370,226 research outputs found
Replication Data for: Observation of returning Thouless pumping
No full textThis repository contains the data and code used for the analyses presented in the manuscript "Cheng, Z., Yue, S., Long, Y. et al. Observation of returning Thouless pumping. Nat Commun 16, 9669 (2025). https://doi.org/10.1038/s41467-025-64671-w"
It is also related to preprint arXiv:2505.0680
Acer sinopurpurascens W. C. Cheng
No full textAcer sinopurpurascens W.C.Cheng in Chien & Cheng (1931: 62). Type:— CHINA. Zhejiang [Chekiang]: Western Tian Mu Shan [Tienmu-shan], elev. 1200–1300 m, 23 April 1931, W. C. Cheng 2424 (PE00023445, lectotype designated by Lin et al. 2009; isolectotypes A00245405, CQNM0015724, IBSC0002074, K000640863, NAS00071819, PE00023443, PE00023446, PE00023448). Remaining syntypes: CHINA. Zhejiang: Western Tianmushan, elev. ca. 845, 16 August 1929, S. S. Chien 845 (A00050488, CQNM0015723, NAS00071817, NAS00071818, NY00337718, PE00023444, K000640862); elev. 1200–1300 m, 23 April 1931, W. C. Cheng 2429 (A00245404, IBSC0002073, K000640864, LBG00076624, PE00023447). Note: —In the protologue, Chien & Cheng (1931) designated three gatherings as types of flowering, staminate and pistillate, respectively. Lin et al. (2009) chose a duplicate of staminate at PE (00023445) as the lectotype. The isolectotypes and remaining syntypes are listed above.Published as part of Chen, Feng & He, Hai, 2022, The historical relics in Chongqing Natural History Museum: An annotated checklist of original materials for 37 names of Chinese seed plants, pp. 38-52 in Phytotaxa 530 (1) on page 46, DOI: 10.11646/phytotaxa.530.1.3, http://zenodo.org/record/582393
Fagus chienii W. C. Cheng 1935
No full text<p> <i>Fagus chienii</i> W.C.Cheng (1935: 70).</p> <p> Type:— CHINA. Sichuan [Szechuan]: W. Pingwu Xian [Pingwu hsien], elev. ca. 1300 m, 17 August 1931, <i>W. C. Cheng 2903</i> (lectotype designated here, NAS00070338; isolectotypes A00033870, CQNM0017387, E00098603, IBSC0001170, K000832761, MICH1109337, NAS00070339, NY00248568, PE00022177, PE00022178, PE00022179, PE00022180, PE00022181, PE00022182, PE00022180, SYS00054972, US 00409518).</p> <p> <b>Note</b>:—In the protologue, Cheng indicated <i>W.C. Cheng 2903</i> as the type, but he did not specify the herbarium where the type is deposited. In searching in various herbaria, 18 duplicates were traced and all of them are syntypes since no holotype was designated under Art. 9.6 (Turland <i>et al</i>. 2018). Most duplicates bear cupules and the identification annotation of W. C. Cheng and are well preserved. NAS00070338 is designated here as the lectotype for the reason Cheng used to work in NAS. In the protologue, Cheng (1935) stated the locality of the type at a place near “Yao-erpa” in West of Pingwu Xian; however, none of the duplicates with a label bearing this locality, and it is also uncertain whether “Pingwuhsien” means the present Pingwu Town. For efforts to trace this type locality has not been successful, the identity of this tree species is still uncertain (e.g. Huang <i>et al</i>. 1999).</p>Published as part of <i>Chen, Feng & He, Hai, 2022, The historical relics in Chongqing Natural History Museum: An annotated checklist of original materials for 37 names of Chinese seed plants, pp. 38-52 in Phytotaxa 530 (1)</i> on page 40, DOI: 10.11646/phytotaxa.530.1.3, <a href="http://zenodo.org/record/5823939">http://zenodo.org/record/5823939</a>
Litsea auriculata S. S. Chien & W. C. Cheng 1931
