc 1 30–34; sc 2 30– 31; c 1 38–39; c 2 26–29; c 3 36; d 1 33; d 3 36–38; e 1 10 –14; e 3 32 –35; f 2 30–34; f 3 35–36; h 1 30–32; h 2 7–9. Dorsum similar to that of female, except most setae longer, especially posterior setae, setae h 2 five times longer than h 1. Venter completely covered with mainly transverse striae, one pair of setae 1 a, 3 a and 4 a, one pair of aggenital, one pair of genital and two pairs of pseudanal setae, most slightly serrate. Gnathosoma similar to that of female. Leg chaetotaxy only differs from female in that trochanter IV is without setae. Remarks. Our Turkish specimens resemble C. bagdasariani in all respects, except for having an ornamented ventral shield, depicted as smooth in the original description (Livshitz & Mitrofanov 1970). Meyer (Smith) (1979) referred to the dorsal ornamentation as “irregular” and Livshitz & Mitrofanov (1970) described it as “folds form a reticular design consisting of multiangled cells and prodorsal shield smooth dorsocentrally”. The Turkish specimens fit these descriptions. These specimens also resemble those of C. pennatisetis Wainstein 1958 and even share the same genus of host plant (Populus, Salicaceae); however, the latter has large polygonal cells mediolaterally on the prodorsum and anteromedially on the opisthosoma (Wainstein 1960; Mitrofanov & Strunkova 1979). The mediolateral prodorsal cells are smaller in C. bagdasariani and the opisthosoma is smooth anteromedially. The deutonymphs collected with the female Turkish specimens also resemble those of C. pennatisetis; however, C. bagdasariani deutonymphs differ from those of C. pennatisetis in that the dorsal setae are broadly lanceolate in C. bagdasariani instead of narrowly lanceolate in C. pennatisetis, and setae c 1 are clearly shorter than the distance c 1 -d 1 as opposed to as long as or slightly longer than this distance in C. pennatisetis. A spermatheca is described here for the first time and may confirm this identification in future. Material examined. 2 females, 4 males and 2 deutonymphs from Populus nigra L. (Salicaceae), Mamak/ Ankara, Turkey, 27 September 2006, 1 female from P. tremula, Vedat Dalokay Parkı /Ankara, Turkey, 0 1 September 2005, (Collector; H.D. Sağlam. Deposited at University of Ankara). Distribution. Kazakhstan of the former USSR (Mitrofanov & Strunkova 1979).Published as part of Çobanoğlu, Sultan, Ueckermann, Edward Albert & Sağlam, Hayriye Didem, 2016, The Tenuipalpidae of Turkey, with a key to species (Acari: Trombidiformes), pp. 151-186 in Zootaxa 4097 (2) on pages 173-175, DOI: 10.11646/zootaxa.4097.2.1, http://zenodo.org/record/27102

    Formation of C–C, C–S and C–N bonds catalysed by supported copper nanoparticles

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    Transition-metal catalysed cross-coupling reactions are still dominated by palladium chemistry. Within the recent past, copper has gained ground against palladium by virtue of its cheaper price and equivalent function in certain reactions. Four catalysts consisting of copper nanoparticles on zeolite, titania, montmorillonite and activated carbon have been tested in three palladium- and ligand-free cross-coupling reactions to form carbon–carbon, carbon–sulfur and carbon–nitrogen bonds. CuNPs/zeolite has been found to be the best one in the Sonogashira reaction of aryl iodides and arylacetylenes, as well as in the coupling of aryl halides with aryl and alkyl thiols, being reusable in both cases. However, the arylation of nitrogen-containing heterocycles (imidazole, pyrazole, benzimidazole and indole) has been better accomplished with CuNPs/titania, albeit CuNPs/activated carbon showed better recycling properties. The catalytic activity of the nanostructured catalysts has been compared with that of twelve commercial copper catalysts, with the former outperforming the latter in the three types of reactions studied.I. P. Beletskaya thanks the Russian Science Foundation (RSF, grant no. 14-23-00186 P) and A. Yu. Mitrofanov thanks the Russian Foundation for Basic Research (grant no. 16-33-60207) for their financial support. This work was also generously supported by the Spanish Ministerio de Economía y Competitividad (MINECO; grant no. CTQ-2015-66624-P) and the Institute of Organic Synthesis (ISO). I. M.-G. thanks the ISO and the Vicerrectorado de Investigación y Transferencia del Conocimiento of the Universidad de Alicante for predoctoral grants (no. UAFPU2016-034)

