421 research outputs found
Origin of nanosized diamonds in interstellar space and low-pressure-temperature Earth rocks
Nanosized diamond particles in the interstellar space and in the Earth rocks related with water presence. In the paper proposed the model of the nanosized diamond particle formation from oxidized water-carbon dioxide gaseous mixtures
A bright, pulsed, guide star laser for very large telescopes
We demonstrate for the first time the practical feasibility of a new sodium guide star laser with a pulsed burst output of sufficient energy at 589nm to be useful for current applications and readily scalable to meet future requirements. We describe complete experimental design verification results of the pulse burst laser concept, optimized to eliminate guide-star elongation issues and to meet all requirements for Multi Conjugate Adaptive Optics (MCAO) for future extremely large ground-based telescopes (ELTs). It makes use of sum frequency generation (SFG) of two, Q-switched, injection mode-locked, wavelength stabilized Nd:YAG lasers, producing a macro-micro, pulse-burst output which is optimized in power and bandwidth to maximize the fluorescence from the high altitude sodium layer. © 2010 SPIE.Jesper Munch, Murray Hamilton, David Hosken, Nikita Simakov and Peter Veitc
Resonantly diode-pumped continuous-wave and Q-switched Er:YAG laser at 1645 nm
We describe an efficient Er:YAG laser that is resonantly pumped using continuous-wave (CW) laser diodes at 1470 nm. For CW lasing, it emits 6.1 W at 1645 nm with a slope efficiency of 36%, the highest efficiency reported for an Er:YAG laser that is pumped in this manner. In Q-switched operation, the laser produces diffraction-limited pulses with an average power of 2.5 W at 2 kHz PRF. To our knowledge this is the first Q-switched Er:YAG laser resonantly pumped by CW laser diodes.N. W. H. Chang, N. Simakov, D. J. Hosken, J. Munch, D. J. Ottaway and P. J. Veitc
Metastable Nanosized Diamond Formation from Fluid Systems
The model of nanosized diamond particles formation at metastable P-T parameters from fluid is presented. It explains the specific of CVD diamond synthesis gases mixtures and hydrothermal growth of diamond at low P-T parameters as well as it explains the geneses of metamorphic and magmatic nano- and microdiamond in the shallow depth Earth rocks and the genesis of interstellar nanodiamond formations in the space
Euprymna parva Sanchez & Jolly & Reid & Sugimoto & Azama & Marlétaz & Simakov & Rokhsar 2019, comb. nov.
Euprymna parva (Sasaki, 1913), comb. nov. (Figure 1c left, Table 1, Supplementary Figs. 1, 2c, d, Supplementary Table 2). Sepiola parva Sasaki, 1913: 252, Fig. 4. — Sasaki, 1929: 136–137 Pl. XV, Figs. 4 and 5, text Fig. 80; Takayama and Okutani, 1992: 203–214, fig, 2, Figs. 4–6. — Okutani, 1995: 45, fig. 43. Reid and Norman, 1998: 717. — Reid and Jereb, 2005: 165–166, fig. 239. Inioteuthis parva Sasaki, 1914: 595, pl. 11 Figs. 9 and 10. Type locality: Japan, Tokyo Bay. Material examined. 3 ♂ (8.5–10.7 mm ML), 3 ♀ (7.0–8.0 mm ML), East China Sea, Okinawa, Diamond Beach in Seragaki, 26.51N, 127.88E, <2 m, 15 June 2016, coll. J. Jolly, G. Sanchez, A. Masunaga & K. Asada (AM C.574777, Hap 3, and GenBank accession number: LC417215). Remarks. The correct generic placement of this taxon has been equivocal since it was first described. It was first placed in Sepiola, transferred to Inioteuthis Sasaki, 1914, then later retained in the genus Sepiola. Sasaki does not explain why parva was placed in Sepiola in his 1929 treatise, nor why it was referred to Inioteuthis in his 1914 work. Clearly, however, the