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Journal articles on the topic 'ECH'

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Published: 4 June 2021
Last updated: 3 February 2022

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1

Chalier, Catherine. "Ech Qodech*." Pardès 45, no. 1 (2009): 225. http://dx.doi.org/10.3917/parde.045.0225.

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2

Tafolla, Carmen. "In Lak Ech." World Literature Today 76, no. 2 (2002): 114. http://dx.doi.org/10.2307/40157276.

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3

Hutchings, Michael. "Beyond ECH capacities." Geometry & Topology 20, no. 2 (April 28, 2016): 1085–126. http://dx.doi.org/10.2140/gt.2016.20.1085.

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4

Felch, K., H. Huey, and H. Jory. "Gyrotrons for ECH applications." Journal of Fusion Energy 9, no. 1 (March 1990): 59–75. http://dx.doi.org/10.1007/bf01057322.

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5

KONDO, Katsumi, Tohru MIZUUCHI, Kazunobu NAGASAKI, Hiroyuki OKADA, Fumimichi SANO, Sakae BESSHOU, Hiroyuki SHIDARA, et al. "ECH Experiment in Heliotron J." Journal of Plasma and Fusion Research 78, no. 11 (2002): 1231–38. http://dx.doi.org/10.1585/jspf.78.1231.

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6

Kodešová, R., V. Kodeš, and A. Mráz. "Comparison of two sensors ECH2O EC-5 and SM200 for measuring soil water content." Soil and Water Research 6, No. 2 (May 30, 2011): 102–10. http://dx.doi.org/10.17221/6/2011-swr.

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The goal of this study was calibration of the ECH<sub>2</sub>0 soil moisture sensor EC-5 and the sensor SM200 for selected soils of the Czech Republic. Based on the soil maps of the Czech Republic and various climatic conditions, five humic horizons of different soil types were selected: Stagnic Chernozem Siltic, Haplic Chernozem, Chernozem Arenic, Haplic Luvisol, and Haplic Cambisol. Soil properties (pH<sub>KCl</sub>, pH<sub>H2O</sub>, exchangeable acidity, cation exchange capacity, hydrolytic acidity, basic cation saturation, sorption complex saturation, oxidable organic carbon content, CaCO<sub>3</sub> content, salinity, sand, silt, and clay content, soil particle density, bulk density) were determined using the standard laboratory techniques. Six ECH<sub>2</sub>0 EC-5 sensors permanently installed in six 606 cm<sup>3</sup> repacked soil samples of each soil were calibrated. Four calibrated SM200 sensors were inserted into the same soil samples only when measuring sensor signal. Soil water contents were determined gravimetrically. Linear equation was used to find parameters of the calibration equations relating sensor signals or evaluated dielectric constants and soil water contents. The multiple linear analyses showed that the parameters of the calibration equations for the EC-5 depended on the bulk density, fraction of sand particles, and salinity. Parameters a and b of the SM200 depended on the initial soil salinity, sand fraction and CaCO<sub>3</sub> content, and on the sand fraction, respectively. The impact of KBr solute (concentrations of 0.01, 0.05 and 0.1M Br) on calibration equations was studied as well. It was found that ECH<sub>2</sub>0 EC-5 sensor measurements were more influenced by KBr solution than SM200 measurements. In the case of the ECH<sub>2</sub>0 EC-5 sensor, impact of KBr was lower in soils of higher initial salinity. SM200 measurements were noticeably influenced only when 0.1M Br solution was applied.
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7

Singh, Harpreet, and Pramod Kumar Jain. "Remanufacturing with ECH – A Concept." Procedia Engineering 69 (2014): 1100–1104. http://dx.doi.org/10.1016/j.proeng.2014.03.097.

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8

Cristofaro-Gardiner, Daniel, Michael Hutchings, and Vinicius Gripp Barros Ramos. "The asymptotics of ECH capacities." Inventiones mathematicae 199, no. 1 (February 19, 2014): 187–214. http://dx.doi.org/10.1007/s00222-014-0510-7.