    Plasma Physics Reports V. 30, I. 02

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    Plasma Physics Reports -- February 2004 Volume 30, Issue 2, pp. 99-186 PLASMA DIAGNOSTICS X-ray Backlighting of the Axial Region of a Multiwire Liner Plasma in the Angara-5-1 Facility G. S. Volkov, E. V. Grabovskii, K. N. Mitrofanov, and G. M. Oleinik pp. 99-110 Full Text: PDF (780 kB) Microwave Measurements of the Time Evolution of Electron Density in the T-11M Tokamak V. G. Petrov, A. A. Petrov, A. Yu. Malyshev, V. K. Markov, and A. V. Babarykin pp. 111-120 Full Text: PDF (236 kB) X-ray Backlighting of the Periphery of an Imploding Multiwire Array in the Angara-5-1 Facility E. V. Grabovskii, K. N. Mitrofanov, G. M. Oleinik, and I. Yu. Porofeev pp. 121-127 Full Text: PDF (290 kB) Development of the Concept of Charge-Exchange Recombination Spectroscopy for ITER S. N. Tugarinov, I. L. Beigman, L. A. Vainshtein, V. N. Dokuka, A. V. Krasil'nikov, N. N. Naumenko, I. Yu. Tolstikhina, and R. R. Khairutdinov pp. 128-135 Full Text: PDF (253 kB) Measurements of the Plasma Radiative Loss Profile in the M-11M Tokamak with the Help of a Tangential-View AXUV Photodiode Array A. S. Prokhorov, A. G. Alekseyev, A. M. Belov, V. B. Lazarev, and S. V. Mirnov pp. 136-142 Full Text: PDF (397 kB) Diagnostics of Fast Processes in Laser Plasmas after the Irradiation of Low-Density Media in the Mishen Facility A. É. Bugrov, I. N. Burdonskii, V. V. Gavrilov, A. Yu. Gol'tsov, O. L. Dedova, E. V. Zhuzhukalo, N. G. Koval'skii, V. N. Kondrashov, M. I. Pergament, V. M. Petryakov, I. K. Fasakhov, and G. M. Yankovskii pp. 143-148 Full Text: PDF (412 kB) Interaction of Laser Plasmas with Noble Gases V. E. Levashov, K. N. Mednikov, A. S. Pirozhkov, and E. N. Ragozin pp. 149-153 Full Text: PDF (161 kB) Diagnostics of a High-Temperature Laser Plasma by Measuring the Spectral and Temporal Parameters of the 3omega0/2-Harmonic Emission V. N. Kondrashov pp. 154-158 Full Text: PDF (95 kB) Studies of Runaway Electrons in the Globus-M Tokamak A. E. Shevelev, I. N. Chugunov, V. K. Gusev, Yu. V. Petrov, V. V. Rozhdestvenskii, A. B. Mineev, N. V. Sakharov, D. N. Doinikov, A. L. Izotov, S. V. Krikunov, V. O. Naidenov, K. A. Podushnikova, I. A. Polunovskii, D. B. Gin, and A. I. Chugunov pp. 159-163 Full Text: PDF (73 kB) Formation of a Charge-Exchange Target for Fast Ions in the Plasma of Large-Scale Toroidal Devices under NBI Conditions M. I. Mironov, A. V. Khudoleev, and Y. Kusama pp. 164-168 Full Text: PDF (71 kB) Thomson Scattering System for Direct Observation of Langmuir Cavities V. S. Burmasov, L. N. Vyacheslavov, I. V. Kandaurov, É. P. Kruglyakov, O. I. Meshkov, and S. S. Popov pp. 169-172 Full Text: PDF (76 kB) MHD Diagnostics in the T-11M Tokamak A. M. Belov and I. N. Makashin pp. 173-177 Full Text: PDF (125 kB) Monitoring of the Plasma Isotope Composition by Charge-Exchange Neutral Fluxes in a Rippled Toroidal Magnetic Field A. V. Khudoleev, H.-U. Farhbach, and ASDEX-Upgrade team pp. 178-182 Full Text: PDF (109 kB) Crater Formation in a Target under the Action of a High-Power Laser Pulse E. A. Bolkhovitinov, B. L. Vasin, S. Yu. Gus'kov, I. Ya. Doskach, A. A. Erokhin, B. V. Kruglov, M. V. Osipov, V. N. Puzyrev, V. B. Rozanov, A. A. Rupasov, V. B. Studenov, S. I. Fedotov, L. P. Feoktistov, A. S. Shikanov, and O. F. Yakushev pp. 183-186 Full Text: PDF (85 kB)Archived web conten