features noted by Sasaki, 6 (2019) 2:465 | https://doi.org/10.1038/s42003-019-0661-6 | www.nature.com/commsbio “the nipple-like protruberance” near the base of the hectocotylus and the “peculiar and unstalked cylindrical suckers” (Sasaki48: 137) are characteristic of Euprymna. Mature males have two rows of suckers on their arms, in contrast to the four rows typically (but not always) found among Euprymna. This has, no doubt, resulted in its misplacement in the genus Sepiola, that has continued largely without question until now. However, two rows of arm suckers are also found in E. pardalota and E. phenax. The inclusion of the E. pardalota COI sequence in our analyses (Fig. 2) confirms its position, and that of “ Sepiola ” parva in the monophyletic genus Euprymna. Optic lobe transcriptome data (Fig. 3) clearly places S. parva in the monophyletic Euprymna clade, and the pairwise synonymous substitution rate (Ks) between clades (Supplementary Fig. 1) highlights the disjunction between Euprymna and Sepiola, providing strong support for their distinct generic status. The genetic distance data fully supports the placement of S. parva in the genus Euprymna and this evidence now permits a more robust definition of the genus based on morphological characters. The hectocotylus (dorsal left arm) of Euprymna is unique among the Sepiolinae. In all genera but Euprymna, the hectocotylus is clearly tripartite, with a morphologically distinct basal part, copulatory apparatus, and distal part49,50. In contrast, in Euprymna, the hectocotylized arm has a bipartite form, with a proximal portion and a distal modified part. In Euprymna there is no distinct copulatory apparatus, instead the pedicels of the ventral suckers in the third to fourth proximal rows are modified to form 1–2 papillae in most species, sometimes bearing a vestigial sucker, whereas in all other genera the sucker pedicels forming the copulatory apparatus are more conspicuously modified (mostly horn- or hook-like). More importantly, the distal-most portion of the Euprymna hectocotylus bears deeply modified sucker-stalk elements: the stalks are columnar, i.e., thickened and lengthened, and appressed to each other to form palisades, and the sucker proper is reduced to a small opening surrounded by a chitinous rim, often covered by a fleshy cap and embedded in the columnar pedicel. On the contrary, in all other genera, the hectocotylus distal suckers are normal (in some cases some of them may be enlarged and/or their stalks slightly c Male arm crown, dorsal view, holotype 14.9 mm ML (NSMT Mo 85885), scale bar 5 mm. d Female right side (of animal) arm crown, oral view, paratype, 15.3 mm ML (NSMT Mo 85893), scale bar 2 mm. c, d Numbers 1 – 4 indicate Arms 1 – 4. e SEM Arm 4 sucker rim, paratype female, 19.5 mm ML (NSMT Mo 85889), scale bar 20 µm. f SEM enlargement of sucker rim shown in (d), scale bar 10 µm. lengthened) (Bello, submitted). The very simple copulatory apparatus of Euprymna is considered a plesiomorphic character state 51 in the Sepiolinae, placing this genus in a basal position within the subfamily36,52.Published as part of Sanchez, Gustavo, Jolly, Jeffrey, Reid, Amanda, Sugimoto, Chikatoshi, Azama, Chika, Marlétaz, Ferdinand, Simakov, Oleg & Rokhsar, Daniel S., 2019, New bobtail squid (Sepiolidae: Sepiolinae) from the Ryukyu islands revealed by molecular and morphological analysis, pp. 1-15 in Communications Biology 2 (465) on pages 6-7, DOI: 10.1038/s42003-019-0661-6, http://zenodo.org/record/372301
Euprymna brenneri Sanchez & Jolly & Reid & Sugimoto & Azama & Marlétaz & Simakov & Rokhsar 2019, sp. nov.
