103,053 research outputs found
Robert T. Watanabe
Interview with Robert T. Watanabe, Class of 1970 & 1987, by Father Norman F. Martin, S.J., Class of 1937Interview with Robert T. Watanabe, Class of 1970 & 1987, by Father Norman F. Martin, S.J., Class of 1938SCO Oral History SeriesRobert_Watanabe.pd
Robert T. Watanabe
Interview with Robert T. Watanabe, Class of 1970 & 1987, by Father Norman F. Martin, S.J., Class of 1937Interview with Robert T. Watanabe, Class of 1970 & 1987, by Father Norman F. Martin, S.J., Class of 1938SCO Oral History SeriesRobert_Watanabe.pd
Letter from Robert F. Martin, Surgeon, June 11, 1946
Written on official letterhead of the U.S. Department of Justice Immigration and Naturalization Service in Crystal City, Texas, Robert F. Martin, the Surgeon and Medical Officer in Charge writes in support of Mr. Harukichi Watanabe, who was employed as an orderly from November 9, 1944 through the date of this letter. He describes Watanabe as an ideal employee and recommends Watanabe for any work "in which he considers himself qualified."Collection of notes, articles, correspondence, photographs, and term papers collected by Yukio Mochizuki, a student at CSU Dominguez Hills, while researching Japanese American incarceration and Japanese Peruvian internment during World War II
Kusigematia kumatai Watanabe 2019, comb. nov.
Kusigematia kumatai (Kusigemati, 1982) comb. nov. (Figs 1, 3, 5, 6, 8, 12, 13) Xanthocampoplex kumatai Kusigemati, 1982: 102. Material examined. Holotype: 1 F, JAPAN, Hokkaido, Sapporo City, Moiwa, 12. IX. 1975, bred from Acrocercops sp., T. Kumata leg. Paratypes: 4 F, Hokkaido, Nopporo, 11 & 14. IX. 1971, bred from Acrocercops sp., T. Kumata leg.; 1 F & 2 M, same data of holotype except for 10, 12 & 16. IX. 1975; 1 F & 1 M, same data of holotype except for 13. VII. 1977; 2 F, JAPAN, Wakayama Pref., Kozagawa, 30. V. & 8. VI. 1964; 1 F & 1 M, same locality and collector, 10 & 17. VI. 1970. All specimens deposited in SEHU. Distribution. Japan (Hokkaido and Honshu) Bionomics. A single gracillariid host, Acrocercops spp. was recorded (Kusigemati, 1982).Published as part of Watanabe, Kyohei, 2019, A review of the Japanese species of the genus Xanthocampoplex Morley, 1913 (Hymenoptera, Ichneumonidae, Campopleginae), with description of a new genus, pp. 579-586 in Zootaxa 4661 (3) on pages 582-583, DOI: 10.11646/zootaxa.4661.3.10, http://zenodo.org/record/338091
Kusigematia spulerinae Watanabe 2019, comb. nov.
<i>Kusigematia spulerinae</i> (Kusigemati, 1982) comb. nov. <p>(Figs 4, 9, 14)</p> <p> <i>Xanthocampoplex spulerinae</i> Kusigemati, 1982: 101.</p> <p> <b>Material examined</b>. Holotype: 1 F, JAPAN, Wakayama Pref., Kozagawa, 21. X. 1974, bred from <i>Caloptilla</i> sp., T. Kumata leg. Paratypes: 4 F, JAPAN, Tochigi Pref., Nishinasuno, 4. X. 1976, bred from <i>Spulerina dissotoma</i>, T. Kumata leg.; 3 F, same data of holotype except for 18. X. 1974; 1 F & 1M, same data of holotype; 5 F, same data of holotype except for 18, 21, 23 & 24. X. 1974. All specimens deposited in SEHU.</p> <p> <b>Distribution</b>. Japan (Honshu)</p> <p> <b>Bionomics</b>. Two gracillariid hosts, <i>Caloptilia</i> sp. and <i>Spulerina dissotoma</i> (Meyrick, 1931), were recorded (Kusigemati, 1982).</p>Published as part of <i>Watanabe, Kyohei, 2019, A review of the Japanese species of the genus Xanthocampoplex Morley, 1913 (Hymenoptera, Ichneumonidae, Campopleginae), with description of a new genus, pp. 579-586 in Zootaxa 4661 (3)</i> on page 583, DOI: 10.11646/zootaxa.4661.3.10, <a href="http://zenodo.org/record/3380912">http://zenodo.org/record/3380912</a>
Kusigematia caloptiliae Watanabe 2019, comb. nov.