    Tarsonemus annotatus Livshits, Mitrofanov and Sharonov 1979

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    Tarsonemus annotatus Livshits, Mitrofanov and Sharonov, 1979 (Figs. 10–17, 18B, D) Tarsonemus annotatus Livshits, Mitrofanov and Sharonov, 1979: 19 -20, Fig.22. Material examined: 2 females, Jolfa, Iri village commune, 38°46' 35"N, 45°59'51"E, 1,085 m.a.s.l., ex soil and litter, 26-March-2014; 7 females, Marand, Osdaghi village commune, 38°24'38"N, 45°52'01"E, 1,485 m.a.s.l., ex apricot leaves, 25-April-2014; 3 females, Jolfa, Gordian plain commune, 38°52'33"N, 45°42'26"E, 970 m.a.s.l., ex apricot leaves, 29-May-2014; 2 females, Jolfa, Kordasht village commune, 38°50'10"N, 46°13'43"E, 724 m. a.s.l., ex pomegranate leaves, 29-May-2014; 11 females, Jolfa, Novje–Mehr village commune, 38°52'16"N, 46°01'34"E, 1,064 m.a.s.l., ex mulberry leaves, 30-May-2014; 2 females, Sufiyan, Sar village commune, 38°20'51"N, 46°06'18"E, 1,624 m.a.s.l., ex apple leaves, 10-October-2014; all coll. S. Gheblealivand. Diagnosis. Females. Pharynx oval, without constriction. Dorsal setae c 1 and c 2 tapered, setiform, pointed. Setae 1a, 2a, 3a and 3b smooth, attenuated. Tegula subtrapezoidal in shape with rounded posterior edge. Tarsal part of Tbt I with two attenuated setae. Redescription- FEMALE (Figs. 10–18B, D). Gnathosoma (Figs. 11–12): capsule triangular-ovoid. Pharynx (Fig. 18B) with sclerotized lateral walls, oval in outline, as wide as 0.4x maximum width of gnathosoma and as long as 0.65x of ventral length of gnathosomal capsule, with hardly discernible transverse striation and with a pair of glandular bodies moderate in size. Postpalpal (pp) setae indiscernible. Setae dgs visibly longer than vgs. Cheliceral stylets and levers fine but pronounced. Palpi moderately large, straight, slightly convergent, each with small palptarsal processes and two minute setae. Idiosomal dorsum: (average length: 214 (SD ± 13), width: 122 (SD ± 14); length = 1.8x width; Fig. 10); relative length of setae (v 1: sc 2: c 2: c 1: d: e: f: h): 1: 2.2: 0.9: 0.8: 0.3: 0.4: 0.4: 0.4. Rostral shieldlet 2.5– 3x wider than long, round - sub trapezoidal. Vertical setae (v 1) setiform, pointed, smooth, separated by a distance of their length. Prodorsal shield (PrS) with concave posterior edge, 1.4x wider than long. Stigmata located posterolaterally of setae v 1, tracheal tubes with internal atria followed by post-atrial segments with sclerotized post-atrial sacs. Sensilla sc 1 clavate, covered with fine spines. Pits v 2 in mid-length of line between stigmata and setae sc 2 on each side, separated by distance slightly smaller than that between sc 2. Setae sc 2 located posteriad mid-length of prodorsal shield (measured from line of stigmata to posterior edge), reaching with their tips 1/2 their length beyond posterior edge of PrS, separated by distance of ca. 0.9x their length. Setae c 2 slightly longer than c 1, both pairs slender, sharp. Setae c 1, located posteriad of level of c 2, reaching to 2/3 of distance between their bases and posterior edge of tergite C; separated by transverse distance of ca. 4x their length. Posterior edge of tergite C straight, waved irregularly. Setae d, e, f and h short, stiff and blunt. Setae d separated by transverse distance of ca. 4– 5x their length, not reaching posterior edge of shield D. Posterolateral margin of shield D emarginated corresponding to bases of setae e. Setae f slightly shorter than e but slightly longer than d, separated by a distance of over 2x their length. Distance between setae e and f on each side ca. 1.5x that of between f. Setae h subequal to e and slightly longer than f, located in distance of ca. 5x their length each to another. Dorsal shielding with fine uniform dimpled ornamentation. Idiosomal venter (Fig. 11): apodemes 1 poorly defined, joined with anteromedian apodeme; the latter well defined, consisting of very short segment near bases of 1a, and another one continuous from a level near anterolateral ends of apodemes 2 to sejugal apodeme, with diffused junction area. Sejugal apodeme with slight inflexions in lateral parts; together with anteromedial apodeme forming shape of anchor. Ridge of ventral propodosomal plate between trochanters I and II angular. Setae 1a -3b slender, sharply pointed; 1a located posteriad apodemes 1 at distance barely longer than their length to each other. Setae 2a inserted on medial parts of apodemes 2, in distance of over 2x their lengths between their bases. Apodemes 3 strongly sclerotized, extended from anterior margins of trochanters III anteromedially and widened towards bases of 3a; apodemes 4 weak, separated from posteromedial apodeme medially; latter one bifurcated anteriorly. Setae 3a separated by distance of ca. 1.4– 2x; 3b slightly shorter than 3a, separated by distance of 