2,517 research outputs found
FIGURE 9 in Revised taxonomic status of Eidophasia zukowskyi Amsel, 1938 (Lepidoptera, Plutellidae) with first description of its male and female genitalia
FIGURE 9. Female genitalia: Eidophasia zukowskyi: a—ventral view, c—antrum, e—ductus bursae near inception to bursa copulatrix, g—strengthened walls of bursa copulatrix, Eidophasia syenitella: b—ventral view, d—antrum, f—ductus bursae near inception to bursa copulatrix, h—strengthened walls of bursa copulatrix (the illustrations are following Baraniak & Sohn 2015: 588, Fig. 6a, c–e).Published as part of Baraniak, Edward & Sohn, Jae-Cheon, 2016, Revised taxonomic status of Eidophasia zukowskyi Amsel, 1938 (Lepidoptera, Plutellidae) with first description of its male and female genitalia, pp. 164-172 in Zootaxa 4162 (1) on page 170, DOI: 10.11646/zootaxa.4162.1.8, http://zenodo.org/record/25717
FIGURES 5–7 in Two new species of Gisilia Kasy, 1968 (Lepidoptera, Cosmopterigidae) from Korea with first report of piercing oviscapts in Gelechioidea
FIGURES 5–7. Male abdomen VIII (5) and male genitalia (6–7) of Gisilia. 5. G. melanobasis n. sp., holotype, sternite on left (a—processes on sternite, b—pleural area, c—process on tergite); 6. G. melanobasis n. sp., paratype (SJC-1090); 7. G. tamrae n. sp., holotype (SJC-1091).Published as part of Sohn, Jae-Cheon & Park, Kyu-Tek, 2018, Two new species of Gisilia Kasy, 1968 (Lepidoptera, Cosmopterigidae) from Korea with first report of piercing oviscapts in Gelechioidea, pp. 179-186 in Zootaxa 4418 (2) on page 182, DOI: 10.11646/zootaxa.4418.2.7, http://zenodo.org/record/124506
Liquid entrainment and off-take through the break at the top of a vessel
In order to determine the bleed capacity of the safety depressurization system (SDS) of Advanced Power Reactor 1400 (APR1400) in the case of total loss of feed water (TLOFW), we performed an experimental study of liquid entrainment and liquid off-take from the swelled two-phase mixture surface in a vessel. A total of 220 experimental data on the entrainment and off-take are obtained using a test vessel with a height of 2.0 m and an inner diameter of 0.3 m and a top break with a diameter of 0.05 m. Two-phase mixture levels are measured by an ultrasonic sensor within +/- 1.77% with respect to the visual level data. Droplet entrainment data are obtained with and without the top break and are compared with the existing pool entrainment data. The present droplet entrainment data have higher values than the existing pool entrainment data due to (a) the pulling toward the break of the liquid deentrained on the top wall of the vessel and (b) gas acceleration in the vicinity of the break. In the present experiment, droplet entrainment, E-fg, strongly depends upon j(g)(*)/h* and is proportional to the seventh power of j(g)(*)/h* in the same way as the off-take data. The empirical correlation for the onset of off-take is developed in terms of the Froude number (Fr-g) at the break and the non-dimensional inception height (h(b)/d). This correlation shows agreement with the present experimental data within +/- 15%. The present off-take quality data show agreement with Schrock's off-take quality correlation with the rms error of 15.8%. (c) 2005 Elsevier B.V. All rights reserved
Figure 4 in A taxonomic review of the Neotropical genus Anchimacheta (Lepidoptera: Urodidae) with descriptions of a new congener and an allied, new genus and species from Sri Lanka