Euprymna brenneri sp. nov. (LSID: urn:lsid:zoobank.org:pub: B2D2A34E-FB8C-4D45-824E- 9530986C6D44; Figs. 1c right, 4–9; Table 1; Supplementary Fig. 1; Supplementary Tables 2 and 3, and Supplementary Data) Material examined. HOLOTYPE 1 ♂, 14.9 mm ML, immature, Okinawa, Diamond Beach in Seragaki, 26.51N, 127.88E, 26 Apr. 2016, coll. J. Jolly & O. Simakov (NSMT Mo 85885). PARA- TYPES Okinawa, Seragaki, Diamond Beach, 26.51N, 127.88E, 26 Apr. 2016, coll. J. Jolly & O. Simakov: 1 ♂, 18.8 mm ML, (NSMT Mo 85886); 1 ♂, 9.0 mm ML, immature (NSMT Mo 85887); 1 ♂, 10.6 mm ML, immature (NSMT Mo 85888); 1 ♀, 19.5 mm ML, immature (NSMT Mo 85889); 1 ♀ 11.6 mm ML, immature (NSMT Mo 85890). Okinawa, Miyagi Is, 26.38N, 127.99E, 1> 2 = 4 or 3> 2> 1 = 4 (Supplementary Table 3). Arm length index of longest arm in males (ALI3) 97.3, female (ALI3) 92.3; arm keels absent or indistinct. All arms connected by relatively shallow webs, protective membranes absent. Arm sucker pedicels without lappets. Arm suckers tetraserial, with some biserial suckers at base and at distal tips of arms; spherical on normal arms (Fig. 5c, d) (hectocotylus differs). Chitinous sucker rims: infundibulum with 3–4 rows of pavement-like processes (Fig. 5e, f), peripheral sucker rim processes wedge-shaped, rest irregular with slightly raised outer margins (Fig. 5f). Chitinous inner rim of normal arm suckers without teeth, slightly crenulated on one side (Fig. 5f). Suckers on modified region of hectocotylus with toothed margins (Figs. 6 and 5a). Males (Fig. 5c) and females (Fig. 5d) with enlarged suckers on outer row(s) of arms 3 and 4. Enlarged suckers clearly discernible in both sexes, even those of the smallest sizes (male 8.6 mm ML, female 8.5 mm ML). Male enlarged suckers larger than female arm suckers (Supplementary Table 3). Sucker counts range from 60 to 112 on each arm; Arms 2 with a greater number of suckers than other arms in both sexes. Males with arm suckers in the following variable arrangement from proximal to distal end of arm: Right Arms 1 and Arms 2: 5 rows biserial suckers, rest tetraserial. None enlarged. Arms 3: 5 rows biserial suckers, rest tetraserial, distal arm tip with ~6 rows biserial suckers. Dorsal rows distal to sucker rows ~5–7 with 4–9 enlarged suckers interspersed at intervals with regular-sized suckers. (Larger specimens with greater number of enlarged arm suckers.) Ventral rows with ~5 enlarged suckers interspersed at intervals with regular-sized suckers. Arms 4: (Fig. 5c) 5 rows biserial suckers, rest tetraserial, distal tip of arm with ~3 rows biserial suckers. Dorsal rows distal to sucker rows ~7–9 with ~3–4 enlarged suckers interspersed at intervals with regular-sized suckers. Ventral rows after sucker rows ~7–9 with ~2–7 enlarged suckers, some alternating at intervals with regular-sized suckers. Females with enlarged arm suckers in the following variable arrangement from proximal to distal end of arm: Arms 1: 4–5 rows biserial suckers, rest tetraserial, distal 4 rows biserial. None enlarged. Arms 2: 2–4 rows biserial suckers, rest tetraserial, distal 6 rows biserial. None enlarged. Arms 3: 5 rows biserial suckers, rest tetraserial, distal tip of arm with ~8–10 rows biserial suckers. Dorsal rows without enlarged suckers. Ventral rows with ~8–13 rows of normal suckers proximally followed by ~4–5 enlarged suckers alternating at intervals (either large and small suckers alternate, or two large suckers alternate with 1–2 regular-sized suckers) toward distal half of arms. Arms 4: ~8–9 rows biserial suckers, rest tetraserial, distal tip of arm with 4–5 rows biserial suckers. Dorsal rows with enlarged suckers in rows ~11–15. Ventral rows with enlarged suckers in rows ~10–14. (2019) 2:465 | https://doi.org/10.1038/s42003-019-0661-6 | www.nature.com/commsbio In both sexes the enlarged suckers on arms 3 are larger than those on arms 4 and those in the ventrolateral rows are larger than those on the