Kusigematia caloptiliae (Kusigemati, 1982) comb. nov. (Figs 2, 7, 10, 11) Xanthocampoplex caloptiliae Kusigemati, 1982: 98. Material examined. Holotype: 1 F, JAPAN, Wakayama Pref., Kozagawa, 11. VI. 1970, bred from Caloptilla kadsurae, T. Kumata leg. Paratypes: 1 F, same data as holotype except for 11. VI. 1964; 1 F & 1 M, same data of holotype except for 13 & 15. VI. 1970; 1M, same data as holotype except for 25. X. 1974; 1 M, JAPAN, Kagoshima Pref., Yakushima Is., Kosugidani, 5. VII. 1965, bred from C. splaris (= C. isochrysa), T. Kumata leg. (SEHU). All specimens deposited in SEHU. Distribution. Japan (Honshu and Yakushima Is.) and Russia (Primorsky Krai). Bionomics. Two gracillariid hosts, Caloptilia kadsurae Kumata, 1966 and C. isochrysa (Meyrick, 1908), arre recorded (Kusigemati, 1982).Published as part of Watanabe, Kyohei, 2019, A review of the Japanese species of the genus Xanthocampoplex Morley, 1913 (Hymenoptera, Ichneumonidae, Campopleginae), with description of a new genus, pp. 579-586 in Zootaxa 4661 (3) on page 582, DOI: 10.11646/zootaxa.4661.3.10, http://zenodo.org/record/338091
Pion japonicum Watanabe, 2016, sp. nov.
Pion japonicum sp. nov. (Figs 1–10) Type series. Holotype. F, Gunma Pref., Katashina Vil., Marunuma, Yuzawa, 1440–1560 m alt., 2. vii. 2008, K. Watanabe leg. (KPMNH). Paratypes. 1 F, Yamagata Pref., Mamurogawa Town, 19. vi. 2012, Y. Matsubara & K. Fukuda leg. (MsT) (NIAES); 2 F, same data except for “ 22. vi. 2012 ” (KPMNH); 1 F, same data except for “ 14. vii. 2012 ” (KPMNH); 4 F and 6 M, same data of holotype (KPMNH); 2 F and 1 M, sama data of holotype except for “S. Yoshizawa leg.” (KPMNH); 3 M, Tochigi Pref., Nasushiobara City, Utou-sawa, 22–28. v. 2008, T. Matsumura leg. (MsT) (KPMNH); 1 M, Tochigi Pref., Nasushiobara City, Kotaki, 24–30. v. 2008, T. Matsumura leg. (MsT) (KPMNH); 1 F, Yamanashi Pref., Hokuto City, Masutomi, Biwakubo-sawa, 24. vi. 2007, H. Katahira leg. (KPMNH); 1 F, Nagano Pref., Koumi Town, Chiyosato, 20. vi. 2007, H. Katahira leg. (KPMNH); 4 F, Nagano Pref., Kawakami Vil., Azusayama 1360–1460 m alt., 14. vi. 2015, S. Shimizu leg. (KPMNH); 18 M, Nagano Pref., Outaki Vil., Mt. Ontake 1790-1870 m alt., 13. vi. 2015, S. Shimizu leg. (KPMNH); 8 F and 27 M, same data except for “ca. 1840 m alt., 13–25. vi. 2015 (MsT)” (2 F and 2 M, GSFPM; 3 M, NIAES; 6 F and 18 males, KPMNH); 2 F, same data except for “ 25. vi. – 15. vii. 2015 (MsT)” (KPMNH); 1 M, Shizuoka Pref., Honkawane Town, Mt. Yamainudan 1200-1400 m alt., 14. vi. 2008, K. Watanabe leg. (KPMNH); 1 M, Shizuoka Pref., Shizuoka City, Umegashima, Abe-toge, 15. vi. 2008, K. Watanabe leg. (KPMNH); 1 M, Fukui Pref., Ikeda Town, Kanmuri-yama, 12. vi. 1982, T. Murota leg. (KPMNH); 1 F, Fukui Pref., Katsuyama City, Ohara, 22. v. 1982, T. Murota leg. (KPMNH); 1 M, Fukui Pref., Katsuyama City, Kyogatake, 29. v. 1982, T. Murota leg. (KPMNH); 1 M, Fukui Pref., Izumi Vil, Kuzuwadani, 30. v. 1982, T. Murota leg. (KPMNH); 1 M, Fukui Pref., Oono City to Katsuyama City, Akausagi-yama, 6. vi. 1982, T. Tano leg. (KPMNH). Description. Female (n= 28). Body 6.5–9.5 (HT: 8.0) mm. Body polished, smooth and punctate, covered with silver setae. Head 0.5 times as long as wide. Clypeus 0.4 times as long as wide, entirely punctate, its ventral margin slightly concave medially (Fig. 1). Face 0.5–0.6 (HT; 0.5) times as long as wide, weakly convex medially. Frons weakly concave above each antennal socket. Malar space 0.6 times as long as basal width of mandible. Inner eye margin nearly parallel (Fig. 1). Minimum length between lateral ocellus and eye 1.2–1.5 (HT: 1.3) times as long as minimum length between each lateral ocellus. Occipital