Figure 4. Male genitalia. (A) Genital capsule of Anchimacheta capnodes (= A. iodes), paralectotype (insets: a, b – right valva; c – medial band of gnathos; d – juxta); (B) right valva of A. costaricae, holotype; (C) phallus of A. capnodes (= A. iodes), paralectotype; (D) phallus of A. costaricae, holotype; (E) genital capsule of Glaucotunica tamila, holotype (insets: e – gnathal arms; f – juxta); (F) phallus of G. tamila, holotype (inset: g – enlarged distal third, transmitted light phase contrast image).Published as part of Sohn, Jae-Cheon, 2014, A taxonomic review of the Neotropical genus Anchimacheta (Lepidoptera: Urodidae) with descriptions of a new congener and an allied, new genus and species from Sri Lanka, pp. 2617-2631 in Journal of Natural History 48 (43-44) on page 2622, DOI: 10.1080/00222933.2014.939730, http://zenodo.org/record/463151
FIGURE 9. A & B, Bradleytriebella tuberculata. A in Two new species of non-marine Ostracoda (Crustacea) of the genera Vestalenula Rossetti & Martens, 1998 (Darwinuloidea) and Microloxoconcha Hartmann, 1954 (Cytheroidea) from Tsushima, Japan, and a summary of the non-marine ostracod fauna of the island
FIGURE 9. A & B, Bradleytriebella tuberculata. A, female, RV, ext. B, female, LV, int. C & D, Cavernocypris cavernosa. C, female, RV, ext. D, female, LV, int. E & F, Hemicypris posterotruncata. E, female, LV, ext. B, female, RV, int. G & H, Dolerocypris ikeyai. G, female, LV, ext. H, female, RV, int. I & J, Dolerocypris fasciata. I, female, LV, int. J, female, RV, int. K & L, Candonocypris caledonica sensu Okubo 2004. K, female, LV, int. L, female, RV, int. M & N, Stenocypris hirutai. M, female, RV, int. L, female, LV, int. O & P, Stenocypris hislopi. O, female, RV, ext. P, female, LV, int. Q & R, Scottia pseudobrowniana. Q, female, LV, ext. R, female, RV, int. Scale bar = 463 µm for A & B, 321 µm for C & D, 652 µm for E & F, 634 µm for G & H, 935 µm for I & J, 950 µm for K & L, 1007 µm for M & N, 960 µm for O & P, and 459 µm for Q & R.Published as part of Smith, Robin James & Chang, Cheon Young, 2022, Two new species of non-marine Ostracoda (Crustacea) of the genera Vestalenula Rossetti & Martens, 1998 (Darwinuloidea) and Microloxoconcha Hartmann, 1954 (Cytheroidea) from Tsushima, Japan, and a summary of the non-marine ostracod fauna of the island, pp. 529-555 in Zootaxa 5150 (4) on page 549, DOI: 10.11646/zootaxa.5150.4.4, http://zenodo.org/record/662690
FIGURE 3. A–H in Two new species of non-marine Ostracoda (Crustacea) of the genera Vestalenula Rossetti & Martens, 1998 (Darwinuloidea) and Microloxoconcha Hartmann, 1954 (Cytheroidea) from Tsushima, Japan, and a summary of the non-marine ostracod fauna of the island
FIGURE 3. A–H, Vestalenula gravata sp. nov. A, LV, ext. (LBM 1430009558). B, LV, int. (LBM 1430009558). C, RV, int. (LBM 1430009557). D, RV, oblique int. (LBM 1430009557). E, Cp, dor., anterior to right (LBM 1430009559). F, RV vent. (LBM 1430009557). G, Cp, vent., anterior to left (LBM 1430009559). H, adductor muscle scars, anterior to left (LBM 1430009557). I–K, Vestalenula sp. I, LV, ext. J, RV, int. K, RV, vent. Scale bar = 200 µm for A–G, I–K, 46 µm for H.Published as part of Smith, Robin James & Chang, Cheon Young, 2022, Two new species of non-marine Ostracoda (Crustacea) of the genera Vestalenula Rossetti & Martens, 1998 (Darwinuloidea) and Microloxoconcha Hartmann, 1954 (Cytheroidea) from Tsushima, Japan, and a summary of the non-marine ostracod fauna of the island, pp. 529-555 in Zootaxa 5150 (4) on page 537, DOI: 10.11646/zootaxa.5150.4.4, http://zenodo.org/record/662690
FIGURE 3. Ilyocypris japonica Okubo, 1990. A in Ilyocypris (Crustacea: Ostracoda) species in North East Asian rice fields description of one new species, and redescriptions of Ilyocypris dentifera Sars 1903 and Ilyocypris japonica Okubo, 1990