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9

Prater, R., R. J. Buttery, J. DeBoo, J. R. Ferron, A. Garofalo, C. T. Holcomb, G. L. Jackson, et al. "Applications of ECH on the DIII-D tokamak and projections for future ECH upgrades." EPJ Web of Conferences 32 (2012): 02010. http://dx.doi.org/10.1051/epjconf/20123202010.

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10

Kubo, Shin. "Transmission and Antenna System for ECH." Kakuyūgō kenkyū 66, no. 6 (1991): 581–613. http://dx.doi.org/10.1585/jspf1958.66.581.

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11

Moeller, Charles P. "A Survey of ECH Microwave Technology." Fusion Technology 15, no. 2P2A (March 1989): 725–33. http://dx.doi.org/10.13182/fst89-a39782.

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12

Nezami, Shabnam, Narjes Nematidil, Farshideh Farzan, Farzad Mirzaie, Hossein Sadeghi, and Mohammad Sadeghi. "pH-sensitive drug delivery systems based on CMC-ECH-CTS and CMC-ECH-CTS/ Fe3O4 beads." Polymer Testing 97 (May 2021): 107144. http://dx.doi.org/10.1016/j.polymertesting.2021.107144.

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13

Raj, Atul, and Joy Prakash Misra. "Challenges and Opportunities in ECH of Gears." Materials Science Forum 969 (August 2019): 595–600. http://dx.doi.org/10.4028/www.scientific.net/msf.969.595.

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Electrochemical honing (ECH) is an encouraging technique of gear finishing because of its micro-removal characteristic. In ECH, material removes by combined effect of anodic dissolution and mechanical abrasion. It is a hybrid micro-finishing process. ECH is a productive technique of gear finishing with high accuracy and long tool life. However, the lack of comprehensive research and complex setup design prevents it from being commercialized. This paper discusses the emphatic features of electrochemical honing of gears; its prospective features and capabilities. A comparative study is executed to explore the improvement in process capability and advantages of it. The shortcomings of the process are also discussed. Some guidelines are also mentioned for future research. It helps research community to mature this process further.
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14

HOSHINO, Katsumichi. "Electron Cyclotron Heating (ECH) of Tokamak Plasmas." Journal of Nuclear Science and Technology 27, no. 5 (May 1990): 391–405. http://dx.doi.org/10.1080/18811248.1990.9731201.

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15

Bae, Y. S., M. Joung, J. H. Jeong, S. W. Yoon, J. H. Kim, S. H. Hahn, W. H. Ko, et al. "Physics and Experimental Results of KSTAR ECH." Fusion Science and Technology 65, no. 1 (January 2014): 88–102. http://dx.doi.org/10.13182/fst13-644.

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16

Zhang, Xu, Vassilis Angelopoulos, Anton V. Artemyev, and Xiao-Jia Zhang. "Beam-driven ECH waves: A parametric study." Physics of Plasmas 28, no. 7 (July 2021): 072902. http://dx.doi.org/10.1063/5.0053187.

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17

Wormleighton, Ben. "ECH capacities, Ehrhart theory, and toric varieties." Journal of Symplectic Geometry 19, no. 2 (2021): 475–506. http://dx.doi.org/10.4310/jsg.2021.v19.n2.a5.

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18

Anderson, James, John Doane, Charles Moeller, Howard Grunloh, Raymond O’Neill, Michael Brookman, Matthew Smiley, and David Su. "Design and Performance of Microwave Components for ECH and ECE Applications at General Atomics." EPJ Web of Conferences 203 (2019): 04001. http://dx.doi.org/10.1051/epjconf/201920304001.

