105,796 research outputs found
DBLP-derived labeled data for author name disambiguation
This is a DBLP-derived labeled data originally created by Dr. C. Lee Giles at Penn State University and filtered for duplicate removal and error correction by Dr. Jinseok Kim at University of Michigan. For more details, see references below.1. Kim, Jinseok (2018). Evaluating author name disambiguation for digital libraries: a case of DBLP. Scientometrics. doi:10.1007/s11192-018-2824-5 2. Kim, Jinseok & Kim, Jenna (2018). The impact of imbalanced training data on machine learning for author name disambiguation. Scientometrics. doi: 10.1007/s11192-018-2865-9Each row refers to an author name instance with following feature information separated by tab.author name: full name string extracted from DBLPunique author id: labels assigned manually by Dr. C. Lee Giles's teampaper id: assigned by Dr. Jinseok Kimauthor list: names of authors in the byline of the paperyear: publication yearvenue: conference or journal namestitle: stopwords removed and stemmed by the Porter's stemmerIf you want to use this dataset, please consider to cite papers below.For the original dataset: Han, H., Giles, L., Zha, H., Li, C., & Tsioutsiouliklis, K. (2004). Two Supervised Learning Approaches for Name Disambiguation in Author Citations. JCDL 2004: Proceedings of the Fourth ACM/IEEE Joint Conference on Digital Libraries, 296-305. doi:10.1145/996350.996419For the filtered dataset: 1. Kim, Jinseok (2018). Evaluating author name disambiguation for digital libraries: a case of DBLP. Scientometrics. doi:10.1007/s11192-018-2824-5 or2. Kim, Jinseok & Kim, Jenna (2018). The impact of imbalanced training data on machine learning for author name disambiguation. Scientometrics. doi: 10.1007/s11192-018-2865-9</div
Arenibacillus Kim & Kanjanasuntree & Kim & Lee & Sukhoom & Kantachote & Kim 2019, GEN. NOV.
DESCRIPTION OF ARENIBACILLUS GEN. NOV. Arenibacillus gen. nov. (A.re.ni.ba.cil′ lus. L. fem. n. arena sand; L. masc. n. bacillus small rod; N.L. masc. n. Arenibacillus a rod isolated from sandy soil). Cells are aerobic, short rods which do not form spores. Catalase and oxidase are positive. The Gram reaction is negative. An intracytoplasmic membrane system is absent. Anaerobic photoautotrophic and photoheterotrophic growth are not observed. The major fatty acid is C 18: 1 Ɯ 7 c. Phosphatidylglycerol, phosphatidylcholine and an unidentified aminolipid are predominant polar lipids and Q-10 is the respiratory quinone. The type species is Arenibacillus arenosus.Published as part of Kim, Jong-Hwa, Kanjanasuntree, Rungravee, Kim, Dae-Hoon, Lee, Jung-Sook, Sukhoom, Ampaitip, Kantachote, Duangporn & Kim, Wonyong, 2019, Arenibacillus arenosus gen. nov., sp. nov., a member of the family Rhodobacteraceae isolated from sea sand, pp. 153-158 in International Journal of Systematic and Evolutionary Microbiology 69 (1) on page 157, DOI: 10.1099/ijsem.0.003121, http://zenodo.org/record/604861
Arenibacillus arenosus Kim & Kanjanasuntree & Kim & Lee & Sukhoom & Kantachote & Kim 2019, SP. NOV.
DESCRIPTION OF ARENIBACILLUS ARENOSUS SP. NOV. Arenibacillus arenosus sp. nov. (a.re.no′ sus. L. masc. adj. arenosus sandy, dwelling in marine sediment, sand). Cells are rod-shaped, 0.1–0.9×2.6–3.4 µm, Gram-stain-negative, non-motile and non-spore-forming. Colonies on MA are cream-coloured, circular, smooth, convex and 0.1– 0.2 mm in diameter after 3 days of incubation at 30 Ǫ C. Growth occurs at 20–37 Ǫ C, but not at 4 Ǫ C or above 40 Ǫ C; optimum growth is at 30 Ǫ C. Growth occurs at pH 6.5–10.0, but not at pH 6.0 or pH 10.5; optimum growth is at pH 8.5. Growth occurs in the presence of 0–4 % (w/v) NaCl with optimum growth at 1 % (w/v) NaCl, but not at above 5 % (w/v) NaCl. Negative results in tests for slime production, intracytoplasmic membrane system and growth under photoautotrophic and photoheterotrophic conditions. Bchl a is not present. Indole production is negative and Voges– Proskauer reaction is positive. Reduces nitrate to nitrite. Aesculin is hydrolysed but starch, casein and gelatin are not. Citrate is not utilized. The following substrates are utilized as sole carbon sources: D- mannose, D- mannitol, L- arabinose, D- ribose and D- xylose. The following substrates are not utilized as sole carbon sources: D- arabinose, D- adonitol, D-galactose, D- glucose, D- fructose, D- fucose, D- mannose, L-sorbose, L- rhamnose, D- sorbitol, melibiose, cellobiose, maltose, lactose, D- arabitol, potassium 2-ketogluconate and potassium 5-ketogluconate. In the API ZYM system, alkaline phosphatase, esterase (C4), esterase lipase (C8), leucine arylamidase, valine arylamidase, naphthol-AS-BI-phosphohydrolase, a- glucosidase and b- glucosidase show positive results, but cystine arylamidase, trypsin, a- chymotrypsin and acid phosphatase are negative. The respiratory quinone is Q-10. The polar lipid pattern consists of phosphatidylglycerol, phosphatidylcholine and an unidentified aminolipid. The predominant cellular fatty acid (>10 % of the total) is C 18: 1 Ɯ 7 c. The type strain is CAU 1304 T (= KCTC 42827 T = NBRC 113022 T), isolated from sea sand collected in Eurwangri in the Republic of Korea. The genomic DNA G+C content of the type strain is 55.9 mol%.Published as part of Kim, Jong-Hwa, Kanjanasuntree, Rungravee, Kim, Dae-Hoon, Lee, Jung-Sook, Sukhoom, Ampaitip, Kantachote, Duangporn & Kim, Wonyong, 2019, Arenibacillus arenosus gen. nov., sp. nov., a member of the family Rhodobacteraceae isolated from sea sand, pp. 153-158 in International Journal of Systematic and Evolutionary Microbiology 69 (1) on page 157, DOI: 10.1099/ijsem.0.003121, http://zenodo.org/record/604861