FIGURE 3. Ilyocypris japonica Okubo, 1990. A, antennule, male (LBM 1430009154). B, antenna, male (LBM 1430009155). C, mandibular palp, male (LBM 1430009158). D, mandibular coxa, male (LBM 1430009155). E, maxillula palp and endites (setae on endites not drawn), male (LBM 1430009154). F, fifth limb, female (LBM 1430009157). G, fifth limb palp, male (LBM 1430009154). H, sixth limb, male (LBM 1430009154), arrow and dashed line indicate length of first endopodal segment. I, caudal ramus, male (LBM 1430009155). All specimens from sample 22; see Table 1.Published as part of Smith, Robin James, Zhai, Dayou & Chang, Cheon Young, 2019, Zootaxa 4652 (1) on pages 56-92, DOI: 10.11646/zootaxa.4652.1.2, http://zenodo.org/record/336353
Measurement of B→Ds(*)Kπ branching fractions
We report a measurement of the exclusive B+ meson decay to the D-s(()*K-)(+)pi(+) final state using 657 x 10(6) B (B) over bar pairs collected at the gamma(4S) resonance with the Belle detector at the KEKB asymmetric-energy e(+)e(-) collider. We use D-s* -> D-s(-) -> phi pi(-), (K) over bar*(892)K-0(-) and (KSK-)-K-0 decay modes for D-s(()*()) reconstruction and measure the following branching fractions: B(B+ -> Ds-K+pi(+)) = (1.71(-0.07)(+0.08)(stat)(-0.20)(+0.20)(syst) +/- 0.15(B-int)) x 10(-4) and B(B+ -> D-s*K--(+)pi(+)) = (1.31(-0.12)(+0.13)(stat)(-0.25)(+0.25)(syst) +/- 0.12(B-int)) x 10(-4). The uncertainties are due to statistics, experimental systematic errors, and uncertainties of intermediate branching fractions, respectively.LPH
Figure 10 in Nonmarine Ostracoda (Crustacea) from Jeju Island, South Korea, including descriptions of two new species
Figure 10. (A, B) Ishizakiella miurensis: (A) external view of male right valve (DB40049); (B) internal view of male left valve (DB40049). (C, D) Limnocythere sp.: (C) right view of female carapace (DB40050); (D) dorsal view of female carapace, anterior to right (DB40050). (E–H) Vestalenula cylindrica: (E) internal view of female left valve (DB40051); (F) internal view of female right valve (DB40051); (G) ventral view of female right valve (DB40051); (H) dorsal view of female carapace, anterior to right (DB40052). Scale bar = 270 µm for A, B; 137 for C, D; 183 µm for E–H.Published as part of Smith, Robin James, Lee, Jimin & Chang, Cheon Young, 2014, Nonmarine Ostracoda (Crustacea) from Jeju Island, South Korea, including descriptions of two new species, pp. 37-76 in Journal of Natural History 49 (1) on page 67, DOI: 10.1080/00222933.2014.946110, http://zenodo.org/record/400251
Study of the decay mechanism for B+ -> p(p)over-barK(+) and B+ -> p(p)over-bar pi(+)
We study the characteristics of the low mass p (p) over bar enhancements near threshold in the three-body decays B+ -> p (p) over barK(+) and B+ -> p (p) over bar pi(+). We observe that the proton polar angle distributions in the p (p) over bar helicity frame in the two decays have the opposite polarity, and measure the forward-backward asymmetries as a function of the p mass for the p (p) over barK(+) mode. We also search for the intermediate two-body decays, B+ -> (p) over bar Delta(++) and B+ -> p (Delta) over bar (0), and set upper limits on their branching fractions. These results are obtained from a 414 fb(-1) data sample that contains 449 x 10(6) B (B) over bar events collected near the Gamma(4S) resonance with the Belle detector at the KEKB asymmetric-energy e(+)e(-) collider. (c) 2007 Elsevier B.V. All rights reserved.IPE
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