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This paper provides an overview of high power components for the application of Electron Cyclotron Heating transmission lines, and broadband devices for Electron Cyclotron Emission detection systems. The unique fabrication and assembly challenges are discussed, particularly in the context of ITER. The ITER ECH system will require robust, vacuum-compatible components such as polarizers, dummy loads, and switches that are sufficiently cooled to withstand 1 MW for 3,600 seconds. These elements, along with overmoded corrugated waveguide, are necessary to form transmission lines with efficiencies of 90%, and 90% transmitted HE11 mode purity. Recent high power test results are summarized and scaled from the 63.5 mm internal diameter design to the 50 mm diameter version that will be used for ITER. Elements designed for Electron Cyclotron Emission detection and reflectometry systems are discussed, such as frequency filters and polarization rotators. The large frequency operating range of corrugated waveguide is exploited for such applications. The application of additive manufacturing technology towards both low and high power components is considered as a promising new area of development.
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19

Poznyak, V. I., T. V. Gridina, V. V. Pitersky, G. N. Ploskirev, E. G. Ploskirev, and O. Valencia. "ECE and ECH application for investigation of plasma self-organization at T-10 tokamak." EPJ Web of Conferences 32 (2012): 03008. http://dx.doi.org/10.1051/epjconf/20123203008.

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20

Tripathi, A. K., and R. P. Singhal. "Comparison of parallel group velocity of ECH waves with electron resonant velocity: Implication for electron diffusion by ECH waves." Planetary and Space Science 57, no. 12 (October 2009): 1334–37. http://dx.doi.org/10.1016/j.pss.2009.06.001.

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21

Alonso Núñez, Aquilino Santiago. "Os sufixos nominais diminutivos -et-e / -et-a, -uc-o / -uc-a e -ech-o / -ech-a na fala de Castrelo do Val." Estudos de Lingüística Galega 9 (August 1, 2017): 5. http://dx.doi.org/10.15304/elg.9.3867.

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Esta investigación céntrase nos sufixos nominais diminutivos -et-e / -et-a, -uc-o / -uc-a e -ech-o / -ech-a na fala galega do municipio de Castrelo do Val (Ourense) e ten en conta o resto do galego —incluídos os topónimos e os datos dalgúns corpus medievais—, o portugués e o castelán. Estes últimos datos serven de contraste coa investigación de observación participante realizada nunha fala concreta e ademais algúns deles permiten a introdución da perspectiva histórica. No estudo utilizouse un concepto dinámico da formación de palabras, que contempla tanto as palabras existentes como a dispoñibilidade que teñen os falantes para a creación de novas palabras con cada sufixo investigado. En conclusión, -et-e utilízase como diminutivo dun xeito parecido ó do galego común, -uc- existe como diminutivo residual e -ech- ten máis restricións de uso ca no galego común.
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22

Ramos, Vinicius Gripp Barros. "Absolute gradings on ECH and Heegaard Floer homology." Quantum Topology 9, no. 2 (February 9, 2018): 207–28. http://dx.doi.org/10.4171/qt/107.

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23

Strauss, D., G. Aiello, R. Chavan, S. Cirant, M. deBaar, D. Farina, G. Gantenbein, et al. "Preliminary design of the ITER ECH Upper Launcher." Fusion Engineering and Design 88, no. 11 (November 2013): 2761–66. http://dx.doi.org/10.1016/j.fusengdes.2013.03.040.

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24

Perego, Aurora, and Christine Quinan. "In Lak’ ech: you are my other me." Tijdschrift voor Genderstudies 20, no. 4 (November 11, 2017): 341–58. http://dx.doi.org/10.5117/tvgn2017.4.pere.

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25

Obiki, T., T. Mizuuchi, H. Okada, K. Nagasaki, F. Sano, S. Kobayashi, K. Hanatani, et al. "Confinement characteristics of ECH plasmas in Heliotron J." Nuclear Fusion 44, no. 1 (December 5, 2003): 47–55. http://dx.doi.org/10.1088/0029-5515/44/1/005.

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26

Sudo, S., H. Zushi, K. Kondo, F. Sano, T. Mizuuchi, S. Besshou, H. Okada, et al. "Optimum confinement of ECH plasmas in Heliotron E." Nuclear Fusion 31, no. 12 (December 1, 1991): 2349–70. http://dx.doi.org/10.1088/0029-5515/31/12/008.