dorsolateral rows. The enlarged suckers on arms 3 displace the regular-sized suckers laterally. (The arrangement of enlarged suckers varies considerably among the specimens examined and it would be useful when more material becomes available to map the arrangement of enlarged suckers in mature specimens of both sexes and over a range of specimen sizes to determine whether a clear pattern of regular and enlarged suckers can be discerned.). Left dorsal arm of males hectocotylised: from base to distal end of arm, one single sucker, ~seven transverse rows of normal tetraserial suckers, remaining suckers with swollen pedicels, that form palisade arrangement (Fig. 6), biserial with integument partially covering chitinous sucker rim in cap-like arrangement. No finger-like papillae at base of hectocotylised arm. Right dorsal arm of males with transverse rows of “normal” tetraserial suckers, with swollen pedicels. Tentacles slender, stalks naked, semicircular in section. Club relatively short; ClLI males 18.6–33.0, females 17.9–32.9, recurved in preserved specimens, tapers to blunt end distally; suckerbearing face convex. Suckers ~0.04–~ 0.08 mm diameter in center of club; arranged in ~16–24 crowded oblique rows (Fig. 7b). Swimming keel on aboral side of carpus broad, extends posteriorly well beyond carpus. Club sucker dentition (Fig. 7c, d): inner ring without teeth; infundibulum with three rows of pavementlike processes; inner rows sub-rectangular, narrowing toward central opening; middle and outer rows ovoid; irregular, with strongly crenulated and pitted surface. Well-developed light organ present overlying and associated with ink sac (Fig. 7e). Individual lobes rectangular bulb-like anteriorly, slightly enlarged; rounded posteriorly. Gills with 24–27 lamellae per demibranch. Buccal membrane with six lappets; suckers absent. Radula with seven transverse rows of teeth (Fig. 7f). Rhachidian teeth simple, without cusps, triangular, slightly concave laterally and ventrally. First lateral teeth similar in size and shape to rhachidian teeth with pointed cusps displaced laterally and directed toward midline of radula. Second and third laterals with elongate bases, longer, curved. Third laterals with scythe-like teeth, longer than second laterals. Upper beak (Fig. 7g) with pointed rostrum, hood curved, high above crest posteriorly; jaw angle approximately 90°; lateral wall edge with slight indentation. Lower beak (Fig. 7h) with blunt protruding rostrum, rostral edge obtuse, curved, without distinct inner angle; hood notch absent, wings almost straight. Distinct dark pigmentation restricted to rostrum and hood of upper and lower beaks. Gladius absent. Spermatophores (fully developed only in NSMT Mo 85891) approximately ½ mantle length. Sperm reservoir contains coiled sperm cord (Fig. 8a). Cement body unipartite; cylindrical, approximately uniform width, connects to sperm reservoir via a broad duct (Fig. 8a, b). Oral end of ejaculatory apparatus with 3–4 simple coils. Male reproductive tract similar in structure to congeners (Fig. 8c). Spermatophoric gland with very large, bulbous terminal portion. Female reproductive tract: Ovary occupies large proportion of posterior end of mantle cavity and opens via single thick-walled oviduct at anterior end on left side. Nidamental glands paired, broad, located ventral to ovary toward anterior end. Inverted brownish-colored U-shaped accessory nidamental glands located toward distal end of nidamental glands. Large sac-like bursa copulatrix on animals’ left side. Spawned eggs 4 mm diameter with jelly coat and sand, 3 mm without jelly coat. Eggs are laid in clusters of more than 100, rather than individually (Fig. 1b, Type 3). Hatchlings 2 mm ML (Fig. 9a–c, Table 1). Color. Alcohol preserved specimens cream to maroon with large deep purple spots on dorsal and ventral head and mantle; spots larger and animal darker on dorsal surface (Fig. 4a, b); few