2.5– 3x their lengths, but similar to that between 3a. Ventral metapodosomal plate with anterior edge weakly concave. Tegula (Fig. 18C) round-trapezoidal in outline, with rounded posterior edge ca. 1.7x wider than long. Setae ps stiff, slightly barbed and blunt, their bases separated by distance of ca. 2x their lengths. Surface of ventral plates covered with fine uniform dimpled ornamentation. Legs (Figs. 13–16): Proportions of free segments of legs (I: II: III: IV): 1.0: 0.9: 1.0: 0.7. Leg I: Chaetotaxy: 4–4–6(2 φ)+7(1 ω). Tarsal claw hooked, slightly stronger than those of tarsi II and III. Subunguinal seta s tapering, blunt, apparently smaller than u’ of tarsi II and III. Tarsal unguinal setae u’ – u” indiscernible. Tibiotarsus ca. 3.3x longer than wide at base. Eupathidion p” subequal to p’, both located apically; eupathidion tc’ slightly longer than tc”, the latter similar in length to p’ and p”, located in distal 1/3 length of segment. Two tarsal setae pv’, pv” slender and pointed (pl" absent). Solenidion ω clavate, larger than Ta II ω. Solenidion φ 2 with striated head, shorter than φ 1, famulus k longer than φ 1. Setae Ge v’, l’ and l” stiff and pointed. Seta Fe d short, stiff, and sharp, seta l’ strong, stiff and pointed. Leg II: Chaetotaxy: 3– 3– 4– 6(1 ω). Claws on tarsus hooked, well developed. Seta u’ spine-like, u" indiscernible. Spine-like seta pl” slightly longer than solenidion Ta II ω, located at same level. Seta tc” about 1.3x longer than tc’ and other tarsal setae, reaching somewhat beyond tip of empodium. Tibial setae l’, v’ and v” weakly barbed; l’ the shortest. Seta Ge l’ stout, smooth, pointed. Femur with a latero-ventral lobe; seta l’ tapering, weakly barbed and bluntly ended, seta d moderately stout. Leg III: Chaetotaxy: 1+3–4–5. Tarsal claws similar to those of leg II, though thinner. Seta u’ similar to that on tarsus II; u” indiscernible. Seta tc” over 2x longer than other setae on segment. Seta Ge l’ simple, weak. Genual part of femorogenu on right leg of one specimen has one extra seta, probably v”. Leg IV: free segments of leg IV slightly longer than femorogenu and tibia III. Femorogenu over 3x longer than tibiotarsus. Femoral seta slightly shorter and clearly weaker than genual one. Seta Tb v’ as long as femorogenu; stout, very weakly barbed. Seta Ta tc” ca. 1.6x as long as whole leg IV. Measurements (5 specimens): body and tagmata: length of body: 225–240; length of idiosoma: 195-227; width of idiosoma (approx.): 110–145; length of gnathosoma: 31–33; width of gnathosoma: 21–23; length of pharynx: 20–24; width of pharynx: 8–9; dgs: 12–17; vgs: 8–10. Dorsum - length of PrS: 70–76; width of PrS: 95–110; distance between stigmata: 44–46. Lengths of setae: v 1: 25–31; sc 1 11–15; sc 2: 60–65; c 2: 25–30; c 1: 18–26; d: 8–10; e: 11–13; f: 10–12; h: 11–13. Distances between setae: v 1 -v 1: 27–28; sc 1 -sc 1: 42–50; sc 2 -sc 2: 57–61; c 2 -c 2: 100–115; c 1 -c 1: 81–92; d -d: 38–40; e -e: 85–95; e -f: 30–40; f -f. 22–30; h -h: 53–60. Venter: lengths of setae: 1a: 9 –10; 2a: 12–15; 3a: 14–18; 3b: 10–12; ps: 9–10. Distances between setae: 1a -1a: 10; 2a -2a: 30–32; 3a -3a: 22–27; 3b -3b: 26–30; ps -ps: 19–22. Length of PrP: 55–60; width of PrP: 90–110; ap. 1–1: 7–10; ap. 2– 2: 38–40. Length of tegula: 6–9; width of tegula:12–15. Leg segments and leg setae (lengths): Tbt I: 24–25; ω I: 6–7; φ 1: 2–3; φ 2: 4–5; қ: 6; ω II: 4–5; FeGe IV: 30–34; Tbt IV: 9–11; Fe v’: 12–15; Ge v': 14–17; Tb v': 28–35; Ta tc": 62–70. MALE and LARVA unknown. Distribution. Eastern Europe: Crimea (Livshitz et al. 1979) and Northwestern Iran. Differential diagnosis. Females of T. annotatus are similar to Tarsonemus bilobatus Suski, 1965a in having a similar structure of the sejugal apodeme, sclerotized post-atrial sacs, and slender 3b setae. However it differs from the latter by (1) apodemes 2 ending medially in the distance of 1/ 2x their length to anteromedial apodeme (vs. apodemes 2 clearly reaching to anteromedial apodeme); (2) bifurcation of posteromedial apodeme expressed (vs. bifurcation of posteromedial apodeme absent); (3) Setae ps separated by distance of ca. 2x their lengths (vs. ps separated by distance apparently larger than 2x their lengths). Remarks. Previous records from Iran: East Azerbaijan (Sufiyan, the soil of alfalfa cultivations, Lotfollahi & Haddad Irani-Nejad 2010).Published as part of Gheblealivand, Saeide S., Irani-Nejad, Karim Haddad, Magowski, Wojciech Ł. & Manzari, Shahab, 2018, The genus Tarsonemus Canestrini and Fanzago, 1876 (Acari: Heterostigmatina: Tarsonemidae) in East Azerbaijan, Iran, with a description of T. lenticulatus sp. nov. and re-description of T. annotatus Livshits, Mitrofanov and Sharonov, 1979, pp. 13-38 in Zootaxa 4446 (1) on pages 22-27, DOI: 10.11646/zootaxa.4446.1.2, http://zenodo.org/record/143734