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27

Uchida, M., T. Maekawa, H. Tanaka, H. Igami, T. Yoshinaga, K. Katsuura, and M. Konno. "Formation of ST Plasmas by ECH on LATE." Plasma Science and Technology 6, no. 4 (August 2004): 2364–66. http://dx.doi.org/10.1088/1009-0630/6/4/003.

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28

Moret, J.-M., S. M. Ahmed, S. Alberti, Y. Andrebe, K. Appert, G. Arnoux, R. Behn, et al. "ECH physics and new operational regimes on TCV." Plasma Physics and Controlled Fusion 44, no. 12B (November 20, 2002): B85—B97. http://dx.doi.org/10.1088/0741-3335/44/12b/307.

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29

Park, Seungil, Jinhyun Jeong, Won Namkung, Moo-Hyun Cho, Young S. Bae, Won-Soon Han, and Hyung-Lyeol Yang. "Commissioning of KSTAR 84-GHz ECH Transmission System." Fusion Science and Technology 55, no. 1 (January 2009): 56–63. http://dx.doi.org/10.13182/fst09-a4053.

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30

Uğur, Aysşegül Altay, and Murat Diker. "Stone-C˘ech Compactifications of Ditopological Texture Spaces." Quaestiones Mathematicae 32, no. 1 (March 2009): 15–33. http://dx.doi.org/10.2989/qm.2009.32.1.3.705.

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31

Luttrell, Claire, Tim Bigelow, Ethan Coffey, Ira Griffith, Greg Hanson, Arnold Lumsdaine, Alex Melin, and Chuck Schaich. "Analysis of ITER ECH Transmission Line Waveguide Couplings." Fusion Science and Technology 68, no. 2 (September 2015): 402–6. http://dx.doi.org/10.13182/fst14-980.

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32

Acharyya, S. K., K. C. Chattopadhyay, and G. G. Ray. "Hemiring-homomorphisms, Stone ?ech Compactification and Hewitt Realcompactification." Southeast Asian Bulletin of Mathematics 26, no. 3 (June 2003): 363–73. http://dx.doi.org/10.1007/s10012-002-0363-7.

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33

Pathak, S., and N. K. Jain. "Critical review of electrochemical honing (ECH): sustainable and alternative gear finishing process. Part 1: conventional processes and introduction to ECH." Transactions of the IMF 95, no. 3 (May 4, 2017): 147–57. http://dx.doi.org/10.1080/00202967.2017.1306378.

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34

Madjid, Armeida Dwi Ridhowati, Merpiseldin Nitsae, and Akhmad Sabarudin. "Perbandingan Butiran Kitosan dengan Pengikat Silang Epiklorohidrin (ECH) dan Glutaraldehid (GLA): Karakterisasi dan Kemampuan Adsorpsi Timbal (Pb)." ALCHEMY 6, no. 1 (March 30, 2018): 29. http://dx.doi.org/10.18860/al.v6i1.6790.

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<table width="661" border="1" cellspacing="0" cellpadding="0"><tbody><tr><td valign="top" width="408"><p class="BodyAbstract">Chitosan was an abundantly available source but it has a drawback which unstable in acid or base. So, it must be added with a crosslinker. In this article, we would compare the using of 2 crosslinkers, glutaraldehyde (GLA) and epichlorohydrin (ECH). Chitosan was formed as bead using tripolyphosphate (TPP). Chitosan beads crosslinked with GLA became browny beads and chitosan beads crosslinked with ECH became pearly white. IR characterization showed peaks in 1640 and 1540 cm<sup>-1</sup> represent phosphate contained TPP. There is no significant or unique peak differ GLA chitosan bead from ECH chitosan bead. Adsorption capacity of lead (Pb) in ECH chitosan bead was higher than in GLA chitosan bead. Morphology in SEM characterization exhibited a crinkle GLA chitosan bead then ECH chitosan bead.</p><p class="BodyAbstract"> </p><p class="BodyAbstract">Kitosan merupakan polimer alam dengan ketersediaan yang meruah tetapi memiliki kelemahan yaitu kurang stabil dalam asam maupun basa sehingga diperlukan pengikat silang. Dalam artikel ini akan dibandingkan dengan penggunaan 2 agen pengikatsilang yang dapat mengatasi permasalahan tersebut yaitu epiklorohidrin (ECH) dan glutaraldehid (GLA). Untuk pembuatan butiran kitosan digunakan tripolyphosphate (TPP). Setelah menjadi butiran kitosan diikatsilangkan dengan GLA menjadi butiran kitosan yang berwarna kecoklatan dan diikatsilangkan dengan ECH menjadi butiran kitosan bening. Karakterisasi spektrofotometri Infra Merah menunjukkan puncak pada daerah 1640 dan 1540 cm<sup>-1</sup> yang merupakan serapan khas dari tripolyphospate sedangkan tidak nampak perbedaan puncak spektra yang signifikan dari butiran kitosan GLA maupun ECH. Kemampuan adsorpsi butiran logam timbal (Pb) butiran kitosan ECH lebih tinggi jika dibandingkan dengan butiran kitosan GLA. Morfologi butiran kitosan dianalisis menggunakan Scanning Electron Morphology (SEM) dan menunjukkan bahwa morfologi untuk butiran GLA memiliki morfologi yang lebih berkerut jika dibandingkan dengan butiran ECH.</p></td></tr></tbody></table>
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35