scattered chromatophores on arms. Shiny bluish iridophores on head around eyes. Fins with large spots dorsally, close to junction with mantle, otherwise chromatophores absent from fins dorsally and ventrally. Club without pigment spots. Live adults rust brown with evenly scattered, relatively small pigment spots, darkest dorsally (Fig. 1c Type 3; Fig. 9d, e). Bright bluish iridophores around eyes, along anterio-dorsal rim of mantle, and underlie pigment spots on dorsal mantle (Fig. 9e). Arms banded with regular large spots and bars along their length (Fig. 9d) that can be seen even in embryos inside the eggs (Fig. 9a). Hatchlings translucent with evenly scattered chromatophores. Juveniles dark brown. (2019) 2:465 | https://doi.org/10.1038/s42003-019-0661-6 | www.nature.com/commsbio Habitat. Adults were found in sandy near-shore shallow waters, less than 2 m in depth, among corals and rocks. Eggs were found in rocky areas near coral reefs in depths of 8–18 meters. Type locality. Japan, 26.51N, 127.88E. Okinawa, Seragaki, Diamond Beach, Distribution. Japan: Okinawa Prefecture Seragaki, Diamond Beach 26.51N, 127.88E; Oura Bay, 26.53N, 127.74E; Miyagi Island, 26.38N, 127.99E; Ishigaki Island, Oganzaki 24.44N, 124.07E; and Kume Island, Northern Hatenohama Beach (26.35°N, 126.86°E) (Fig. 1). Taiwan *: off Penghu waters on the west-northern side of Sha-kang Fishing Harbor 23.60N, 119.62E. Depth range 2– 18 m. (*Based on COI obtained from a single immature specimen.) Etymology. The species is named in honor of the pioneering geneticist and Nobel Laureate Dr Sydney Brenner, founding president of the Okinawa Institute of Science and Technology. We also propose the common name Brenner’ s bobtail in English and Buren ā -mimika in Japanese. Remarks. The largest male (22 mm ML) (and the only fully mature specimen) examined had damaged arm tips and most suckers missing. However, the arrangement of enlarged suckers was clear from the sub-mature specimens. Prior to this study fifteen species of Euprymna were recognized25, although three of these (E. bursa Pfeffer, 1884, E. pusilla Pfeffer, 1884 and E. schneehagenii Pfeffer, 1884) are considered doubtful species by Norman and Lu47. Among the nominal species of Euprymna, the species whose geographic range most closely encompasses the known range of E. brenneri includes E. berryi, which has been found in warm temperate coastal waters from China and Taiwan, south to Hong Kong and Japan 53, and E. morsei, which is sympatric with E. berryi over its range and also occurs as far south as the Philippines and Indonesia. Both, however, differ in morphology and in molecular traits (Figs. 2 and 3) from Euprymna brenneri. These three taxa (E. berryi, E. morsei and E. brenneri) differ in their COI and transcriptome signatures. Both E. berryi and E. morsei have enlarged suckers in males on the second arm pair (on the ventral (2019) 2:465 | https://doi.org/10.1038/s42003-019-0661-6 | www.nature.com/commsbio margin in E. morsei and the dorsal and ventral margins in E. berryi), while E. brenneri does not. Kubodera and Okutani32 described E. megaspadicea, found in deep waters (200 m) of Nago Bay off Okinawa. While no sequence data currently exists for E. megaspadicea, it is clearly morphologically distinct from E. brenneri. In E. megaspadicea the hectocotylised arm is longer than the opposing arm, and the hectocotylus contains a sharp lateral inward groove not seen in other Euprymna species. As part of this study we examined the type specimens of E. bursa (ZMH RK 1384 and RK 1393, both females, approximately 25 mm ML and 34 mm ML respectively) from Hong Kong. Eurymna bursa differs from E. brenneri in that none of the arm suckers are enlarged (luckily these remain attached to the arms of the E. bursa types, enabling this comparison to be made). In addition, E. bursa has a greater number of arm suckers (102–128) and the median component of the funnel organ of E. bursa