    Method for predicting crack propagation in concrete and reinforced concrete elements = Метод прогнозування поширення тріщин у бетонних та залізобетонних елементах

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    Mitrofanov V. Method for predicting crack propagation in concrete and reinforced concrete elements / V. Mitrofanov, P. Mytrofanov // Академічна й університетська наука: результати та перспективи : зб. наук. пр. XVІІІ Міжнар. наук.-практ. конф., 09 – 12 груд. 2025 р. – Полтава : Нац. ун-т ім. Юрія Кондратюка, 2025. – С. 204–205

    Plasma Physics Reports V. 30, I. 03

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    Plasma Physics Reports -- March 2004 Volume 30, Issue 3, pp. 187-275 TOKAMAKS Error Field Amplification near the Stability Boundary of the Modes Interacting with a Conducting Wall V. D. Pustovitov pp. 187-195 Full Text: PDF (102 kB) NONLINEAR PHENOMENA Interaction of Electromagnetic Waves with Plasma in the Radiation-Dominated Regime S. V. Bulanov, T. Zh. Esirkepov, J. Koga, and T. Tajima pp. 196-213 Full Text: PDF (434 kB) Nonlinear Dynamics of Electron Vortex Lattices V. Yu. Zaburdaev, V. V. Smirnov, and K. V. Chukbar pp. 214-217 Full Text: PDF (63 kB) PLASMA DYNAMICS Interferometric Measurements of the Plasma Density at the Z-Pinch Periphery in the Angara-5-1 Facility V. V. Aleksandrov, G. S. Volkov, E. V. Grabovskii, G. G. Zukakishvili, M. V. Zurin, K. N. Mitrofanov, S. L. Nedoseev, G. M. Oleinik, I. Yu. Porofeev, A. A. Samokhin, P. V. Sasorov, V. P. Smirnov, and I. N. Frolov pp. 218-227 Full Text: PDF (448 kB) DUSTY PLASMA Surface Activity of Dust with Variable Charge A. M. Ignatov pp. 228-234 Full Text: PDF (79 kB) PLASMA DIAGNOSTICS Feasibility of Stabilizing a Vacuum-Diode X-ray Source with a Laser-Plasma Cathode A. S. Kishinets, Yu. V. Korobkin, I. V. Romanov, A. A. Rupasov, A. S. Shikanov, A. Moorti, P. A. Naik, and P. D. Gupta pp. 235-240 Full Text: PDF (68 kB) PLASMA INSTABILITY Stability of a Quasi-Flute Mode under the Bernstein–Kadomtsev Condition in a Toroidal Confinement System A. V. Zvonkov and A. A. Skovoroda pp. 241-248 Full Text: PDF (106 kB) LOW-TEMPERATURE PLASMA Evolution of a Capillary Discharge Induced by a Semiconductor Current Generator A. V. Nazarenko, P. S. Antsiferov, L. A. Dorokhin, and K. N. Koshelev pp. 249-254 Full Text: PDF (227 kB) A Pulse-Periodic Torch in a Coaxial Waveguide: Formation Dynamics and Spatial Structure S. I. Gritsinin, V. Yu. Knyazev, I. A. Kossyi, N. I. Malykh, and M. A. Misakyan pp. 255-262 Full Text: PDF (445 kB) Ion Flows from a Beam–Plasma Discharge N. V. Isaev, A. I. Chmil', and E. G. Shustin pp. 263-268 Full Text: PDF (83 kB) BRIEF COMMUNICATIONS Pulsations of a Bunch of Charged Particles in a Penning Trap N. D. Naumov pp. 269-271 Full Text: PDF (41 kB) In Memory of Aleksandr Ivanovich Karchevskii (April 26, 1931–August 31, 2003) On behalf of all the friends, colleagues of A.I. Karchevskii, V.Yu. Baranov, Yu.A. Muromkin, and V.D. Shafranov pp. 272-273 Full Text: PDF (77 kB) In Memory of Marshall Nicholas Rosenbluth (February 5, 1927–September 28, 2003) V.D. Shafranov pp. 274-275 Full Text: PDF (85 kB)Archived web conten