Oliveira, Andréia M. R., Valmir Duarte, José R. P. Silveira, and Marcelo G. Moraes. "Incidence of pectolytic erwinias associated with blackleg of potato in Rio Grande do Sul." Fitopatologia Brasileira 28, no. 1 (January 2003): 49–53. http://dx.doi.org/10.1590/s0100-41582003000100007.

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Erwinia carotovora subsp. atroseptica (Eca), E. carotovora subsp. carotovora (Ecc) and E. chrysanthemi (Ech) may cause potato (Solanum tuberosum) blackleg. To determine the occurrence of these pathogens in the conditions found in the State of Rio Grande do Sul (RS), potato plants showing blackleg symptoms were harvested from 22 fields in nine counties in Serra do Nordeste, Planalto, Depressão Central, and Grandes Lagoas, from September to December of 1999 (Spring-Summer season). Green pepper (Capsicum annuum) fruits were used as a host to enrich for pectolytic erwinia from potato stems with blackleg symptoms. Bacteria were subsequently isolated on non-selective medium. Isolates that were Gram-negative, facultatively anaerobic, and pitted crystal-violet-pectate medium were tested for biochemical traits to identify the species and subspecies. Four hundred strains were identified as either Eca, Ecc or Ech. Although the three erwinias were found in RS potato fields, only three strains of Ech were found in one field. Frequencies of Eca and Ecc were 55 and 42%, respectively. Eight strains could not be assigned based on the biochemical characterization.
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36

Sarah Abdelrahman Mohamed, Ayman Saber Mohamed, Emad El-Zayat, and Mohamed Refaat Shehata. "Protective and curative mechanisms of echinochrome against 7, 12-Dimethylbenz[a]anthracene -induced renal toxicity in rats." GSC Advanced Research and Reviews 6, no. 1 (January 30, 2021): 047–55. http://dx.doi.org/10.30574/gscarr.2021.6.1.0007.

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Echinochrome (Ech) is one of the most important bioactive substance which is found in shells, spines, and eggs of the sea urchins. Aim: the present study was carried out to evaluate the curative and protective effects of Ech pigment against DMBA -induced renal toxicity in rats. Methods: Experimental rats were assigned into two main groups; protective group (treated with Ech for 14 days then administrated DMBA) and curative group (administrated DMBA then treated with Ech for 14 days). Each group is divided into 3 sub-groups; control, DMBA (15 mg/ kg body, weight orally), and Ech (1 mg/ kg body, weight orally). Results: The oral administration of Ech decreased the concentrations of urea, creatinine, uric acid, and MDA and increased GSH and CAT levels in both protective and curative groups. Moreover, histology of kidney tissue improved after the treatment with Ech. Conclusions: The results of the present study demonstrated the potential protective and curative activities of Ech against renal toxicity induced by DMBA through inhibiting the metabolism of DMBA and restoring the balance between ROS formation and internal antioxidant enzymes by its powerful antioxidant activity.
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37

Uchida, Masaki, Tomokazu Yoshinaga, Jun Yamada, Yuichiro Abe, Kazunori Hayashi, Soichiro Yamaguchi, Hitoshi Tanaka, and Takashi Maekawa. "Slow Formation of Spherical Tokamak by ECH on LATE." IEEJ Transactions on Fundamentals and Materials 125, no. 11 (2005): 914–18. http://dx.doi.org/10.1541/ieejfms.125.914.