is spade-shaped, straight posteriorly, and not indented. (Whether E. bursa is a valid species awaits the examination of males from the type locality; here we verified that E. brenneri was not referable to this species—particularly important given their geographical proximity.) Of the remaining Euprymna species (which now also includes E. parva), the results of the COI analyses (Fig. 2) indicate that E. brenneri (i.e., Ryukyu Type 3) belongs in a clade distinct from E. berryi; E. hyllebergi; E. morsei; E. pardalota; E. scolopes, E. tasmanica, E. albatrossae Voss 1963, and Euprymna sp. Type 1. Transcriptomes separate E. brenneri from E. berryi, E. morsei, E. parva, E. scolopes, and E. tasmanica and Euprymna sp. Type 1 (Fig. 3). These differences are also supported by morphological traits: no other Euprymna taxa are yet known to include females with enlarged suckers. In addition, male E. albatrossae; E. berryi, E. megaspadicea, E. morsei, E. scolopes, E. stenodactyla Grant, 1833, and E. tasmanica have enlarged suckers on the second arm pair of males, which is not the case for E. brenneri. Euprymna brenneri does, however, have enlarged suckers on arms 3 and 4. Males and females have enlarged suckers on the ventral row of the third arm and the dorsal and ventral rows of the fourth arms, with no enlarged suckers on the first and second arms. This is the first time a female Euprymna has been identified with large suckers. Female members of this genus are notoriously difficult to identify based on morphology, so the discovery of this character is a valuable one. Of the other nominal species, the enlarged sucker arrangement in male E. brenneri is most similar to that of E. hoylei Adam, 1986, but this species (in addition to all other nominal Euprymna with the exception of E. brenneri) have 1–3 enlarged finger-like papillae on the proximal end of the hectocotylised arm. Euprymna hoylei, described from the Sulu Archipelago, like E. brenneri, has no enlarged suckers on the second arm, however, E. brenneri males possesses approximately eight very large suckers on the third arm compared to a smaller number described for E. hoylei (3–4). Female E. hoylei do not have enlarged suckers. In addition to the presence or absence of enlarged suckers on particular arms, the enlarged suckers in both sexes of E. brenneri are not located close to the base of the arms, as seems to be the case in other Euprymna species, but at some distance distal to the arm bases.Published as part of Sanchez, Gustavo, Jolly, Jeffrey, Reid, Amanda, Sugimoto, Chikatoshi, Azama, Chika, Marlétaz, Ferdinand, Simakov, Oleg & Rokhsar, Daniel S., 2019, New bobtail squid (Sepiolidae: Sepiolinae) from the Ryukyu islands revealed by molecular and morphological analysis, pp. 1-15 in Communications Biology 2 (465) on pages 7-11, DOI: 10.1038/s42003-019-0661-6, http://zenodo.org/record/372301
Investigation of the transition between hydrodynamic and kinetic regimes for DT exploding pushers at OMEGA and the NIF
Previous experiments were conducted to
study the transition from hydrodynamic-like to ion kinetic regimes
for D3He exploding pushers [1], demonstrating the importance of an
ion kinetic approach for formulating more robust predictions of implosion
characteristics. This presentation details a series of planned
experiments at the OMEGA Facility and the NIF using thin-glass
exploding pushers with DT fuel. D and T ions have the same charge,
unlike D and 3He, yet their masses are unaltered from the D and
3He case. This allows for the investigation of whether ion-thermal
decoupling and species separation are largely a result of charge or
mass. [2] The initial gas fill pressure will be varied in order to scan
the transition from strongly hydrodynamic to strongly kinetic implosions,
while leveraging the expansive diagnostic suite developed
at NIF and OMEGA.∗This work was supported in part by LLE, the U.S. DoE (NNSA,
NLUF) and LLNL.
