SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4280596858> ?p ?o ?g. }

Showing items 1 to 100 of ±143 with 100 items per page.

W4280596858 endingPage "166867" @default.
W4280596858 startingPage "166867" @default.
W4280596858 abstract "Existing copper-coated carbon fibers used in wire scanners to measure the transverse beam profile in the accelerators at CERN are approaching material limits. A new instrument design has showed that the main limitation now comes from the centerpiece of the instrument: the wire. Large amplitude vibrations increase the risk of failure during scans. New required specifications concerning the beam measurements for the Future Circular Collider (FCC) project cannot be met. Fortunately, the commercial development of long microscopic yarns made of spun carbon nanotubes has paved the way for possible alternatives. The objective of this study is to determine if those Carbon NanoTube Yarns (CNTY) could replace the current carbon fibers (CF) for beam instrumentation, and if so, to determine the best configuration in terms of diameters and mounting system. To do so, we have made extensive testing and microscopy on CNT yarns with diameters of 10, 20 and 30 μm, with two different mounting systems, the Paper Frame conditioning (PF) or partial Copper-Coated conditioning (CC). A Weibull approach was used to extrapolate our results to the real length of the wires used in operational instruments. This study shows that considering the Weibull criteria, the best configuration to increase the accuracy of the beam profile measurement is to use a not copper-coated 20 μm diameter CNTY." @default.
W4280596858 created "2022-05-22" @default.
W4280596858 creator A5008609814 @default.
W4280596858 creator A5042045119 @default.
W4280596858 creator A5050578570 @default.
W4280596858 creator A5069080804 @default.
W4280596858 creator A5079926763 @default.
W4280596858 creator A5084937314 @default.
W4280596858 date "2022-08-01" @default.
W4280596858 modified "2023-09-30" @default.
W4280596858 title "Mechanical characterization of yarns made from carbon nanotubes for the instrumentation of particle beams at CERN" @default.
W4280596858 cites W1598646671 @default.
W4280596858 cites W1963591154 @default.
W4280596858 cites W1969485907 @default.
W4280596858 cites W1971236588 @default.
W4280596858 cites W1974621781 @default.
W4280596858 cites W1977708033 @default.
W4280596858 cites W1978527872 @default.
W4280596858 cites W1985417798 @default.
W4280596858 cites W1986699063 @default.
W4280596858 cites W1989970940 @default.
W4280596858 cites W1993923126 @default.
W4280596858 cites W1997180048 @default.
W4280596858 cites W2007225670 @default.
W4280596858 cites W2012176538 @default.
W4280596858 cites W2018579927 @default.
W4280596858 cites W2018858346 @default.
W4280596858 cites W2021446293 @default.
W4280596858 cites W2022223652 @default.
W4280596858 cites W2028968756 @default.
W4280596858 cites W2033926275 @default.
W4280596858 cites W2038551799 @default.
W4280596858 cites W2043255733 @default.
W4280596858 cites W2055673935 @default.
W4280596858 cites W2068557625 @default.
W4280596858 cites W2069851739 @default.
W4280596858 cites W2073632899 @default.
W4280596858 cites W2086497645 @default.
W4280596858 cites W2088545946 @default.
W4280596858 cites W2091100706 @default.
W4280596858 cites W2094729699 @default.
W4280596858 cites W2096188874 @default.
W4280596858 cites W2099540110 @default.
W4280596858 cites W2111959822 @default.
W4280596858 cites W2150268636 @default.
W4280596858 cites W2153181888 @default.
W4280596858 cites W2153859012 @default.
W4280596858 cites W2158298750 @default.
W4280596858 cites W2158329393 @default.
W4280596858 cites W2159289788 @default.
W4280596858 cites W2163100838 @default.
W4280596858 cites W2168131025 @default.
W4280596858 cites W2169182148 @default.
W4280596858 cites W2220971648 @default.
W4280596858 cites W2320674518 @default.
W4280596858 cites W2322866298 @default.
W4280596858 cites W2511339320 @default.
W4280596858 cites W2520806579 @default.
W4280596858 cites W2546428606 @default.
W4280596858 cites W2597614563 @default.
W4280596858 cites W2611029655 @default.
W4280596858 cites W2774184765 @default.
W4280596858 cites W2790065733 @default.
W4280596858 cites W2791898652 @default.
W4280596858 cites W2896260087 @default.
W4280596858 cites W2910052951 @default.
W4280596858 cites W2942651758 @default.
W4280596858 cites W2944187854 @default.
W4280596858 cites W2975365966 @default.
W4280596858 cites W3084051083 @default.
W4280596858 cites W3100472965 @default.
W4280596858 doi "https://doi.org/10.1016/j.nima.2022.166867" @default.
W4280596858 hasPublicationYear "2022" @default.
W4280596858 type Work @default.
W4280596858 citedByCount "0" @default.
W4280596858 crossrefType "journal-article" @default.
W4280596858 hasAuthorship W4280596858A5008609814 @default.
W4280596858 hasAuthorship W4280596858A5042045119 @default.
W4280596858 hasAuthorship W4280596858A5050578570 @default.
W4280596858 hasAuthorship W4280596858A5069080804 @default.
W4280596858 hasAuthorship W4280596858A5079926763 @default.
W4280596858 hasAuthorship W4280596858A5084937314 @default.
W4280596858 hasBestOaLocation W42805968581 @default.
W4280596858 hasConcept C105795698 @default.
W4280596858 hasConcept C111919701 @default.
W4280596858 hasConcept C118530786 @default.
W4280596858 hasConcept C120665830 @default.
W4280596858 hasConcept C121332964 @default.
W4280596858 hasConcept C127413603 @default.
W4280596858 hasConcept C159985019 @default.
W4280596858 hasConcept C168834538 @default.
W4280596858 hasConcept C171250308 @default.
W4280596858 hasConcept C173291955 @default.
W4280596858 hasConcept C185544564 @default.
W4280596858 hasConcept C192562407 @default.
W4280596858 hasConcept C2780841128 @default.
W4280596858 hasConcept C33923547 @default.
W4280596858 hasConcept C41008148 @default.