carina complete. Antenna with 28–29 (HT: 29) flagellomeres, its first segment 1.2 times as long as second segment. Mesosoma. Pronotum smooth dorsally, covered with irregular rugae ventrally. Epomia weak, short. Upper end of epicnemial carina reached to anterior margin of mesopleuron. Mesopleuron with a large smooth area around episternal scrobe. Lateromedian longitudinal carinae of propodeum straight and completely parallel (Fig. 2). Area superomedia + basalis almost smooth (Fig. 2). Fore wing 6.5 –8.0 (HT: 7.5) mm. Vein cu-a of fore wing inclivous, its anterior end distant from posterior end of vein Rs + M. Vein Rs of fore wing more or less sinuate. Vein 1 - cu of hind wing longer than vein cu-a of hind wing (Fig. 8). Hind femur 3.6–3.8 (HT: 3.8) times as long as maximum width in lateral view. First tarsomere of hind tarsus 1.9 -2.0 (HT: 2.0) times as long as second tarsomere. Metasoma. T 1 2.3–2.4 (HT: 2.3) times as long as maximum width. Median dorsal carina of T 1 present medially (Fig. 2). T 2 0.6 times as long as maximum width, its basal area covered with irregular rugae. Ovipositor sheath 0.5 times as long as hind tibia. Colouration (Figs 8, 9). Head and mesosoma (excluding wings and legs) black, except for: lateral part of clypeus, mandible except for yellow median spot, scape, dorsal surfaces of pedicel, flagellum and maxillary palp, and tegula blackish-brown; ventral surfaces of pedicel, flagellum and maxillary palp, apex of antenna, and labial palp yellow to yellowish-brown. Wings hyaline, with blackish-brown veins except for yellow wing base. Legs black to blackish-brown, except for: apical part of fore and mid femora, fore and mid tibiae and tarsi, tarsal spurs, and base of hind tibia yellowish-brown; hind femur sometimes with a small reddish-brown area; hind tarsal segment sometimes tinged with yellowish-brown. Metasoma reddish-brown to red except for: first segment except for membranous part of first sternite, T 5 (or sometimes T 6)-T 8, and ovipositor sheath except for yellow apex black; membranous part of first to third sternites whitish-yellow; posterior margin of all tergites narrowly reddishyellow; posterior area of T 1 usually tinged with red; subgenital plate sometimes tinged with brown. Male (n= 62). Similar to female. Clypeus 0.5 times as long as wide Malar space 0.5 times as long as basal width of mandible. Minimum length between lateral ocellus and eye 1.1–1.5 times as long as minimum length between each lateral ocellus. Antenna with 28–30 flagellomeres, its first segment 1.2–1.4 times as long as second segment. Lateromedian longitudinal carina sometimes slightly convergent anteriorly. Vein cu-a of fore wing with anterior end sometimes opposite to posterior end of vein Rs+M. Hind femur 3.9–4.1 times as long as maximum width in lateral view. First tarsomere of hind tatsus 1.7 –2.0 times as long as second tarsomere. T 2 0.7–0.8 times as long as maximum width. Posterior margin of subgenital plate weakly concave medially (Fig. 4). Apex of paramere short, its margin round (Figs 5, 6). Inner margin of ventral side of paramere not concave at base (Fig. 5). Tip of aedeagus somewhat swollen, decurved, its apex rounded (Fig. 7). Colouration similar to female, except for: clypeus, face, malar space, mandible except for brown apex, palpi, ventral surface of scape, and hind trochantellus yellow; inner orbit of frons usually with a pair of yellow stripe along eye orbit; fore and mid legs yellow, sometimes with brown to blackish-brown areas; hind coxa and trochanter usually with a yellow area; hind femur, tibia and tarsus blackishbrown to brown except for yellowish-brown base, usually with a yellowish-brown