179,541 research outputs found

    Symplocarpus koreanus J. S. Lee, S. H. Kim & S. C. Kim 2021

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    Symplocarpus koreanus J.S. Lee, S.H. Kim & S.C. Kim (2021: 2) Isotype: KOREA, Gangwon-do: Chuncheon-si, Sabuk-myeon, Goseong-ri, Mt. Yonghwasan, 21 March 2020, S. C. Kim 200321500 (NIBRVP815477; Fig. 1 -23). Paratypes: KOREA, Gyeonggi-do: Gapyeong-gun, Buk-myeon, Baekdun-ri, Mt. Yeoninsan, 3 May 2013, W. B . Lee s.n. (NIBRVP517078); Gapyeong-gun, Oeseo-myeon, Mt. Hwayasan, 26 June 2007, W. K. Paik VP-KB-377062-0173 (NIBRVP815507); Gapyeonggun, Sang-myeon, Haenghyeon-ri, Mt. Chungnyeongsan, 31 March 2012, J. H . Kim, Y. J. Kim & I. S. Yoon KIMJH12006 (3 sheets, NIBRVP355001); Gapyeong-gun, Sang-myeon, Haenghyeon-ri, Mt. Chungnyeongsan, 29 March 2016, G. H . Nam, J. H. Kim & J. K. Hong L 16001 (NIBRVP550794); Gapyeong-gun, Seorak-myeon, Mt. Yumyeongsan, 4 April 2008, B. K . Kwon 080404-375 (NIBRVP532404); Gapyeong-gun, Seorak-myeon, Mt. Yumyeongsan, 4 April 2008, G. Y . Chung ANH-en-080404- 001 (NIBRVP197125); Hanam-si, Baealmi-dong, Mt. Geomdansan, 3 April 2007, J. O . Hyun, H. K. Park & J. A. Eom VP-NAPI-377054-092 (NIBRVP111433); Namyangju-si, Hwado-eup, Mt. Cheonmasan, 15 April 2007, W. K . Paik VP-KB-377061-0133 (NIBRVP815506); Namyangju-si, Hwado-eup, Mt. Cheonmasan, 22 March 2013, Song et al. s.n. (NIBRVP464822); Namyangjusi, Onam-eup, Onam-ri, Mt. Cheonmasan, 6 April 2009, G. H . Nam, M. H. Kim & J. H. Lee VS 15 (NIBRVP206699); Namyangjusi, Onam-eup, Onam-ri, Mt. Cheonmasan, 6 April 2009, G. H . Nam, M. H. Kim & J. H. Lee VS16 (2 sheets, NIBRVP206700); Namyangju-si, Mt. Chungnyeongsan, 28 March 1999, S. P . Hong & K. W. Park 411 (NIBRVP102296). Gangwon-do: Cheorwon-gun, Geunnam-myeon, Mt. Gwangdeoksan, 12 May 1997, S. P . Hong & H. S. Choi 99 (NIBRVP102297); Donghae-si, Bugok-dong, Mita Temple, 26 April 2011, G. H . Nam & W. J. Jeong SHY2-34 (NIBRVP284290); Gangneung-si, Wangsan-myeon, Mt. Hwaranbong, 30 April 2009, J. H . Kim & H. J. Kim VP-KB-0904-0071 (NIBRVP318582); Hwacheon-gun, Mt. Baekjeoksan, 24 May 2000, K . Ch. Yang & J. D. Jung s.n. (NIBRVP102304, NIBRVP102305); Hwacheon-gun, Mt. Baekjeoksan, 3 August 2000, J. H . Kim & D. K. Kim 49 (NIBRVP102307); Hwacheon-gun, Sanae-myeon, Mt. Gwangdoeksan, 7 April 2009, G. H . Nam, M. H. Kim & J. H. Lee VS24 (2 sheets, NIBRVP206708); Hwacheon-gun, Sanae-myeon, Mt. Gwangdoeksan, 7 April 2009, G. H . Nam, M. H. Kim & J. H. Lee VS25 (2 sheets; NIBRVP206709). Chungcheongbuk-do: Danyang-gun, Gagok-myeon, Mt. Sobaecksan, 17 May 1999, C. W . Park, H. W. Lee & J. Koh 10315 (NIBRVP815505); Danyang-gun, Gagok-myeon, Mt. Sobaeksan, 20 April 2007, G. Y . Chung ANH-en-070420-013 (NIBRVP121631). Jeollabuk-do: Jangsu-gun, Gyenam-myeon, Jangan-ri, 21 September 1997, B. Y . Sun & C. H. Kim 10361 (NIBRVP815504); Jangsu-gun, Gyenam-myeon, Mt. Jangansan, 19 May 2007, B. Y . Sun 2271 (NIBRVP128343); Jangsu-gun, Gyenam-myeon, Mt. Jangansan, 19 June 2009, J. K . Ahn, S. J. Lee & Y. W. Lee CH 40006 (NIBRVP266477); Jangsu-gun, Gyenammyeon, Mt. Jangansan, 19 June 2009, J. K . Ahn, S. J. Lee & Y. W. Lee CH 40239 (NIBRVP266707); Jinan-gun, Jucheon-myeon, Daebul-ri, Mt. Unjangsan, without date, C. H . Kim & S. H. Lee 50051 (3 sheets, NIBRVP537859). Gyeongsangnam-do: Geochanggun, Buksang-myeon, Mt. Deogyusan hyangjeokbong-satgatgoljae, 31 May 2006, B. Y . Sun 1577 (4 sheets, NIBRVP119643). Note: The holotype is deposited in SKK.Published as part of Jang, Hyun-Do, Hyun, Chang-Woo, Ryu, Seah & Lee, Sang-Jun, 2022, Type specimens of vascular plants in the herbarium of the National Institute of Biological Resources (II), pp. 229-243 in Phytotaxa 539 (3) on page 237, DOI: 10.11646/phytotaxa.539.3.2, http://zenodo.org/record/636408