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38

Tanaka, Hitoshi, Yuichiro Abe, Kazunori Hayashi, Jun Yamada, Taisuke Matsumoto, Tomokazu Yoshinaga, Masaki Uchida, et al. "Spontaneous Formation of Spherical Tokamak by ECH on LATE." IEEJ Transactions on Fundamentals and Materials 125, no. 11 (2005): 919–24. http://dx.doi.org/10.1541/ieejfms.125.919.

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39

YOSHIMURA, Yasuo, Shin KUBO, Takashi SHIMOZUMA, Hiroe IGAMI, Hiromi TAKAHASHI, Masaki NISHIURA, Shinya OGASAWARA, et al. "ECCD Experiment Using an Upgraded ECH System on LHD." Plasma and Fusion Research 7 (2012): 2402020. http://dx.doi.org/10.1585/pfr.7.2402020.

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40

Berti, Caterina. "Kelch-like ECH-associated protein 1." Targeted Protein Database, September 18, 2007. http://dx.doi.org/10.2970/tpdb.2007.60.

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41

Youchison, Dennis L., Alex M. Melin, Arnold Lumsdaine, Charles R. Schaich, and Gregory R. Hanson. "ITER ECH Switch Design and Analysis." Fusion Science and Technology, July 5, 2017, 1–7. http://dx.doi.org/10.1080/15361055.2017.1333855.

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42

Cristofaro-Gardiner, Dan, and Nikhil Savale. "Sub-leading asymptotics of ECH capacities." Selecta Mathematica 26, no. 5 (September 24, 2020). http://dx.doi.org/10.1007/s00029-020-00594-2.

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AbstractIn previous work (Cristofaro-Gardiner et al. in Invent Math 199:187–214, 2015), the first author and collaborators showed that the leading asymptotics of the embedded contact homology spectrum recovers the contact volume. Our main theorem here is a new bound on the sub-leading asymptotics.
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43

"ECH volume 40 issue 4 Front matter." Journal of Ecclesiastical History 40, no. 4 (October 1989): f1—f4. http://dx.doi.org/10.1017/s0022046900058978.

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44

"ECH volume 39 issue 2 Front matter." Journal of Ecclesiastical History 39, no. 2 (April 1988): f1—f4. http://dx.doi.org/10.1017/s0022046900020637.

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45

"ECH volume 37 issue 3 Back matter." Journal of Ecclesiastical History 37, no. 3 (July 1986): b1—b4. http://dx.doi.org/10.1017/s0022046900021436.

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46

"ECH volume 37 issue 4 Back matter." Journal of Ecclesiastical History 37, no. 4 (October 1986): b1—b2. http://dx.doi.org/10.1017/s0022046900022004.

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47

"ECH volume 38 issue 1 Front matter." Journal of Ecclesiastical History 38, no. 1 (January 1987): f1—f2. http://dx.doi.org/10.1017/s0022046900022466.

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48

"ECH volume 38 issue 1 Back matter." Journal of Ecclesiastical History 38, no. 1 (January 1987): b1—b4. http://dx.doi.org/10.1017/s0022046900022478.

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49

"ECH volume 36 issue 1 Front matter." Journal of Ecclesiastical History 36, no. 1 (January 1985): f1—f2. http://dx.doi.org/10.1017/s0022046900023903.

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50

"ECH volume 39 issue 4 Front matter." Journal of Ecclesiastical History 39, no. 4 (October 1988): f1—f2. http://dx.doi.org/10.1017/s0022046900040549.

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