Khoo Kay Kim, professor of Malaysian history : a biobibliometric study
Presents an analysis of the publication productivity, authorship pattern, channels of communication, journal preference and language preference of Professor Dato' Khoo Kay Kim, Professor of Malaysian History in the University of Malaya, Kuala Lumpur. The results of this biobibliometric study indicate that he can be a role model for future Malaysian historians to emulate his various achievements especially in the field of history education
Symplocarpus koreanus J. S. Lee, S. H. Kim & S. C. Kim 2021
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
An explicit comparison of anticyclotomic p-adic L-functions for Hida families
We provide comparison results for anticyclotomic p-adic L-functions attached to Hida families of modular forms. The main result is a comparison between the anticyclotomic restriction of the three variable p-adic L-function introduced by Skinner and Urban, and the anticyclotomic L-function constructed by means of p-adic families of Gross points in the setting of definite quaternion algebras. Several auxiliary results involving anticyclotomic p-adic L-functions introduced by Chida-Hsieh and Buyukboduk-Lei are also proved
Anticyclotomic main conjecture and the non-triviality of Rankin–Selberg L-values in Hida families
We prove the two-variable anticyclotomic Iwasawa main conjecture for Hida families and discuss its arithmetic application to a definite version of the horizontal non-vanishing conjecture, which is formulated in [LV11]. Our approach is based on the two-variable anticyclotomic control theorem for Selmer groups and the relation between the two-variable anticyclotomic L-function for Hida families built out of p-adic families of Gross points on definite Shimura curves studied in [CL16] and [CKL17] and the self-dual twist of the specialisation to the anticyclotomic line of the three-variable p-adic L-function of Skinner–Urban [SU14]
Data for "Wallpaper Fermions and the Nonsymmorphic Dirac Insulator"
Here we deposit the numerical data shown in the figures of "Wallpaper Fermions and the Nonsymmorphic Dirac Insulator", written by
Benjamin J. Wieder,
Barry Bradlyn,
Zhijun Wang,
Jennifer Cano,
Youngkuk Kim,
Hyeong-Seok D. Kim,
Andrew M. Rappe,
C. L. Kane,
and B. Andrei Bernevig.
After downloading the compressed files, unpack them in the following way:
>tar zxvf (compunds_name).tar.gz
Then, you will find the data that are organized in the following subfolders:
./au2y3/strained/wilson_looa p
./au2y3/strained/soc_bands
./au2y3/pristine/soc_bands
./hg2sr3/strained/wilson_loop
./hg2sr3/strained/soc_bands
./hg2sr3/pristine/soc_bands
./ba5in2sb6/wilson_loop
./ba5in2sb6/surface_spectrum
./sr2pb3/wilson_loop
./sr2pb3/soc_bands
./sr2pb3/surface_spectrum_whole
./sr2pb3/surface_spectrum_near_DP
Each folder contains gp.input, which is a script file to draw the figure.
Please see the script for the detailed information.
In order to draw the figures, go to each folder and execute the following command:
>gnuplot gp.inpu
Data for "Wallpaper Fermions and the Nonsymmorphic Dirac Insulator"
Here we deposit the numerical data shown in the figures of "Wallpaper Fermions and the Nonsymmorphic Dirac Insulator", written by
Benjamin J. Wieder,
Barry Bradlyn,
Zhijun Wang,
Jennifer Cano,
Youngkuk Kim,
Hyeong-Seok D. Kim,
Andrew M. Rappe,
C. L. Kane,
and B. Andrei Bernevig.
After downloading the compressed files, unpack them in the following way:
>tar zxvf (compunds_name).tar.gz
Then, you will find the data that are organized in the following subfolders:
./au2y3/strained/wilson_looa p
./au2y3/strained/soc_bands
./au2y3/pristine/soc_bands
./hg2sr3/strained/wilson_loop
./hg2sr3/strained/soc_bands
./hg2sr3/pristine/soc_bands
./ba5in2sb6/wilson_loop
./ba5in2sb6/surface_spectrum
./sr2pb3/wilson_loop
./sr2pb3/soc_bands
./sr2pb3/surface_spectrum_whole
./sr2pb3/surface_spectrum_near_DP
Each folder contains gp.input, which is a script file to draw the figure.
Please see the script for the detailed information.
In order to draw the figures, go to each folder and execute the following command:
>gnuplot gp.inpu
Kim Quan and Lillie Louie bowing heads before their teacher
Photograph shows Kim Quan (left), Lillie Louie, children, bowing heads before Harry Eng, teacher.''Kim Quan and Lillie Louie bow their heads in respect to teacher / Harry Eng insist on humility and politeness from Chinese children.''Related photos are L-2038-B and L-2038-C. Newspaper article about San Antonio's Chinese population and its tradition
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