    Plasma Physics Reports V. 31, I. 08

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    leave(s) : ill; 28 cm.Plasma Physics Reports -- August 2005 Volume 31, Issue 8, pp. 621-708 TOKAMAKS Suppression of the Neoclassical Tearing Modes in Tokamaks under Anomalous Transverse Transport Conditions when the Magnetic Well Effect Predominates over the Bootstrap Drive S. V. Konovalov, A. B. Mikhailovskii, M. S. Shirokov, T. Ozeki, and V. S. Tsypin pp. 621-637 Full Text: PDF (186 kB) PLASMA OSCILLATIONS AND WAVES Anomalous Doppler Effect and Stimulated Cherenkov Effect in a Plasma Waveguide with a Thin-Walled Annular Electron Beam M. V. Kuzelev and A. A. Rukhadze pp. 638-645 Full Text: PDF (105 kB) Generation of Low-Frequency Radiation by a Nonequilibrium Plasma of an RF Discharge in a Linear Mirror Magnetic Confinement System V. V. Dobrokhotov, N. M. Lyukshin, G. A. Markov, and Yu. V. Chugunov pp. 646-651 Full Text: PDF (81 kB) PLASMA DYNAMICS Measurements of the Axial Magnetic Field during the Implosion of Wire Arrays in the Angara-5-1 Facility G. G. Zukakishvili, K. N. Mitrofanov, E. V. Grabovskii, and G. M. Oleinik pp. 652-664 Full Text: PDF (940 kB) PLASMA INSTABILITIES Modeling of the Tearing Instability in Unreduced Two-Fluid Magnetohydrodynamics V. P. Zhukov pp. 665-676 Full Text: PDF (292 kB) PLASMA RADIATION Current Scaling for the Radiative Characteristics of a Micropinch Discharge A. N. Dolgov pp. 677-683 Full Text: PDF (80 kB) Modeling of the Composition of Materials for Soft X-ray Sources Used in Research on Inertial Confinement Fusion O. B. Denisov, N. Yu. Orlov, S. Yu. Gus'kov, V. B. Rozanov, N. V. Zmitrenko, and A. P. Mikhailov pp. 684-689 Full Text: PDF (81 kB) DUSTY PLASMA Influence of the Trapped Ions on the Screening Effect and Frictional Force in a Dusty Plasma S. A. Maiorov pp. 690-699 Full Text: PDF (126 kB) NONIDEAL PLASMA Calculation of the Shock Hugoniot of Deuterium at Pressures above 1 Mbar by the Path-Integral Monte Carlo Method V. S. Filinov, P. R. Levashov, M. Bonitz, and V. E. Fortov pp. 700-704 Full Text: PDF (66 kB) LASER PLASMA Studies of the Optical Properties of a Nonequilibrium Plasma in the MKV-4 Facility Yu. D. Bogunenko, A. V. Bessarab, G. A. Bondarenko, G. V. Dolgoleva, V. A. Zhmailo, A. G. Kravchenko, E. A. Novikova, A. V. Pinegin, V. A. Starodubtsev, and V. P. Statsenko pp. 705-708 Full Text: PDF (108 kB)The content contained herein is maintained and curated by the Preservation Department.This record is revised and maintained by the content administrators from the Cataloging & Metadata Department