    Bio-vison 2016: The second national framework plan for biotechnology promotion in Korea

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    This research was funded by the Specific Research and Development Project of the Ministry of Science and Technology.This material is based on Bio-Vision 2016 and its Report [5, 6].We are very grateful to the following members of the Biotechnology Policy Research Center: Young-Cheol Kim, Dong-Sub Yoon, Moo Woong Kim, Eun Jung Kim, Su Gil Kim, Mi jeong Park, Seong-Hoon Park, Oh-Min Joung, and Seung- Hoo Shin

    Moving Frame Acoustic Holography and its possible Applications in Machine Monitoring and Diagnostics

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    Moving frame acoustic holography has been successfully applied to predict sound pressure distribution on the surface of interest to us. It has been motivated to enlarge the aperture size of the hologram. In the meantime, however, a great deal of application has been found in what is related to making sound image with regard to time as well as frequency. The method is, in fact, analogous to a copy machine. We make the image of sound, instead of duplicating light image, which has to do with a copy machine. The theory [Y.-H. Park and S.-H. Kim, J. Acoust. Soc. Am. 104, 3179–3189 (1998)] shows that we can travel an array of microphones over the surface of which we want to have a sound/noise image. The theory also permits one to recover the sound image from the data obtained by the array microphone fixed on the ground. The sound image is the spatial characteristics of sound that will be observed by the microphone system attached to the sources. This paper reviews possible areas of applications for a train or subway, or a quality control system in a factory

    Acoustic Source Power Control and Global Noise Reduction by Arrangement of Absorptive Materials in Acoustically Small Enclosures

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    The possibility of global noise reduction by the sound power control is discussed. It is necessary to investigate the relation between the global sound energy in the field and the total sound power radiated by sources. In the previous work [1,2], the authors presented a useful design method to change boundary condition that reduces noise in acoustically small enclosures. Changing boundary condition is related to not only its geometrical shape but also acoustical treatment on walls; for example, attaching of impedance patches (ex: absorptive material). In many practical situations, we often meet a situation to change acoustical treatment on walls. A paper related to what we envisaged was presented at Inter-noise 2003 (S.-H. Cho, Y.-H. Kim, and K. Grosh, “The effect of impedance patch position on the sound field of an acoustically small cavity,” in Proc. Inter-noise 2003, N236). In this paper, the relation between acoustic source power control and global noise reduction are discussed. The possibility of total acoustic potential energy, which is global noise, reduction by acoustic source power control is examined for acoustically small cavity. Using acoustic energy balance equation, the relation between global noise control performance and absorptive material arrangement is deduced. Simulation is performed to investigate the theoretical possibility and the power control trend in terms of total acoustic potential energy reduction with respect to the frequency range of interest

    A compact and stable incidence-plane-rotating second harmonics detector

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    © 2021 Author(s).We describe a compact and stable setup for detecting the optical second harmonics, in which the incident plane rotates with respect to the sample. The setup is composed of rotating Fresnel rhomb optics and a femtosecond ytterbium-doped fiber laser source operating at the repetition frequency of 10 MHz. The setup including the laser source occupies an area of 1 m2 and is stable so that the intensity fluctuation of the laser harmonics can be less than 0.2% for 4 h. We present the isotropic harmonic signal of a gold mirror of 0.5 pW and demonstrate the integrity and sensitivity of the setup. We also show the polarization-dependent six-fold pattern of the harmonics of a few-layer WSe2, from which we infer the degree of local-field effects. Finally, we describe the extensibility of the setup to investigate the samples in various conditions such as cryogenic, strained, ultrafast non-equilibrium, and high magnetic fields.11Nsciescopu

    Kim, S. H.

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    Kim, S. H.

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    Effects of ion exchange and calcinations on the structure and photocatalytic activity of hydrothermally prepared titanate nanotubes

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    Titanate nanotubes (TiNTs) were prepared by alkaline hydrothermal processing. The TiNTs are thermodynamically unstable and easily transformed to the titania phase by heat or acid treatment. These phase transformations are affected by the preparation conditions. In this study, we investigated the effects of using the washing process to modify the sodium content of the TiNTs. After an alkaline hydrothermal process was used to prepare the TiNTs, the resulting suspensions were washed with weak acid solution and distilled water until the pH value of the wash solution reached approximately 1 or 7, and the products were identified as H-TiNTs or Na-TiNTs, respectively. The characteristics and photocatalytic activities of the H-TiNTs and Na-TiNTs were compared for various calcination temperatures. The H-TiNTs were transformed completely to anatase-type TiO 2 by dehydration during calcination, while the crystallinity of the Na-TiNTs increased with calcination temperature. However, the photocatalytic H 2 production rates on calcined H-TiNTs were much higher than on Na-TiNTs, which could be attributed to the crystalline anatase phase. Copyright © 2012 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.1
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