1M. Rosenberg et al., Phys. Rev. Lett. 112, 185001.
2H. Rinderknecht et al., Phys. Rev. Lett. 114, 025001
Holmium-doped fiber amplifier for optical communications at 2.05 - 2.13 µm
We report the realization of a wideband holmium doped fiber amplifier designed for optical communications over 2050 - 2130 nm, providing up to 28 dB small signal gain and 4 - 9.5 dB noise figure
Notatka Nikołaja Grinkiewicza „O szkole” i teksty uzupełniające
The text corpus of the Grinkevich Research and Translation Project About the School, which had an active phase in 2014-2019, is considered. The sources of 9 texts are: 2 – the Alaskan Russian Church archive in the Library of Congress, 3 – N. Russel’s brochure, 4 – San Francisco newspapers; the note On the School by N. Grinkevich is supplemented, confirming the facts reported in it, by 2 testimonies of Dr. Russel himself (including the history of the creation of the note), 3 parts dedicated to the school student of Belarusian-Tlingit origin N. Savchenko (letters from his father Demian), 2 newspaper publications revealing Grinkevich’s ambiguous role. The obvious reason for the change in public position of this psalm reader, later a member of the Ecclesiastical Consistory of Alaska in relation to the problems of the church school was the inertial adherence to routine rules and procedures, official subordination and the desire to maintain position, but it was the promulgation of his note by the revolutionaries that probably led to his dismissal, already as an archpriest, from the Diocese of the Aleutians and Alaska.Rozpatrzono zbiór tekstów projektu badawczo-tłumaczeniowego Grinkiewicza „O szkole”, który miał aktywną fazę w latach 2014-2019. Źródłami 9 tekstów są: 2 – archiwum „Rosyjskiego Kościoła Alaski” w Bibliotece Kongresu USA, 3 – broszura N. Russela, 4 – gazety San Francisco; notatka N. Grinkiewicza „O szkole” jest uzupełniona, potwierdzając przedstawione w niej fakty, przez 2 relacje samego doktora Russela (w tym o historii powstania notatki), 3 części dedykowane uczniowi szkoły pochodzenia „białorusko-tlingickiego” N. Sawczenko (listy od jego ojca Demiana), 2 publikacje prasowe ujawniające niejednoznaczną rolę Grinkiewicza. Oczywistymi przyczynami „zmiany stanowiska” tego psalmisty, później członka Konsystorza Kościelnego Alaski w odniesieniu do problemów szkoły kościelnej były przestrzeganie rutynowych zasad i procedur, oficjalne podporządkowanie i chęć utrzymania pozycji. Dymisja protojereja – drugiej najważniejszej postaci eparchii Aleutów i Alaski – kojarzy nam się z ogłoszeniem jego notatki przez rewolucjonistów.Рассматривается корпус текстов Гринкевичского исследовательского и переводческого проекта «О школе», который имел активную фазу в 2014-2019 гг. Источниками 9 текстов служат: 2 – архив «Аляскинской русской церкви» в Библиотеке Конгресса США, 3 – брошюра Н. Русселя, 4 – сан-францисские газеты; заметку Н. Гринкевича «О школе» дополняют, подтверждая сообщенные в ней факты, 2 свидетельства самого доктора Русселя (в т. ч. об истории создания заметки), 3 части, посвященные ученику школы «белорусско-тлинкитского» происхождения