    Plasma Physics Reports V. 31, I. 08

    No full text
    Plasma Physics Reports -- August 2005 Volume 31, Issue 8, pp. 621-708 TOKAMAKS Suppression of the Neoclassical Tearing Modes in Tokamaks under Anomalous Transverse Transport Conditions when the Magnetic Well Effect Predominates over the Bootstrap Drive S. V. Konovalov, A. B. Mikhailovskii, M. S. Shirokov, T. Ozeki, and V. S. Tsypin pp. 621-637 Full Text: PDF (186 kB) PLASMA OSCILLATIONS AND WAVES Anomalous Doppler Effect and Stimulated Cherenkov Effect in a Plasma Waveguide with a Thin-Walled Annular Electron Beam M. V. Kuzelev and A. A. Rukhadze pp. 638-645 Full Text: PDF (105 kB) Generation of Low-Frequency Radiation by a Nonequilibrium Plasma of an RF Discharge in a Linear Mirror Magnetic Confinement System V. V. Dobrokhotov, N. M. Lyukshin, G. A. Markov, and Yu. V. Chugunov pp. 646-651 Full Text: PDF (81 kB) PLASMA DYNAMICS Measurements of the Axial Magnetic Field during the Implosion of Wire Arrays in the Angara-5-1 Facility G. G. Zukakishvili, K. N. Mitrofanov, E. V. Grabovskii, and G. M. Oleinik pp. 652-664 Full Text: PDF (940 kB) PLASMA INSTABILITIES Modeling of the Tearing Instability in Unreduced Two-Fluid Magnetohydrodynamics V. P. Zhukov pp. 665-676 Full Text: PDF (292 kB) PLASMA RADIATION Current Scaling for the Radiative Characteristics of a Micropinch Discharge A. N. Dolgov pp. 677-683 Full Text: PDF (80 kB) Modeling of the Composition of Materials for Soft X-ray Sources Used in Research on Inertial Confinement Fusion O. B. Denisov, N. Yu. Orlov, S. Yu. Gus'kov, V. B. Rozanov, N. V. Zmitrenko, and A. P. Mikhailov pp. 684-689 Full Text: PDF (81 kB) DUSTY PLASMA Influence of the Trapped Ions on the Screening Effect and Frictional Force in a Dusty Plasma S. A. Maiorov pp. 690-699 Full Text: PDF (126 kB) NONIDEAL PLASMA Calculation of the Shock Hugoniot of Deuterium at Pressures above 1 Mbar by the Path-Integral Monte Carlo Method V. S. Filinov, P. R. Levashov, M. Bonitz, and V. E. Fortov pp. 700-704 Full Text: PDF (66 kB) LASER PLASMA Studies of the Optical Properties of a Nonequilibrium Plasma in the MKV-4 Facility Yu. D. Bogunenko, A. V. Bessarab, G. A. Bondarenko, G. V. Dolgoleva, V. A. Zhmailo, A. G. Kravchenko, E. A. Novikova, A. V. Pinegin, V. A. Starodubtsev, and V. P. Statsenko pp. 705-708 Full Text: PDF (108 kB)Archived web conten
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