No full textLitsea auriculata S.S.Chien & W.C.Cheng (1931: 59). Type:— CHINA. Zhejiang [Chekiang]: Western Tian Mu Shan [W. Tien-mushan], elev. ca. 1100 m, 8 August 1929, S. S. Chien 601 (PE00028512, lectotype designated by Lin et al. 2016; isolectotypes A00041694, CQNM0015781, K000793089, NF2000700, NAS00070861, PE00028938, PE00434507). Remaining syntypes: CHINA. Zhejiang: Western Tian Mu Shan, elev. 800–1200 m, 17 April 1931, W. C. Cheng 2348 (A00041692, CQNM0015783, IBSC000227, K000793088, NF2000695, NY00355220, PE00028503, PE00028504, PE00028505, PE00028506) and W. C. Cheng 2349 (A00041693, CQNM0015784, IBSC0000229, K000793087, LBG00072037, NAS00070859, NAS00070860, NF2000694, NY00355221, PE00028508, PE00028509, PE00028510, PE00028511). Note:— In the protologue, Chien & Cheng (1931) designated S.S. Chien 601 (fruiting), W.C. Cheng 2348 (pistillate) and W.C. Cheng 2349 (staminate) deposited at the herbarium of Biological Laboratory of the Science Society of China as the type, and all of them are syntypes according to Art.9.6 (Turland et al. 2018). Lin et al. (2016) designated PE00028512 as the lectotype. The available isolectotypes and remaining syntypes are traced at the above listed herbaria.Published as part of Chen, Feng & He, Hai, 2022, The historical relics in Chongqing Natural History Museum: An annotated checklist of original materials for 37 names of Chinese seed plants, pp. 38-52 in Phytotaxa 530 (1) on page 42, DOI: 10.11646/phytotaxa.530.1.3, http://zenodo.org/record/582393
The causal induction from the theory of causal power of Cheng
No full textUna de las teorías centrales dentro de la explicación de la inducción causal (i.e. el proceso de inferencia que permite a las personas identificar causas en la cotidianidad) es la Teoría del Poder Causal que Patricia Cheng desarrolló en 1997 y que ha venido defendiendo desde esa época (Cheng, 1997; Holyoak y Cheng, 2011). Dicha teoría pretende superar los tradicionales modelos de mecanismo y los simples modelos de covariación que hasta el momento se consideraban como la explicación del proceso de inducción causal. Sin embargo la complejidad del modelo matemático que la sustenta la ha hecho poco accesible a la comunidad no especializada que se pueda interesar en este campo. El propósito del presente artículo es, entonces, realizar una introducción a la teoría de poder causal en la que se muestra no sólo sus ventajas explicativas frente a los otros modelos, sino una reconstrucción sencilla del modelo matemático que la sustenta.One of the central theories within the explanation of the causal induction (i.e. , the inference process that allows the people identify causes in the everyday life) is the Theory of Causal Power that Patricia Cheng development in 1997 and that has been advocating since that time (Cheng, 1997; Holyoak &amp; Cheng, 2011). This theory seeks to overcome the traditional mecha-nism models and simple models of co that until the time they were considered as an explanation of the process of causal induction. However the complexity of the mathematical model that sustains them has done little accessible to the non-specialized community that may be of interest in this field. The purpose of this article is, then, make an introduction to the Theory of Causal Power that shows not only its ex-planatory advantages compared to other models, but a simple reconstruction of the mathematical model that underpins it
New generation of switched capacitor converters
No full textAuthor name used in this publication: Cheng K. W. E.Version of RecordPublishedVoR allowe
[Portrait of Thomas C. Cheng and Thomas W. Tinsley]
No full textThomas C. Cheng (left) and Thomas W. Tinsley (right) standing together.All images created by or supplied to the Society of Invertebrate Pathology for use in publications and promotion. Content in Description field provided by text on verso or accompanying documentation
[Portrait of Thomas C. Cheng and Thomas W. Tinsley]
No full textThomas C. Cheng (left) and Thomas W. Tinsley (right) standing together.All images created by or supplied to the Society of Invertebrate Pathology for use in publications and promotion. Content in Description field provided by text on verso or accompanying documentation
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