Н. Савченко (письма его отца Демьяна), 2 газетные публикации, раскрывающие неоднозначную роль Гринкевича. Очевидными причинами «изменения позиции» этого псаломщика, позже члена Аляскинского духовного правления по отношению к проблемам церковной школы были следование рутинным правилам и процедурам, должностное подчинение и стремление сохранить положение. Увольнение протоиерея – второй по важности фигуры в Алеутской и Аляскинской епархии – мы связываем с обнародованием революционерами его заметки[email protected]Независимый исследователь, БеларусьA church scandal: The Greco-Russian school in trouble. Grave charges of cruelty to children. Two officials arrested and a dozen well-fed boys held as witnesses. (1891). San Francisco Chronicle, Jun. 12, 8.Boys treated like slaves: Horrible tales of cruelty to the Russian church students. Youths beaten, starved and kept in a ratinfested dungeon on a diet of bread and water – Policemen find them in a filthy condition – Affidavits that support grave charges. (1891). San Francisco Examiner, Jun. 12, 3.Father Levine gone: The deposed priest sent to Russia. His friends anxious about his safety. He was to have appeared before the Grand Jury as a witness. (1891). San Francisco Chronicle, Jun. 2, 7.Formulârnyj spisok o službe smotritelâ Belevskogo duhovnogo učiliŝa protoiereâ Nikolaâ Grinkeviča. 1903-1907. Rossijskij gosudarstvennyj istoričeskij arhiv (RGIA). F. 796. Op. 436. D. 1939.Grinkevič, N. (1902a). [O škole]. Iz žizni duhovenstva. London: tip. «Žizni», 70-71.Grinkevič, N. (1902b). O škole. Lazarev, E. E. Gavajskij senator i voždi russkogo pravoslaviâ episkop Vladimir i K. P. Pobedonoscev. Carouge-Genéve: M. Elpidine, libraire-éditeur, 57-58.Grinkevič, N. (1895). O škole. Russelʹ, N. Žitie preosvâŝennogo Vladimira, byvšego episkopa Aleutskogo i Alâskinskogo, nyne vikarnogo episkopa Voronežskogo. Moskva: tip. P. Pravdolûbova, 15-16.It was Corcoran!: The boy who caused the trouble for Alexine. (1891). San Francisco Chronicle, Jul. 29, 9.Mazurek, K. (2018). Życie i działalność księdza Bazylego Martysza: droga do świętości. Warszawa: Dom Wydawniczy Elipsa.Po povodu odnoj zagraničnoj brošûry (1896). Pribavleniâ k Cerkovnym vedomostâm, 6 apr., 14, 522-524.Russelʹ, N. (1895). Žitie preosvâŝennogo Vladimira,byvšego episkopa Aleutskogo i Alâskinskogo, nyne vikarnogo episkopa Voronežskogo, Moskva: tip. P. Pravdolûbova.S. Poslednie glavy iz Deânij Apostolov // Progress (Nʹû-Jork), 1892, 4 marta, 13, 3; 18 marta. 15, 2-3.Sìmakoǔ, A. (2018a). Bacʹka tlìnkìta. Kraâznaǔčaâ gazeta, 48 (snež.), 6.Sìmakoǔ, A. (2018b). Carkoǔnaâ škola ǔ San-Francyska (1888-1892) u asobah. Cerkiewny Wiestnik, 4, 48-63Simakoŭ, A. (2020). Savchenko in Alaska and San Francisco: a Belarusian, Creoles, Tlingit. Journal of the West, (59), 4, 53-69.Sìmakoǔ, A. (2018c). Tlìnkìt Saǔčanka ǔ svâtle lìsta z Kadzʹâka ǔ San-Francyska. Kraâznaǔčaâ gazeta, 25 (lìp.), 6.Simakov, A. V. (2019). Savčenko na Alâske i v San-Francisko: belorus, kreoly, tlinkity. Slavânskij alʹmanah, 3-4, 107-108.23899
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