ventral surface; T 1 completely black; T 2 at least black at base. Distribution. Japan (Honshu). Etymology. The specific name is from the type locality “ Japan ”. Bionomics. Host is unknown. Adult wasps were collected from late May to July. Remarks. This species closely resembles P. qinyuanensis, but it can be distinguished from the following combination of character states (male of P. qinyuanensis is unknown): lateromedian longitudinal carina of propodeum completely parallel, not convergent anteriorly (almost parallel but slightly convergent anteriorly in P. qinyuanensis); malar space 0.6 times as long as basal width of mandible (0.5 times in P. qinyuanensis); antenna with 28–29 flagellomeres (30–34 in P. qinyuanensis); hind femur black, rarely tinged with red (largely red in P. qinyuanensis); hind tibia yellowish-brown basally, black apically (entirely black in P. qinyuanensis). Hind femur of a single female collected Biwakubo-sawa, Yamanashi Pref., with a reddish-brown area medially, while other character states of this specimen are well accorded with the character states of P. japonicum. Thus I conclude that it is unusual intraspecific variation. The World species of Pion may be distinguished by the following key.Published as part of Watanabe, Kyohei, 2016, First record of the genus Pion Schiødte, 1839 (Hymenoptera: Ichneumonidae: Ctenopelmatinae), from Japan, with description of a new species, pp. 289-294 in Zootaxa 4103 (3) on pages 290-293, DOI: 10.11646/zootaxa.4103.3.8, http://zenodo.org/record/26383
Fig. 1. Laccophilus yoshitomii. A in Biology of the Small Diving Beetle Laccophilus yoshitomii Watanabe and Kamite, 2018 (Coleoptera: Dytiscidae) and Rearing Methods
Fig. 1. Laccophilus yoshitomii. A) Three eggs laid in Pogostemon sp., B) First instar larva, C) Second instar larva, D) Third instar larva, E) Third instar larva immediately before landing, F) Second instar larva preying on a living chironomid larva, G) Pupa in a pupal chamber. H) New adult in a pupal chamber: a) Appearance of a pupal chamber, b) Inside a pupal chamber.Published as part of <i>Watanabe, Kohei, 2021, Biology of the Small Diving Beetle Laccophilus yoshitomii Watanabe and Kamite, 2018 (Coleoptera: Dytiscidae) and Rearing Methods, pp. 88-92 in The Coleopterists Bulletin 75 (1)</i> on page 89, DOI: 10.1649/0010-065X-75.1.88, <a href="http://zenodo.org/record/10107108">http://zenodo.org/record/10107108</a>
"Effects of Stochastic Interest Rates and Volatility on Contingent Claims (Revised Version)"
We investigate the effects of the stochastic interest rates and the volatility f the underlying asset price on the contingent claim prices including futures and options prices. The futures price can be decomposed into the forward price and the additional terms and the options price can be decomposed into the Black-Scholes formula and several additional terms via the asymptotic expansion approach in the small disturbance asymptotics developed by Kunitomo and Takahashi(1995,1998,2001), which is based on Malliavin-Watanabe Calculus in stochastic analysis. We illustrate our new formulae and their numerical accuracy by using some modi ed CIR type processes for the short term interest rates and stochastic volatility.
Reheating of the universe after inflation with f(phi)R gravity: Spontaneous decay of inflatons to bosons, fermions, and gauge bosons
Watanabe, Yuki. (2012). Reheating of the universe after inflation with f(phi)R gravity: Spontaneous decay of inflatons to bosons, fermions, and gauge bosons. Retrieved from the University Digital Conservancy, https://hdl.handle.net/11299/129758
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